linux/drivers/net/ethernet/sun/niu.c
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   1/* niu.c: Neptune ethernet driver.
   2 *
   3 * Copyright (C) 2007, 2008 David S. Miller (davem@davemloft.net)
   4 */
   5
   6#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
   7
   8#include <linux/module.h>
   9#include <linux/init.h>
  10#include <linux/interrupt.h>
  11#include <linux/pci.h>
  12#include <linux/dma-mapping.h>
  13#include <linux/netdevice.h>
  14#include <linux/ethtool.h>
  15#include <linux/etherdevice.h>
  16#include <linux/platform_device.h>
  17#include <linux/delay.h>
  18#include <linux/bitops.h>
  19#include <linux/mii.h>
  20#include <linux/if.h>
  21#include <linux/if_ether.h>
  22#include <linux/if_vlan.h>
  23#include <linux/ip.h>
  24#include <linux/in.h>
  25#include <linux/ipv6.h>
  26#include <linux/log2.h>
  27#include <linux/jiffies.h>
  28#include <linux/crc32.h>
  29#include <linux/list.h>
  30#include <linux/slab.h>
  31
  32#include <linux/io.h>
  33#include <linux/of_device.h>
  34
  35#include "niu.h"
  36
  37#define DRV_MODULE_NAME         "niu"
  38#define DRV_MODULE_VERSION      "1.1"
  39#define DRV_MODULE_RELDATE      "Apr 22, 2010"
  40
  41static char version[] =
  42        DRV_MODULE_NAME ".c:v" DRV_MODULE_VERSION " (" DRV_MODULE_RELDATE ")\n";
  43
  44MODULE_AUTHOR("David S. Miller (davem@davemloft.net)");
  45MODULE_DESCRIPTION("NIU ethernet driver");
  46MODULE_LICENSE("GPL");
  47MODULE_VERSION(DRV_MODULE_VERSION);
  48
  49#ifndef readq
  50static u64 readq(void __iomem *reg)
  51{
  52        return ((u64) readl(reg)) | (((u64) readl(reg + 4UL)) << 32);
  53}
  54
  55static void writeq(u64 val, void __iomem *reg)
  56{
  57        writel(val & 0xffffffff, reg);
  58        writel(val >> 32, reg + 0x4UL);
  59}
  60#endif
  61
  62static DEFINE_PCI_DEVICE_TABLE(niu_pci_tbl) = {
  63        {PCI_DEVICE(PCI_VENDOR_ID_SUN, 0xabcd)},
  64        {}
  65};
  66
  67MODULE_DEVICE_TABLE(pci, niu_pci_tbl);
  68
  69#define NIU_TX_TIMEOUT                  (5 * HZ)
  70
  71#define nr64(reg)               readq(np->regs + (reg))
  72#define nw64(reg, val)          writeq((val), np->regs + (reg))
  73
  74#define nr64_mac(reg)           readq(np->mac_regs + (reg))
  75#define nw64_mac(reg, val)      writeq((val), np->mac_regs + (reg))
  76
  77#define nr64_ipp(reg)           readq(np->regs + np->ipp_off + (reg))
  78#define nw64_ipp(reg, val)      writeq((val), np->regs + np->ipp_off + (reg))
  79
  80#define nr64_pcs(reg)           readq(np->regs + np->pcs_off + (reg))
  81#define nw64_pcs(reg, val)      writeq((val), np->regs + np->pcs_off + (reg))
  82
  83#define nr64_xpcs(reg)          readq(np->regs + np->xpcs_off + (reg))
  84#define nw64_xpcs(reg, val)     writeq((val), np->regs + np->xpcs_off + (reg))
  85
  86#define NIU_MSG_DEFAULT (NETIF_MSG_DRV | NETIF_MSG_PROBE | NETIF_MSG_LINK)
  87
  88static int niu_debug;
  89static int debug = -1;
  90module_param(debug, int, 0);
  91MODULE_PARM_DESC(debug, "NIU debug level");
  92
  93#define niu_lock_parent(np, flags) \
  94        spin_lock_irqsave(&np->parent->lock, flags)
  95#define niu_unlock_parent(np, flags) \
  96        spin_unlock_irqrestore(&np->parent->lock, flags)
  97
  98static int serdes_init_10g_serdes(struct niu *np);
  99
 100static int __niu_wait_bits_clear_mac(struct niu *np, unsigned long reg,
 101                                     u64 bits, int limit, int delay)
 102{
 103        while (--limit >= 0) {
 104                u64 val = nr64_mac(reg);
 105
 106                if (!(val & bits))
 107                        break;
 108                udelay(delay);
 109        }
 110        if (limit < 0)
 111                return -ENODEV;
 112        return 0;
 113}
 114
 115static int __niu_set_and_wait_clear_mac(struct niu *np, unsigned long reg,
 116                                        u64 bits, int limit, int delay,
 117                                        const char *reg_name)
 118{
 119        int err;
 120
 121        nw64_mac(reg, bits);
 122        err = __niu_wait_bits_clear_mac(np, reg, bits, limit, delay);
 123        if (err)
 124                netdev_err(np->dev, "bits (%llx) of register %s would not clear, val[%llx]\n",
 125                           (unsigned long long)bits, reg_name,
 126                           (unsigned long long)nr64_mac(reg));
 127        return err;
 128}
 129
 130#define niu_set_and_wait_clear_mac(NP, REG, BITS, LIMIT, DELAY, REG_NAME) \
 131({      BUILD_BUG_ON(LIMIT <= 0 || DELAY < 0); \
 132        __niu_set_and_wait_clear_mac(NP, REG, BITS, LIMIT, DELAY, REG_NAME); \
 133})
 134
 135static int __niu_wait_bits_clear_ipp(struct niu *np, unsigned long reg,
 136                                     u64 bits, int limit, int delay)
 137{
 138        while (--limit >= 0) {
 139                u64 val = nr64_ipp(reg);
 140
 141                if (!(val & bits))
 142                        break;
 143                udelay(delay);
 144        }
 145        if (limit < 0)
 146                return -ENODEV;
 147        return 0;
 148}
 149
 150static int __niu_set_and_wait_clear_ipp(struct niu *np, unsigned long reg,
 151                                        u64 bits, int limit, int delay,
 152                                        const char *reg_name)
 153{
 154        int err;
 155        u64 val;
 156
 157        val = nr64_ipp(reg);
 158        val |= bits;
 159        nw64_ipp(reg, val);
 160
 161        err = __niu_wait_bits_clear_ipp(np, reg, bits, limit, delay);
 162        if (err)
 163                netdev_err(np->dev, "bits (%llx) of register %s would not clear, val[%llx]\n",
 164                           (unsigned long long)bits, reg_name,
 165                           (unsigned long long)nr64_ipp(reg));
 166        return err;
 167}
 168
 169#define niu_set_and_wait_clear_ipp(NP, REG, BITS, LIMIT, DELAY, REG_NAME) \
 170({      BUILD_BUG_ON(LIMIT <= 0 || DELAY < 0); \
 171        __niu_set_and_wait_clear_ipp(NP, REG, BITS, LIMIT, DELAY, REG_NAME); \
 172})
 173
 174static int __niu_wait_bits_clear(struct niu *np, unsigned long reg,
 175                                 u64 bits, int limit, int delay)
 176{
 177        while (--limit >= 0) {
 178                u64 val = nr64(reg);
 179
 180                if (!(val & bits))
 181                        break;
 182                udelay(delay);
 183        }
 184        if (limit < 0)
 185                return -ENODEV;
 186        return 0;
 187}
 188
 189#define niu_wait_bits_clear(NP, REG, BITS, LIMIT, DELAY) \
 190({      BUILD_BUG_ON(LIMIT <= 0 || DELAY < 0); \
 191        __niu_wait_bits_clear(NP, REG, BITS, LIMIT, DELAY); \
 192})
 193
 194static int __niu_set_and_wait_clear(struct niu *np, unsigned long reg,
 195                                    u64 bits, int limit, int delay,
 196                                    const char *reg_name)
 197{
 198        int err;
 199
 200        nw64(reg, bits);
 201        err = __niu_wait_bits_clear(np, reg, bits, limit, delay);
 202        if (err)
 203                netdev_err(np->dev, "bits (%llx) of register %s would not clear, val[%llx]\n",
 204                           (unsigned long long)bits, reg_name,
 205                           (unsigned long long)nr64(reg));
 206        return err;
 207}
 208
 209#define niu_set_and_wait_clear(NP, REG, BITS, LIMIT, DELAY, REG_NAME) \
 210({      BUILD_BUG_ON(LIMIT <= 0 || DELAY < 0); \
 211        __niu_set_and_wait_clear(NP, REG, BITS, LIMIT, DELAY, REG_NAME); \
 212})
 213
 214static void niu_ldg_rearm(struct niu *np, struct niu_ldg *lp, int on)
 215{
 216        u64 val = (u64) lp->timer;
 217
 218        if (on)
 219                val |= LDG_IMGMT_ARM;
 220
 221        nw64(LDG_IMGMT(lp->ldg_num), val);
 222}
 223
 224static int niu_ldn_irq_enable(struct niu *np, int ldn, int on)
 225{
 226        unsigned long mask_reg, bits;
 227        u64 val;
 228
 229        if (ldn < 0 || ldn > LDN_MAX)
 230                return -EINVAL;
 231
 232        if (ldn < 64) {
 233                mask_reg = LD_IM0(ldn);
 234                bits = LD_IM0_MASK;
 235        } else {
 236                mask_reg = LD_IM1(ldn - 64);
 237                bits = LD_IM1_MASK;
 238        }
 239
 240        val = nr64(mask_reg);
 241        if (on)
 242                val &= ~bits;
 243        else
 244                val |= bits;
 245        nw64(mask_reg, val);
 246
 247        return 0;
 248}
 249
 250static int niu_enable_ldn_in_ldg(struct niu *np, struct niu_ldg *lp, int on)
 251{
 252        struct niu_parent *parent = np->parent;
 253        int i;
 254
 255        for (i = 0; i <= LDN_MAX; i++) {
 256                int err;
 257
 258                if (parent->ldg_map[i] != lp->ldg_num)
 259                        continue;
 260
 261                err = niu_ldn_irq_enable(np, i, on);
 262                if (err)
 263                        return err;
 264        }
 265        return 0;
 266}
 267
 268static int niu_enable_interrupts(struct niu *np, int on)
 269{
 270        int i;
 271
 272        for (i = 0; i < np->num_ldg; i++) {
 273                struct niu_ldg *lp = &np->ldg[i];
 274                int err;
 275
 276                err = niu_enable_ldn_in_ldg(np, lp, on);
 277                if (err)
 278                        return err;
 279        }
 280        for (i = 0; i < np->num_ldg; i++)
 281                niu_ldg_rearm(np, &np->ldg[i], on);
 282
 283        return 0;
 284}
 285
 286static u32 phy_encode(u32 type, int port)
 287{
 288        return type << (port * 2);
 289}
 290
 291static u32 phy_decode(u32 val, int port)
 292{
 293        return (val >> (port * 2)) & PORT_TYPE_MASK;
 294}
 295
 296static int mdio_wait(struct niu *np)
 297{
 298        int limit = 1000;
 299        u64 val;
 300
 301        while (--limit > 0) {
 302                val = nr64(MIF_FRAME_OUTPUT);
 303                if ((val >> MIF_FRAME_OUTPUT_TA_SHIFT) & 0x1)
 304                        return val & MIF_FRAME_OUTPUT_DATA;
 305
 306                udelay(10);
 307        }
 308
 309        return -ENODEV;
 310}
 311
 312static int mdio_read(struct niu *np, int port, int dev, int reg)
 313{
 314        int err;
 315
 316        nw64(MIF_FRAME_OUTPUT, MDIO_ADDR_OP(port, dev, reg));
 317        err = mdio_wait(np);
 318        if (err < 0)
 319                return err;
 320
 321        nw64(MIF_FRAME_OUTPUT, MDIO_READ_OP(port, dev));
 322        return mdio_wait(np);
 323}
 324
 325static int mdio_write(struct niu *np, int port, int dev, int reg, int data)
 326{
 327        int err;
 328
 329        nw64(MIF_FRAME_OUTPUT, MDIO_ADDR_OP(port, dev, reg));
 330        err = mdio_wait(np);
 331        if (err < 0)
 332                return err;
 333
 334        nw64(MIF_FRAME_OUTPUT, MDIO_WRITE_OP(port, dev, data));
 335        err = mdio_wait(np);
 336        if (err < 0)
 337                return err;
 338
 339        return 0;
 340}
 341
 342static int mii_read(struct niu *np, int port, int reg)
 343{
 344        nw64(MIF_FRAME_OUTPUT, MII_READ_OP(port, reg));
 345        return mdio_wait(np);
 346}
 347
 348static int mii_write(struct niu *np, int port, int reg, int data)
 349{
 350        int err;
 351
 352        nw64(MIF_FRAME_OUTPUT, MII_WRITE_OP(port, reg, data));
 353        err = mdio_wait(np);
 354        if (err < 0)
 355                return err;
 356
 357        return 0;
 358}
 359
 360static int esr2_set_tx_cfg(struct niu *np, unsigned long channel, u32 val)
 361{
 362        int err;
 363
 364        err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 365                         ESR2_TI_PLL_TX_CFG_L(channel),
 366                         val & 0xffff);
 367        if (!err)
 368                err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 369                                 ESR2_TI_PLL_TX_CFG_H(channel),
 370                                 val >> 16);
 371        return err;
 372}
 373
 374static int esr2_set_rx_cfg(struct niu *np, unsigned long channel, u32 val)
 375{
 376        int err;
 377
 378        err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 379                         ESR2_TI_PLL_RX_CFG_L(channel),
 380                         val & 0xffff);
 381        if (!err)
 382                err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 383                                 ESR2_TI_PLL_RX_CFG_H(channel),
 384                                 val >> 16);
 385        return err;
 386}
 387
 388/* Mode is always 10G fiber.  */
 389static int serdes_init_niu_10g_fiber(struct niu *np)
 390{
 391        struct niu_link_config *lp = &np->link_config;
 392        u32 tx_cfg, rx_cfg;
 393        unsigned long i;
 394
 395        tx_cfg = (PLL_TX_CFG_ENTX | PLL_TX_CFG_SWING_1375MV);
 396        rx_cfg = (PLL_RX_CFG_ENRX | PLL_RX_CFG_TERM_0P8VDDT |
 397                  PLL_RX_CFG_ALIGN_ENA | PLL_RX_CFG_LOS_LTHRESH |
 398                  PLL_RX_CFG_EQ_LP_ADAPTIVE);
 399
 400        if (lp->loopback_mode == LOOPBACK_PHY) {
 401                u16 test_cfg = PLL_TEST_CFG_LOOPBACK_CML_DIS;
 402
 403                mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 404                           ESR2_TI_PLL_TEST_CFG_L, test_cfg);
 405
 406                tx_cfg |= PLL_TX_CFG_ENTEST;
 407                rx_cfg |= PLL_RX_CFG_ENTEST;
 408        }
 409
 410        /* Initialize all 4 lanes of the SERDES.  */
 411        for (i = 0; i < 4; i++) {
 412                int err = esr2_set_tx_cfg(np, i, tx_cfg);
 413                if (err)
 414                        return err;
 415        }
 416
 417        for (i = 0; i < 4; i++) {
 418                int err = esr2_set_rx_cfg(np, i, rx_cfg);
 419                if (err)
 420                        return err;
 421        }
 422
 423        return 0;
 424}
 425
 426static int serdes_init_niu_1g_serdes(struct niu *np)
 427{
 428        struct niu_link_config *lp = &np->link_config;
 429        u16 pll_cfg, pll_sts;
 430        int max_retry = 100;
 431        u64 uninitialized_var(sig), mask, val;
 432        u32 tx_cfg, rx_cfg;
 433        unsigned long i;
 434        int err;
 435
 436        tx_cfg = (PLL_TX_CFG_ENTX | PLL_TX_CFG_SWING_1375MV |
 437                  PLL_TX_CFG_RATE_HALF);
 438        rx_cfg = (PLL_RX_CFG_ENRX | PLL_RX_CFG_TERM_0P8VDDT |
 439                  PLL_RX_CFG_ALIGN_ENA | PLL_RX_CFG_LOS_LTHRESH |
 440                  PLL_RX_CFG_RATE_HALF);
 441
 442        if (np->port == 0)
 443                rx_cfg |= PLL_RX_CFG_EQ_LP_ADAPTIVE;
 444
 445        if (lp->loopback_mode == LOOPBACK_PHY) {
 446                u16 test_cfg = PLL_TEST_CFG_LOOPBACK_CML_DIS;
 447
 448                mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 449                           ESR2_TI_PLL_TEST_CFG_L, test_cfg);
 450
 451                tx_cfg |= PLL_TX_CFG_ENTEST;
 452                rx_cfg |= PLL_RX_CFG_ENTEST;
 453        }
 454
 455        /* Initialize PLL for 1G */
 456        pll_cfg = (PLL_CFG_ENPLL | PLL_CFG_MPY_8X);
 457
 458        err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 459                         ESR2_TI_PLL_CFG_L, pll_cfg);
 460        if (err) {
 461                netdev_err(np->dev, "NIU Port %d %s() mdio write to ESR2_TI_PLL_CFG_L failed\n",
 462                           np->port, __func__);
 463                return err;
 464        }
 465
 466        pll_sts = PLL_CFG_ENPLL;
 467
 468        err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 469                         ESR2_TI_PLL_STS_L, pll_sts);
 470        if (err) {
 471                netdev_err(np->dev, "NIU Port %d %s() mdio write to ESR2_TI_PLL_STS_L failed\n",
 472                           np->port, __func__);
 473                return err;
 474        }
 475
 476        udelay(200);
 477
 478        /* Initialize all 4 lanes of the SERDES.  */
 479        for (i = 0; i < 4; i++) {
 480                err = esr2_set_tx_cfg(np, i, tx_cfg);
 481                if (err)
 482                        return err;
 483        }
 484
 485        for (i = 0; i < 4; i++) {
 486                err = esr2_set_rx_cfg(np, i, rx_cfg);
 487                if (err)
 488                        return err;
 489        }
 490
 491        switch (np->port) {
 492        case 0:
 493                val = (ESR_INT_SRDY0_P0 | ESR_INT_DET0_P0);
 494                mask = val;
 495                break;
 496
 497        case 1:
 498                val = (ESR_INT_SRDY0_P1 | ESR_INT_DET0_P1);
 499                mask = val;
 500                break;
 501
 502        default:
 503                return -EINVAL;
 504        }
 505
 506        while (max_retry--) {
 507                sig = nr64(ESR_INT_SIGNALS);
 508                if ((sig & mask) == val)
 509                        break;
 510
 511                mdelay(500);
 512        }
 513
 514        if ((sig & mask) != val) {
 515                netdev_err(np->dev, "Port %u signal bits [%08x] are not [%08x]\n",
 516                           np->port, (int)(sig & mask), (int)val);
 517                return -ENODEV;
 518        }
 519
 520        return 0;
 521}
 522
 523static int serdes_init_niu_10g_serdes(struct niu *np)
 524{
 525        struct niu_link_config *lp = &np->link_config;
 526        u32 tx_cfg, rx_cfg, pll_cfg, pll_sts;
 527        int max_retry = 100;
 528        u64 uninitialized_var(sig), mask, val;
 529        unsigned long i;
 530        int err;
 531
 532        tx_cfg = (PLL_TX_CFG_ENTX | PLL_TX_CFG_SWING_1375MV);
 533        rx_cfg = (PLL_RX_CFG_ENRX | PLL_RX_CFG_TERM_0P8VDDT |
 534                  PLL_RX_CFG_ALIGN_ENA | PLL_RX_CFG_LOS_LTHRESH |
 535                  PLL_RX_CFG_EQ_LP_ADAPTIVE);
 536
 537        if (lp->loopback_mode == LOOPBACK_PHY) {
 538                u16 test_cfg = PLL_TEST_CFG_LOOPBACK_CML_DIS;
 539
 540                mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 541                           ESR2_TI_PLL_TEST_CFG_L, test_cfg);
 542
 543                tx_cfg |= PLL_TX_CFG_ENTEST;
 544                rx_cfg |= PLL_RX_CFG_ENTEST;
 545        }
 546
 547        /* Initialize PLL for 10G */
 548        pll_cfg = (PLL_CFG_ENPLL | PLL_CFG_MPY_10X);
 549
 550        err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 551                         ESR2_TI_PLL_CFG_L, pll_cfg & 0xffff);
 552        if (err) {
 553                netdev_err(np->dev, "NIU Port %d %s() mdio write to ESR2_TI_PLL_CFG_L failed\n",
 554                           np->port, __func__);
 555                return err;
 556        }
 557
 558        pll_sts = PLL_CFG_ENPLL;
 559
 560        err = mdio_write(np, np->port, NIU_ESR2_DEV_ADDR,
 561                         ESR2_TI_PLL_STS_L, pll_sts & 0xffff);
 562        if (err) {
 563                netdev_err(np->dev, "NIU Port %d %s() mdio write to ESR2_TI_PLL_STS_L failed\n",
 564                           np->port, __func__);
 565                return err;
 566        }
 567
 568        udelay(200);
 569
 570        /* Initialize all 4 lanes of the SERDES.  */
 571        for (i = 0; i < 4; i++) {
 572                err = esr2_set_tx_cfg(np, i, tx_cfg);
 573                if (err)
 574                        return err;
 575        }
 576
 577        for (i = 0; i < 4; i++) {
 578                err = esr2_set_rx_cfg(np, i, rx_cfg);
 579                if (err)
 580                        return err;
 581        }
 582
 583        /* check if serdes is ready */
 584
 585        switch (np->port) {
 586        case 0:
 587                mask = ESR_INT_SIGNALS_P0_BITS;
 588                val = (ESR_INT_SRDY0_P0 |
 589                       ESR_INT_DET0_P0 |
 590                       ESR_INT_XSRDY_P0 |
 591                       ESR_INT_XDP_P0_CH3 |
 592                       ESR_INT_XDP_P0_CH2 |
 593                       ESR_INT_XDP_P0_CH1 |
 594                       ESR_INT_XDP_P0_CH0);
 595                break;
 596
 597        case 1:
 598                mask = ESR_INT_SIGNALS_P1_BITS;
 599                val = (ESR_INT_SRDY0_P1 |
 600                       ESR_INT_DET0_P1 |
 601                       ESR_INT_XSRDY_P1 |
 602                       ESR_INT_XDP_P1_CH3 |
 603                       ESR_INT_XDP_P1_CH2 |
 604                       ESR_INT_XDP_P1_CH1 |
 605                       ESR_INT_XDP_P1_CH0);
 606                break;
 607
 608        default:
 609                return -EINVAL;
 610        }
 611
 612        while (max_retry--) {
 613                sig = nr64(ESR_INT_SIGNALS);
 614                if ((sig & mask) == val)
 615                        break;
 616
 617                mdelay(500);
 618        }
 619
 620        if ((sig & mask) != val) {
 621                pr_info("NIU Port %u signal bits [%08x] are not [%08x] for 10G...trying 1G\n",
 622                        np->port, (int)(sig & mask), (int)val);
 623
 624                /* 10G failed, try initializing at 1G */
 625                err = serdes_init_niu_1g_serdes(np);
 626                if (!err) {
 627                        np->flags &= ~NIU_FLAGS_10G;
 628                        np->mac_xcvr = MAC_XCVR_PCS;
 629                }  else {
 630                        netdev_err(np->dev, "Port %u 10G/1G SERDES Link Failed\n",
 631                                   np->port);
 632                        return -ENODEV;
 633                }
 634        }
 635        return 0;
 636}
 637
 638static int esr_read_rxtx_ctrl(struct niu *np, unsigned long chan, u32 *val)
 639{
 640        int err;
 641
 642        err = mdio_read(np, np->port, NIU_ESR_DEV_ADDR, ESR_RXTX_CTRL_L(chan));
 643        if (err >= 0) {
 644                *val = (err & 0xffff);
 645                err = mdio_read(np, np->port, NIU_ESR_DEV_ADDR,
 646                                ESR_RXTX_CTRL_H(chan));
 647                if (err >= 0)
 648                        *val |= ((err & 0xffff) << 16);
 649                err = 0;
 650        }
 651        return err;
 652}
 653
 654static int esr_read_glue0(struct niu *np, unsigned long chan, u32 *val)
 655{
 656        int err;
 657
 658        err = mdio_read(np, np->port, NIU_ESR_DEV_ADDR,
 659                        ESR_GLUE_CTRL0_L(chan));
 660        if (err >= 0) {
 661                *val = (err & 0xffff);
 662                err = mdio_read(np, np->port, NIU_ESR_DEV_ADDR,
 663                                ESR_GLUE_CTRL0_H(chan));
 664                if (err >= 0) {
 665                        *val |= ((err & 0xffff) << 16);
 666                        err = 0;
 667                }
 668        }
 669        return err;
 670}
 671
 672static int esr_read_reset(struct niu *np, u32 *val)
 673{
 674        int err;
 675
 676        err = mdio_read(np, np->port, NIU_ESR_DEV_ADDR,
 677                        ESR_RXTX_RESET_CTRL_L);
 678        if (err >= 0) {
 679                *val = (err & 0xffff);
 680                err = mdio_read(np, np->port, NIU_ESR_DEV_ADDR,
 681                                ESR_RXTX_RESET_CTRL_H);
 682                if (err >= 0) {
 683                        *val |= ((err & 0xffff) << 16);
 684                        err = 0;
 685                }
 686        }
 687        return err;
 688}
 689
 690static int esr_write_rxtx_ctrl(struct niu *np, unsigned long chan, u32 val)
 691{
 692        int err;
 693
 694        err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 695                         ESR_RXTX_CTRL_L(chan), val & 0xffff);
 696        if (!err)
 697                err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 698                                 ESR_RXTX_CTRL_H(chan), (val >> 16));
 699        return err;
 700}
 701
 702static int esr_write_glue0(struct niu *np, unsigned long chan, u32 val)
 703{
 704        int err;
 705
 706        err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 707                        ESR_GLUE_CTRL0_L(chan), val & 0xffff);
 708        if (!err)
 709                err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 710                                 ESR_GLUE_CTRL0_H(chan), (val >> 16));
 711        return err;
 712}
 713
 714static int esr_reset(struct niu *np)
 715{
 716        u32 uninitialized_var(reset);
 717        int err;
 718
 719        err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 720                         ESR_RXTX_RESET_CTRL_L, 0x0000);
 721        if (err)
 722                return err;
 723        err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 724                         ESR_RXTX_RESET_CTRL_H, 0xffff);
 725        if (err)
 726                return err;
 727        udelay(200);
 728
 729        err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 730                         ESR_RXTX_RESET_CTRL_L, 0xffff);
 731        if (err)
 732                return err;
 733        udelay(200);
 734
 735        err = mdio_write(np, np->port, NIU_ESR_DEV_ADDR,
 736                         ESR_RXTX_RESET_CTRL_H, 0x0000);
 737        if (err)
 738                return err;
 739        udelay(200);
 740
 741        err = esr_read_reset(np, &reset);
 742        if (err)
 743                return err;
 744        if (reset != 0) {
 745                netdev_err(np->dev, "Port %u ESR_RESET did not clear [%08x]\n",
 746                           np->port, reset);
 747                return -ENODEV;
 748        }
 749
 750        return 0;
 751}
 752
 753static int serdes_init_10g(struct niu *np)
 754{
 755        struct niu_link_config *lp = &np->link_config;
 756        unsigned long ctrl_reg, test_cfg_reg, i;
 757        u64 ctrl_val, test_cfg_val, sig, mask, val;
 758        int err;
 759
 760        switch (np->port) {
 761        case 0:
 762                ctrl_reg = ENET_SERDES_0_CTRL_CFG;
 763                test_cfg_reg = ENET_SERDES_0_TEST_CFG;
 764                break;
 765        case 1:
 766                ctrl_reg = ENET_SERDES_1_CTRL_CFG;
 767                test_cfg_reg = ENET_SERDES_1_TEST_CFG;
 768                break;
 769
 770        default:
 771                return -EINVAL;
 772        }
 773        ctrl_val = (ENET_SERDES_CTRL_SDET_0 |
 774                    ENET_SERDES_CTRL_SDET_1 |
 775                    ENET_SERDES_CTRL_SDET_2 |
 776                    ENET_SERDES_CTRL_SDET_3 |
 777                    (0x5 << ENET_SERDES_CTRL_EMPH_0_SHIFT) |
 778                    (0x5 << ENET_SERDES_CTRL_EMPH_1_SHIFT) |
 779                    (0x5 << ENET_SERDES_CTRL_EMPH_2_SHIFT) |
 780                    (0x5 << ENET_SERDES_CTRL_EMPH_3_SHIFT) |
 781                    (0x1 << ENET_SERDES_CTRL_LADJ_0_SHIFT) |
 782                    (0x1 << ENET_SERDES_CTRL_LADJ_1_SHIFT) |
 783                    (0x1 << ENET_SERDES_CTRL_LADJ_2_SHIFT) |
 784                    (0x1 << ENET_SERDES_CTRL_LADJ_3_SHIFT));
 785        test_cfg_val = 0;
 786
 787        if (lp->loopback_mode == LOOPBACK_PHY) {
 788                test_cfg_val |= ((ENET_TEST_MD_PAD_LOOPBACK <<
 789                                  ENET_SERDES_TEST_MD_0_SHIFT) |
 790                                 (ENET_TEST_MD_PAD_LOOPBACK <<
 791                                  ENET_SERDES_TEST_MD_1_SHIFT) |
 792                                 (ENET_TEST_MD_PAD_LOOPBACK <<
 793                                  ENET_SERDES_TEST_MD_2_SHIFT) |
 794                                 (ENET_TEST_MD_PAD_LOOPBACK <<
 795                                  ENET_SERDES_TEST_MD_3_SHIFT));
 796        }
 797
 798        nw64(ctrl_reg, ctrl_val);
 799        nw64(test_cfg_reg, test_cfg_val);
 800
 801        /* Initialize all 4 lanes of the SERDES.  */
 802        for (i = 0; i < 4; i++) {
 803                u32 rxtx_ctrl, glue0;
 804
 805                err = esr_read_rxtx_ctrl(np, i, &rxtx_ctrl);
 806                if (err)
 807                        return err;
 808                err = esr_read_glue0(np, i, &glue0);
 809                if (err)
 810                        return err;
 811
 812                rxtx_ctrl &= ~(ESR_RXTX_CTRL_VMUXLO);
 813                rxtx_ctrl |= (ESR_RXTX_CTRL_ENSTRETCH |
 814                              (2 << ESR_RXTX_CTRL_VMUXLO_SHIFT));
 815
 816                glue0 &= ~(ESR_GLUE_CTRL0_SRATE |
 817                           ESR_GLUE_CTRL0_THCNT |
 818                           ESR_GLUE_CTRL0_BLTIME);
 819                glue0 |= (ESR_GLUE_CTRL0_RXLOSENAB |
 820                          (0xf << ESR_GLUE_CTRL0_SRATE_SHIFT) |
 821                          (0xff << ESR_GLUE_CTRL0_THCNT_SHIFT) |
 822                          (BLTIME_300_CYCLES <<
 823                           ESR_GLUE_CTRL0_BLTIME_SHIFT));
 824
 825                err = esr_write_rxtx_ctrl(np, i, rxtx_ctrl);
 826                if (err)
 827                        return err;
 828                err = esr_write_glue0(np, i, glue0);
 829                if (err)
 830                        return err;
 831        }
 832
 833        err = esr_reset(np);
 834        if (err)
 835                return err;
 836
 837        sig = nr64(ESR_INT_SIGNALS);
 838        switch (np->port) {
 839        case 0:
 840                mask = ESR_INT_SIGNALS_P0_BITS;
 841                val = (ESR_INT_SRDY0_P0 |
 842                       ESR_INT_DET0_P0 |
 843                       ESR_INT_XSRDY_P0 |
 844                       ESR_INT_XDP_P0_CH3 |
 845                       ESR_INT_XDP_P0_CH2 |
 846                       ESR_INT_XDP_P0_CH1 |
 847                       ESR_INT_XDP_P0_CH0);
 848                break;
 849
 850        case 1:
 851                mask = ESR_INT_SIGNALS_P1_BITS;
 852                val = (ESR_INT_SRDY0_P1 |
 853                       ESR_INT_DET0_P1 |
 854                       ESR_INT_XSRDY_P1 |
 855                       ESR_INT_XDP_P1_CH3 |
 856                       ESR_INT_XDP_P1_CH2 |
 857                       ESR_INT_XDP_P1_CH1 |
 858                       ESR_INT_XDP_P1_CH0);
 859                break;
 860
 861        default:
 862                return -EINVAL;
 863        }
 864
 865        if ((sig & mask) != val) {
 866                if (np->flags & NIU_FLAGS_HOTPLUG_PHY) {
 867                        np->flags &= ~NIU_FLAGS_HOTPLUG_PHY_PRESENT;
 868                        return 0;
 869                }
 870                netdev_err(np->dev, "Port %u signal bits [%08x] are not [%08x]\n",
 871                           np->port, (int)(sig & mask), (int)val);
 872                return -ENODEV;
 873        }
 874        if (np->flags & NIU_FLAGS_HOTPLUG_PHY)
 875                np->flags |= NIU_FLAGS_HOTPLUG_PHY_PRESENT;
 876        return 0;
 877}
 878
 879static int serdes_init_1g(struct niu *np)
 880{
 881        u64 val;
 882
 883        val = nr64(ENET_SERDES_1_PLL_CFG);
 884        val &= ~ENET_SERDES_PLL_FBDIV2;
 885        switch (np->port) {
 886        case 0:
 887                val |= ENET_SERDES_PLL_HRATE0;
 888                break;
 889        case 1:
 890                val |= ENET_SERDES_PLL_HRATE1;
 891                break;
 892        case 2:
 893                val |= ENET_SERDES_PLL_HRATE2;
 894                break;
 895        case 3:
 896                val |= ENET_SERDES_PLL_HRATE3;
 897                break;
 898        default:
 899                return -EINVAL;
 900        }
 901        nw64(ENET_SERDES_1_PLL_CFG, val);
 902
 903        return 0;
 904}
 905
 906static int serdes_init_1g_serdes(struct niu *np)
 907{
 908        struct niu_link_config *lp = &np->link_config;
 909        unsigned long ctrl_reg, test_cfg_reg, pll_cfg, i;
 910        u64 ctrl_val, test_cfg_val, sig, mask, val;
 911        int err;
 912        u64 reset_val, val_rd;
 913
 914        val = ENET_SERDES_PLL_HRATE0 | ENET_SERDES_PLL_HRATE1 |
 915                ENET_SERDES_PLL_HRATE2 | ENET_SERDES_PLL_HRATE3 |
 916                ENET_SERDES_PLL_FBDIV0;
 917        switch (np->port) {
 918        case 0:
 919                reset_val =  ENET_SERDES_RESET_0;
 920                ctrl_reg = ENET_SERDES_0_CTRL_CFG;
 921                test_cfg_reg = ENET_SERDES_0_TEST_CFG;
 922                pll_cfg = ENET_SERDES_0_PLL_CFG;
 923                break;
 924        case 1:
 925                reset_val =  ENET_SERDES_RESET_1;
 926                ctrl_reg = ENET_SERDES_1_CTRL_CFG;
 927                test_cfg_reg = ENET_SERDES_1_TEST_CFG;
 928                pll_cfg = ENET_SERDES_1_PLL_CFG;
 929                break;
 930
 931        default:
 932                return -EINVAL;
 933        }
 934        ctrl_val = (ENET_SERDES_CTRL_SDET_0 |
 935                    ENET_SERDES_CTRL_SDET_1 |
 936                    ENET_SERDES_CTRL_SDET_2 |
 937                    ENET_SERDES_CTRL_SDET_3 |
 938                    (0x5 << ENET_SERDES_CTRL_EMPH_0_SHIFT) |
 939                    (0x5 << ENET_SERDES_CTRL_EMPH_1_SHIFT) |
 940                    (0x5 << ENET_SERDES_CTRL_EMPH_2_SHIFT) |
 941                    (0x5 << ENET_SERDES_CTRL_EMPH_3_SHIFT) |
 942                    (0x1 << ENET_SERDES_CTRL_LADJ_0_SHIFT) |
 943                    (0x1 << ENET_SERDES_CTRL_LADJ_1_SHIFT) |
 944                    (0x1 << ENET_SERDES_CTRL_LADJ_2_SHIFT) |
 945                    (0x1 << ENET_SERDES_CTRL_LADJ_3_SHIFT));
 946        test_cfg_val = 0;
 947
 948        if (lp->loopback_mode == LOOPBACK_PHY) {
 949                test_cfg_val |= ((ENET_TEST_MD_PAD_LOOPBACK <<
 950                                  ENET_SERDES_TEST_MD_0_SHIFT) |
 951                                 (ENET_TEST_MD_PAD_LOOPBACK <<
 952                                  ENET_SERDES_TEST_MD_1_SHIFT) |
 953                                 (ENET_TEST_MD_PAD_LOOPBACK <<
 954                                  ENET_SERDES_TEST_MD_2_SHIFT) |
 955                                 (ENET_TEST_MD_PAD_LOOPBACK <<
 956                                  ENET_SERDES_TEST_MD_3_SHIFT));
 957        }
 958
 959        nw64(ENET_SERDES_RESET, reset_val);
 960        mdelay(20);
 961        val_rd = nr64(ENET_SERDES_RESET);
 962        val_rd &= ~reset_val;
 963        nw64(pll_cfg, val);
 964        nw64(ctrl_reg, ctrl_val);
 965        nw64(test_cfg_reg, test_cfg_val);
 966        nw64(ENET_SERDES_RESET, val_rd);
 967        mdelay(2000);
 968
 969        /* Initialize all 4 lanes of the SERDES.  */
 970        for (i = 0; i < 4; i++) {
 971                u32 rxtx_ctrl, glue0;
 972
 973                err = esr_read_rxtx_ctrl(np, i, &rxtx_ctrl);
 974                if (err)
 975                        return err;
 976                err = esr_read_glue0(np, i, &glue0);
 977                if (err)
 978                        return err;
 979
 980                rxtx_ctrl &= ~(ESR_RXTX_CTRL_VMUXLO);
 981                rxtx_ctrl |= (ESR_RXTX_CTRL_ENSTRETCH |
 982                              (2 << ESR_RXTX_CTRL_VMUXLO_SHIFT));
 983
 984                glue0 &= ~(ESR_GLUE_CTRL0_SRATE |
 985                           ESR_GLUE_CTRL0_THCNT |
 986                           ESR_GLUE_CTRL0_BLTIME);
 987                glue0 |= (ESR_GLUE_CTRL0_RXLOSENAB |
 988                          (0xf << ESR_GLUE_CTRL0_SRATE_SHIFT) |
 989                          (0xff << ESR_GLUE_CTRL0_THCNT_SHIFT) |
 990                          (BLTIME_300_CYCLES <<
 991                           ESR_GLUE_CTRL0_BLTIME_SHIFT));
 992
 993                err = esr_write_rxtx_ctrl(np, i, rxtx_ctrl);
 994                if (err)
 995                        return err;
 996                err = esr_write_glue0(np, i, glue0);
 997                if (err)
 998                        return err;
 999        }
1000
1001
1002        sig = nr64(ESR_INT_SIGNALS);
1003        switch (np->port) {
1004        case 0:
1005                val = (ESR_INT_SRDY0_P0 | ESR_INT_DET0_P0);
1006                mask = val;
1007                break;
1008
1009        case 1:
1010                val = (ESR_INT_SRDY0_P1 | ESR_INT_DET0_P1);
1011                mask = val;
1012                break;
1013
1014        default:
1015                return -EINVAL;
1016        }
1017
1018        if ((sig & mask) != val) {
1019                netdev_err(np->dev, "Port %u signal bits [%08x] are not [%08x]\n",
1020                           np->port, (int)(sig & mask), (int)val);
1021                return -ENODEV;
1022        }
1023
1024        return 0;
1025}
1026
1027static int link_status_1g_serdes(struct niu *np, int *link_up_p)
1028{
1029        struct niu_link_config *lp = &np->link_config;
1030        int link_up;
1031        u64 val;
1032        u16 current_speed;
1033        unsigned long flags;
1034        u8 current_duplex;
1035
1036        link_up = 0;
1037        current_speed = SPEED_INVALID;
1038        current_duplex = DUPLEX_INVALID;
1039
1040        spin_lock_irqsave(&np->lock, flags);
1041
1042        val = nr64_pcs(PCS_MII_STAT);
1043
1044        if (val & PCS_MII_STAT_LINK_STATUS) {
1045                link_up = 1;
1046                current_speed = SPEED_1000;
1047                current_duplex = DUPLEX_FULL;
1048        }
1049
1050        lp->active_speed = current_speed;
1051        lp->active_duplex = current_duplex;
1052        spin_unlock_irqrestore(&np->lock, flags);
1053
1054        *link_up_p = link_up;
1055        return 0;
1056}
1057
1058static int link_status_10g_serdes(struct niu *np, int *link_up_p)
1059{
1060        unsigned long flags;
1061        struct niu_link_config *lp = &np->link_config;
1062        int link_up = 0;
1063        int link_ok = 1;
1064        u64 val, val2;
1065        u16 current_speed;
1066        u8 current_duplex;
1067
1068        if (!(np->flags & NIU_FLAGS_10G))
1069                return link_status_1g_serdes(np, link_up_p);
1070
1071        current_speed = SPEED_INVALID;
1072        current_duplex = DUPLEX_INVALID;
1073        spin_lock_irqsave(&np->lock, flags);
1074
1075        val = nr64_xpcs(XPCS_STATUS(0));
1076        val2 = nr64_mac(XMAC_INTER2);
1077        if (val2 & 0x01000000)
1078                link_ok = 0;
1079
1080        if ((val & 0x1000ULL) && link_ok) {
1081                link_up = 1;
1082                current_speed = SPEED_10000;
1083                current_duplex = DUPLEX_FULL;
1084        }
1085        lp->active_speed = current_speed;
1086        lp->active_duplex = current_duplex;
1087        spin_unlock_irqrestore(&np->lock, flags);
1088        *link_up_p = link_up;
1089        return 0;
1090}
1091
1092static int link_status_mii(struct niu *np, int *link_up_p)
1093{
1094        struct niu_link_config *lp = &np->link_config;
1095        int err;
1096        int bmsr, advert, ctrl1000, stat1000, lpa, bmcr, estatus;
1097        int supported, advertising, active_speed, active_duplex;
1098
1099        err = mii_read(np, np->phy_addr, MII_BMCR);
1100        if (unlikely(err < 0))
1101                return err;
1102        bmcr = err;
1103
1104        err = mii_read(np, np->phy_addr, MII_BMSR);
1105        if (unlikely(err < 0))
1106                return err;
1107        bmsr = err;
1108
1109        err = mii_read(np, np->phy_addr, MII_ADVERTISE);
1110        if (unlikely(err < 0))
1111                return err;
1112        advert = err;
1113
1114        err = mii_read(np, np->phy_addr, MII_LPA);
1115        if (unlikely(err < 0))
1116                return err;
1117        lpa = err;
1118
1119        if (likely(bmsr & BMSR_ESTATEN)) {
1120                err = mii_read(np, np->phy_addr, MII_ESTATUS);
1121                if (unlikely(err < 0))
1122                        return err;
1123                estatus = err;
1124
1125                err = mii_read(np, np->phy_addr, MII_CTRL1000);
1126                if (unlikely(err < 0))
1127                        return err;
1128                ctrl1000 = err;
1129
1130                err = mii_read(np, np->phy_addr, MII_STAT1000);
1131                if (unlikely(err < 0))
1132                        return err;
1133                stat1000 = err;
1134        } else
1135                estatus = ctrl1000 = stat1000 = 0;
1136
1137        supported = 0;
1138        if (bmsr & BMSR_ANEGCAPABLE)
1139                supported |= SUPPORTED_Autoneg;
1140        if (bmsr & BMSR_10HALF)
1141                supported |= SUPPORTED_10baseT_Half;
1142        if (bmsr & BMSR_10FULL)
1143                supported |= SUPPORTED_10baseT_Full;
1144        if (bmsr & BMSR_100HALF)
1145                supported |= SUPPORTED_100baseT_Half;
1146        if (bmsr & BMSR_100FULL)
1147                supported |= SUPPORTED_100baseT_Full;
1148        if (estatus & ESTATUS_1000_THALF)
1149                supported |= SUPPORTED_1000baseT_Half;
1150        if (estatus & ESTATUS_1000_TFULL)
1151                supported |= SUPPORTED_1000baseT_Full;
1152        lp->supported = supported;
1153
1154        advertising = mii_adv_to_ethtool_adv_t(advert);
1155        advertising |= mii_ctrl1000_to_ethtool_adv_t(ctrl1000);
1156
1157        if (bmcr & BMCR_ANENABLE) {
1158                int neg, neg1000;
1159
1160                lp->active_autoneg = 1;
1161                advertising |= ADVERTISED_Autoneg;
1162
1163                neg = advert & lpa;
1164                neg1000 = (ctrl1000 << 2) & stat1000;
1165
1166                if (neg1000 & (LPA_1000FULL | LPA_1000HALF))
1167                        active_speed = SPEED_1000;
1168                else if (neg & LPA_100)
1169                        active_speed = SPEED_100;
1170                else if (neg & (LPA_10HALF | LPA_10FULL))
1171                        active_speed = SPEED_10;
1172                else
1173                        active_speed = SPEED_INVALID;
1174
1175                if ((neg1000 & LPA_1000FULL) || (neg & LPA_DUPLEX))
1176                        active_duplex = DUPLEX_FULL;
1177                else if (active_speed != SPEED_INVALID)
1178                        active_duplex = DUPLEX_HALF;
1179                else
1180                        active_duplex = DUPLEX_INVALID;
1181        } else {
1182                lp->active_autoneg = 0;
1183
1184                if ((bmcr & BMCR_SPEED1000) && !(bmcr & BMCR_SPEED100))
1185                        active_speed = SPEED_1000;
1186                else if (bmcr & BMCR_SPEED100)
1187                        active_speed = SPEED_100;
1188                else
1189                        active_speed = SPEED_10;
1190
1191                if (bmcr & BMCR_FULLDPLX)
1192                        active_duplex = DUPLEX_FULL;
1193                else
1194                        active_duplex = DUPLEX_HALF;
1195        }
1196
1197        lp->active_advertising = advertising;
1198        lp->active_speed = active_speed;
1199        lp->active_duplex = active_duplex;
1200        *link_up_p = !!(bmsr & BMSR_LSTATUS);
1201
1202        return 0;
1203}
1204
1205static int link_status_1g_rgmii(struct niu *np, int *link_up_p)
1206{
1207        struct niu_link_config *lp = &np->link_config;
1208        u16 current_speed, bmsr;
1209        unsigned long flags;
1210        u8 current_duplex;
1211        int err, link_up;
1212
1213        link_up = 0;
1214        current_speed = SPEED_INVALID;
1215        current_duplex = DUPLEX_INVALID;
1216
1217        spin_lock_irqsave(&np->lock, flags);
1218
1219        err = -EINVAL;
1220
1221        err = mii_read(np, np->phy_addr, MII_BMSR);
1222        if (err < 0)
1223                goto out;
1224
1225        bmsr = err;
1226        if (bmsr & BMSR_LSTATUS) {
1227                u16 adv, lpa;
1228
1229                err = mii_read(np, np->phy_addr, MII_ADVERTISE);
1230                if (err < 0)
1231                        goto out;
1232                adv = err;
1233
1234                err = mii_read(np, np->phy_addr, MII_LPA);
1235                if (err < 0)
1236                        goto out;
1237                lpa = err;
1238
1239                err = mii_read(np, np->phy_addr, MII_ESTATUS);
1240                if (err < 0)
1241                        goto out;
1242                link_up = 1;
1243                current_speed = SPEED_1000;
1244                current_duplex = DUPLEX_FULL;
1245
1246        }
1247        lp->active_speed = current_speed;
1248        lp->active_duplex = current_duplex;
1249        err = 0;
1250
1251out:
1252        spin_unlock_irqrestore(&np->lock, flags);
1253
1254        *link_up_p = link_up;
1255        return err;
1256}
1257
1258static int link_status_1g(struct niu *np, int *link_up_p)
1259{
1260        struct niu_link_config *lp = &np->link_config;
1261        unsigned long flags;
1262        int err;
1263
1264        spin_lock_irqsave(&np->lock, flags);
1265
1266        err = link_status_mii(np, link_up_p);
1267        lp->supported |= SUPPORTED_TP;
1268        lp->active_advertising |= ADVERTISED_TP;
1269
1270        spin_unlock_irqrestore(&np->lock, flags);
1271        return err;
1272}
1273
1274static int bcm8704_reset(struct niu *np)
1275{
1276        int err, limit;
1277
1278        err = mdio_read(np, np->phy_addr,
1279                        BCM8704_PHYXS_DEV_ADDR, MII_BMCR);
1280        if (err < 0 || err == 0xffff)
1281                return err;
1282        err |= BMCR_RESET;
1283        err = mdio_write(np, np->phy_addr, BCM8704_PHYXS_DEV_ADDR,
1284                         MII_BMCR, err);
1285        if (err)
1286                return err;
1287
1288        limit = 1000;
1289        while (--limit >= 0) {
1290                err = mdio_read(np, np->phy_addr,
1291                                BCM8704_PHYXS_DEV_ADDR, MII_BMCR);
1292                if (err < 0)
1293                        return err;
1294                if (!(err & BMCR_RESET))
1295                        break;
1296        }
1297        if (limit < 0) {
1298                netdev_err(np->dev, "Port %u PHY will not reset (bmcr=%04x)\n",
1299                           np->port, (err & 0xffff));
1300                return -ENODEV;
1301        }
1302        return 0;
1303}
1304
1305/* When written, certain PHY registers need to be read back twice
1306 * in order for the bits to settle properly.
1307 */
1308static int bcm8704_user_dev3_readback(struct niu *np, int reg)
1309{
1310        int err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR, reg);
1311        if (err < 0)
1312                return err;
1313        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR, reg);
1314        if (err < 0)
1315                return err;
1316        return 0;
1317}
1318
1319static int bcm8706_init_user_dev3(struct niu *np)
1320{
1321        int err;
1322
1323
1324        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1325                        BCM8704_USER_OPT_DIGITAL_CTRL);
1326        if (err < 0)
1327                return err;
1328        err &= ~USER_ODIG_CTRL_GPIOS;
1329        err |= (0x3 << USER_ODIG_CTRL_GPIOS_SHIFT);
1330        err |=  USER_ODIG_CTRL_RESV2;
1331        err = mdio_write(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1332                         BCM8704_USER_OPT_DIGITAL_CTRL, err);
1333        if (err)
1334                return err;
1335
1336        mdelay(1000);
1337
1338        return 0;
1339}
1340
1341static int bcm8704_init_user_dev3(struct niu *np)
1342{
1343        int err;
1344
1345        err = mdio_write(np, np->phy_addr,
1346                         BCM8704_USER_DEV3_ADDR, BCM8704_USER_CONTROL,
1347                         (USER_CONTROL_OPTXRST_LVL |
1348                          USER_CONTROL_OPBIASFLT_LVL |
1349                          USER_CONTROL_OBTMPFLT_LVL |
1350                          USER_CONTROL_OPPRFLT_LVL |
1351                          USER_CONTROL_OPTXFLT_LVL |
1352                          USER_CONTROL_OPRXLOS_LVL |
1353                          USER_CONTROL_OPRXFLT_LVL |
1354                          USER_CONTROL_OPTXON_LVL |
1355                          (0x3f << USER_CONTROL_RES1_SHIFT)));
1356        if (err)
1357                return err;
1358
1359        err = mdio_write(np, np->phy_addr,
1360                         BCM8704_USER_DEV3_ADDR, BCM8704_USER_PMD_TX_CONTROL,
1361                         (USER_PMD_TX_CTL_XFP_CLKEN |
1362                          (1 << USER_PMD_TX_CTL_TX_DAC_TXD_SH) |
1363                          (2 << USER_PMD_TX_CTL_TX_DAC_TXCK_SH) |
1364                          USER_PMD_TX_CTL_TSCK_LPWREN));
1365        if (err)
1366                return err;
1367
1368        err = bcm8704_user_dev3_readback(np, BCM8704_USER_CONTROL);
1369        if (err)
1370                return err;
1371        err = bcm8704_user_dev3_readback(np, BCM8704_USER_PMD_TX_CONTROL);
1372        if (err)
1373                return err;
1374
1375        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1376                        BCM8704_USER_OPT_DIGITAL_CTRL);
1377        if (err < 0)
1378                return err;
1379        err &= ~USER_ODIG_CTRL_GPIOS;
1380        err |= (0x3 << USER_ODIG_CTRL_GPIOS_SHIFT);
1381        err = mdio_write(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1382                         BCM8704_USER_OPT_DIGITAL_CTRL, err);
1383        if (err)
1384                return err;
1385
1386        mdelay(1000);
1387
1388        return 0;
1389}
1390
1391static int mrvl88x2011_act_led(struct niu *np, int val)
1392{
1393        int     err;
1394
1395        err  = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV2_ADDR,
1396                MRVL88X2011_LED_8_TO_11_CTL);
1397        if (err < 0)
1398                return err;
1399
1400        err &= ~MRVL88X2011_LED(MRVL88X2011_LED_ACT,MRVL88X2011_LED_CTL_MASK);
1401        err |=  MRVL88X2011_LED(MRVL88X2011_LED_ACT,val);
1402
1403        return mdio_write(np, np->phy_addr, MRVL88X2011_USER_DEV2_ADDR,
1404                          MRVL88X2011_LED_8_TO_11_CTL, err);
1405}
1406
1407static int mrvl88x2011_led_blink_rate(struct niu *np, int rate)
1408{
1409        int     err;
1410
1411        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV2_ADDR,
1412                        MRVL88X2011_LED_BLINK_CTL);
1413        if (err >= 0) {
1414                err &= ~MRVL88X2011_LED_BLKRATE_MASK;
1415                err |= (rate << 4);
1416
1417                err = mdio_write(np, np->phy_addr, MRVL88X2011_USER_DEV2_ADDR,
1418                                 MRVL88X2011_LED_BLINK_CTL, err);
1419        }
1420
1421        return err;
1422}
1423
1424static int xcvr_init_10g_mrvl88x2011(struct niu *np)
1425{
1426        int     err;
1427
1428        /* Set LED functions */
1429        err = mrvl88x2011_led_blink_rate(np, MRVL88X2011_LED_BLKRATE_134MS);
1430        if (err)
1431                return err;
1432
1433        /* led activity */
1434        err = mrvl88x2011_act_led(np, MRVL88X2011_LED_CTL_OFF);
1435        if (err)
1436                return err;
1437
1438        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV3_ADDR,
1439                        MRVL88X2011_GENERAL_CTL);
1440        if (err < 0)
1441                return err;
1442
1443        err |= MRVL88X2011_ENA_XFPREFCLK;
1444
1445        err = mdio_write(np, np->phy_addr, MRVL88X2011_USER_DEV3_ADDR,
1446                         MRVL88X2011_GENERAL_CTL, err);
1447        if (err < 0)
1448                return err;
1449
1450        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV1_ADDR,
1451                        MRVL88X2011_PMA_PMD_CTL_1);
1452        if (err < 0)
1453                return err;
1454
1455        if (np->link_config.loopback_mode == LOOPBACK_MAC)
1456                err |= MRVL88X2011_LOOPBACK;
1457        else
1458                err &= ~MRVL88X2011_LOOPBACK;
1459
1460        err = mdio_write(np, np->phy_addr, MRVL88X2011_USER_DEV1_ADDR,
1461                         MRVL88X2011_PMA_PMD_CTL_1, err);
1462        if (err < 0)
1463                return err;
1464
1465        /* Enable PMD  */
1466        return mdio_write(np, np->phy_addr, MRVL88X2011_USER_DEV1_ADDR,
1467                          MRVL88X2011_10G_PMD_TX_DIS, MRVL88X2011_ENA_PMDTX);
1468}
1469
1470
1471static int xcvr_diag_bcm870x(struct niu *np)
1472{
1473        u16 analog_stat0, tx_alarm_status;
1474        int err = 0;
1475
1476#if 1
1477        err = mdio_read(np, np->phy_addr, BCM8704_PMA_PMD_DEV_ADDR,
1478                        MII_STAT1000);
1479        if (err < 0)
1480                return err;
1481        pr_info("Port %u PMA_PMD(MII_STAT1000) [%04x]\n", np->port, err);
1482
1483        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR, 0x20);
1484        if (err < 0)
1485                return err;
1486        pr_info("Port %u USER_DEV3(0x20) [%04x]\n", np->port, err);
1487
1488        err = mdio_read(np, np->phy_addr, BCM8704_PHYXS_DEV_ADDR,
1489                        MII_NWAYTEST);
1490        if (err < 0)
1491                return err;
1492        pr_info("Port %u PHYXS(MII_NWAYTEST) [%04x]\n", np->port, err);
1493#endif
1494
1495        /* XXX dig this out it might not be so useful XXX */
1496        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1497                        BCM8704_USER_ANALOG_STATUS0);
1498        if (err < 0)
1499                return err;
1500        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1501                        BCM8704_USER_ANALOG_STATUS0);
1502        if (err < 0)
1503                return err;
1504        analog_stat0 = err;
1505
1506        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1507                        BCM8704_USER_TX_ALARM_STATUS);
1508        if (err < 0)
1509                return err;
1510        err = mdio_read(np, np->phy_addr, BCM8704_USER_DEV3_ADDR,
1511                        BCM8704_USER_TX_ALARM_STATUS);
1512        if (err < 0)
1513                return err;
1514        tx_alarm_status = err;
1515
1516        if (analog_stat0 != 0x03fc) {
1517                if ((analog_stat0 == 0x43bc) && (tx_alarm_status != 0)) {
1518                        pr_info("Port %u cable not connected or bad cable\n",
1519                                np->port);
1520                } else if (analog_stat0 == 0x639c) {
1521                        pr_info("Port %u optical module is bad or missing\n",
1522                                np->port);
1523                }
1524        }
1525
1526        return 0;
1527}
1528
1529static int xcvr_10g_set_lb_bcm870x(struct niu *np)
1530{
1531        struct niu_link_config *lp = &np->link_config;
1532        int err;
1533
1534        err = mdio_read(np, np->phy_addr, BCM8704_PCS_DEV_ADDR,
1535                        MII_BMCR);
1536        if (err < 0)
1537                return err;
1538
1539        err &= ~BMCR_LOOPBACK;
1540
1541        if (lp->loopback_mode == LOOPBACK_MAC)
1542                err |= BMCR_LOOPBACK;
1543
1544        err = mdio_write(np, np->phy_addr, BCM8704_PCS_DEV_ADDR,
1545                         MII_BMCR, err);
1546        if (err)
1547                return err;
1548
1549        return 0;
1550}
1551
1552static int xcvr_init_10g_bcm8706(struct niu *np)
1553{
1554        int err = 0;
1555        u64 val;
1556
1557        if ((np->flags & NIU_FLAGS_HOTPLUG_PHY) &&
1558            (np->flags & NIU_FLAGS_HOTPLUG_PHY_PRESENT) == 0)
1559                        return err;
1560
1561        val = nr64_mac(XMAC_CONFIG);
1562        val &= ~XMAC_CONFIG_LED_POLARITY;
1563        val |= XMAC_CONFIG_FORCE_LED_ON;
1564        nw64_mac(XMAC_CONFIG, val);
1565
1566        val = nr64(MIF_CONFIG);
1567        val |= MIF_CONFIG_INDIRECT_MODE;
1568        nw64(MIF_CONFIG, val);
1569
1570        err = bcm8704_reset(np);
1571        if (err)
1572                return err;
1573
1574        err = xcvr_10g_set_lb_bcm870x(np);
1575        if (err)
1576                return err;
1577
1578        err = bcm8706_init_user_dev3(np);
1579        if (err)
1580                return err;
1581
1582        err = xcvr_diag_bcm870x(np);
1583        if (err)
1584                return err;
1585
1586        return 0;
1587}
1588
1589static int xcvr_init_10g_bcm8704(struct niu *np)
1590{
1591        int err;
1592
1593        err = bcm8704_reset(np);
1594        if (err)
1595                return err;
1596
1597        err = bcm8704_init_user_dev3(np);
1598        if (err)
1599                return err;
1600
1601        err = xcvr_10g_set_lb_bcm870x(np);
1602        if (err)
1603                return err;
1604
1605        err =  xcvr_diag_bcm870x(np);
1606        if (err)
1607                return err;
1608
1609        return 0;
1610}
1611
1612static int xcvr_init_10g(struct niu *np)
1613{
1614        int phy_id, err;
1615        u64 val;
1616
1617        val = nr64_mac(XMAC_CONFIG);
1618        val &= ~XMAC_CONFIG_LED_POLARITY;
1619        val |= XMAC_CONFIG_FORCE_LED_ON;
1620        nw64_mac(XMAC_CONFIG, val);
1621
1622        /* XXX shared resource, lock parent XXX */
1623        val = nr64(MIF_CONFIG);
1624        val |= MIF_CONFIG_INDIRECT_MODE;
1625        nw64(MIF_CONFIG, val);
1626
1627        phy_id = phy_decode(np->parent->port_phy, np->port);
1628        phy_id = np->parent->phy_probe_info.phy_id[phy_id][np->port];
1629
1630        /* handle different phy types */
1631        switch (phy_id & NIU_PHY_ID_MASK) {
1632        case NIU_PHY_ID_MRVL88X2011:
1633                err = xcvr_init_10g_mrvl88x2011(np);
1634                break;
1635
1636        default: /* bcom 8704 */
1637                err = xcvr_init_10g_bcm8704(np);
1638                break;
1639        }
1640
1641        return err;
1642}
1643
1644static int mii_reset(struct niu *np)
1645{
1646        int limit, err;
1647
1648        err = mii_write(np, np->phy_addr, MII_BMCR, BMCR_RESET);
1649        if (err)
1650                return err;
1651
1652        limit = 1000;
1653        while (--limit >= 0) {
1654                udelay(500);
1655                err = mii_read(np, np->phy_addr, MII_BMCR);
1656                if (err < 0)
1657                        return err;
1658                if (!(err & BMCR_RESET))
1659                        break;
1660        }
1661        if (limit < 0) {
1662                netdev_err(np->dev, "Port %u MII would not reset, bmcr[%04x]\n",
1663                           np->port, err);
1664                return -ENODEV;
1665        }
1666
1667        return 0;
1668}
1669
1670static int xcvr_init_1g_rgmii(struct niu *np)
1671{
1672        int err;
1673        u64 val;
1674        u16 bmcr, bmsr, estat;
1675
1676        val = nr64(MIF_CONFIG);
1677        val &= ~MIF_CONFIG_INDIRECT_MODE;
1678        nw64(MIF_CONFIG, val);
1679
1680        err = mii_reset(np);
1681        if (err)
1682                return err;
1683
1684        err = mii_read(np, np->phy_addr, MII_BMSR);
1685        if (err < 0)
1686                return err;
1687        bmsr = err;
1688
1689        estat = 0;
1690        if (bmsr & BMSR_ESTATEN) {
1691                err = mii_read(np, np->phy_addr, MII_ESTATUS);
1692                if (err < 0)
1693                        return err;
1694                estat = err;
1695        }
1696
1697        bmcr = 0;
1698        err = mii_write(np, np->phy_addr, MII_BMCR, bmcr);
1699        if (err)
1700                return err;
1701
1702        if (bmsr & BMSR_ESTATEN) {
1703                u16 ctrl1000 = 0;
1704
1705                if (estat & ESTATUS_1000_TFULL)
1706                        ctrl1000 |= ADVERTISE_1000FULL;
1707                err = mii_write(np, np->phy_addr, MII_CTRL1000, ctrl1000);
1708                if (err)
1709                        return err;
1710        }
1711
1712        bmcr = (BMCR_SPEED1000 | BMCR_FULLDPLX);
1713
1714        err = mii_write(np, np->phy_addr, MII_BMCR, bmcr);
1715        if (err)
1716                return err;
1717
1718        err = mii_read(np, np->phy_addr, MII_BMCR);
1719        if (err < 0)
1720                return err;
1721        bmcr = mii_read(np, np->phy_addr, MII_BMCR);
1722
1723        err = mii_read(np, np->phy_addr, MII_BMSR);
1724        if (err < 0)
1725                return err;
1726
1727        return 0;
1728}
1729
1730static int mii_init_common(struct niu *np)
1731{
1732        struct niu_link_config *lp = &np->link_config;
1733        u16 bmcr, bmsr, adv, estat;
1734        int err;
1735
1736        err = mii_reset(np);
1737        if (err)
1738                return err;
1739
1740        err = mii_read(np, np->phy_addr, MII_BMSR);
1741        if (err < 0)
1742                return err;
1743        bmsr = err;
1744
1745        estat = 0;
1746        if (bmsr & BMSR_ESTATEN) {
1747                err = mii_read(np, np->phy_addr, MII_ESTATUS);
1748                if (err < 0)
1749                        return err;
1750                estat = err;
1751        }
1752
1753        bmcr = 0;
1754        err = mii_write(np, np->phy_addr, MII_BMCR, bmcr);
1755        if (err)
1756                return err;
1757
1758        if (lp->loopback_mode == LOOPBACK_MAC) {
1759                bmcr |= BMCR_LOOPBACK;
1760                if (lp->active_speed == SPEED_1000)
1761                        bmcr |= BMCR_SPEED1000;
1762                if (lp->active_duplex == DUPLEX_FULL)
1763                        bmcr |= BMCR_FULLDPLX;
1764        }
1765
1766        if (lp->loopback_mode == LOOPBACK_PHY) {
1767                u16 aux;
1768
1769                aux = (BCM5464R_AUX_CTL_EXT_LB |
1770                       BCM5464R_AUX_CTL_WRITE_1);
1771                err = mii_write(np, np->phy_addr, BCM5464R_AUX_CTL, aux);
1772                if (err)
1773                        return err;
1774        }
1775
1776        if (lp->autoneg) {
1777                u16 ctrl1000;
1778
1779                adv = ADVERTISE_CSMA | ADVERTISE_PAUSE_CAP;
1780                if ((bmsr & BMSR_10HALF) &&
1781                        (lp->advertising & ADVERTISED_10baseT_Half))
1782                        adv |= ADVERTISE_10HALF;
1783                if ((bmsr & BMSR_10FULL) &&
1784                        (lp->advertising & ADVERTISED_10baseT_Full))
1785                        adv |= ADVERTISE_10FULL;
1786                if ((bmsr & BMSR_100HALF) &&
1787                        (lp->advertising & ADVERTISED_100baseT_Half))
1788                        adv |= ADVERTISE_100HALF;
1789                if ((bmsr & BMSR_100FULL) &&
1790                        (lp->advertising & ADVERTISED_100baseT_Full))
1791                        adv |= ADVERTISE_100FULL;
1792                err = mii_write(np, np->phy_addr, MII_ADVERTISE, adv);
1793                if (err)
1794                        return err;
1795
1796                if (likely(bmsr & BMSR_ESTATEN)) {
1797                        ctrl1000 = 0;
1798                        if ((estat & ESTATUS_1000_THALF) &&
1799                                (lp->advertising & ADVERTISED_1000baseT_Half))
1800                                ctrl1000 |= ADVERTISE_1000HALF;
1801                        if ((estat & ESTATUS_1000_TFULL) &&
1802                                (lp->advertising & ADVERTISED_1000baseT_Full))
1803                                ctrl1000 |= ADVERTISE_1000FULL;
1804                        err = mii_write(np, np->phy_addr,
1805                                        MII_CTRL1000, ctrl1000);
1806                        if (err)
1807                                return err;
1808                }
1809
1810                bmcr |= (BMCR_ANENABLE | BMCR_ANRESTART);
1811        } else {
1812                /* !lp->autoneg */
1813                int fulldpx;
1814
1815                if (lp->duplex == DUPLEX_FULL) {
1816                        bmcr |= BMCR_FULLDPLX;
1817                        fulldpx = 1;
1818                } else if (lp->duplex == DUPLEX_HALF)
1819                        fulldpx = 0;
1820                else
1821                        return -EINVAL;
1822
1823                if (lp->speed == SPEED_1000) {
1824                        /* if X-full requested while not supported, or
1825                           X-half requested while not supported... */
1826                        if ((fulldpx && !(estat & ESTATUS_1000_TFULL)) ||
1827                                (!fulldpx && !(estat & ESTATUS_1000_THALF)))
1828                                return -EINVAL;
1829                        bmcr |= BMCR_SPEED1000;
1830                } else if (lp->speed == SPEED_100) {
1831                        if ((fulldpx && !(bmsr & BMSR_100FULL)) ||
1832                                (!fulldpx && !(bmsr & BMSR_100HALF)))
1833                                return -EINVAL;
1834                        bmcr |= BMCR_SPEED100;
1835                } else if (lp->speed == SPEED_10) {
1836                        if ((fulldpx && !(bmsr & BMSR_10FULL)) ||
1837                                (!fulldpx && !(bmsr & BMSR_10HALF)))
1838                                return -EINVAL;
1839                } else
1840                        return -EINVAL;
1841        }
1842
1843        err = mii_write(np, np->phy_addr, MII_BMCR, bmcr);
1844        if (err)
1845                return err;
1846
1847#if 0
1848        err = mii_read(np, np->phy_addr, MII_BMCR);
1849        if (err < 0)
1850                return err;
1851        bmcr = err;
1852
1853        err = mii_read(np, np->phy_addr, MII_BMSR);
1854        if (err < 0)
1855                return err;
1856        bmsr = err;
1857
1858        pr_info("Port %u after MII init bmcr[%04x] bmsr[%04x]\n",
1859                np->port, bmcr, bmsr);
1860#endif
1861
1862        return 0;
1863}
1864
1865static int xcvr_init_1g(struct niu *np)
1866{
1867        u64 val;
1868
1869        /* XXX shared resource, lock parent XXX */
1870        val = nr64(MIF_CONFIG);
1871        val &= ~MIF_CONFIG_INDIRECT_MODE;
1872        nw64(MIF_CONFIG, val);
1873
1874        return mii_init_common(np);
1875}
1876
1877static int niu_xcvr_init(struct niu *np)
1878{
1879        const struct niu_phy_ops *ops = np->phy_ops;
1880        int err;
1881
1882        err = 0;
1883        if (ops->xcvr_init)
1884                err = ops->xcvr_init(np);
1885
1886        return err;
1887}
1888
1889static int niu_serdes_init(struct niu *np)
1890{
1891        const struct niu_phy_ops *ops = np->phy_ops;
1892        int err;
1893
1894        err = 0;
1895        if (ops->serdes_init)
1896                err = ops->serdes_init(np);
1897
1898        return err;
1899}
1900
1901static void niu_init_xif(struct niu *);
1902static void niu_handle_led(struct niu *, int status);
1903
1904static int niu_link_status_common(struct niu *np, int link_up)
1905{
1906        struct niu_link_config *lp = &np->link_config;
1907        struct net_device *dev = np->dev;
1908        unsigned long flags;
1909
1910        if (!netif_carrier_ok(dev) && link_up) {
1911                netif_info(np, link, dev, "Link is up at %s, %s duplex\n",
1912                           lp->active_speed == SPEED_10000 ? "10Gb/sec" :
1913                           lp->active_speed == SPEED_1000 ? "1Gb/sec" :
1914                           lp->active_speed == SPEED_100 ? "100Mbit/sec" :
1915                           "10Mbit/sec",
1916                           lp->active_duplex == DUPLEX_FULL ? "full" : "half");
1917
1918                spin_lock_irqsave(&np->lock, flags);
1919                niu_init_xif(np);
1920                niu_handle_led(np, 1);
1921                spin_unlock_irqrestore(&np->lock, flags);
1922
1923                netif_carrier_on(dev);
1924        } else if (netif_carrier_ok(dev) && !link_up) {
1925                netif_warn(np, link, dev, "Link is down\n");
1926                spin_lock_irqsave(&np->lock, flags);
1927                niu_handle_led(np, 0);
1928                spin_unlock_irqrestore(&np->lock, flags);
1929                netif_carrier_off(dev);
1930        }
1931
1932        return 0;
1933}
1934
1935static int link_status_10g_mrvl(struct niu *np, int *link_up_p)
1936{
1937        int err, link_up, pma_status, pcs_status;
1938
1939        link_up = 0;
1940
1941        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV1_ADDR,
1942                        MRVL88X2011_10G_PMD_STATUS_2);
1943        if (err < 0)
1944                goto out;
1945
1946        /* Check PMA/PMD Register: 1.0001.2 == 1 */
1947        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV1_ADDR,
1948                        MRVL88X2011_PMA_PMD_STATUS_1);
1949        if (err < 0)
1950                goto out;
1951
1952        pma_status = ((err & MRVL88X2011_LNK_STATUS_OK) ? 1 : 0);
1953
1954        /* Check PMC Register : 3.0001.2 == 1: read twice */
1955        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV3_ADDR,
1956                        MRVL88X2011_PMA_PMD_STATUS_1);
1957        if (err < 0)
1958                goto out;
1959
1960        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV3_ADDR,
1961                        MRVL88X2011_PMA_PMD_STATUS_1);
1962        if (err < 0)
1963                goto out;
1964
1965        pcs_status = ((err & MRVL88X2011_LNK_STATUS_OK) ? 1 : 0);
1966
1967        /* Check XGXS Register : 4.0018.[0-3,12] */
1968        err = mdio_read(np, np->phy_addr, MRVL88X2011_USER_DEV4_ADDR,
1969                        MRVL88X2011_10G_XGXS_LANE_STAT);
1970        if (err < 0)
1971                goto out;
1972
1973        if (err == (PHYXS_XGXS_LANE_STAT_ALINGED | PHYXS_XGXS_LANE_STAT_LANE3 |
1974                    PHYXS_XGXS_LANE_STAT_LANE2 | PHYXS_XGXS_LANE_STAT_LANE1 |
1975                    PHYXS_XGXS_LANE_STAT_LANE0 | PHYXS_XGXS_LANE_STAT_MAGIC |
1976                    0x800))
1977                link_up = (pma_status && pcs_status) ? 1 : 0;
1978
1979        np->link_config.active_speed = SPEED_10000;
1980        np->link_config.active_duplex = DUPLEX_FULL;
1981        err = 0;
1982out:
1983        mrvl88x2011_act_led(np, (link_up ?
1984                                 MRVL88X2011_LED_CTL_PCS_ACT :
1985                                 MRVL88X2011_LED_CTL_OFF));
1986
1987        *link_up_p = link_up;
1988        return err;
1989}
1990
1991static int link_status_10g_bcm8706(struct niu *np, int *link_up_p)
1992{
1993        int err, link_up;
1994        link_up = 0;
1995
1996        err = mdio_read(np, np->phy_addr, BCM8704_PMA_PMD_DEV_ADDR,
1997                        BCM8704_PMD_RCV_SIGDET);
1998        if (err < 0 || err == 0xffff)
1999                goto out;
2000        if (!(err & PMD_RCV_SIGDET_GLOBAL)) {
2001                err = 0;
2002                goto out;
2003        }
2004
2005        err = mdio_read(np, np->phy_addr, BCM8704_PCS_DEV_ADDR,
2006                        BCM8704_PCS_10G_R_STATUS);
2007        if (err < 0)
2008                goto out;
2009
2010        if (!(err & PCS_10G_R_STATUS_BLK_LOCK)) {
2011                err = 0;
2012                goto out;
2013        }
2014
2015        err = mdio_read(np, np->phy_addr, BCM8704_PHYXS_DEV_ADDR,
2016                        BCM8704_PHYXS_XGXS_LANE_STAT);
2017        if (err < 0)
2018                goto out;
2019        if (err != (PHYXS_XGXS_LANE_STAT_ALINGED |
2020                    PHYXS_XGXS_LANE_STAT_MAGIC |
2021                    PHYXS_XGXS_LANE_STAT_PATTEST |
2022                    PHYXS_XGXS_LANE_STAT_LANE3 |
2023                    PHYXS_XGXS_LANE_STAT_LANE2 |
2024                    PHYXS_XGXS_LANE_STAT_LANE1 |
2025                    PHYXS_XGXS_LANE_STAT_LANE0)) {
2026                err = 0;
2027                np->link_config.active_speed = SPEED_INVALID;
2028                np->link_config.active_duplex = DUPLEX_INVALID;
2029                goto out;
2030        }
2031
2032        link_up = 1;
2033        np->link_config.active_speed = SPEED_10000;
2034        np->link_config.active_duplex = DUPLEX_FULL;
2035        err = 0;
2036
2037out:
2038        *link_up_p = link_up;
2039        return err;
2040}
2041
2042static int link_status_10g_bcom(struct niu *np, int *link_up_p)
2043{
2044        int err, link_up;
2045
2046        link_up = 0;
2047
2048        err = mdio_read(np, np->phy_addr, BCM8704_PMA_PMD_DEV_ADDR,
2049                        BCM8704_PMD_RCV_SIGDET);
2050        if (err < 0)
2051                goto out;
2052        if (!(err & PMD_RCV_SIGDET_GLOBAL)) {
2053                err = 0;
2054                goto out;
2055        }
2056
2057        err = mdio_read(np, np->phy_addr, BCM8704_PCS_DEV_ADDR,
2058                        BCM8704_PCS_10G_R_STATUS);
2059        if (err < 0)
2060                goto out;
2061        if (!(err & PCS_10G_R_STATUS_BLK_LOCK)) {
2062                err = 0;
2063                goto out;
2064        }
2065
2066        err = mdio_read(np, np->phy_addr, BCM8704_PHYXS_DEV_ADDR,
2067                        BCM8704_PHYXS_XGXS_LANE_STAT);
2068        if (err < 0)
2069                goto out;
2070
2071        if (err != (PHYXS_XGXS_LANE_STAT_ALINGED |
2072                    PHYXS_XGXS_LANE_STAT_MAGIC |
2073                    PHYXS_XGXS_LANE_STAT_LANE3 |
2074                    PHYXS_XGXS_LANE_STAT_LANE2 |
2075                    PHYXS_XGXS_LANE_STAT_LANE1 |
2076                    PHYXS_XGXS_LANE_STAT_LANE0)) {
2077                err = 0;
2078                goto out;
2079        }
2080
2081        link_up = 1;
2082        np->link_config.active_speed = SPEED_10000;
2083        np->link_config.active_duplex = DUPLEX_FULL;
2084        err = 0;
2085
2086out:
2087        *link_up_p = link_up;
2088        return err;
2089}
2090
2091static int link_status_10g(struct niu *np, int *link_up_p)
2092{
2093        unsigned long flags;
2094        int err = -EINVAL;
2095
2096        spin_lock_irqsave(&np->lock, flags);
2097
2098        if (np->link_config.loopback_mode == LOOPBACK_DISABLED) {
2099                int phy_id;
2100
2101                phy_id = phy_decode(np->parent->port_phy, np->port);
2102                phy_id = np->parent->phy_probe_info.phy_id[phy_id][np->port];
2103
2104                /* handle different phy types */
2105                switch (phy_id & NIU_PHY_ID_MASK) {
2106                case NIU_PHY_ID_MRVL88X2011:
2107                        err = link_status_10g_mrvl(np, link_up_p);
2108                        break;
2109
2110                default: /* bcom 8704 */
2111                        err = link_status_10g_bcom(np, link_up_p);
2112                        break;
2113                }
2114        }
2115
2116        spin_unlock_irqrestore(&np->lock, flags);
2117
2118        return err;
2119}
2120
2121static int niu_10g_phy_present(struct niu *np)
2122{
2123        u64 sig, mask, val;
2124
2125        sig = nr64(ESR_INT_SIGNALS);
2126        switch (np->port) {
2127        case 0:
2128                mask = ESR_INT_SIGNALS_P0_BITS;
2129                val = (ESR_INT_SRDY0_P0 |
2130                       ESR_INT_DET0_P0 |
2131                       ESR_INT_XSRDY_P0 |
2132                       ESR_INT_XDP_P0_CH3 |
2133                       ESR_INT_XDP_P0_CH2 |
2134                       ESR_INT_XDP_P0_CH1 |
2135                       ESR_INT_XDP_P0_CH0);
2136                break;
2137
2138        case 1:
2139                mask = ESR_INT_SIGNALS_P1_BITS;
2140                val = (ESR_INT_SRDY0_P1 |
2141                       ESR_INT_DET0_P1 |
2142                       ESR_INT_XSRDY_P1 |
2143                       ESR_INT_XDP_P1_CH3 |
2144                       ESR_INT_XDP_P1_CH2 |
2145                       ESR_INT_XDP_P1_CH1 |
2146                       ESR_INT_XDP_P1_CH0);
2147                break;
2148
2149        default:
2150                return 0;
2151        }
2152
2153        if ((sig & mask) != val)
2154                return 0;
2155        return 1;
2156}
2157
2158static int link_status_10g_hotplug(struct niu *np, int *link_up_p)
2159{
2160        unsigned long flags;
2161        int err = 0;
2162        int phy_present;
2163        int phy_present_prev;
2164
2165        spin_lock_irqsave(&np->lock, flags);
2166
2167        if (np->link_config.loopback_mode == LOOPBACK_DISABLED) {
2168                phy_present_prev = (np->flags & NIU_FLAGS_HOTPLUG_PHY_PRESENT) ?
2169                        1 : 0;
2170                phy_present = niu_10g_phy_present(np);
2171                if (phy_present != phy_present_prev) {
2172                        /* state change */
2173                        if (phy_present) {
2174                                /* A NEM was just plugged in */
2175                                np->flags |= NIU_FLAGS_HOTPLUG_PHY_PRESENT;
2176                                if (np->phy_ops->xcvr_init)
2177                                        err = np->phy_ops->xcvr_init(np);
2178                                if (err) {
2179                                        err = mdio_read(np, np->phy_addr,
2180                                                BCM8704_PHYXS_DEV_ADDR, MII_BMCR);
2181                                        if (err == 0xffff) {
2182                                                /* No mdio, back-to-back XAUI */
2183                                                goto out;
2184                                        }
2185                                        /* debounce */
2186                                        np->flags &= ~NIU_FLAGS_HOTPLUG_PHY_PRESENT;
2187                                }
2188                        } else {
2189                                np->flags &= ~NIU_FLAGS_HOTPLUG_PHY_PRESENT;
2190                                *link_up_p = 0;
2191                                netif_warn(np, link, np->dev,
2192                                           "Hotplug PHY Removed\n");
2193                        }
2194                }
2195out:
2196                if (np->flags & NIU_FLAGS_HOTPLUG_PHY_PRESENT) {
2197                        err = link_status_10g_bcm8706(np, link_up_p);
2198                        if (err == 0xffff) {
2199                                /* No mdio, back-to-back XAUI: it is C10NEM */
2200                                *link_up_p = 1;
2201                                np->link_config.active_speed = SPEED_10000;
2202                                np->link_config.active_duplex = DUPLEX_FULL;
2203                        }
2204                }
2205        }
2206
2207        spin_unlock_irqrestore(&np->lock, flags);
2208
2209        return 0;
2210}
2211
2212static int niu_link_status(struct niu *np, int *link_up_p)
2213{
2214        const struct niu_phy_ops *ops = np->phy_ops;
2215        int err;
2216
2217        err = 0;
2218        if (ops->link_status)
2219                err = ops->link_status(np, link_up_p);
2220
2221        return err;
2222}
2223
2224static void niu_timer(unsigned long __opaque)
2225{
2226        struct niu *np = (struct niu *) __opaque;
2227        unsigned long off;
2228        int err, link_up;
2229
2230        err = niu_link_status(np, &link_up);
2231        if (!err)
2232                niu_link_status_common(np, link_up);
2233
2234        if (netif_carrier_ok(np->dev))
2235                off = 5 * HZ;
2236        else
2237                off = 1 * HZ;
2238        np->timer.expires = jiffies + off;
2239
2240        add_timer(&np->timer);
2241}
2242
2243static const struct niu_phy_ops phy_ops_10g_serdes = {
2244        .serdes_init            = serdes_init_10g_serdes,
2245        .link_status            = link_status_10g_serdes,
2246};
2247
2248static const struct niu_phy_ops phy_ops_10g_serdes_niu = {
2249        .serdes_init            = serdes_init_niu_10g_serdes,
2250        .link_status            = link_status_10g_serdes,
2251};
2252
2253static const struct niu_phy_ops phy_ops_1g_serdes_niu = {
2254        .serdes_init            = serdes_init_niu_1g_serdes,
2255        .link_status            = link_status_1g_serdes,
2256};
2257
2258static const struct niu_phy_ops phy_ops_1g_rgmii = {
2259        .xcvr_init              = xcvr_init_1g_rgmii,
2260        .link_status            = link_status_1g_rgmii,
2261};
2262
2263static const struct niu_phy_ops phy_ops_10g_fiber_niu = {
2264        .serdes_init            = serdes_init_niu_10g_fiber,
2265        .xcvr_init              = xcvr_init_10g,
2266        .link_status            = link_status_10g,
2267};
2268
2269static const struct niu_phy_ops phy_ops_10g_fiber = {
2270        .serdes_init            = serdes_init_10g,
2271        .xcvr_init              = xcvr_init_10g,
2272        .link_status            = link_status_10g,
2273};
2274
2275static const struct niu_phy_ops phy_ops_10g_fiber_hotplug = {
2276        .serdes_init            = serdes_init_10g,
2277        .xcvr_init              = xcvr_init_10g_bcm8706,
2278        .link_status            = link_status_10g_hotplug,
2279};
2280
2281static const struct niu_phy_ops phy_ops_niu_10g_hotplug = {
2282        .serdes_init            = serdes_init_niu_10g_fiber,
2283        .xcvr_init              = xcvr_init_10g_bcm8706,
2284        .link_status            = link_status_10g_hotplug,
2285};
2286
2287static const struct niu_phy_ops phy_ops_10g_copper = {
2288        .serdes_init            = serdes_init_10g,
2289        .link_status            = link_status_10g, /* XXX */
2290};
2291
2292static const struct niu_phy_ops phy_ops_1g_fiber = {
2293        .serdes_init            = serdes_init_1g,
2294        .xcvr_init              = xcvr_init_1g,
2295        .link_status            = link_status_1g,
2296};
2297
2298static const struct niu_phy_ops phy_ops_1g_copper = {
2299        .xcvr_init              = xcvr_init_1g,
2300        .link_status            = link_status_1g,
2301};
2302
2303struct niu_phy_template {
2304        const struct niu_phy_ops        *ops;
2305        u32                             phy_addr_base;
2306};
2307
2308static const struct niu_phy_template phy_template_niu_10g_fiber = {
2309        .ops            = &phy_ops_10g_fiber_niu,
2310        .phy_addr_base  = 16,
2311};
2312
2313static const struct niu_phy_template phy_template_niu_10g_serdes = {
2314        .ops            = &phy_ops_10g_serdes_niu,
2315        .phy_addr_base  = 0,
2316};
2317
2318static const struct niu_phy_template phy_template_niu_1g_serdes = {
2319        .ops            = &phy_ops_1g_serdes_niu,
2320        .phy_addr_base  = 0,
2321};
2322
2323static const struct niu_phy_template phy_template_10g_fiber = {
2324        .ops            = &phy_ops_10g_fiber,
2325        .phy_addr_base  = 8,
2326};
2327
2328static const struct niu_phy_template phy_template_10g_fiber_hotplug = {
2329        .ops            = &phy_ops_10g_fiber_hotplug,
2330        .phy_addr_base  = 8,
2331};
2332
2333static const struct niu_phy_template phy_template_niu_10g_hotplug = {
2334        .ops            = &phy_ops_niu_10g_hotplug,
2335        .phy_addr_base  = 8,
2336};
2337
2338static const struct niu_phy_template phy_template_10g_copper = {
2339        .ops            = &phy_ops_10g_copper,
2340        .phy_addr_base  = 10,
2341};
2342
2343static const struct niu_phy_template phy_template_1g_fiber = {
2344        .ops            = &phy_ops_1g_fiber,
2345        .phy_addr_base  = 0,
2346};
2347
2348static const struct niu_phy_template phy_template_1g_copper = {
2349        .ops            = &phy_ops_1g_copper,
2350        .phy_addr_base  = 0,
2351};
2352
2353static const struct niu_phy_template phy_template_1g_rgmii = {
2354        .ops            = &phy_ops_1g_rgmii,
2355        .phy_addr_base  = 0,
2356};
2357
2358static const struct niu_phy_template phy_template_10g_serdes = {
2359        .ops            = &phy_ops_10g_serdes,
2360        .phy_addr_base  = 0,
2361};
2362
2363static int niu_atca_port_num[4] = {
2364        0, 0,  11, 10
2365};
2366
2367static int serdes_init_10g_serdes(struct niu *np)
2368{
2369        struct niu_link_config *lp = &np->link_config;
2370        unsigned long ctrl_reg, test_cfg_reg, pll_cfg, i;
2371        u64 ctrl_val, test_cfg_val, sig, mask, val;
2372
2373        switch (np->port) {
2374        case 0:
2375                ctrl_reg = ENET_SERDES_0_CTRL_CFG;
2376                test_cfg_reg = ENET_SERDES_0_TEST_CFG;
2377                pll_cfg = ENET_SERDES_0_PLL_CFG;
2378                break;
2379        case 1:
2380                ctrl_reg = ENET_SERDES_1_CTRL_CFG;
2381                test_cfg_reg = ENET_SERDES_1_TEST_CFG;
2382                pll_cfg = ENET_SERDES_1_PLL_CFG;
2383                break;
2384
2385        default:
2386                return -EINVAL;
2387        }
2388        ctrl_val = (ENET_SERDES_CTRL_SDET_0 |
2389                    ENET_SERDES_CTRL_SDET_1 |
2390                    ENET_SERDES_CTRL_SDET_2 |
2391                    ENET_SERDES_CTRL_SDET_3 |
2392                    (0x5 << ENET_SERDES_CTRL_EMPH_0_SHIFT) |
2393                    (0x5 << ENET_SERDES_CTRL_EMPH_1_SHIFT) |
2394                    (0x5 << ENET_SERDES_CTRL_EMPH_2_SHIFT) |
2395                    (0x5 << ENET_SERDES_CTRL_EMPH_3_SHIFT) |
2396                    (0x1 << ENET_SERDES_CTRL_LADJ_0_SHIFT) |
2397                    (0x1 << ENET_SERDES_CTRL_LADJ_1_SHIFT) |
2398                    (0x1 << ENET_SERDES_CTRL_LADJ_2_SHIFT) |
2399                    (0x1 << ENET_SERDES_CTRL_LADJ_3_SHIFT));
2400        test_cfg_val = 0;
2401
2402        if (lp->loopback_mode == LOOPBACK_PHY) {
2403                test_cfg_val |= ((ENET_TEST_MD_PAD_LOOPBACK <<
2404                                  ENET_SERDES_TEST_MD_0_SHIFT) |
2405                                 (ENET_TEST_MD_PAD_LOOPBACK <<
2406                                  ENET_SERDES_TEST_MD_1_SHIFT) |
2407                                 (ENET_TEST_MD_PAD_LOOPBACK <<
2408                                  ENET_SERDES_TEST_MD_2_SHIFT) |
2409                                 (ENET_TEST_MD_PAD_LOOPBACK <<
2410                                  ENET_SERDES_TEST_MD_3_SHIFT));
2411        }
2412
2413        esr_reset(np);
2414        nw64(pll_cfg, ENET_SERDES_PLL_FBDIV2);
2415        nw64(ctrl_reg, ctrl_val);
2416        nw64(test_cfg_reg, test_cfg_val);
2417
2418        /* Initialize all 4 lanes of the SERDES.  */
2419        for (i = 0; i < 4; i++) {
2420                u32 rxtx_ctrl, glue0;
2421                int err;
2422
2423                err = esr_read_rxtx_ctrl(np, i, &rxtx_ctrl);
2424                if (err)
2425                        return err;
2426                err = esr_read_glue0(np, i, &glue0);
2427                if (err)
2428                        return err;
2429
2430                rxtx_ctrl &= ~(ESR_RXTX_CTRL_VMUXLO);
2431                rxtx_ctrl |= (ESR_RXTX_CTRL_ENSTRETCH |
2432                              (2 << ESR_RXTX_CTRL_VMUXLO_SHIFT));
2433
2434                glue0 &= ~(ESR_GLUE_CTRL0_SRATE |
2435                           ESR_GLUE_CTRL0_THCNT |
2436                           ESR_GLUE_CTRL0_BLTIME);
2437                glue0 |= (ESR_GLUE_CTRL0_RXLOSENAB |
2438                          (0xf << ESR_GLUE_CTRL0_SRATE_SHIFT) |
2439                          (0xff << ESR_GLUE_CTRL0_THCNT_SHIFT) |
2440                          (BLTIME_300_CYCLES <<
2441                           ESR_GLUE_CTRL0_BLTIME_SHIFT));
2442
2443                err = esr_write_rxtx_ctrl(np, i, rxtx_ctrl);
2444                if (err)
2445                        return err;
2446                err = esr_write_glue0(np, i, glue0);
2447                if (err)
2448                        return err;
2449        }
2450
2451
2452        sig = nr64(ESR_INT_SIGNALS);
2453        switch (np->port) {
2454        case 0:
2455                mask = ESR_INT_SIGNALS_P0_BITS;
2456                val = (ESR_INT_SRDY0_P0 |
2457                       ESR_INT_DET0_P0 |
2458                       ESR_INT_XSRDY_P0 |
2459                       ESR_INT_XDP_P0_CH3 |
2460                       ESR_INT_XDP_P0_CH2 |
2461                       ESR_INT_XDP_P0_CH1 |
2462                       ESR_INT_XDP_P0_CH0);
2463                break;
2464
2465        case 1:
2466                mask = ESR_INT_SIGNALS_P1_BITS;
2467                val = (ESR_INT_SRDY0_P1 |
2468                       ESR_INT_DET0_P1 |
2469                       ESR_INT_XSRDY_P1 |
2470                       ESR_INT_XDP_P1_CH3 |
2471                       ESR_INT_XDP_P1_CH2 |
2472                       ESR_INT_XDP_P1_CH1 |
2473                       ESR_INT_XDP_P1_CH0);
2474                break;
2475
2476        default:
2477                return -EINVAL;
2478        }
2479
2480        if ((sig & mask) != val) {
2481                int err;
2482                err = serdes_init_1g_serdes(np);
2483                if (!err) {
2484                        np->flags &= ~NIU_FLAGS_10G;
2485                        np->mac_xcvr = MAC_XCVR_PCS;
2486                }  else {
2487                        netdev_err(np->dev, "Port %u 10G/1G SERDES Link Failed\n",
2488                                   np->port);
2489                        return -ENODEV;
2490                }
2491        }
2492
2493        return 0;
2494}
2495
2496static int niu_determine_phy_disposition(struct niu *np)
2497{
2498        struct niu_parent *parent = np->parent;
2499        u8 plat_type = parent->plat_type;
2500        const struct niu_phy_template *tp;
2501        u32 phy_addr_off = 0;
2502
2503        if (plat_type == PLAT_TYPE_NIU) {
2504                switch (np->flags &
2505                        (NIU_FLAGS_10G |
2506                         NIU_FLAGS_FIBER |
2507                         NIU_FLAGS_XCVR_SERDES)) {
2508                case NIU_FLAGS_10G | NIU_FLAGS_XCVR_SERDES:
2509                        /* 10G Serdes */
2510                        tp = &phy_template_niu_10g_serdes;
2511                        break;
2512                case NIU_FLAGS_XCVR_SERDES:
2513                        /* 1G Serdes */
2514                        tp = &phy_template_niu_1g_serdes;
2515                        break;
2516                case NIU_FLAGS_10G | NIU_FLAGS_FIBER:
2517                        /* 10G Fiber */
2518                default:
2519                        if (np->flags & NIU_FLAGS_HOTPLUG_PHY) {
2520                                tp = &phy_template_niu_10g_hotplug;
2521                                if (np->port == 0)
2522                                        phy_addr_off = 8;
2523                                if (np->port == 1)
2524                                        phy_addr_off = 12;
2525                        } else {
2526                                tp = &phy_template_niu_10g_fiber;
2527                                phy_addr_off += np->port;
2528                        }
2529                        break;
2530                }
2531        } else {
2532                switch (np->flags &
2533                        (NIU_FLAGS_10G |
2534                         NIU_FLAGS_FIBER |
2535                         NIU_FLAGS_XCVR_SERDES)) {
2536                case 0:
2537                        /* 1G copper */
2538                        tp = &phy_template_1g_copper;
2539                        if (plat_type == PLAT_TYPE_VF_P0)
2540                                phy_addr_off = 10;
2541                        else if (plat_type == PLAT_TYPE_VF_P1)
2542                                phy_addr_off = 26;
2543
2544                        phy_addr_off += (np->port ^ 0x3);
2545                        break;
2546
2547                case NIU_FLAGS_10G:
2548                        /* 10G copper */
2549                        tp = &phy_template_10g_copper;
2550                        break;
2551
2552                case NIU_FLAGS_FIBER:
2553                        /* 1G fiber */
2554                        tp = &phy_template_1g_fiber;
2555                        break;
2556
2557                case NIU_FLAGS_10G | NIU_FLAGS_FIBER:
2558                        /* 10G fiber */
2559                        tp = &phy_template_10g_fiber;
2560                        if (plat_type == PLAT_TYPE_VF_P0 ||
2561                            plat_type == PLAT_TYPE_VF_P1)
2562                                phy_addr_off = 8;
2563                        phy_addr_off += np->port;
2564                        if (np->flags & NIU_FLAGS_HOTPLUG_PHY) {
2565                                tp = &phy_template_10g_fiber_hotplug;
2566                                if (np->port == 0)
2567                                        phy_addr_off = 8;
2568                                if (np->port == 1)
2569                                        phy_addr_off = 12;
2570                        }
2571                        break;
2572
2573                case NIU_FLAGS_10G | NIU_FLAGS_XCVR_SERDES:
2574                case NIU_FLAGS_XCVR_SERDES | NIU_FLAGS_FIBER:
2575                case NIU_FLAGS_XCVR_SERDES:
2576                        switch(np->port) {
2577                        case 0:
2578                        case 1:
2579                                tp = &phy_template_10g_serdes;
2580                                break;
2581                        case 2:
2582                        case 3:
2583                                tp = &phy_template_1g_rgmii;
2584                                break;
2585                        default:
2586                                return -EINVAL;
2587                                break;
2588                        }
2589                        phy_addr_off = niu_atca_port_num[np->port];
2590                        break;
2591
2592                default:
2593                        return -EINVAL;
2594                }
2595        }
2596
2597        np->phy_ops = tp->ops;
2598        np->phy_addr = tp->phy_addr_base + phy_addr_off;
2599
2600        return 0;
2601}
2602
2603static int niu_init_link(struct niu *np)
2604{
2605        struct niu_parent *parent = np->parent;
2606        int err, ignore;
2607
2608        if (parent->plat_type == PLAT_TYPE_NIU) {
2609                err = niu_xcvr_init(np);
2610                if (err)
2611                        return err;
2612                msleep(200);
2613        }
2614        err = niu_serdes_init(np);
2615        if (err && !(np->flags & NIU_FLAGS_HOTPLUG_PHY))
2616                return err;
2617        msleep(200);
2618        err = niu_xcvr_init(np);
2619        if (!err || (np->flags & NIU_FLAGS_HOTPLUG_PHY))
2620                niu_link_status(np, &ignore);
2621        return 0;
2622}
2623
2624static void niu_set_primary_mac(struct niu *np, unsigned char *addr)
2625{
2626        u16 reg0 = addr[4] << 8 | addr[5];
2627        u16 reg1 = addr[2] << 8 | addr[3];
2628        u16 reg2 = addr[0] << 8 | addr[1];
2629
2630        if (np->flags & NIU_FLAGS_XMAC) {
2631                nw64_mac(XMAC_ADDR0, reg0);
2632                nw64_mac(XMAC_ADDR1, reg1);
2633                nw64_mac(XMAC_ADDR2, reg2);
2634        } else {
2635                nw64_mac(BMAC_ADDR0, reg0);
2636                nw64_mac(BMAC_ADDR1, reg1);
2637                nw64_mac(BMAC_ADDR2, reg2);
2638        }
2639}
2640
2641static int niu_num_alt_addr(struct niu *np)
2642{
2643        if (np->flags & NIU_FLAGS_XMAC)
2644                return XMAC_NUM_ALT_ADDR;
2645        else
2646                return BMAC_NUM_ALT_ADDR;
2647}
2648
2649static int niu_set_alt_mac(struct niu *np, int index, unsigned char *addr)
2650{
2651        u16 reg0 = addr[4] << 8 | addr[5];
2652        u16 reg1 = addr[2] << 8 | addr[3];
2653        u16 reg2 = addr[0] << 8 | addr[1];
2654
2655        if (index >= niu_num_alt_addr(np))
2656                return -EINVAL;
2657
2658        if (np->flags & NIU_FLAGS_XMAC) {
2659                nw64_mac(XMAC_ALT_ADDR0(index), reg0);
2660                nw64_mac(XMAC_ALT_ADDR1(index), reg1);
2661                nw64_mac(XMAC_ALT_ADDR2(index), reg2);
2662        } else {
2663                nw64_mac(BMAC_ALT_ADDR0(index), reg0);
2664                nw64_mac(BMAC_ALT_ADDR1(index), reg1);
2665                nw64_mac(BMAC_ALT_ADDR2(index), reg2);
2666        }
2667
2668        return 0;
2669}
2670
2671static int niu_enable_alt_mac(struct niu *np, int index, int on)
2672{
2673        unsigned long reg;
2674        u64 val, mask;
2675
2676        if (index >= niu_num_alt_addr(np))
2677                return -EINVAL;
2678
2679        if (np->flags & NIU_FLAGS_XMAC) {
2680                reg = XMAC_ADDR_CMPEN;
2681                mask = 1 << index;
2682        } else {
2683                reg = BMAC_ADDR_CMPEN;
2684                mask = 1 << (index + 1);
2685        }
2686
2687        val = nr64_mac(reg);
2688        if (on)
2689                val |= mask;
2690        else
2691                val &= ~mask;
2692        nw64_mac(reg, val);
2693
2694        return 0;
2695}
2696
2697static void __set_rdc_table_num_hw(struct niu *np, unsigned long reg,
2698                                   int num, int mac_pref)
2699{
2700        u64 val = nr64_mac(reg);
2701        val &= ~(HOST_INFO_MACRDCTBLN | HOST_INFO_MPR);
2702        val |= num;
2703        if (mac_pref)
2704                val |= HOST_INFO_MPR;
2705        nw64_mac(reg, val);
2706}
2707
2708static int __set_rdc_table_num(struct niu *np,
2709                               int xmac_index, int bmac_index,
2710                               int rdc_table_num, int mac_pref)
2711{
2712        unsigned long reg;
2713
2714        if (rdc_table_num & ~HOST_INFO_MACRDCTBLN)
2715                return -EINVAL;
2716        if (np->flags & NIU_FLAGS_XMAC)
2717                reg = XMAC_HOST_INFO(xmac_index);
2718        else
2719                reg = BMAC_HOST_INFO(bmac_index);
2720        __set_rdc_table_num_hw(np, reg, rdc_table_num, mac_pref);
2721        return 0;
2722}
2723
2724static int niu_set_primary_mac_rdc_table(struct niu *np, int table_num,
2725                                         int mac_pref)
2726{
2727        return __set_rdc_table_num(np, 17, 0, table_num, mac_pref);
2728}
2729
2730static int niu_set_multicast_mac_rdc_table(struct niu *np, int table_num,
2731                                           int mac_pref)
2732{
2733        return __set_rdc_table_num(np, 16, 8, table_num, mac_pref);
2734}
2735
2736static int niu_set_alt_mac_rdc_table(struct niu *np, int idx,
2737                                     int table_num, int mac_pref)
2738{
2739        if (idx >= niu_num_alt_addr(np))
2740                return -EINVAL;
2741        return __set_rdc_table_num(np, idx, idx + 1, table_num, mac_pref);
2742}
2743
2744static u64 vlan_entry_set_parity(u64 reg_val)
2745{
2746        u64 port01_mask;
2747        u64 port23_mask;
2748
2749        port01_mask = 0x00ff;
2750        port23_mask = 0xff00;
2751
2752        if (hweight64(reg_val & port01_mask) & 1)
2753                reg_val |= ENET_VLAN_TBL_PARITY0;
2754        else
2755                reg_val &= ~ENET_VLAN_TBL_PARITY0;
2756
2757        if (hweight64(reg_val & port23_mask) & 1)
2758                reg_val |= ENET_VLAN_TBL_PARITY1;
2759        else
2760                reg_val &= ~ENET_VLAN_TBL_PARITY1;
2761
2762        return reg_val;
2763}
2764
2765static void vlan_tbl_write(struct niu *np, unsigned long index,
2766                           int port, int vpr, int rdc_table)
2767{
2768        u64 reg_val = nr64(ENET_VLAN_TBL(index));
2769
2770        reg_val &= ~((ENET_VLAN_TBL_VPR |
2771                      ENET_VLAN_TBL_VLANRDCTBLN) <<
2772                     ENET_VLAN_TBL_SHIFT(port));
2773        if (vpr)
2774                reg_val |= (ENET_VLAN_TBL_VPR <<
2775                            ENET_VLAN_TBL_SHIFT(port));
2776        reg_val |= (rdc_table << ENET_VLAN_TBL_SHIFT(port));
2777
2778        reg_val = vlan_entry_set_parity(reg_val);
2779
2780        nw64(ENET_VLAN_TBL(index), reg_val);
2781}
2782
2783static void vlan_tbl_clear(struct niu *np)
2784{
2785        int i;
2786
2787        for (i = 0; i < ENET_VLAN_TBL_NUM_ENTRIES; i++)
2788                nw64(ENET_VLAN_TBL(i), 0);
2789}
2790
2791static int tcam_wait_bit(struct niu *np, u64 bit)
2792{
2793        int limit = 1000;
2794
2795        while (--limit > 0) {
2796                if (nr64(TCAM_CTL) & bit)
2797                        break;
2798                udelay(1);
2799        }
2800        if (limit <= 0)
2801                return -ENODEV;
2802
2803        return 0;
2804}
2805
2806static int tcam_flush(struct niu *np, int index)
2807{
2808        nw64(TCAM_KEY_0, 0x00);
2809        nw64(TCAM_KEY_MASK_0, 0xff);
2810        nw64(TCAM_CTL, (TCAM_CTL_RWC_TCAM_WRITE | index));
2811
2812        return tcam_wait_bit(np, TCAM_CTL_STAT);
2813}
2814
2815#if 0
2816static int tcam_read(struct niu *np, int index,
2817                     u64 *key, u64 *mask)
2818{
2819        int err;
2820
2821        nw64(TCAM_CTL, (TCAM_CTL_RWC_TCAM_READ | index));
2822        err = tcam_wait_bit(np, TCAM_CTL_STAT);
2823        if (!err) {
2824                key[0] = nr64(TCAM_KEY_0);
2825                key[1] = nr64(TCAM_KEY_1);
2826                key[2] = nr64(TCAM_KEY_2);
2827                key[3] = nr64(TCAM_KEY_3);
2828                mask[0] = nr64(TCAM_KEY_MASK_0);
2829                mask[1] = nr64(TCAM_KEY_MASK_1);
2830                mask[2] = nr64(TCAM_KEY_MASK_2);
2831                mask[3] = nr64(TCAM_KEY_MASK_3);
2832        }
2833        return err;
2834}
2835#endif
2836
2837static int tcam_write(struct niu *np, int index,
2838                      u64 *key, u64 *mask)
2839{
2840        nw64(TCAM_KEY_0, key[0]);
2841        nw64(TCAM_KEY_1, key[1]);
2842        nw64(TCAM_KEY_2, key[2]);
2843        nw64(TCAM_KEY_3, key[3]);
2844        nw64(TCAM_KEY_MASK_0, mask[0]);
2845        nw64(TCAM_KEY_MASK_1, mask[1]);
2846        nw64(TCAM_KEY_MASK_2, mask[2]);
2847        nw64(TCAM_KEY_MASK_3, mask[3]);
2848        nw64(TCAM_CTL, (TCAM_CTL_RWC_TCAM_WRITE | index));
2849
2850        return tcam_wait_bit(np, TCAM_CTL_STAT);
2851}
2852
2853#if 0
2854static int tcam_assoc_read(struct niu *np, int index, u64 *data)
2855{
2856        int err;
2857
2858        nw64(TCAM_CTL, (TCAM_CTL_RWC_RAM_READ | index));
2859        err = tcam_wait_bit(np, TCAM_CTL_STAT);
2860        if (!err)
2861                *data = nr64(TCAM_KEY_1);
2862
2863        return err;
2864}
2865#endif
2866
2867static int tcam_assoc_write(struct niu *np, int index, u64 assoc_data)
2868{
2869        nw64(TCAM_KEY_1, assoc_data);
2870        nw64(TCAM_CTL, (TCAM_CTL_RWC_RAM_WRITE | index));
2871
2872        return tcam_wait_bit(np, TCAM_CTL_STAT);
2873}
2874
2875static void tcam_enable(struct niu *np, int on)
2876{
2877        u64 val = nr64(FFLP_CFG_1);
2878
2879        if (on)
2880                val &= ~FFLP_CFG_1_TCAM_DIS;
2881        else
2882                val |= FFLP_CFG_1_TCAM_DIS;
2883        nw64(FFLP_CFG_1, val);
2884}
2885
2886static void tcam_set_lat_and_ratio(struct niu *np, u64 latency, u64 ratio)
2887{
2888        u64 val = nr64(FFLP_CFG_1);
2889
2890        val &= ~(FFLP_CFG_1_FFLPINITDONE |
2891                 FFLP_CFG_1_CAMLAT |
2892                 FFLP_CFG_1_CAMRATIO);
2893        val |= (latency << FFLP_CFG_1_CAMLAT_SHIFT);
2894        val |= (ratio << FFLP_CFG_1_CAMRATIO_SHIFT);
2895        nw64(FFLP_CFG_1, val);
2896
2897        val = nr64(FFLP_CFG_1);
2898        val |= FFLP_CFG_1_FFLPINITDONE;
2899        nw64(FFLP_CFG_1, val);
2900}
2901
2902static int tcam_user_eth_class_enable(struct niu *np, unsigned long class,
2903                                      int on)
2904{
2905        unsigned long reg;
2906        u64 val;
2907
2908        if (class < CLASS_CODE_ETHERTYPE1 ||
2909            class > CLASS_CODE_ETHERTYPE2)
2910                return -EINVAL;
2911
2912        reg = L2_CLS(class - CLASS_CODE_ETHERTYPE1);
2913        val = nr64(reg);
2914        if (on)
2915                val |= L2_CLS_VLD;
2916        else
2917                val &= ~L2_CLS_VLD;
2918        nw64(reg, val);
2919
2920        return 0;
2921}
2922
2923#if 0
2924static int tcam_user_eth_class_set(struct niu *np, unsigned long class,
2925                                   u64 ether_type)
2926{
2927        unsigned long reg;
2928        u64 val;
2929
2930        if (class < CLASS_CODE_ETHERTYPE1 ||
2931            class > CLASS_CODE_ETHERTYPE2 ||
2932            (ether_type & ~(u64)0xffff) != 0)
2933                return -EINVAL;
2934
2935        reg = L2_CLS(class - CLASS_CODE_ETHERTYPE1);
2936        val = nr64(reg);
2937        val &= ~L2_CLS_ETYPE;
2938        val |= (ether_type << L2_CLS_ETYPE_SHIFT);
2939        nw64(reg, val);
2940
2941        return 0;
2942}
2943#endif
2944
2945static int tcam_user_ip_class_enable(struct niu *np, unsigned long class,
2946                                     int on)
2947{
2948        unsigned long reg;
2949        u64 val;
2950
2951        if (class < CLASS_CODE_USER_PROG1 ||
2952            class > CLASS_CODE_USER_PROG4)
2953                return -EINVAL;
2954
2955        reg = L3_CLS(class - CLASS_CODE_USER_PROG1);
2956        val = nr64(reg);
2957        if (on)
2958                val |= L3_CLS_VALID;
2959        else
2960                val &= ~L3_CLS_VALID;
2961        nw64(reg, val);
2962
2963        return 0;
2964}
2965
2966static int tcam_user_ip_class_set(struct niu *np, unsigned long class,
2967                                  int ipv6, u64 protocol_id,
2968                                  u64 tos_mask, u64 tos_val)
2969{
2970        unsigned long reg;
2971        u64 val;
2972
2973        if (class < CLASS_CODE_USER_PROG1 ||
2974            class > CLASS_CODE_USER_PROG4 ||
2975            (protocol_id & ~(u64)0xff) != 0 ||
2976            (tos_mask & ~(u64)0xff) != 0 ||
2977            (tos_val & ~(u64)0xff) != 0)
2978                return -EINVAL;
2979
2980        reg = L3_CLS(class - CLASS_CODE_USER_PROG1);
2981        val = nr64(reg);
2982        val &= ~(L3_CLS_IPVER | L3_CLS_PID |
2983                 L3_CLS_TOSMASK | L3_CLS_TOS);
2984        if (ipv6)
2985                val |= L3_CLS_IPVER;
2986        val |= (protocol_id << L3_CLS_PID_SHIFT);
2987        val |= (tos_mask << L3_CLS_TOSMASK_SHIFT);
2988        val |= (tos_val << L3_CLS_TOS_SHIFT);
2989        nw64(reg, val);
2990
2991        return 0;
2992}
2993
2994static int tcam_early_init(struct niu *np)
2995{
2996        unsigned long i;
2997        int err;
2998
2999        tcam_enable(np, 0);
3000        tcam_set_lat_and_ratio(np,
3001                               DEFAULT_TCAM_LATENCY,
3002                               DEFAULT_TCAM_ACCESS_RATIO);
3003        for (i = CLASS_CODE_ETHERTYPE1; i <= CLASS_CODE_ETHERTYPE2; i++) {
3004                err = tcam_user_eth_class_enable(np, i, 0);
3005                if (err)
3006                        return err;
3007        }
3008        for (i = CLASS_CODE_USER_PROG1; i <= CLASS_CODE_USER_PROG4; i++) {
3009                err = tcam_user_ip_class_enable(np, i, 0);
3010                if (err)
3011                        return err;
3012        }
3013
3014        return 0;
3015}
3016
3017static int tcam_flush_all(struct niu *np)
3018{
3019        unsigned long i;
3020
3021        for (i = 0; i < np->parent->tcam_num_entries; i++) {
3022                int err = tcam_flush(np, i);
3023                if (err)
3024                        return err;
3025        }
3026        return 0;
3027}
3028
3029static u64 hash_addr_regval(unsigned long index, unsigned long num_entries)
3030{
3031        return (u64)index | (num_entries == 1 ? HASH_TBL_ADDR_AUTOINC : 0);
3032}
3033
3034#if 0
3035static int hash_read(struct niu *np, unsigned long partition,
3036                     unsigned long index, unsigned long num_entries,
3037                     u64 *data)
3038{
3039        u64 val = hash_addr_regval(index, num_entries);
3040        unsigned long i;
3041
3042        if (partition >= FCRAM_NUM_PARTITIONS ||
3043            index + num_entries > FCRAM_SIZE)
3044                return -EINVAL;
3045
3046        nw64(HASH_TBL_ADDR(partition), val);
3047        for (i = 0; i < num_entries; i++)
3048                data[i] = nr64(HASH_TBL_DATA(partition));
3049
3050        return 0;
3051}
3052#endif
3053
3054static int hash_write(struct niu *np, unsigned long partition,
3055                      unsigned long index, unsigned long num_entries,
3056                      u64 *data)
3057{
3058        u64 val = hash_addr_regval(index, num_entries);
3059        unsigned long i;
3060
3061        if (partition >= FCRAM_NUM_PARTITIONS ||
3062            index + (num_entries * 8) > FCRAM_SIZE)
3063                return -EINVAL;
3064
3065        nw64(HASH_TBL_ADDR(partition), val);
3066        for (i = 0; i < num_entries; i++)
3067                nw64(HASH_TBL_DATA(partition), data[i]);
3068
3069        return 0;
3070}
3071
3072static void fflp_reset(struct niu *np)
3073{
3074        u64 val;
3075
3076        nw64(FFLP_CFG_1, FFLP_CFG_1_PIO_FIO_RST);
3077        udelay(10);
3078        nw64(FFLP_CFG_1, 0);
3079
3080        val = FFLP_CFG_1_FCRAMOUTDR_NORMAL | FFLP_CFG_1_FFLPINITDONE;
3081        nw64(FFLP_CFG_1, val);
3082}
3083
3084static void fflp_set_timings(struct niu *np)
3085{
3086        u64 val = nr64(FFLP_CFG_1);
3087
3088        val &= ~FFLP_CFG_1_FFLPINITDONE;
3089        val |= (DEFAULT_FCRAMRATIO << FFLP_CFG_1_FCRAMRATIO_SHIFT);
3090        nw64(FFLP_CFG_1, val);
3091
3092        val = nr64(FFLP_CFG_1);
3093        val |= FFLP_CFG_1_FFLPINITDONE;
3094        nw64(FFLP_CFG_1, val);
3095
3096        val = nr64(FCRAM_REF_TMR);
3097        val &= ~(FCRAM_REF_TMR_MAX | FCRAM_REF_TMR_MIN);
3098        val |= (DEFAULT_FCRAM_REFRESH_MAX << FCRAM_REF_TMR_MAX_SHIFT);
3099        val |= (DEFAULT_FCRAM_REFRESH_MIN << FCRAM_REF_TMR_MIN_SHIFT);
3100        nw64(FCRAM_REF_TMR, val);
3101}
3102
3103static int fflp_set_partition(struct niu *np, u64 partition,
3104                              u64 mask, u64 base, int enable)
3105{
3106        unsigned long reg;
3107        u64 val;
3108
3109        if (partition >= FCRAM_NUM_PARTITIONS ||
3110            (mask & ~(u64)0x1f) != 0 ||
3111            (base & ~(u64)0x1f) != 0)
3112                return -EINVAL;
3113
3114        reg = FLW_PRT_SEL(partition);
3115
3116        val = nr64(reg);
3117        val &= ~(FLW_PRT_SEL_EXT | FLW_PRT_SEL_MASK | FLW_PRT_SEL_BASE);
3118        val |= (mask << FLW_PRT_SEL_MASK_SHIFT);
3119        val |= (base << FLW_PRT_SEL_BASE_SHIFT);
3120        if (enable)
3121                val |= FLW_PRT_SEL_EXT;
3122        nw64(reg, val);
3123
3124        return 0;
3125}
3126
3127static int fflp_disable_all_partitions(struct niu *np)
3128{
3129        unsigned long i;
3130
3131        for (i = 0; i < FCRAM_NUM_PARTITIONS; i++) {
3132                int err = fflp_set_partition(np, 0, 0, 0, 0);
3133                if (err)
3134                        return err;
3135        }
3136        return 0;
3137}
3138
3139static void fflp_llcsnap_enable(struct niu *np, int on)
3140{
3141        u64 val = nr64(FFLP_CFG_1);
3142
3143        if (on)
3144                val |= FFLP_CFG_1_LLCSNAP;
3145        else
3146                val &= ~FFLP_CFG_1_LLCSNAP;
3147        nw64(FFLP_CFG_1, val);
3148}
3149
3150static void fflp_errors_enable(struct niu *np, int on)
3151{
3152        u64 val = nr64(FFLP_CFG_1);
3153
3154        if (on)
3155                val &= ~FFLP_CFG_1_ERRORDIS;
3156        else
3157                val |= FFLP_CFG_1_ERRORDIS;
3158        nw64(FFLP_CFG_1, val);
3159}
3160
3161static int fflp_hash_clear(struct niu *np)
3162{
3163        struct fcram_hash_ipv4 ent;
3164        unsigned long i;
3165
3166        /* IPV4 hash entry with valid bit clear, rest is don't care.  */
3167        memset(&ent, 0, sizeof(ent));
3168        ent.header = HASH_HEADER_EXT;
3169
3170        for (i = 0; i < FCRAM_SIZE; i += sizeof(ent)) {
3171                int err = hash_write(np, 0, i, 1, (u64 *) &ent);
3172                if (err)
3173                        return err;
3174        }
3175        return 0;
3176}
3177
3178static int fflp_early_init(struct niu *np)
3179{
3180        struct niu_parent *parent;
3181        unsigned long flags;
3182        int err;
3183
3184        niu_lock_parent(np, flags);
3185
3186        parent = np->parent;
3187        err = 0;
3188        if (!(parent->flags & PARENT_FLGS_CLS_HWINIT)) {
3189                if (np->parent->plat_type != PLAT_TYPE_NIU) {
3190                        fflp_reset(np);
3191                        fflp_set_timings(np);
3192                        err = fflp_disable_all_partitions(np);
3193                        if (err) {
3194                                netif_printk(np, probe, KERN_DEBUG, np->dev,
3195                                             "fflp_disable_all_partitions failed, err=%d\n",
3196                                             err);
3197                                goto out;
3198                        }
3199                }
3200
3201                err = tcam_early_init(np);
3202                if (err) {
3203                        netif_printk(np, probe, KERN_DEBUG, np->dev,
3204                                     "tcam_early_init failed, err=%d\n", err);
3205                        goto out;
3206                }
3207                fflp_llcsnap_enable(np, 1);
3208                fflp_errors_enable(np, 0);
3209                nw64(H1POLY, 0);
3210                nw64(H2POLY, 0);
3211
3212                err = tcam_flush_all(np);
3213                if (err) {
3214                        netif_printk(np, probe, KERN_DEBUG, np->dev,
3215                                     "tcam_flush_all failed, err=%d\n", err);
3216                        goto out;
3217                }
3218                if (np->parent->plat_type != PLAT_TYPE_NIU) {
3219                        err = fflp_hash_clear(np);
3220                        if (err) {
3221                                netif_printk(np, probe, KERN_DEBUG, np->dev,
3222                                             "fflp_hash_clear failed, err=%d\n",
3223                                             err);
3224                                goto out;
3225                        }
3226                }
3227
3228                vlan_tbl_clear(np);
3229
3230                parent->flags |= PARENT_FLGS_CLS_HWINIT;
3231        }
3232out:
3233        niu_unlock_parent(np, flags);
3234        return err;
3235}
3236
3237static int niu_set_flow_key(struct niu *np, unsigned long class_code, u64 key)
3238{
3239        if (class_code < CLASS_CODE_USER_PROG1 ||
3240            class_code > CLASS_CODE_SCTP_IPV6)
3241                return -EINVAL;
3242
3243        nw64(FLOW_KEY(class_code - CLASS_CODE_USER_PROG1), key);
3244        return 0;
3245}
3246
3247static int niu_set_tcam_key(struct niu *np, unsigned long class_code, u64 key)
3248{
3249        if (class_code < CLASS_CODE_USER_PROG1 ||
3250            class_code > CLASS_CODE_SCTP_IPV6)
3251                return -EINVAL;
3252
3253        nw64(TCAM_KEY(class_code - CLASS_CODE_USER_PROG1), key);
3254        return 0;
3255}
3256
3257/* Entries for the ports are interleaved in the TCAM */
3258static u16 tcam_get_index(struct niu *np, u16 idx)
3259{
3260        /* One entry reserved for IP fragment rule */
3261        if (idx >= (np->clas.tcam_sz - 1))
3262                idx = 0;
3263        return np->clas.tcam_top + ((idx+1) * np->parent->num_ports);
3264}
3265
3266static u16 tcam_get_size(struct niu *np)
3267{
3268        /* One entry reserved for IP fragment rule */
3269        return np->clas.tcam_sz - 1;
3270}
3271
3272static u16 tcam_get_valid_entry_cnt(struct niu *np)
3273{
3274        /* One entry reserved for IP fragment rule */
3275        return np->clas.tcam_valid_entries - 1;
3276}
3277
3278static void niu_rx_skb_append(struct sk_buff *skb, struct page *page,
3279                              u32 offset, u32 size, u32 truesize)
3280{
3281        skb_fill_page_desc(skb, skb_shinfo(skb)->nr_frags, page, offset, size);
3282
3283        skb->len += size;
3284        skb->data_len += size;
3285        skb->truesize += truesize;
3286}
3287
3288static unsigned int niu_hash_rxaddr(struct rx_ring_info *rp, u64 a)
3289{
3290        a >>= PAGE_SHIFT;
3291        a ^= (a >> ilog2(MAX_RBR_RING_SIZE));
3292
3293        return a & (MAX_RBR_RING_SIZE - 1);
3294}
3295
3296static struct page *niu_find_rxpage(struct rx_ring_info *rp, u64 addr,
3297                                    struct page ***link)
3298{
3299        unsigned int h = niu_hash_rxaddr(rp, addr);
3300        struct page *p, **pp;
3301
3302        addr &= PAGE_MASK;
3303        pp = &rp->rxhash[h];
3304        for (; (p = *pp) != NULL; pp = (struct page **) &p->mapping) {
3305                if (p->index == addr) {
3306                        *link = pp;
3307                        goto found;
3308                }
3309        }
3310        BUG();
3311
3312found:
3313        return p;
3314}
3315
3316static void niu_hash_page(struct rx_ring_info *rp, struct page *page, u64 base)
3317{
3318        unsigned int h = niu_hash_rxaddr(rp, base);
3319
3320        page->index = base;
3321        page->mapping = (struct address_space *) rp->rxhash[h];
3322        rp->rxhash[h] = page;
3323}
3324
3325static int niu_rbr_add_page(struct niu *np, struct rx_ring_info *rp,
3326                            gfp_t mask, int start_index)
3327{
3328        struct page *page;
3329        u64 addr;
3330        int i;
3331
3332        page = alloc_page(mask);
3333        if (!page)
3334                return -ENOMEM;
3335
3336        addr = np->ops->map_page(np->device, page, 0,
3337                                 PAGE_SIZE, DMA_FROM_DEVICE);
3338        if (!addr) {
3339                __free_page(page);
3340                return -ENOMEM;
3341        }
3342
3343        niu_hash_page(rp, page, addr);
3344        if (rp->rbr_blocks_per_page > 1)
3345                atomic_add(rp->rbr_blocks_per_page - 1,
3346                           &compound_head(page)->_count);
3347
3348        for (i = 0; i < rp->rbr_blocks_per_page; i++) {
3349                __le32 *rbr = &rp->rbr[start_index + i];
3350
3351                *rbr = cpu_to_le32(addr >> RBR_DESCR_ADDR_SHIFT);
3352                addr += rp->rbr_block_size;
3353        }
3354
3355        return 0;
3356}
3357
3358static void niu_rbr_refill(struct niu *np, struct rx_ring_info *rp, gfp_t mask)
3359{
3360        int index = rp->rbr_index;
3361
3362        rp->rbr_pending++;
3363        if ((rp->rbr_pending % rp->rbr_blocks_per_page) == 0) {
3364                int err = niu_rbr_add_page(np, rp, mask, index);
3365
3366                if (unlikely(err)) {
3367                        rp->rbr_pending--;
3368                        return;
3369                }
3370
3371                rp->rbr_index += rp->rbr_blocks_per_page;
3372                BUG_ON(rp->rbr_index > rp->rbr_table_size);
3373                if (rp->rbr_index == rp->rbr_table_size)
3374                        rp->rbr_index = 0;
3375
3376                if (rp->rbr_pending >= rp->rbr_kick_thresh) {
3377                        nw64(RBR_KICK(rp->rx_channel), rp->rbr_pending);
3378                        rp->rbr_pending = 0;
3379                }
3380        }
3381}
3382
3383static int niu_rx_pkt_ignore(struct niu *np, struct rx_ring_info *rp)
3384{
3385        unsigned int index = rp->rcr_index;
3386        int num_rcr = 0;
3387
3388        rp->rx_dropped++;
3389        while (1) {
3390                struct page *page, **link;
3391                u64 addr, val;
3392                u32 rcr_size;
3393
3394                num_rcr++;
3395
3396                val = le64_to_cpup(&rp->rcr[index]);
3397                addr = (val & RCR_ENTRY_PKT_BUF_ADDR) <<
3398                        RCR_ENTRY_PKT_BUF_ADDR_SHIFT;
3399                page = niu_find_rxpage(rp, addr, &link);
3400
3401                rcr_size = rp->rbr_sizes[(val & RCR_ENTRY_PKTBUFSZ) >>
3402                                         RCR_ENTRY_PKTBUFSZ_SHIFT];
3403                if ((page->index + PAGE_SIZE) - rcr_size == addr) {
3404                        *link = (struct page *) page->mapping;
3405                        np->ops->unmap_page(np->device, page->index,
3406                                            PAGE_SIZE, DMA_FROM_DEVICE);
3407                        page->index = 0;
3408                        page->mapping = NULL;
3409                        __free_page(page);
3410                        rp->rbr_refill_pending++;
3411                }
3412
3413                index = NEXT_RCR(rp, index);
3414                if (!(val & RCR_ENTRY_MULTI))
3415                        break;
3416
3417        }
3418        rp->rcr_index = index;
3419
3420        return num_rcr;
3421}
3422
3423static int niu_process_rx_pkt(struct napi_struct *napi, struct niu *np,
3424                              struct rx_ring_info *rp)
3425{
3426        unsigned int index = rp->rcr_index;
3427        struct rx_pkt_hdr1 *rh;
3428        struct sk_buff *skb;
3429        int len, num_rcr;
3430
3431        skb = netdev_alloc_skb(np->dev, RX_SKB_ALLOC_SIZE);
3432        if (unlikely(!skb))
3433                return niu_rx_pkt_ignore(np, rp);
3434
3435        num_rcr = 0;
3436        while (1) {
3437                struct page *page, **link;
3438                u32 rcr_size, append_size;
3439                u64 addr, val, off;
3440
3441                num_rcr++;
3442
3443                val = le64_to_cpup(&rp->rcr[index]);
3444
3445                len = (val & RCR_ENTRY_L2_LEN) >>
3446                        RCR_ENTRY_L2_LEN_SHIFT;
3447                len -= ETH_FCS_LEN;
3448
3449                addr = (val & RCR_ENTRY_PKT_BUF_ADDR) <<
3450                        RCR_ENTRY_PKT_BUF_ADDR_SHIFT;
3451                page = niu_find_rxpage(rp, addr, &link);
3452
3453                rcr_size = rp->rbr_sizes[(val & RCR_ENTRY_PKTBUFSZ) >>
3454                                         RCR_ENTRY_PKTBUFSZ_SHIFT];
3455
3456                off = addr & ~PAGE_MASK;
3457                append_size = rcr_size;
3458                if (num_rcr == 1) {
3459                        int ptype;
3460
3461                        ptype = (val >> RCR_ENTRY_PKT_TYPE_SHIFT);
3462                        if ((ptype == RCR_PKT_TYPE_TCP ||
3463                             ptype == RCR_PKT_TYPE_UDP) &&
3464                            !(val & (RCR_ENTRY_NOPORT |
3465                                     RCR_ENTRY_ERROR)))
3466                                skb->ip_summed = CHECKSUM_UNNECESSARY;
3467                        else
3468                                skb_checksum_none_assert(skb);
3469                } else if (!(val & RCR_ENTRY_MULTI))
3470                        append_size = len - skb->len;
3471
3472                niu_rx_skb_append(skb, page, off, append_size, rcr_size);
3473                if ((page->index + rp->rbr_block_size) - rcr_size == addr) {
3474                        *link = (struct page *) page->mapping;
3475                        np->ops->unmap_page(np->device, page->index,
3476                                            PAGE_SIZE, DMA_FROM_DEVICE);
3477                        page->index = 0;
3478                        page->mapping = NULL;
3479                        rp->rbr_refill_pending++;
3480                } else
3481                        get_page(page);
3482
3483                index = NEXT_RCR(rp, index);
3484                if (!(val & RCR_ENTRY_MULTI))
3485                        break;
3486
3487        }
3488        rp->rcr_index = index;
3489
3490        len += sizeof(*rh);
3491        len = min_t(int, len, sizeof(*rh) + VLAN_ETH_HLEN);
3492        __pskb_pull_tail(skb, len);
3493
3494        rh = (struct rx_pkt_hdr1 *) skb->data;
3495        if (np->dev->features & NETIF_F_RXHASH)
3496                skb->rxhash = ((u32)rh->hashval2_0 << 24 |
3497                               (u32)rh->hashval2_1 << 16 |
3498                               (u32)rh->hashval1_1 << 8 |
3499                               (u32)rh->hashval1_2 << 0);
3500        skb_pull(skb, sizeof(*rh));
3501
3502        rp->rx_packets++;
3503        rp->rx_bytes += skb->len;
3504
3505        skb->protocol = eth_type_trans(skb, np->dev);
3506        skb_record_rx_queue(skb, rp->rx_channel);
3507        napi_gro_receive(napi, skb);
3508
3509        return num_rcr;
3510}
3511
3512static int niu_rbr_fill(struct niu *np, struct rx_ring_info *rp, gfp_t mask)
3513{
3514        int blocks_per_page = rp->rbr_blocks_per_page;
3515        int err, index = rp->rbr_index;
3516
3517        err = 0;
3518        while (index < (rp->rbr_table_size - blocks_per_page)) {
3519                err = niu_rbr_add_page(np, rp, mask, index);
3520                if (unlikely(err))
3521                        break;
3522
3523                index += blocks_per_page;
3524        }
3525
3526        rp->rbr_index = index;
3527        return err;
3528}
3529
3530static void niu_rbr_free(struct niu *np, struct rx_ring_info *rp)
3531{
3532        int i;
3533
3534        for (i = 0; i < MAX_RBR_RING_SIZE; i++) {
3535                struct page *page;
3536
3537                page = rp->rxhash[i];
3538                while (page) {
3539                        struct page *next = (struct page *) page->mapping;
3540                        u64 base = page->index;
3541
3542                        np->ops->unmap_page(np->device, base, PAGE_SIZE,
3543                                            DMA_FROM_DEVICE);
3544                        page->index = 0;
3545                        page->mapping = NULL;
3546
3547                        __free_page(page);
3548
3549                        page = next;
3550                }
3551        }
3552
3553        for (i = 0; i < rp->rbr_table_size; i++)
3554                rp->rbr[i] = cpu_to_le32(0);
3555        rp->rbr_index = 0;
3556}
3557
3558static int release_tx_packet(struct niu *np, struct tx_ring_info *rp, int idx)
3559{
3560        struct tx_buff_info *tb = &rp->tx_buffs[idx];
3561        struct sk_buff *skb = tb->skb;
3562        struct tx_pkt_hdr *tp;
3563        u64 tx_flags;
3564        int i, len;
3565
3566        tp = (struct tx_pkt_hdr *) skb->data;
3567        tx_flags = le64_to_cpup(&tp->flags);
3568
3569        rp->tx_packets++;
3570        rp->tx_bytes += (((tx_flags & TXHDR_LEN) >> TXHDR_LEN_SHIFT) -
3571                         ((tx_flags & TXHDR_PAD) / 2));
3572
3573        len = skb_headlen(skb);
3574        np->ops->unmap_single(np->device, tb->mapping,
3575                              len, DMA_TO_DEVICE);
3576
3577        if (le64_to_cpu(rp->descr[idx]) & TX_DESC_MARK)
3578                rp->mark_pending--;
3579
3580        tb->skb = NULL;
3581        do {
3582                idx = NEXT_TX(rp, idx);
3583                len -= MAX_TX_DESC_LEN;
3584        } while (len > 0);
3585
3586        for (i = 0; i < skb_shinfo(skb)->nr_frags; i++) {
3587                tb = &rp->tx_buffs[idx];
3588                BUG_ON(tb->skb != NULL);
3589                np->ops->unmap_page(np->device, tb->mapping,
3590                                    skb_frag_size(&skb_shinfo(skb)->frags[i]),
3591                                    DMA_TO_DEVICE);
3592                idx = NEXT_TX(rp, idx);
3593        }
3594
3595        dev_kfree_skb(skb);
3596
3597        return idx;
3598}
3599
3600#define NIU_TX_WAKEUP_THRESH(rp)                ((rp)->pending / 4)
3601
3602static void niu_tx_work(struct niu *np, struct tx_ring_info *rp)
3603{
3604        struct netdev_queue *txq;
3605        u16 pkt_cnt, tmp;
3606        int cons, index;
3607        u64 cs;
3608
3609        index = (rp - np->tx_rings);
3610        txq = netdev_get_tx_queue(np->dev, index);
3611
3612        cs = rp->tx_cs;
3613        if (unlikely(!(cs & (TX_CS_MK | TX_CS_MMK))))
3614                goto out;
3615
3616        tmp = pkt_cnt = (cs & TX_CS_PKT_CNT) >> TX_CS_PKT_CNT_SHIFT;
3617        pkt_cnt = (pkt_cnt - rp->last_pkt_cnt) &
3618                (TX_CS_PKT_CNT >> TX_CS_PKT_CNT_SHIFT);
3619
3620        rp->last_pkt_cnt = tmp;
3621
3622        cons = rp->cons;
3623
3624        netif_printk(np, tx_done, KERN_DEBUG, np->dev,
3625                     "%s() pkt_cnt[%u] cons[%d]\n", __func__, pkt_cnt, cons);
3626
3627        while (pkt_cnt--)
3628                cons = release_tx_packet(np, rp, cons);
3629
3630        rp->cons = cons;
3631        smp_mb();
3632
3633out:
3634        if (unlikely(netif_tx_queue_stopped(txq) &&
3635                     (niu_tx_avail(rp) > NIU_TX_WAKEUP_THRESH(rp)))) {
3636                __netif_tx_lock(txq, smp_processor_id());
3637                if (netif_tx_queue_stopped(txq) &&
3638                    (niu_tx_avail(rp) > NIU_TX_WAKEUP_THRESH(rp)))
3639                        netif_tx_wake_queue(txq);
3640                __netif_tx_unlock(txq);
3641        }
3642}
3643
3644static inline void niu_sync_rx_discard_stats(struct niu *np,
3645                                             struct rx_ring_info *rp,
3646                                             const int limit)
3647{
3648        /* This elaborate scheme is needed for reading the RX discard
3649         * counters, as they are only 16-bit and can overflow quickly,
3650         * and because the overflow indication bit is not usable as
3651         * the counter value does not wrap, but remains at max value
3652         * 0xFFFF.
3653         *
3654         * In theory and in practice counters can be lost in between
3655         * reading nr64() and clearing the counter nw64().  For this
3656         * reason, the number of counter clearings nw64() is
3657         * limited/reduced though the limit parameter.
3658         */
3659        int rx_channel = rp->rx_channel;
3660        u32 misc, wred;
3661
3662        /* RXMISC (Receive Miscellaneous Discard Count), covers the
3663         * following discard events: IPP (Input Port Process),
3664         * FFLP/TCAM, Full RCR (Receive Completion Ring) RBR (Receive
3665         * Block Ring) prefetch buffer is empty.
3666         */
3667        misc = nr64(RXMISC(rx_channel));
3668        if (unlikely((misc & RXMISC_COUNT) > limit)) {
3669                nw64(RXMISC(rx_channel), 0);
3670                rp->rx_errors += misc & RXMISC_COUNT;
3671
3672                if (unlikely(misc & RXMISC_OFLOW))
3673                        dev_err(np->device, "rx-%d: Counter overflow RXMISC discard\n",
3674                                rx_channel);
3675
3676                netif_printk(np, rx_err, KERN_DEBUG, np->dev,
3677                             "rx-%d: MISC drop=%u over=%u\n",
3678                             rx_channel, misc, misc-limit);
3679        }
3680
3681        /* WRED (Weighted Random Early Discard) by hardware */
3682        wred = nr64(RED_DIS_CNT(rx_channel));
3683        if (unlikely((wred & RED_DIS_CNT_COUNT) > limit)) {
3684                nw64(RED_DIS_CNT(rx_channel), 0);
3685                rp->rx_dropped += wred & RED_DIS_CNT_COUNT;
3686
3687                if (unlikely(wred & RED_DIS_CNT_OFLOW))
3688                        dev_err(np->device, "rx-%d: Counter overflow WRED discard\n", rx_channel);
3689
3690                netif_printk(np, rx_err, KERN_DEBUG, np->dev,
3691                             "rx-%d: WRED drop=%u over=%u\n",
3692                             rx_channel, wred, wred-limit);
3693        }
3694}
3695
3696static int niu_rx_work(struct napi_struct *napi, struct niu *np,
3697                       struct rx_ring_info *rp, int budget)
3698{
3699        int qlen, rcr_done = 0, work_done = 0;
3700        struct rxdma_mailbox *mbox = rp->mbox;
3701        u64 stat;
3702
3703#if 1
3704        stat = nr64(RX_DMA_CTL_STAT(rp->rx_channel));
3705        qlen = nr64(RCRSTAT_A(rp->rx_channel)) & RCRSTAT_A_QLEN;
3706#else
3707        stat = le64_to_cpup(&mbox->rx_dma_ctl_stat);
3708        qlen = (le64_to_cpup(&mbox->rcrstat_a) & RCRSTAT_A_QLEN);
3709#endif
3710        mbox->rx_dma_ctl_stat = 0;
3711        mbox->rcrstat_a = 0;
3712
3713        netif_printk(np, rx_status, KERN_DEBUG, np->dev,
3714                     "%s(chan[%d]), stat[%llx] qlen=%d\n",
3715                     __func__, rp->rx_channel, (unsigned long long)stat, qlen);
3716
3717        rcr_done = work_done = 0;
3718        qlen = min(qlen, budget);
3719        while (work_done < qlen) {
3720                rcr_done += niu_process_rx_pkt(napi, np, rp);
3721                work_done++;
3722        }
3723
3724        if (rp->rbr_refill_pending >= rp->rbr_kick_thresh) {
3725                unsigned int i;
3726
3727                for (i = 0; i < rp->rbr_refill_pending; i++)
3728                        niu_rbr_refill(np, rp, GFP_ATOMIC);
3729                rp->rbr_refill_pending = 0;
3730        }
3731
3732        stat = (RX_DMA_CTL_STAT_MEX |
3733                ((u64)work_done << RX_DMA_CTL_STAT_PKTREAD_SHIFT) |
3734                ((u64)rcr_done << RX_DMA_CTL_STAT_PTRREAD_SHIFT));
3735
3736        nw64(RX_DMA_CTL_STAT(rp->rx_channel), stat);
3737
3738        /* Only sync discards stats when qlen indicate potential for drops */
3739        if (qlen > 10)
3740                niu_sync_rx_discard_stats(np, rp, 0x7FFF);
3741
3742        return work_done;
3743}
3744
3745static int niu_poll_core(struct niu *np, struct niu_ldg *lp, int budget)
3746{
3747        u64 v0 = lp->v0;
3748        u32 tx_vec = (v0 >> 32);
3749        u32 rx_vec = (v0 & 0xffffffff);
3750        int i, work_done = 0;
3751
3752        netif_printk(np, intr, KERN_DEBUG, np->dev,
3753                     "%s() v0[%016llx]\n", __func__, (unsigned long long)v0);
3754
3755        for (i = 0; i < np->num_tx_rings; i++) {
3756                struct tx_ring_info *rp = &np->tx_rings[i];
3757                if (tx_vec & (1 << rp->tx_channel))
3758                        niu_tx_work(np, rp);
3759                nw64(LD_IM0(LDN_TXDMA(rp->tx_channel)), 0);
3760        }
3761
3762        for (i = 0; i < np->num_rx_rings; i++) {
3763                struct rx_ring_info *rp = &np->rx_rings[i];
3764
3765                if (rx_vec & (1 << rp->rx_channel)) {
3766                        int this_work_done;
3767
3768                        this_work_done = niu_rx_work(&lp->napi, np, rp,
3769                                                     budget);
3770
3771                        budget -= this_work_done;
3772                        work_done += this_work_done;
3773                }
3774                nw64(LD_IM0(LDN_RXDMA(rp->rx_channel)), 0);
3775        }
3776
3777        return work_done;
3778}
3779
3780static int niu_poll(struct napi_struct *napi, int budget)
3781{
3782        struct niu_ldg *lp = container_of(napi, struct niu_ldg, napi);
3783        struct niu *np = lp->np;
3784        int work_done;
3785
3786        work_done = niu_poll_core(np, lp, budget);
3787
3788        if (work_done < budget) {
3789                napi_complete(napi);
3790                niu_ldg_rearm(np, lp, 1);
3791        }
3792        return work_done;
3793}
3794
3795static void niu_log_rxchan_errors(struct niu *np, struct rx_ring_info *rp,
3796                                  u64 stat)
3797{
3798        netdev_err(np->dev, "RX channel %u errors ( ", rp->rx_channel);
3799
3800        if (stat & RX_DMA_CTL_STAT_RBR_TMOUT)
3801                pr_cont("RBR_TMOUT ");
3802        if (stat & RX_DMA_CTL_STAT_RSP_CNT_ERR)
3803                pr_cont("RSP_CNT ");
3804        if (stat & RX_DMA_CTL_STAT_BYTE_EN_BUS)
3805                pr_cont("BYTE_EN_BUS ");
3806        if (stat & RX_DMA_CTL_STAT_RSP_DAT_ERR)
3807                pr_cont("RSP_DAT ");
3808        if (stat & RX_DMA_CTL_STAT_RCR_ACK_ERR)
3809                pr_cont("RCR_ACK ");
3810        if (stat & RX_DMA_CTL_STAT_RCR_SHA_PAR)
3811                pr_cont("RCR_SHA_PAR ");
3812        if (stat & RX_DMA_CTL_STAT_RBR_PRE_PAR)
3813                pr_cont("RBR_PRE_PAR ");
3814        if (stat & RX_DMA_CTL_STAT_CONFIG_ERR)
3815                pr_cont("CONFIG ");
3816        if (stat & RX_DMA_CTL_STAT_RCRINCON)
3817                pr_cont("RCRINCON ");
3818        if (stat & RX_DMA_CTL_STAT_RCRFULL)
3819                pr_cont("RCRFULL ");
3820        if (stat & RX_DMA_CTL_STAT_RBRFULL)
3821                pr_cont("RBRFULL ");
3822        if (stat & RX_DMA_CTL_STAT_RBRLOGPAGE)
3823                pr_cont("RBRLOGPAGE ");
3824        if (stat & RX_DMA_CTL_STAT_CFIGLOGPAGE)
3825                pr_cont("CFIGLOGPAGE ");
3826        if (stat & RX_DMA_CTL_STAT_DC_FIFO_ERR)
3827                pr_cont("DC_FIDO ");
3828
3829        pr_cont(")\n");
3830}
3831
3832static int niu_rx_error(struct niu *np, struct rx_ring_info *rp)
3833{
3834        u64 stat = nr64(RX_DMA_CTL_STAT(rp->rx_channel));
3835        int err = 0;
3836
3837
3838        if (stat & (RX_DMA_CTL_STAT_CHAN_FATAL |
3839                    RX_DMA_CTL_STAT_PORT_FATAL))
3840                err = -EINVAL;
3841
3842        if (err) {
3843                netdev_err(np->dev, "RX channel %u error, stat[%llx]\n",
3844                           rp->rx_channel,
3845                           (unsigned long long) stat);
3846
3847                niu_log_rxchan_errors(np, rp, stat);
3848        }
3849
3850        nw64(RX_DMA_CTL_STAT(rp->rx_channel),
3851             stat & RX_DMA_CTL_WRITE_CLEAR_ERRS);
3852
3853        return err;
3854}
3855
3856static void niu_log_txchan_errors(struct niu *np, struct tx_ring_info *rp,
3857                                  u64 cs)
3858{
3859        netdev_err(np->dev, "TX channel %u errors ( ", rp->tx_channel);
3860
3861        if (cs & TX_CS_MBOX_ERR)
3862                pr_cont("MBOX ");
3863        if (cs & TX_CS_PKT_SIZE_ERR)
3864                pr_cont("PKT_SIZE ");
3865        if (cs & TX_CS_TX_RING_OFLOW)
3866                pr_cont("TX_RING_OFLOW ");
3867        if (cs & TX_CS_PREF_BUF_PAR_ERR)
3868                pr_cont("PREF_BUF_PAR ");
3869        if (cs & TX_CS_NACK_PREF)
3870                pr_cont("NACK_PREF ");
3871        if (cs & TX_CS_NACK_PKT_RD)
3872                pr_cont("NACK_PKT_RD ");
3873        if (cs & TX_CS_CONF_PART_ERR)
3874                pr_cont("CONF_PART ");
3875        if (cs & TX_CS_PKT_PRT_ERR)
3876                pr_cont("PKT_PTR ");
3877
3878        pr_cont(")\n");
3879}
3880
3881static int niu_tx_error(struct niu *np, struct tx_ring_info *rp)
3882{
3883        u64 cs, logh, logl;
3884
3885        cs = nr64(TX_CS(rp->tx_channel));
3886        logh = nr64(TX_RNG_ERR_LOGH(rp->tx_channel));
3887        logl = nr64(TX_RNG_ERR_LOGL(rp->tx_channel));
3888
3889        netdev_err(np->dev, "TX channel %u error, cs[%llx] logh[%llx] logl[%llx]\n",
3890                   rp->tx_channel,
3891                   (unsigned long long)cs,
3892                   (unsigned long long)logh,
3893                   (unsigned long long)logl);
3894
3895        niu_log_txchan_errors(np, rp, cs);
3896
3897        return -ENODEV;
3898}
3899
3900static int niu_mif_interrupt(struct niu *np)
3901{
3902        u64 mif_status = nr64(MIF_STATUS);
3903        int phy_mdint = 0;
3904
3905        if (np->flags & NIU_FLAGS_XMAC) {
3906                u64 xrxmac_stat = nr64_mac(XRXMAC_STATUS);
3907
3908                if (xrxmac_stat & XRXMAC_STATUS_PHY_MDINT)
3909                        phy_mdint = 1;
3910        }
3911
3912        netdev_err(np->dev, "MIF interrupt, stat[%llx] phy_mdint(%d)\n",
3913                   (unsigned long long)mif_status, phy_mdint);
3914
3915        return -ENODEV;
3916}
3917
3918static void niu_xmac_interrupt(struct niu *np)
3919{
3920        struct niu_xmac_stats *mp = &np->mac_stats.xmac;
3921        u64 val;
3922
3923        val = nr64_mac(XTXMAC_STATUS);
3924        if (val & XTXMAC_STATUS_FRAME_CNT_EXP)
3925                mp->tx_frames += TXMAC_FRM_CNT_COUNT;
3926        if (val & XTXMAC_STATUS_BYTE_CNT_EXP)
3927                mp->tx_bytes += TXMAC_BYTE_CNT_COUNT;
3928        if (val & XTXMAC_STATUS_TXFIFO_XFR_ERR)
3929                mp->tx_fifo_errors++;
3930        if (val & XTXMAC_STATUS_TXMAC_OFLOW)
3931                mp->tx_overflow_errors++;
3932        if (val & XTXMAC_STATUS_MAX_PSIZE_ERR)
3933                mp->tx_max_pkt_size_errors++;
3934        if (val & XTXMAC_STATUS_TXMAC_UFLOW)
3935                mp->tx_underflow_errors++;
3936
3937        val = nr64_mac(XRXMAC_STATUS);
3938        if (val & XRXMAC_STATUS_LCL_FLT_STATUS)
3939                mp->rx_local_faults++;
3940        if (val & XRXMAC_STATUS_RFLT_DET)
3941                mp->rx_remote_faults++;
3942        if (val & XRXMAC_STATUS_LFLT_CNT_EXP)
3943                mp->rx_link_faults += LINK_FAULT_CNT_COUNT;
3944        if (val & XRXMAC_STATUS_ALIGNERR_CNT_EXP)
3945                mp->rx_align_errors += RXMAC_ALIGN_ERR_CNT_COUNT;
3946        if (val & XRXMAC_STATUS_RXFRAG_CNT_EXP)
3947                mp->rx_frags += RXMAC_FRAG_CNT_COUNT;
3948        if (val & XRXMAC_STATUS_RXMULTF_CNT_EXP)
3949                mp->rx_mcasts += RXMAC_MC_FRM_CNT_COUNT;
3950        if (val & XRXMAC_STATUS_RXBCAST_CNT_EXP)
3951                mp->rx_bcasts += RXMAC_BC_FRM_CNT_COUNT;
3952        if (val & XRXMAC_STATUS_RXBCAST_CNT_EXP)
3953                mp->rx_bcasts += RXMAC_BC_FRM_CNT_COUNT;
3954        if (val & XRXMAC_STATUS_RXHIST1_CNT_EXP)
3955                mp->rx_hist_cnt1 += RXMAC_HIST_CNT1_COUNT;
3956        if (val & XRXMAC_STATUS_RXHIST2_CNT_EXP)
3957                mp->rx_hist_cnt2 += RXMAC_HIST_CNT2_COUNT;
3958        if (val & XRXMAC_STATUS_RXHIST3_CNT_EXP)
3959                mp->rx_hist_cnt3 += RXMAC_HIST_CNT3_COUNT;
3960        if (val & XRXMAC_STATUS_RXHIST4_CNT_EXP)
3961                mp->rx_hist_cnt4 += RXMAC_HIST_CNT4_COUNT;
3962        if (val & XRXMAC_STATUS_RXHIST5_CNT_EXP)
3963                mp->rx_hist_cnt5 += RXMAC_HIST_CNT5_COUNT;
3964        if (val & XRXMAC_STATUS_RXHIST6_CNT_EXP)
3965                mp->rx_hist_cnt6 += RXMAC_HIST_CNT6_COUNT;
3966        if (val & XRXMAC_STATUS_RXHIST7_CNT_EXP)
3967                mp->rx_hist_cnt7 += RXMAC_HIST_CNT7_COUNT;
3968        if (val & XRXMAC_STATUS_RXOCTET_CNT_EXP)
3969                mp->rx_octets += RXMAC_BT_CNT_COUNT;
3970        if (val & XRXMAC_STATUS_CVIOLERR_CNT_EXP)
3971                mp->rx_code_violations += RXMAC_CD_VIO_CNT_COUNT;
3972        if (val & XRXMAC_STATUS_LENERR_CNT_EXP)
3973                mp->rx_len_errors += RXMAC_MPSZER_CNT_COUNT;
3974        if (val & XRXMAC_STATUS_CRCERR_CNT_EXP)
3975                mp->rx_crc_errors += RXMAC_CRC_ER_CNT_COUNT;
3976        if (val & XRXMAC_STATUS_RXUFLOW)
3977                mp->rx_underflows++;
3978        if (val & XRXMAC_STATUS_RXOFLOW)
3979                mp->rx_overflows++;
3980
3981        val = nr64_mac(XMAC_FC_STAT);
3982        if (val & XMAC_FC_STAT_TX_MAC_NPAUSE)
3983                mp->pause_off_state++;
3984        if (val & XMAC_FC_STAT_TX_MAC_PAUSE)
3985                mp->pause_on_state++;
3986        if (val & XMAC_FC_STAT_RX_MAC_RPAUSE)
3987                mp->pause_received++;
3988}
3989
3990static void niu_bmac_interrupt(struct niu *np)
3991{
3992        struct niu_bmac_stats *mp = &np->mac_stats.bmac;
3993        u64 val;
3994
3995        val = nr64_mac(BTXMAC_STATUS);
3996        if (val & BTXMAC_STATUS_UNDERRUN)
3997                mp->tx_underflow_errors++;
3998        if (val & BTXMAC_STATUS_MAX_PKT_ERR)
3999                mp->tx_max_pkt_size_errors++;
4000        if (val & BTXMAC_STATUS_BYTE_CNT_EXP)
4001                mp->tx_bytes += BTXMAC_BYTE_CNT_COUNT;
4002        if (val & BTXMAC_STATUS_FRAME_CNT_EXP)
4003                mp->tx_frames += BTXMAC_FRM_CNT_COUNT;
4004
4005        val = nr64_mac(BRXMAC_STATUS);
4006        if (val & BRXMAC_STATUS_OVERFLOW)
4007                mp->rx_overflows++;
4008        if (val & BRXMAC_STATUS_FRAME_CNT_EXP)
4009                mp->rx_frames += BRXMAC_FRAME_CNT_COUNT;
4010        if (val & BRXMAC_STATUS_ALIGN_ERR_EXP)
4011                mp->rx_align_errors += BRXMAC_ALIGN_ERR_CNT_COUNT;
4012        if (val & BRXMAC_STATUS_CRC_ERR_EXP)
4013                mp->rx_crc_errors += BRXMAC_ALIGN_ERR_CNT_COUNT;
4014        if (val & BRXMAC_STATUS_LEN_ERR_EXP)
4015                mp->rx_len_errors += BRXMAC_CODE_VIOL_ERR_CNT_COUNT;
4016
4017        val = nr64_mac(BMAC_CTRL_STATUS);
4018        if (val & BMAC_CTRL_STATUS_NOPAUSE)
4019                mp->pause_off_state++;
4020        if (val & BMAC_CTRL_STATUS_PAUSE)
4021                mp->pause_on_state++;
4022        if (val & BMAC_CTRL_STATUS_PAUSE_RECV)
4023                mp->pause_received++;
4024}
4025
4026static int niu_mac_interrupt(struct niu *np)
4027{
4028        if (np->flags & NIU_FLAGS_XMAC)
4029                niu_xmac_interrupt(np);
4030        else
4031                niu_bmac_interrupt(np);
4032
4033        return 0;
4034}
4035
4036static void niu_log_device_error(struct niu *np, u64 stat)
4037{
4038        netdev_err(np->dev, "Core device errors ( ");
4039
4040        if (stat & SYS_ERR_MASK_META2)
4041                pr_cont("META2 ");
4042        if (stat & SYS_ERR_MASK_META1)
4043                pr_cont("META1 ");
4044        if (stat & SYS_ERR_MASK_PEU)
4045                pr_cont("PEU ");
4046        if (stat & SYS_ERR_MASK_TXC)
4047                pr_cont("TXC ");
4048        if (stat & SYS_ERR_MASK_RDMC)
4049                pr_cont("RDMC ");
4050        if (stat & SYS_ERR_MASK_TDMC)
4051                pr_cont("TDMC ");
4052        if (stat & SYS_ERR_MASK_ZCP)
4053                pr_cont("ZCP ");
4054        if (stat & SYS_ERR_MASK_FFLP)
4055                pr_cont("FFLP ");
4056        if (stat & SYS_ERR_MASK_IPP)
4057                pr_cont("IPP ");
4058        if (stat & SYS_ERR_MASK_MAC)
4059                pr_cont("MAC ");
4060        if (stat & SYS_ERR_MASK_SMX)
4061                pr_cont("SMX ");
4062
4063        pr_cont(")\n");
4064}
4065
4066static int niu_device_error(struct niu *np)
4067{
4068        u64 stat = nr64(SYS_ERR_STAT);
4069
4070        netdev_err(np->dev, "Core device error, stat[%llx]\n",
4071                   (unsigned long long)stat);
4072
4073        niu_log_device_error(np, stat);
4074
4075        return -ENODEV;
4076}
4077
4078static int niu_slowpath_interrupt(struct niu *np, struct niu_ldg *lp,
4079                              u64 v0, u64 v1, u64 v2)
4080{
4081
4082        int i, err = 0;
4083
4084        lp->v0 = v0;
4085        lp->v1 = v1;
4086        lp->v2 = v2;
4087
4088        if (v1 & 0x00000000ffffffffULL) {
4089                u32 rx_vec = (v1 & 0xffffffff);
4090
4091                for (i = 0; i < np->num_rx_rings; i++) {
4092                        struct rx_ring_info *rp = &np->rx_rings[i];
4093
4094                        if (rx_vec & (1 << rp->rx_channel)) {
4095                                int r = niu_rx_error(np, rp);
4096                                if (r) {
4097                                        err = r;
4098                                } else {
4099                                        if (!v0)
4100                                                nw64(RX_DMA_CTL_STAT(rp->rx_channel),
4101                                                     RX_DMA_CTL_STAT_MEX);
4102                                }
4103                        }
4104                }
4105        }
4106        if (v1 & 0x7fffffff00000000ULL) {
4107                u32 tx_vec = (v1 >> 32) & 0x7fffffff;
4108
4109                for (i = 0; i < np->num_tx_rings; i++) {
4110                        struct tx_ring_info *rp = &np->tx_rings[i];
4111
4112                        if (tx_vec & (1 << rp->tx_channel)) {
4113                                int r = niu_tx_error(np, rp);
4114                                if (r)
4115                                        err = r;
4116                        }
4117                }
4118        }
4119        if ((v0 | v1) & 0x8000000000000000ULL) {
4120                int r = niu_mif_interrupt(np);
4121                if (r)
4122                        err = r;
4123        }
4124        if (v2) {
4125                if (v2 & 0x01ef) {
4126                        int r = niu_mac_interrupt(np);
4127                        if (r)
4128                                err = r;
4129                }
4130                if (v2 & 0x0210) {
4131                        int r = niu_device_error(np);
4132                        if (r)
4133                                err = r;
4134                }
4135        }
4136
4137        if (err)
4138                niu_enable_interrupts(np, 0);
4139
4140        return err;
4141}
4142
4143static void niu_rxchan_intr(struct niu *np, struct rx_ring_info *rp,
4144                            int ldn)
4145{
4146        struct rxdma_mailbox *mbox = rp->mbox;
4147        u64 stat_write, stat = le64_to_cpup(&mbox->rx_dma_ctl_stat);
4148
4149        stat_write = (RX_DMA_CTL_STAT_RCRTHRES |
4150                      RX_DMA_CTL_STAT_RCRTO);
4151        nw64(RX_DMA_CTL_STAT(rp->rx_channel), stat_write);
4152
4153        netif_printk(np, intr, KERN_DEBUG, np->dev,
4154                     "%s() stat[%llx]\n", __func__, (unsigned long long)stat);
4155}
4156
4157static void niu_txchan_intr(struct niu *np, struct tx_ring_info *rp,
4158                            int ldn)
4159{
4160        rp->tx_cs = nr64(TX_CS(rp->tx_channel));
4161
4162        netif_printk(np, intr, KERN_DEBUG, np->dev,
4163                     "%s() cs[%llx]\n", __func__, (unsigned long long)rp->tx_cs);
4164}
4165
4166static void __niu_fastpath_interrupt(struct niu *np, int ldg, u64 v0)
4167{
4168        struct niu_parent *parent = np->parent;
4169        u32 rx_vec, tx_vec;
4170        int i;
4171
4172        tx_vec = (v0 >> 32);
4173        rx_vec = (v0 & 0xffffffff);
4174
4175        for (i = 0; i < np->num_rx_rings; i++) {
4176                struct rx_ring_info *rp = &np->rx_rings[i];
4177                int ldn = LDN_RXDMA(rp->rx_channel);
4178
4179                if (parent->ldg_map[ldn] != ldg)
4180                        continue;
4181
4182                nw64(LD_IM0(ldn), LD_IM0_MASK);
4183                if (rx_vec & (1 << rp->rx_channel))
4184                        niu_rxchan_intr(np, rp, ldn);
4185        }
4186
4187        for (i = 0; i < np->num_tx_rings; i++) {
4188                struct tx_ring_info *rp = &np->tx_rings[i];
4189                int ldn = LDN_TXDMA(rp->tx_channel);
4190
4191                if (parent->ldg_map[ldn] != ldg)
4192                        continue;
4193
4194                nw64(LD_IM0(ldn), LD_IM0_MASK);
4195                if (tx_vec & (1 << rp->tx_channel))
4196                        niu_txchan_intr(np, rp, ldn);
4197        }
4198}
4199
4200static void niu_schedule_napi(struct niu *np, struct niu_ldg *lp,
4201                              u64 v0, u64 v1, u64 v2)
4202{
4203        if (likely(napi_schedule_prep(&lp->napi))) {
4204                lp->v0 = v0;
4205                lp->v1 = v1;
4206                lp->v2 = v2;
4207                __niu_fastpath_interrupt(np, lp->ldg_num, v0);
4208                __napi_schedule(&lp->napi);
4209        }
4210}
4211
4212static irqreturn_t niu_interrupt(int irq, void *dev_id)
4213{
4214        struct niu_ldg *lp = dev_id;
4215        struct niu *np = lp->np;
4216        int ldg = lp->ldg_num;
4217        unsigned long flags;
4218        u64 v0, v1, v2;
4219
4220        if (netif_msg_intr(np))
4221                printk(KERN_DEBUG KBUILD_MODNAME ": " "%s() ldg[%p](%d)",
4222                       __func__, lp, ldg);
4223
4224        spin_lock_irqsave(&np->lock, flags);
4225
4226        v0 = nr64(LDSV0(ldg));
4227        v1 = nr64(LDSV1(ldg));
4228        v2 = nr64(LDSV2(ldg));
4229
4230        if (netif_msg_intr(np))
4231                pr_cont(" v0[%llx] v1[%llx] v2[%llx]\n",
4232                       (unsigned long long) v0,
4233                       (unsigned long long) v1,
4234                       (unsigned long long) v2);
4235
4236        if (unlikely(!v0 && !v1 && !v2)) {
4237                spin_unlock_irqrestore(&np->lock, flags);
4238                return IRQ_NONE;
4239        }
4240
4241        if (unlikely((v0 & ((u64)1 << LDN_MIF)) || v1 || v2)) {
4242                int err = niu_slowpath_interrupt(np, lp, v0, v1, v2);
4243                if (err)
4244                        goto out;
4245        }
4246        if (likely(v0 & ~((u64)1 << LDN_MIF)))
4247                niu_schedule_napi(np, lp, v0, v1, v2);
4248        else
4249                niu_ldg_rearm(np, lp, 1);
4250out:
4251        spin_unlock_irqrestore(&np->lock, flags);
4252
4253        return IRQ_HANDLED;
4254}
4255
4256static void niu_free_rx_ring_info(struct niu *np, struct rx_ring_info *rp)
4257{
4258        if (rp->mbox) {
4259                np->ops->free_coherent(np->device,
4260                                       sizeof(struct rxdma_mailbox),
4261                                       rp->mbox, rp->mbox_dma);
4262                rp->mbox = NULL;
4263        }
4264        if (rp->rcr) {
4265                np->ops->free_coherent(np->device,
4266                                       MAX_RCR_RING_SIZE * sizeof(__le64),
4267                                       rp->rcr, rp->rcr_dma);
4268                rp->rcr = NULL;
4269                rp->rcr_table_size = 0;
4270                rp->rcr_index = 0;
4271        }
4272        if (rp->rbr) {
4273                niu_rbr_free(np, rp);
4274
4275                np->ops->free_coherent(np->device,
4276                                       MAX_RBR_RING_SIZE * sizeof(__le32),
4277                                       rp->rbr, rp->rbr_dma);
4278                rp->rbr = NULL;
4279                rp->rbr_table_size = 0;
4280                rp->rbr_index = 0;
4281        }
4282        kfree(rp->rxhash);
4283        rp->rxhash = NULL;
4284}
4285
4286static void niu_free_tx_ring_info(struct niu *np, struct tx_ring_info *rp)
4287{
4288        if (rp->mbox) {
4289                np->ops->free_coherent(np->device,
4290                                       sizeof(struct txdma_mailbox),
4291                                       rp->mbox, rp->mbox_dma);
4292                rp->mbox = NULL;
4293        }
4294        if (rp->descr) {
4295                int i;
4296
4297                for (i = 0; i < MAX_TX_RING_SIZE; i++) {
4298                        if (rp->tx_buffs[i].skb)
4299                                (void) release_tx_packet(np, rp, i);
4300                }
4301
4302                np->ops->free_coherent(np->device,
4303                                       MAX_TX_RING_SIZE * sizeof(__le64),
4304                                       rp->descr, rp->descr_dma);
4305                rp->descr = NULL;
4306                rp->pending = 0;
4307                rp->prod = 0;
4308                rp->cons = 0;
4309                rp->wrap_bit = 0;
4310        }
4311}
4312
4313static void niu_free_channels(struct niu *np)
4314{
4315        int i;
4316
4317        if (np->rx_rings) {
4318                for (i = 0; i < np->num_rx_rings; i++) {
4319                        struct rx_ring_info *rp = &np->rx_rings[i];
4320
4321                        niu_free_rx_ring_info(np, rp);
4322                }
4323                kfree(np->rx_rings);
4324                np->rx_rings = NULL;
4325                np->num_rx_rings = 0;
4326        }
4327
4328        if (np->tx_rings) {
4329                for (i = 0; i < np->num_tx_rings; i++) {
4330                        struct tx_ring_info *rp = &np->tx_rings[i];
4331
4332                        niu_free_tx_ring_info(np, rp);
4333                }
4334                kfree(np->tx_rings);
4335                np->tx_rings = NULL;
4336                np->num_tx_rings = 0;
4337        }
4338}
4339
4340static int niu_alloc_rx_ring_info(struct niu *np,
4341                                  struct rx_ring_info *rp)
4342{
4343        BUILD_BUG_ON(sizeof(struct rxdma_mailbox) != 64);
4344
4345        rp->rxhash = kcalloc(MAX_RBR_RING_SIZE, sizeof(struct page *),
4346                             GFP_KERNEL);
4347        if (!rp->rxhash)
4348                return -ENOMEM;
4349
4350        rp->mbox = np->ops->alloc_coherent(np->device,
4351                                           sizeof(struct rxdma_mailbox),
4352                                           &rp->mbox_dma, GFP_KERNEL);
4353        if (!rp->mbox)
4354                return -ENOMEM;
4355        if ((unsigned long)rp->mbox & (64UL - 1)) {
4356                netdev_err(np->dev, "Coherent alloc gives misaligned RXDMA mailbox %p\n",
4357                           rp->mbox);
4358                return -EINVAL;
4359        }
4360
4361        rp->rcr = np->ops->alloc_coherent(np->device,
4362                                          MAX_RCR_RING_SIZE * sizeof(__le64),
4363                                          &rp->rcr_dma, GFP_KERNEL);
4364        if (!rp->rcr)
4365                return -ENOMEM;
4366        if ((unsigned long)rp->rcr & (64UL - 1)) {
4367                netdev_err(np->dev, "Coherent alloc gives misaligned RXDMA RCR table %p\n",
4368                           rp->rcr);
4369                return -EINVAL;
4370        }
4371        rp->rcr_table_size = MAX_RCR_RING_SIZE;
4372        rp->rcr_index = 0;
4373
4374        rp->rbr = np->ops->alloc_coherent(np->device,
4375                                          MAX_RBR_RING_SIZE * sizeof(__le32),
4376                                          &rp->rbr_dma, GFP_KERNEL);
4377        if (!rp->rbr)
4378                return -ENOMEM;
4379        if ((unsigned long)rp->rbr & (64UL - 1)) {
4380                netdev_err(np->dev, "Coherent alloc gives misaligned RXDMA RBR table %p\n",
4381                           rp->rbr);
4382                return -EINVAL;
4383        }
4384        rp->rbr_table_size = MAX_RBR_RING_SIZE;
4385        rp->rbr_index = 0;
4386        rp->rbr_pending = 0;
4387
4388        return 0;
4389}
4390
4391static void niu_set_max_burst(struct niu *np, struct tx_ring_info *rp)
4392{
4393        int mtu = np->dev->mtu;
4394
4395        /* These values are recommended by the HW designers for fair
4396         * utilization of DRR amongst the rings.
4397         */
4398        rp->max_burst = mtu + 32;
4399        if (rp->max_burst > 4096)
4400                rp->max_burst = 4096;
4401}
4402
4403static int niu_alloc_tx_ring_info(struct niu *np,
4404                                  struct tx_ring_info *rp)
4405{
4406        BUILD_BUG_ON(sizeof(struct txdma_mailbox) != 64);
4407
4408        rp->mbox = np->ops->alloc_coherent(np->device,
4409                                           sizeof(struct txdma_mailbox),
4410                                           &rp->mbox_dma, GFP_KERNEL);
4411        if (!rp->mbox)
4412                return -ENOMEM;
4413        if ((unsigned long)rp->mbox & (64UL - 1)) {
4414                netdev_err(np->dev, "Coherent alloc gives misaligned TXDMA mailbox %p\n",
4415                           rp->mbox);
4416                return -EINVAL;
4417        }
4418
4419        rp->descr = np->ops->alloc_coherent(np->device,
4420                                            MAX_TX_RING_SIZE * sizeof(__le64),
4421                                            &rp->descr_dma, GFP_KERNEL);
4422        if (!rp->descr)
4423                return -ENOMEM;
4424        if ((unsigned long)rp->descr & (64UL - 1)) {
4425                netdev_err(np->dev, "Coherent alloc gives misaligned TXDMA descr table %p\n",
4426                           rp->descr);
4427                return -EINVAL;
4428        }
4429
4430        rp->pending = MAX_TX_RING_SIZE;
4431        rp->prod = 0;
4432        rp->cons = 0;
4433        rp->wrap_bit = 0;
4434
4435        /* XXX make these configurable... XXX */
4436        rp->mark_freq = rp->pending / 4;
4437
4438        niu_set_max_burst(np, rp);
4439
4440        return 0;
4441}
4442
4443static void niu_size_rbr(struct niu *np, struct rx_ring_info *rp)
4444{
4445        u16 bss;
4446
4447        bss = min(PAGE_SHIFT, 15);
4448
4449        rp->rbr_block_size = 1 << bss;
4450        rp->rbr_blocks_per_page = 1 << (PAGE_SHIFT-bss);
4451
4452        rp->rbr_sizes[0] = 256;
4453        rp->rbr_sizes[1] = 1024;
4454        if (np->dev->mtu > ETH_DATA_LEN) {
4455                switch (PAGE_SIZE) {
4456                case 4 * 1024:
4457                        rp->rbr_sizes[2] = 4096;
4458                        break;
4459
4460                default:
4461                        rp->rbr_sizes[2] = 8192;
4462                        break;
4463                }
4464        } else {
4465                rp->rbr_sizes[2] = 2048;
4466        }
4467        rp->rbr_sizes[3] = rp->rbr_block_size;
4468}
4469
4470static int niu_alloc_channels(struct niu *np)
4471{
4472        struct niu_parent *parent = np->parent;
4473        int first_rx_channel, first_tx_channel;
4474        int num_rx_rings, num_tx_rings;
4475        struct rx_ring_info *rx_rings;
4476        struct tx_ring_info *tx_rings;
4477        int i, port, err;
4478
4479        port = np->port;
4480        first_rx_channel = first_tx_channel = 0;
4481        for (i = 0; i < port; i++) {
4482                first_rx_channel += parent->rxchan_per_port[i];
4483                first_tx_channel += parent->txchan_per_port[i];
4484        }
4485
4486        num_rx_rings = parent->rxchan_per_port[port];
4487        num_tx_rings = parent->txchan_per_port[port];
4488
4489        rx_rings = kcalloc(num_rx_rings, sizeof(struct rx_ring_info),
4490                           GFP_KERNEL);
4491        err = -ENOMEM;
4492        if (!rx_rings)
4493                goto out_err;
4494
4495        np->num_rx_rings = num_rx_rings;
4496        smp_wmb();
4497        np->rx_rings = rx_rings;
4498
4499        netif_set_real_num_rx_queues(np->dev, num_rx_rings);
4500
4501        for (i = 0; i < np->num_rx_rings; i++) {
4502                struct rx_ring_info *rp = &np->rx_rings[i];
4503
4504                rp->np = np;
4505                rp->rx_channel = first_rx_channel + i;
4506
4507                err = niu_alloc_rx_ring_info(np, rp);
4508                if (err)
4509                        goto out_err;
4510
4511                niu_size_rbr(np, rp);
4512
4513                /* XXX better defaults, configurable, etc... XXX */
4514                rp->nonsyn_window = 64;
4515                rp->nonsyn_threshold = rp->rcr_table_size - 64;
4516                rp->syn_window = 64;
4517                rp->syn_threshold = rp->rcr_table_size - 64;
4518                rp->rcr_pkt_threshold = 16;
4519                rp->rcr_timeout = 8;
4520                rp->rbr_kick_thresh = RBR_REFILL_MIN;
4521                if (rp->rbr_kick_thresh < rp->rbr_blocks_per_page)
4522                        rp->rbr_kick_thresh = rp->rbr_blocks_per_page;
4523
4524                err = niu_rbr_fill(np, rp, GFP_KERNEL);
4525                if (err)
4526                        return err;
4527        }
4528
4529        tx_rings = kcalloc(num_tx_rings, sizeof(struct tx_ring_info),
4530                           GFP_KERNEL);
4531        err = -ENOMEM;
4532        if (!tx_rings)
4533                goto out_err;
4534
4535        np->num_tx_rings = num_tx_rings;
4536        smp_wmb();
4537        np->tx_rings = tx_rings;
4538
4539        netif_set_real_num_tx_queues(np->dev, num_tx_rings);
4540
4541        for (i = 0; i < np->num_tx_rings; i++) {
4542                struct tx_ring_info *rp = &np->tx_rings[i];
4543
4544                rp->np = np;
4545                rp->tx_channel = first_tx_channel + i;
4546
4547                err = niu_alloc_tx_ring_info(np, rp);
4548                if (err)
4549                        goto out_err;
4550        }
4551
4552        return 0;
4553
4554out_err:
4555        niu_free_channels(np);
4556        return err;
4557}
4558
4559static int niu_tx_cs_sng_poll(struct niu *np, int channel)
4560{
4561        int limit = 1000;
4562
4563        while (--limit > 0) {
4564                u64 val = nr64(TX_CS(channel));
4565                if (val & TX_CS_SNG_STATE)
4566                        return 0;
4567        }
4568        return -ENODEV;
4569}
4570
4571static int niu_tx_channel_stop(struct niu *np, int channel)
4572{
4573        u64 val = nr64(TX_CS(channel));
4574
4575        val |= TX_CS_STOP_N_GO;
4576        nw64(TX_CS(channel), val);
4577
4578        return niu_tx_cs_sng_poll(np, channel);
4579}
4580
4581static int niu_tx_cs_reset_poll(struct niu *np, int channel)
4582{
4583        int limit = 1000;
4584
4585        while (--limit > 0) {
4586                u64 val = nr64(TX_CS(channel));
4587                if (!(val & TX_CS_RST))
4588                        return 0;
4589        }
4590        return -ENODEV;
4591}
4592
4593static int niu_tx_channel_reset(struct niu *np, int channel)
4594{
4595        u64 val = nr64(TX_CS(channel));
4596        int err;
4597
4598        val |= TX_CS_RST;
4599        nw64(TX_CS(channel), val);
4600
4601        err = niu_tx_cs_reset_poll(np, channel);
4602        if (!err)
4603                nw64(TX_RING_KICK(channel), 0);
4604
4605        return err;
4606}
4607
4608static int niu_tx_channel_lpage_init(struct niu *np, int channel)
4609{
4610        u64 val;
4611
4612        nw64(TX_LOG_MASK1(channel), 0);
4613        nw64(TX_LOG_VAL1(channel), 0);
4614        nw64(TX_LOG_MASK2(channel), 0);
4615        nw64(TX_LOG_VAL2(channel), 0);
4616        nw64(TX_LOG_PAGE_RELO1(channel), 0);
4617        nw64(TX_LOG_PAGE_RELO2(channel), 0);
4618        nw64(TX_LOG_PAGE_HDL(channel), 0);
4619
4620        val  = (u64)np->port << TX_LOG_PAGE_VLD_FUNC_SHIFT;
4621        val |= (TX_LOG_PAGE_VLD_PAGE0 | TX_LOG_PAGE_VLD_PAGE1);
4622        nw64(TX_LOG_PAGE_VLD(channel), val);
4623
4624        /* XXX TXDMA 32bit mode? XXX */
4625
4626        return 0;
4627}
4628
4629static void niu_txc_enable_port(struct niu *np, int on)
4630{
4631        unsigned long flags;
4632        u64 val, mask;
4633
4634        niu_lock_parent(np, flags);
4635        val = nr64(TXC_CONTROL);
4636        mask = (u64)1 << np->port;
4637        if (on) {
4638                val |= TXC_CONTROL_ENABLE | mask;
4639        } else {
4640                val &= ~mask;
4641                if ((val & ~TXC_CONTROL_ENABLE) == 0)
4642                        val &= ~TXC_CONTROL_ENABLE;
4643        }
4644        nw64(TXC_CONTROL, val);
4645        niu_unlock_parent(np, flags);
4646}
4647
4648static void niu_txc_set_imask(struct niu *np, u64 imask)
4649{
4650        unsigned long flags;
4651        u64 val;
4652
4653        niu_lock_parent(np, flags);
4654        val = nr64(TXC_INT_MASK);
4655        val &= ~TXC_INT_MASK_VAL(np->port);
4656        val |= (imask << TXC_INT_MASK_VAL_SHIFT(np->port));
4657        niu_unlock_parent(np, flags);
4658}
4659
4660static void niu_txc_port_dma_enable(struct niu *np, int on)
4661{
4662        u64 val = 0;
4663
4664        if (on) {
4665                int i;
4666
4667                for (i = 0; i < np->num_tx_rings; i++)
4668                        val |= (1 << np->tx_rings[i].tx_channel);
4669        }
4670        nw64(TXC_PORT_DMA(np->port), val);
4671}
4672
4673static int niu_init_one_tx_channel(struct niu *np, struct tx_ring_info *rp)
4674{
4675        int err, channel = rp->tx_channel;
4676        u64 val, ring_len;
4677
4678        err = niu_tx_channel_stop(np, channel);
4679        if (err)
4680                return err;
4681
4682        err = niu_tx_channel_reset(np, channel);
4683        if (err)
4684                return err;
4685
4686        err = niu_tx_channel_lpage_init(np, channel);
4687        if (err)
4688                return err;
4689
4690        nw64(TXC_DMA_MAX(channel), rp->max_burst);
4691        nw64(TX_ENT_MSK(channel), 0);
4692
4693        if (rp->descr_dma & ~(TX_RNG_CFIG_STADDR_BASE |
4694                              TX_RNG_CFIG_STADDR)) {
4695                netdev_err(np->dev, "TX ring channel %d DMA addr (%llx) is not aligned\n",
4696                           channel, (unsigned long long)rp->descr_dma);
4697                return -EINVAL;
4698        }
4699
4700        /* The length field in TX_RNG_CFIG is measured in 64-byte
4701         * blocks.  rp->pending is the number of TX descriptors in
4702         * our ring, 8 bytes each, thus we divide by 8 bytes more
4703         * to get the proper value the chip wants.
4704         */
4705        ring_len = (rp->pending / 8);
4706
4707        val = ((ring_len << TX_RNG_CFIG_LEN_SHIFT) |
4708               rp->descr_dma);
4709        nw64(TX_RNG_CFIG(channel), val);
4710
4711        if (((rp->mbox_dma >> 32) & ~TXDMA_MBH_MBADDR) ||
4712            ((u32)rp->mbox_dma & ~TXDMA_MBL_MBADDR)) {
4713                netdev_err(np->dev, "TX ring channel %d MBOX addr (%llx) has invalid bits\n",
4714                            channel, (unsigned long long)rp->mbox_dma);
4715                return -EINVAL;
4716        }
4717        nw64(TXDMA_MBH(channel), rp->mbox_dma >> 32);
4718        nw64(TXDMA_MBL(channel), rp->mbox_dma & TXDMA_MBL_MBADDR);
4719
4720        nw64(TX_CS(channel), 0);
4721
4722        rp->last_pkt_cnt = 0;
4723
4724        return 0;
4725}
4726
4727static void niu_init_rdc_groups(struct niu *np)
4728{
4729        struct niu_rdc_tables *tp = &np->parent->rdc_group_cfg[np->port];
4730        int i, first_table_num = tp->first_table_num;
4731
4732        for (i = 0; i < tp->num_tables; i++) {
4733                struct rdc_table *tbl = &tp->tables[i];
4734                int this_table = first_table_num + i;
4735                int slot;
4736
4737                for (slot = 0; slot < NIU_RDC_TABLE_SLOTS; slot++)
4738                        nw64(RDC_TBL(this_table, slot),
4739                             tbl->rxdma_channel[slot]);
4740        }
4741
4742        nw64(DEF_RDC(np->port), np->parent->rdc_default[np->port]);
4743}
4744
4745static void niu_init_drr_weight(struct niu *np)
4746{
4747        int type = phy_decode(np->parent->port_phy, np->port);
4748        u64 val;
4749
4750        switch (type) {
4751        case PORT_TYPE_10G:
4752                val = PT_DRR_WEIGHT_DEFAULT_10G;
4753                break;
4754
4755        case PORT_TYPE_1G:
4756        default:
4757                val = PT_DRR_WEIGHT_DEFAULT_1G;
4758                break;
4759        }
4760        nw64(PT_DRR_WT(np->port), val);
4761}
4762
4763static int niu_init_hostinfo(struct niu *np)
4764{
4765        struct niu_parent *parent = np->parent;
4766        struct niu_rdc_tables *tp = &parent->rdc_group_cfg[np->port];
4767        int i, err, num_alt = niu_num_alt_addr(np);
4768        int first_rdc_table = tp->first_table_num;
4769
4770        err = niu_set_primary_mac_rdc_table(np, first_rdc_table, 1);
4771        if (err)
4772                return err;
4773
4774        err = niu_set_multicast_mac_rdc_table(np, first_rdc_table, 1);
4775        if (err)
4776                return err;
4777
4778        for (i = 0; i < num_alt; i++) {
4779                err = niu_set_alt_mac_rdc_table(np, i, first_rdc_table, 1);
4780                if (err)
4781                        return err;
4782        }
4783
4784        return 0;
4785}
4786
4787static int niu_rx_channel_reset(struct niu *np, int channel)
4788{
4789        return niu_set_and_wait_clear(np, RXDMA_CFIG1(channel),
4790                                      RXDMA_CFIG1_RST, 1000, 10,
4791                                      "RXDMA_CFIG1");
4792}
4793
4794static int niu_rx_channel_lpage_init(struct niu *np, int channel)
4795{
4796        u64 val;
4797
4798        nw64(RX_LOG_MASK1(channel), 0);
4799        nw64(RX_LOG_VAL1(channel), 0);
4800        nw64(RX_LOG_MASK2(channel), 0);
4801        nw64(RX_LOG_VAL2(channel), 0);
4802        nw64(RX_LOG_PAGE_RELO1(channel), 0);
4803        nw64(RX_LOG_PAGE_RELO2(channel), 0);
4804        nw64(RX_LOG_PAGE_HDL(channel), 0);
4805
4806        val  = (u64)np->port << RX_LOG_PAGE_VLD_FUNC_SHIFT;
4807        val |= (RX_LOG_PAGE_VLD_PAGE0 | RX_LOG_PAGE_VLD_PAGE1);
4808        nw64(RX_LOG_PAGE_VLD(channel), val);
4809
4810        return 0;
4811}
4812
4813static void niu_rx_channel_wred_init(struct niu *np, struct rx_ring_info *rp)
4814{
4815        u64 val;
4816
4817        val = (((u64)rp->nonsyn_window << RDC_RED_PARA_WIN_SHIFT) |
4818               ((u64)rp->nonsyn_threshold << RDC_RED_PARA_THRE_SHIFT) |
4819               ((u64)rp->syn_window << RDC_RED_PARA_WIN_SYN_SHIFT) |
4820               ((u64)rp->syn_threshold << RDC_RED_PARA_THRE_SYN_SHIFT));
4821        nw64(RDC_RED_PARA(rp->rx_channel), val);
4822}
4823
4824static int niu_compute_rbr_cfig_b(struct rx_ring_info *rp, u64 *ret)
4825{
4826        u64 val = 0;
4827
4828        *ret = 0;
4829        switch (rp->rbr_block_size) {
4830        case 4 * 1024:
4831                val |= (RBR_BLKSIZE_4K << RBR_CFIG_B_BLKSIZE_SHIFT);
4832                break;
4833        case 8 * 1024:
4834                val |= (RBR_BLKSIZE_8K << RBR_CFIG_B_BLKSIZE_SHIFT);
4835                break;
4836        case 16 * 1024:
4837                val |= (RBR_BLKSIZE_16K << RBR_CFIG_B_BLKSIZE_SHIFT);
4838                break;
4839        case 32 * 1024:
4840                val |= (RBR_BLKSIZE_32K << RBR_CFIG_B_BLKSIZE_SHIFT);
4841                break;
4842        default:
4843                return -EINVAL;
4844        }
4845        val |= RBR_CFIG_B_VLD2;
4846        switch (rp->rbr_sizes[2]) {
4847        case 2 * 1024:
4848                val |= (RBR_BUFSZ2_2K << RBR_CFIG_B_BUFSZ2_SHIFT);
4849                break;
4850        case 4 * 1024:
4851                val |= (RBR_BUFSZ2_4K << RBR_CFIG_B_BUFSZ2_SHIFT);
4852                break;
4853        case 8 * 1024:
4854                val |= (RBR_BUFSZ2_8K << RBR_CFIG_B_BUFSZ2_SHIFT);
4855                break;
4856        case 16 * 1024:
4857                val |= (RBR_BUFSZ2_16K << RBR_CFIG_B_BUFSZ2_SHIFT);
4858                break;
4859
4860        default:
4861                return -EINVAL;
4862        }
4863        val |= RBR_CFIG_B_VLD1;
4864        switch (rp->rbr_sizes[1]) {
4865        case 1 * 1024:
4866                val |= (RBR_BUFSZ1_1K << RBR_CFIG_B_BUFSZ1_SHIFT);
4867                break;
4868        case 2 * 1024:
4869                val |= (RBR_BUFSZ1_2K << RBR_CFIG_B_BUFSZ1_SHIFT);
4870                break;
4871        case 4 * 1024:
4872                val |= (RBR_BUFSZ1_4K << RBR_CFIG_B_BUFSZ1_SHIFT);
4873                break;
4874        case 8 * 1024:
4875                val |= (RBR_BUFSZ1_8K << RBR_CFIG_B_BUFSZ1_SHIFT);
4876                break;
4877
4878        default:
4879                return -EINVAL;
4880        }
4881        val |= RBR_CFIG_B_VLD0;
4882        switch (rp->rbr_sizes[0]) {
4883        case 256:
4884                val |= (RBR_BUFSZ0_256 << RBR_CFIG_B_BUFSZ0_SHIFT);
4885                break;
4886        case 512:
4887                val |= (RBR_BUFSZ0_512 << RBR_CFIG_B_BUFSZ0_SHIFT);
4888                break;
4889        case 1 * 1024:
4890                val |= (RBR_BUFSZ0_1K << RBR_CFIG_B_BUFSZ0_SHIFT);
4891                break;
4892        case 2 * 1024:
4893                val |= (RBR_BUFSZ0_2K << RBR_CFIG_B_BUFSZ0_SHIFT);
4894                break;
4895
4896        default:
4897                return -EINVAL;
4898        }
4899
4900        *ret = val;
4901        return 0;
4902}
4903
4904static int niu_enable_rx_channel(struct niu *np, int channel, int on)
4905{
4906        u64 val = nr64(RXDMA_CFIG1(channel));
4907        int limit;
4908
4909        if (on)
4910                val |= RXDMA_CFIG1_EN;
4911        else
4912                val &= ~RXDMA_CFIG1_EN;
4913        nw64(RXDMA_CFIG1(channel), val);
4914
4915        limit = 1000;
4916        while (--limit > 0) {
4917                if (nr64(RXDMA_CFIG1(channel)) & RXDMA_CFIG1_QST)
4918                        break;
4919                udelay(10);
4920        }
4921        if (limit <= 0)
4922                return -ENODEV;
4923        return 0;
4924}
4925
4926static int niu_init_one_rx_channel(struct niu *np, struct rx_ring_info *rp)
4927{
4928        int err, channel = rp->rx_channel;
4929        u64 val;
4930
4931        err = niu_rx_channel_reset(np, channel);
4932        if (err)
4933                return err;
4934
4935        err = niu_rx_channel_lpage_init(np, channel);
4936        if (err)
4937                return err;
4938
4939        niu_rx_channel_wred_init(np, rp);
4940
4941        nw64(RX_DMA_ENT_MSK(channel), RX_DMA_ENT_MSK_RBR_EMPTY);
4942        nw64(RX_DMA_CTL_STAT(channel),
4943             (RX_DMA_CTL_STAT_MEX |
4944              RX_DMA_CTL_STAT_RCRTHRES |
4945              RX_DMA_CTL_STAT_RCRTO |
4946              RX_DMA_CTL_STAT_RBR_EMPTY));
4947        nw64(RXDMA_CFIG1(channel), rp->mbox_dma >> 32);
4948        nw64(RXDMA_CFIG2(channel),
4949             ((rp->mbox_dma & RXDMA_CFIG2_MBADDR_L) |
4950              RXDMA_CFIG2_FULL_HDR));
4951        nw64(RBR_CFIG_A(channel),
4952             ((u64)rp->rbr_table_size << RBR_CFIG_A_LEN_SHIFT) |
4953             (rp->rbr_dma & (RBR_CFIG_A_STADDR_BASE | RBR_CFIG_A_STADDR)));
4954        err = niu_compute_rbr_cfig_b(rp, &val);
4955        if (err)
4956                return err;
4957        nw64(RBR_CFIG_B(channel), val);
4958        nw64(RCRCFIG_A(channel),
4959             ((u64)rp->rcr_table_size << RCRCFIG_A_LEN_SHIFT) |
4960             (rp->rcr_dma & (RCRCFIG_A_STADDR_BASE | RCRCFIG_A_STADDR)));
4961        nw64(RCRCFIG_B(channel),
4962             ((u64)rp->rcr_pkt_threshold << RCRCFIG_B_PTHRES_SHIFT) |
4963             RCRCFIG_B_ENTOUT |
4964             ((u64)rp->rcr_timeout << RCRCFIG_B_TIMEOUT_SHIFT));
4965
4966        err = niu_enable_rx_channel(np, channel, 1);
4967        if (err)
4968                return err;
4969
4970        nw64(RBR_KICK(channel), rp->rbr_index);
4971
4972        val = nr64(RX_DMA_CTL_STAT(channel));
4973        val |= RX_DMA_CTL_STAT_RBR_EMPTY;
4974        nw64(RX_DMA_CTL_STAT(channel), val);
4975
4976        return 0;
4977}
4978
4979static int niu_init_rx_channels(struct niu *np)
4980{
4981        unsigned long flags;
4982        u64 seed = jiffies_64;
4983        int err, i;
4984
4985        niu_lock_parent(np, flags);
4986        nw64(RX_DMA_CK_DIV, np->parent->rxdma_clock_divider);
4987        nw64(RED_RAN_INIT, RED_RAN_INIT_OPMODE | (seed & RED_RAN_INIT_VAL));
4988        niu_unlock_parent(np, flags);
4989
4990        /* XXX RXDMA 32bit mode? XXX */
4991
4992        niu_init_rdc_groups(np);
4993        niu_init_drr_weight(np);
4994
4995        err = niu_init_hostinfo(np);
4996        if (err)
4997                return err;
4998
4999        for (i = 0; i < np->num_rx_rings; i++) {
5000                struct rx_ring_info *rp = &np->rx_rings[i];
5001
5002                err = niu_init_one_rx_channel(np, rp);
5003                if (err)
5004                        return err;
5005        }
5006
5007        return 0;
5008}
5009
5010static int niu_set_ip_frag_rule(struct niu *np)
5011{
5012        struct niu_parent *parent = np->parent;
5013        struct niu_classifier *cp = &np->clas;
5014        struct niu_tcam_entry *tp;
5015        int index, err;
5016
5017        index = cp->tcam_top;
5018        tp = &parent->tcam[index];
5019
5020        /* Note that the noport bit is the same in both ipv4 and
5021         * ipv6 format TCAM entries.
5022         */
5023        memset(tp, 0, sizeof(*tp));
5024        tp->key[1] = TCAM_V4KEY1_NOPORT;
5025        tp->key_mask[1] = TCAM_V4KEY1_NOPORT;
5026        tp->assoc_data = (TCAM_ASSOCDATA_TRES_USE_OFFSET |
5027                          ((u64)0 << TCAM_ASSOCDATA_OFFSET_SHIFT));
5028        err = tcam_write(np, index, tp->key, tp->key_mask);
5029        if (err)
5030                return err;
5031        err = tcam_assoc_write(np, index, tp->assoc_data);
5032        if (err)
5033                return err;
5034        tp->valid = 1;
5035        cp->tcam_valid_entries++;
5036
5037        return 0;
5038}
5039
5040static int niu_init_classifier_hw(struct niu *np)
5041{
5042        struct niu_parent *parent = np->parent;
5043        struct niu_classifier *cp = &np->clas;
5044        int i, err;
5045
5046        nw64(H1POLY, cp->h1_init);
5047        nw64(H2POLY, cp->h2_init);
5048
5049        err = niu_init_hostinfo(np);
5050        if (err)
5051                return err;
5052
5053        for (i = 0; i < ENET_VLAN_TBL_NUM_ENTRIES; i++) {
5054                struct niu_vlan_rdc *vp = &cp->vlan_mappings[i];
5055
5056                vlan_tbl_write(np, i, np->port,
5057                               vp->vlan_pref, vp->rdc_num);
5058        }
5059
5060        for (i = 0; i < cp->num_alt_mac_mappings; i++) {
5061                struct niu_altmac_rdc *ap = &cp->alt_mac_mappings[i];
5062
5063                err = niu_set_alt_mac_rdc_table(np, ap->alt_mac_num,
5064                                                ap->rdc_num, ap->mac_pref);
5065                if (err)
5066                        return err;
5067        }
5068
5069        for (i = CLASS_CODE_USER_PROG1; i <= CLASS_CODE_SCTP_IPV6; i++) {
5070                int index = i - CLASS_CODE_USER_PROG1;
5071
5072                err = niu_set_tcam_key(np, i, parent->tcam_key[index]);
5073                if (err)
5074                        return err;
5075                err = niu_set_flow_key(np, i, parent->flow_key[index]);
5076                if (err)
5077                        return err;
5078        }
5079
5080        err = niu_set_ip_frag_rule(np);
5081        if (err)
5082                return err;
5083
5084        tcam_enable(np, 1);
5085
5086        return 0;
5087}
5088
5089static int niu_zcp_write(struct niu *np, int index, u64 *data)
5090{
5091        nw64(ZCP_RAM_DATA0, data[0]);
5092        nw64(ZCP_RAM_DATA1, data[1]);
5093        nw64(ZCP_RAM_DATA2, data[2]);
5094        nw64(ZCP_RAM_DATA3, data[3]);
5095        nw64(ZCP_RAM_DATA4, data[4]);
5096        nw64(ZCP_RAM_BE, ZCP_RAM_BE_VAL);
5097        nw64(ZCP_RAM_ACC,
5098             (ZCP_RAM_ACC_WRITE |
5099              (0 << ZCP_RAM_ACC_ZFCID_SHIFT) |
5100              (ZCP_RAM_SEL_CFIFO(np->port) << ZCP_RAM_ACC_RAM_SEL_SHIFT)));
5101
5102        return niu_wait_bits_clear(np, ZCP_RAM_ACC, ZCP_RAM_ACC_BUSY,
5103                                   1000, 100);
5104}
5105
5106static int niu_zcp_read(struct niu *np, int index, u64 *data)
5107{
5108        int err;
5109
5110        err = niu_wait_bits_clear(np, ZCP_RAM_ACC, ZCP_RAM_ACC_BUSY,
5111                                  1000, 100);
5112        if (err) {
5113                netdev_err(np->dev, "ZCP read busy won't clear, ZCP_RAM_ACC[%llx]\n",
5114                           (unsigned long long)nr64(ZCP_RAM_ACC));
5115                return err;
5116        }
5117
5118        nw64(ZCP_RAM_ACC,
5119             (ZCP_RAM_ACC_READ |
5120              (0 << ZCP_RAM_ACC_ZFCID_SHIFT) |
5121              (ZCP_RAM_SEL_CFIFO(np->port) << ZCP_RAM_ACC_RAM_SEL_SHIFT)));
5122
5123        err = niu_wait_bits_clear(np, ZCP_RAM_ACC, ZCP_RAM_ACC_BUSY,
5124                                  1000, 100);
5125        if (err) {
5126                netdev_err(np->dev, "ZCP read busy2 won't clear, ZCP_RAM_ACC[%llx]\n",
5127                           (unsigned long long)nr64(ZCP_RAM_ACC));
5128                return err;
5129        }
5130
5131        data[0] = nr64(ZCP_RAM_DATA0);
5132        data[1] = nr64(ZCP_RAM_DATA1);
5133        data[2] = nr64(ZCP_RAM_DATA2);
5134        data[3] = nr64(ZCP_RAM_DATA3);
5135        data[4] = nr64(ZCP_RAM_DATA4);
5136
5137        return 0;
5138}
5139
5140static void niu_zcp_cfifo_reset(struct niu *np)
5141{
5142        u64 val = nr64(RESET_CFIFO);
5143
5144        val |= RESET_CFIFO_RST(np->port);
5145        nw64(RESET_CFIFO, val);
5146        udelay(10);
5147
5148        val &= ~RESET_CFIFO_RST(np->port);
5149        nw64(RESET_CFIFO, val);
5150}
5151
5152static int niu_init_zcp(struct niu *np)
5153{
5154        u64 data[5], rbuf[5];
5155        int i, max, err;
5156
5157        if (np->parent->plat_type != PLAT_TYPE_NIU) {
5158                if (np->port == 0 || np->port == 1)
5159                        max = ATLAS_P0_P1_CFIFO_ENTRIES;
5160                else
5161                        max = ATLAS_P2_P3_CFIFO_ENTRIES;
5162        } else
5163                max = NIU_CFIFO_ENTRIES;
5164
5165        data[0] = 0;
5166        data[1] = 0;
5167        data[2] = 0;
5168        data[3] = 0;
5169        data[4] = 0;
5170
5171        for (i = 0; i < max; i++) {
5172                err = niu_zcp_write(np, i, data);
5173                if (err)
5174                        return err;
5175                err = niu_zcp_read(np, i, rbuf);
5176                if (err)
5177                        return err;
5178        }
5179
5180        niu_zcp_cfifo_reset(np);
5181        nw64(CFIFO_ECC(np->port), 0);
5182        nw64(ZCP_INT_STAT, ZCP_INT_STAT_ALL);
5183        (void) nr64(ZCP_INT_STAT);
5184        nw64(ZCP_INT_MASK, ZCP_INT_MASK_ALL);
5185
5186        return 0;
5187}
5188
5189static void niu_ipp_write(struct niu *np, int index, u64 *data)
5190{
5191        u64 val = nr64_ipp(IPP_CFIG);
5192
5193        nw64_ipp(IPP_CFIG, val | IPP_CFIG_DFIFO_PIO_W);
5194        nw64_ipp(IPP_DFIFO_WR_PTR, index);
5195        nw64_ipp(IPP_DFIFO_WR0, data[0]);
5196        nw64_ipp(IPP_DFIFO_WR1, data[1]);
5197        nw64_ipp(IPP_DFIFO_WR2, data[2]);
5198        nw64_ipp(IPP_DFIFO_WR3, data[3]);
5199        nw64_ipp(IPP_DFIFO_WR4, data[4]);
5200        nw64_ipp(IPP_CFIG, val & ~IPP_CFIG_DFIFO_PIO_W);
5201}
5202
5203static void niu_ipp_read(struct niu *np, int index, u64 *data)
5204{
5205        nw64_ipp(IPP_DFIFO_RD_PTR, index);
5206        data[0] = nr64_ipp(IPP_DFIFO_RD0);
5207        data[1] = nr64_ipp(IPP_DFIFO_RD1);
5208        data[2] = nr64_ipp(IPP_DFIFO_RD2);
5209        data[3] = nr64_ipp(IPP_DFIFO_RD3);
5210        data[4] = nr64_ipp(IPP_DFIFO_RD4);
5211}
5212
5213static int niu_ipp_reset(struct niu *np)
5214{
5215        return niu_set_and_wait_clear_ipp(np, IPP_CFIG, IPP_CFIG_SOFT_RST,
5216                                          1000, 100, "IPP_CFIG");
5217}
5218
5219static int niu_init_ipp(struct niu *np)
5220{
5221        u64 data[5], rbuf[5], val;
5222        int i, max, err;
5223
5224        if (np->parent->plat_type != PLAT_TYPE_NIU) {
5225                if (np->port == 0 || np->port == 1)
5226                        max = ATLAS_P0_P1_DFIFO_ENTRIES;
5227                else
5228                        max = ATLAS_P2_P3_DFIFO_ENTRIES;
5229        } else
5230                max = NIU_DFIFO_ENTRIES;
5231
5232        data[0] = 0;
5233        data[1] = 0;
5234        data[2] = 0;
5235        data[3] = 0;
5236        data[4] = 0;
5237
5238        for (i = 0; i < max; i++) {
5239                niu_ipp_write(np, i, data);
5240                niu_ipp_read(np, i, rbuf);
5241        }
5242
5243        (void) nr64_ipp(IPP_INT_STAT);
5244        (void) nr64_ipp(IPP_INT_STAT);
5245
5246        err = niu_ipp_reset(np);
5247        if (err)
5248                return err;
5249
5250        (void) nr64_ipp(IPP_PKT_DIS);
5251        (void) nr64_ipp(IPP_BAD_CS_CNT);
5252        (void) nr64_ipp(IPP_ECC);
5253
5254        (void) nr64_ipp(IPP_INT_STAT);
5255
5256        nw64_ipp(IPP_MSK, ~IPP_MSK_ALL);
5257
5258        val = nr64_ipp(IPP_CFIG);
5259        val &= ~IPP_CFIG_IP_MAX_PKT;
5260        val |= (IPP_CFIG_IPP_ENABLE |
5261                IPP_CFIG_DFIFO_ECC_EN |
5262                IPP_CFIG_DROP_BAD_CRC |
5263                IPP_CFIG_CKSUM_EN |
5264                (0x1ffff << IPP_CFIG_IP_MAX_PKT_SHIFT));
5265        nw64_ipp(IPP_CFIG, val);
5266
5267        return 0;
5268}
5269
5270static void niu_handle_led(struct niu *np, int status)
5271{
5272        u64 val;
5273        val = nr64_mac(XMAC_CONFIG);
5274
5275        if ((np->flags & NIU_FLAGS_10G) != 0 &&
5276            (np->flags & NIU_FLAGS_FIBER) != 0) {
5277                if (status) {
5278                        val |= XMAC_CONFIG_LED_POLARITY;
5279                        val &= ~XMAC_CONFIG_FORCE_LED_ON;
5280                } else {
5281                        val |= XMAC_CONFIG_FORCE_LED_ON;
5282                        val &= ~XMAC_CONFIG_LED_POLARITY;
5283                }
5284        }
5285
5286        nw64_mac(XMAC_CONFIG, val);
5287}
5288
5289static void niu_init_xif_xmac(struct niu *np)
5290{
5291        struct niu_link_config *lp = &np->link_config;
5292        u64 val;
5293
5294        if (np->flags & NIU_FLAGS_XCVR_SERDES) {
5295                val = nr64(MIF_CONFIG);
5296                val |= MIF_CONFIG_ATCA_GE;
5297                nw64(MIF_CONFIG, val);
5298        }
5299
5300        val = nr64_mac(XMAC_CONFIG);
5301        val &= ~XMAC_CONFIG_SEL_POR_CLK_SRC;
5302
5303        val |= XMAC_CONFIG_TX_OUTPUT_EN;
5304
5305        if (lp->loopback_mode == LOOPBACK_MAC) {
5306                val &= ~XMAC_CONFIG_SEL_POR_CLK_SRC;
5307                val |= XMAC_CONFIG_LOOPBACK;
5308        } else {
5309                val &= ~XMAC_CONFIG_LOOPBACK;
5310        }
5311
5312        if (np->flags & NIU_FLAGS_10G) {
5313                val &= ~XMAC_CONFIG_LFS_DISABLE;
5314        } else {
5315                val |= XMAC_CONFIG_LFS_DISABLE;
5316                if (!(np->flags & NIU_FLAGS_FIBER) &&
5317                    !(np->flags & NIU_FLAGS_XCVR_SERDES))
5318                        val |= XMAC_CONFIG_1G_PCS_BYPASS;
5319                else
5320                        val &= ~XMAC_CONFIG_1G_PCS_BYPASS;
5321        }
5322
5323        val &= ~XMAC_CONFIG_10G_XPCS_BYPASS;
5324
5325        if (lp->active_speed == SPEED_100)
5326                val |= XMAC_CONFIG_SEL_CLK_25MHZ;
5327        else
5328                val &= ~XMAC_CONFIG_SEL_CLK_25MHZ;
5329
5330        nw64_mac(XMAC_CONFIG, val);
5331
5332        val = nr64_mac(XMAC_CONFIG);
5333        val &= ~XMAC_CONFIG_MODE_MASK;
5334        if (np->flags & NIU_FLAGS_10G) {
5335                val |= XMAC_CONFIG_MODE_XGMII;
5336        } else {
5337                if (lp->active_speed == SPEED_1000)
5338                        val |= XMAC_CONFIG_MODE_GMII;
5339                else
5340                        val |= XMAC_CONFIG_MODE_MII;
5341        }
5342
5343        nw64_mac(XMAC_CONFIG, val);
5344}
5345
5346static void niu_init_xif_bmac(struct niu *np)
5347{
5348        struct niu_link_config *lp = &np->link_config;
5349        u64 val;
5350
5351        val = BMAC_XIF_CONFIG_TX_OUTPUT_EN;
5352
5353        if (lp->loopback_mode == LOOPBACK_MAC)
5354                val |= BMAC_XIF_CONFIG_MII_LOOPBACK;
5355        else
5356                val &= ~BMAC_XIF_CONFIG_MII_LOOPBACK;
5357
5358        if (lp->active_speed == SPEED_1000)
5359                val |= BMAC_XIF_CONFIG_GMII_MODE;
5360        else
5361                val &= ~BMAC_XIF_CONFIG_GMII_MODE;
5362
5363        val &= ~(BMAC_XIF_CONFIG_LINK_LED |
5364                 BMAC_XIF_CONFIG_LED_POLARITY);
5365
5366        if (!(np->flags & NIU_FLAGS_10G) &&
5367            !(np->flags & NIU_FLAGS_FIBER) &&
5368            lp->active_speed == SPEED_100)
5369                val |= BMAC_XIF_CONFIG_25MHZ_CLOCK;
5370        else
5371                val &= ~BMAC_XIF_CONFIG_25MHZ_CLOCK;
5372
5373        nw64_mac(BMAC_XIF_CONFIG, val);
5374}
5375
5376static void niu_init_xif(struct niu *np)
5377{
5378        if (np->flags & NIU_FLAGS_XMAC)
5379                niu_init_xif_xmac(np);
5380        else
5381                niu_init_xif_bmac(np);
5382}
5383
5384static void niu_pcs_mii_reset(struct niu *np)
5385{
5386        int limit = 1000;
5387        u64 val = nr64_pcs(PCS_MII_CTL);
5388        val |= PCS_MII_CTL_RST;
5389        nw64_pcs(PCS_MII_CTL, val);
5390        while ((--limit >= 0) && (val & PCS_MII_CTL_RST)) {
5391                udelay(100);
5392                val = nr64_pcs(PCS_MII_CTL);
5393        }
5394}
5395
5396static void niu_xpcs_reset(struct niu *np)
5397{
5398        int limit = 1000;
5399        u64 val = nr64_xpcs(XPCS_CONTROL1);
5400        val |= XPCS_CONTROL1_RESET;
5401        nw64_xpcs(XPCS_CONTROL1, val);
5402        while ((--limit >= 0) && (val & XPCS_CONTROL1_RESET)) {
5403                udelay(100);
5404                val = nr64_xpcs(XPCS_CONTROL1);
5405        }
5406}
5407
5408static int niu_init_pcs(struct niu *np)
5409{
5410        struct niu_link_config *lp = &np->link_config;
5411        u64 val;
5412
5413        switch (np->flags & (NIU_FLAGS_10G |
5414                             NIU_FLAGS_FIBER |
5415                             NIU_FLAGS_XCVR_SERDES)) {
5416        case NIU_FLAGS_FIBER:
5417                /* 1G fiber */
5418                nw64_pcs(PCS_CONF, PCS_CONF_MASK | PCS_CONF_ENABLE);
5419                nw64_pcs(PCS_DPATH_MODE, 0);
5420                niu_pcs_mii_reset(np);
5421                break;
5422
5423        case NIU_FLAGS_10G:
5424        case NIU_FLAGS_10G | NIU_FLAGS_FIBER:
5425        case NIU_FLAGS_10G | NIU_FLAGS_XCVR_SERDES:
5426                /* 10G SERDES */
5427                if (!(np->flags & NIU_FLAGS_XMAC))
5428                        return -EINVAL;
5429
5430                /* 10G copper or fiber */
5431                val = nr64_mac(XMAC_CONFIG);
5432                val &= ~XMAC_CONFIG_10G_XPCS_BYPASS;
5433                nw64_mac(XMAC_CONFIG, val);
5434
5435                niu_xpcs_reset(np);
5436
5437                val = nr64_xpcs(XPCS_CONTROL1);
5438                if (lp->loopback_mode == LOOPBACK_PHY)
5439                        val |= XPCS_CONTROL1_LOOPBACK;
5440                else
5441                        val &= ~XPCS_CONTROL1_LOOPBACK;
5442                nw64_xpcs(XPCS_CONTROL1, val);
5443
5444                nw64_xpcs(XPCS_DESKEW_ERR_CNT, 0);
5445                (void) nr64_xpcs(XPCS_SYMERR_CNT01);
5446                (void) nr64_xpcs(XPCS_SYMERR_CNT23);
5447                break;
5448
5449
5450        case NIU_FLAGS_XCVR_SERDES:
5451                /* 1G SERDES */
5452                niu_pcs_mii_reset(np);
5453                nw64_pcs(PCS_CONF, PCS_CONF_MASK | PCS_CONF_ENABLE);
5454                nw64_pcs(PCS_DPATH_MODE, 0);
5455                break;
5456
5457        case 0:
5458                /* 1G copper */
5459        case NIU_FLAGS_XCVR_SERDES | NIU_FLAGS_FIBER:
5460                /* 1G RGMII FIBER */
5461                nw64_pcs(PCS_DPATH_MODE, PCS_DPATH_MODE_MII);
5462                niu_pcs_mii_reset(np);
5463                break;
5464
5465        default:
5466                return -EINVAL;
5467        }
5468
5469        return 0;
5470}
5471
5472static int niu_reset_tx_xmac(struct niu *np)
5473{
5474        return niu_set_and_wait_clear_mac(np, XTXMAC_SW_RST,
5475                                          (XTXMAC_SW_RST_REG_RS |
5476                                           XTXMAC_SW_RST_SOFT_RST),
5477                                          1000, 100, "XTXMAC_SW_RST");
5478}
5479
5480static int niu_reset_tx_bmac(struct niu *np)
5481{
5482        int limit;
5483
5484        nw64_mac(BTXMAC_SW_RST, BTXMAC_SW_RST_RESET);
5485        limit = 1000;
5486        while (--limit >= 0) {
5487                if (!(nr64_mac(BTXMAC_SW_RST) & BTXMAC_SW_RST_RESET))
5488                        break;
5489                udelay(100);
5490        }
5491        if (limit < 0) {
5492                dev_err(np->device, "Port %u TX BMAC would not reset, BTXMAC_SW_RST[%llx]\n",
5493                        np->port,
5494                        (unsigned long long) nr64_mac(BTXMAC_SW_RST));
5495                return -ENODEV;
5496        }
5497
5498        return 0;
5499}
5500
5501static int niu_reset_tx_mac(struct niu *np)
5502{
5503        if (np->flags & NIU_FLAGS_XMAC)
5504                return niu_reset_tx_xmac(np);
5505        else
5506                return niu_reset_tx_bmac(np);
5507}
5508
5509static void niu_init_tx_xmac(struct niu *np, u64 min, u64 max)
5510{
5511        u64 val;
5512
5513        val = nr64_mac(XMAC_MIN);
5514        val &= ~(XMAC_MIN_TX_MIN_PKT_SIZE |
5515                 XMAC_MIN_RX_MIN_PKT_SIZE);
5516        val |= (min << XMAC_MIN_RX_MIN_PKT_SIZE_SHFT);
5517        val |= (min << XMAC_MIN_TX_MIN_PKT_SIZE_SHFT);
5518        nw64_mac(XMAC_MIN, val);
5519
5520        nw64_mac(XMAC_MAX, max);
5521
5522        nw64_mac(XTXMAC_STAT_MSK, ~(u64)0);
5523
5524        val = nr64_mac(XMAC_IPG);
5525        if (np->flags & NIU_FLAGS_10G) {
5526                val &= ~XMAC_IPG_IPG_XGMII;
5527                val |= (IPG_12_15_XGMII << XMAC_IPG_IPG_XGMII_SHIFT);
5528        } else {
5529                val &= ~XMAC_IPG_IPG_MII_GMII;
5530                val |= (IPG_12_MII_GMII << XMAC_IPG_IPG_MII_GMII_SHIFT);
5531        }
5532        nw64_mac(XMAC_IPG, val);
5533
5534        val = nr64_mac(XMAC_CONFIG);
5535        val &= ~(XMAC_CONFIG_ALWAYS_NO_CRC |
5536                 XMAC_CONFIG_STRETCH_MODE |
5537                 XMAC_CONFIG_VAR_MIN_IPG_EN |
5538                 XMAC_CONFIG_TX_ENABLE);
5539        nw64_mac(XMAC_CONFIG, val);
5540
5541        nw64_mac(TXMAC_FRM_CNT, 0);
5542        nw64_mac(TXMAC_BYTE_CNT, 0);
5543}
5544
5545static void niu_init_tx_bmac(struct niu *np, u64 min, u64 max)
5546{
5547        u64 val;
5548
5549        nw64_mac(BMAC_MIN_FRAME, min);
5550        nw64_mac(BMAC_MAX_FRAME, max);
5551
5552        nw64_mac(BTXMAC_STATUS_MASK, ~(u64)0);
5553        nw64_mac(BMAC_CTRL_TYPE, 0x8808);
5554        nw64_mac(BMAC_PREAMBLE_SIZE, 7);
5555
5556        val = nr64_mac(BTXMAC_CONFIG);
5557        val &= ~(BTXMAC_CONFIG_FCS_DISABLE |
5558                 BTXMAC_CONFIG_ENABLE);
5559        nw64_mac(BTXMAC_CONFIG, val);
5560}
5561
5562static void niu_init_tx_mac(struct niu *np)
5563{
5564        u64 min, max;
5565
5566        min = 64;
5567        if (np->dev->mtu > ETH_DATA_LEN)
5568                max = 9216;
5569        else
5570                max = 1522;
5571
5572        /* The XMAC_MIN register only accepts values for TX min which
5573         * have the low 3 bits cleared.
5574         */
5575        BUG_ON(min & 0x7);
5576
5577        if (np->flags & NIU_FLAGS_XMAC)
5578                niu_init_tx_xmac(np, min, max);
5579        else
5580                niu_init_tx_bmac(np, min, max);
5581}
5582
5583static int niu_reset_rx_xmac(struct niu *np)
5584{
5585        int limit;
5586
5587        nw64_mac(XRXMAC_SW_RST,
5588                 XRXMAC_SW_RST_REG_RS | XRXMAC_SW_RST_SOFT_RST);
5589        limit = 1000;
5590        while (--limit >= 0) {
5591                if (!(nr64_mac(XRXMAC_SW_RST) & (XRXMAC_SW_RST_REG_RS |
5592                                                 XRXMAC_SW_RST_SOFT_RST)))
5593                        break;
5594                udelay(100);
5595        }
5596        if (limit < 0) {
5597                dev_err(np->device, "Port %u RX XMAC would not reset, XRXMAC_SW_RST[%llx]\n",
5598                        np->port,
5599                        (unsigned long long) nr64_mac(XRXMAC_SW_RST));
5600                return -ENODEV;
5601        }
5602
5603        return 0;
5604}
5605
5606static int niu_reset_rx_bmac(struct niu *np)
5607{
5608        int limit;
5609
5610        nw64_mac(BRXMAC_SW_RST, BRXMAC_SW_RST_RESET);
5611        limit = 1000;
5612        while (--limit >= 0) {
5613                if (!(nr64_mac(BRXMAC_SW_RST) & BRXMAC_SW_RST_RESET))
5614                        break;
5615                udelay(100);
5616        }
5617        if (limit < 0) {
5618                dev_err(np->device, "Port %u RX BMAC would not reset, BRXMAC_SW_RST[%llx]\n",
5619                        np->port,
5620                        (unsigned long long) nr64_mac(BRXMAC_SW_RST));
5621                return -ENODEV;
5622        }
5623
5624        return 0;
5625}
5626
5627static int niu_reset_rx_mac(struct niu *np)
5628{
5629        if (np->flags & NIU_FLAGS_XMAC)
5630                return niu_reset_rx_xmac(np);
5631        else
5632                return niu_reset_rx_bmac(np);
5633}
5634
5635static void niu_init_rx_xmac(struct niu *np)
5636{
5637        struct niu_parent *parent = np->parent;
5638        struct niu_rdc_tables *tp = &parent->rdc_group_cfg[np->port];
5639        int first_rdc_table = tp->first_table_num;
5640        unsigned long i;
5641        u64 val;
5642
5643        nw64_mac(XMAC_ADD_FILT0, 0);
5644        nw64_mac(XMAC_ADD_FILT1, 0);
5645        nw64_mac(XMAC_ADD_FILT2, 0);
5646        nw64_mac(XMAC_ADD_FILT12_MASK, 0);
5647        nw64_mac(XMAC_ADD_FILT00_MASK, 0);
5648        for (i = 0; i < MAC_NUM_HASH; i++)
5649                nw64_mac(XMAC_HASH_TBL(i), 0);
5650        nw64_mac(XRXMAC_STAT_MSK, ~(u64)0);
5651        niu_set_primary_mac_rdc_table(np, first_rdc_table, 1);
5652        niu_set_multicast_mac_rdc_table(np, first_rdc_table, 1);
5653
5654        val = nr64_mac(XMAC_CONFIG);
5655        val &= ~(XMAC_CONFIG_RX_MAC_ENABLE |
5656                 XMAC_CONFIG_PROMISCUOUS |
5657                 XMAC_CONFIG_PROMISC_GROUP |
5658                 XMAC_CONFIG_ERR_CHK_DIS |
5659                 XMAC_CONFIG_RX_CRC_CHK_DIS |
5660                 XMAC_CONFIG_RESERVED_MULTICAST |
5661                 XMAC_CONFIG_RX_CODEV_CHK_DIS |
5662                 XMAC_CONFIG_ADDR_FILTER_EN |
5663                 XMAC_CONFIG_RCV_PAUSE_ENABLE |
5664                 XMAC_CONFIG_STRIP_CRC |
5665                 XMAC_CONFIG_PASS_FLOW_CTRL |
5666                 XMAC_CONFIG_MAC2IPP_PKT_CNT_EN);
5667        val |= (XMAC_CONFIG_HASH_FILTER_EN);
5668        nw64_mac(XMAC_CONFIG, val);
5669
5670        nw64_mac(RXMAC_BT_CNT, 0);
5671        nw64_mac(RXMAC_BC_FRM_CNT, 0);
5672        nw64_mac(RXMAC_MC_FRM_CNT, 0);
5673        nw64_mac(RXMAC_FRAG_CNT, 0);
5674        nw64_mac(RXMAC_HIST_CNT1, 0);
5675        nw64_mac(RXMAC_HIST_CNT2, 0);
5676        nw64_mac(RXMAC_HIST_CNT3, 0);
5677        nw64_mac(RXMAC_HIST_CNT4, 0);
5678        nw64_mac(RXMAC_HIST_CNT5, 0);
5679        nw64_mac(RXMAC_HIST_CNT6, 0);
5680        nw64_mac(RXMAC_HIST_CNT7, 0);
5681        nw64_mac(RXMAC_MPSZER_CNT, 0);
5682        nw64_mac(RXMAC_CRC_ER_CNT, 0);
5683        nw64_mac(RXMAC_CD_VIO_CNT, 0);
5684        nw64_mac(LINK_FAULT_CNT, 0);
5685}
5686
5687static void niu_init_rx_bmac(struct niu *np)
5688{
5689        struct niu_parent *parent = np->parent;
5690        struct niu_rdc_tables *tp = &parent->rdc_group_cfg[np->port];
5691        int first_rdc_table = tp->first_table_num;
5692        unsigned long i;
5693        u64 val;
5694
5695        nw64_mac(BMAC_ADD_FILT0, 0);
5696        nw64_mac(BMAC_ADD_FILT1, 0);
5697        nw64_mac(BMAC_ADD_FILT2, 0);
5698        nw64_mac(BMAC_ADD_FILT12_MASK, 0);
5699        nw64_mac(BMAC_ADD_FILT00_MASK, 0);
5700        for (i = 0; i < MAC_NUM_HASH; i++)
5701                nw64_mac(BMAC_HASH_TBL(i), 0);
5702        niu_set_primary_mac_rdc_table(np, first_rdc_table, 1);
5703        niu_set_multicast_mac_rdc_table(np, first_rdc_table, 1);
5704        nw64_mac(BRXMAC_STATUS_MASK, ~(u64)0);
5705
5706        val = nr64_mac(BRXMAC_CONFIG);
5707        val &= ~(BRXMAC_CONFIG_ENABLE |
5708                 BRXMAC_CONFIG_STRIP_PAD |
5709                 BRXMAC_CONFIG_STRIP_FCS |
5710                 BRXMAC_CONFIG_PROMISC |
5711                 BRXMAC_CONFIG_PROMISC_GRP |
5712                 BRXMAC_CONFIG_ADDR_FILT_EN |
5713                 BRXMAC_CONFIG_DISCARD_DIS);
5714        val |= (BRXMAC_CONFIG_HASH_FILT_EN);
5715        nw64_mac(BRXMAC_CONFIG, val);
5716
5717        val = nr64_mac(BMAC_ADDR_CMPEN);
5718        val |= BMAC_ADDR_CMPEN_EN0;
5719        nw64_mac(BMAC_ADDR_CMPEN, val);
5720}
5721
5722static void niu_init_rx_mac(struct niu *np)
5723{
5724        niu_set_primary_mac(np, np->dev->dev_addr);
5725
5726        if (np->flags & NIU_FLAGS_XMAC)
5727                niu_init_rx_xmac(np);
5728        else
5729                niu_init_rx_bmac(np);
5730}
5731
5732static void niu_enable_tx_xmac(struct niu *np, int on)
5733{
5734        u64 val = nr64_mac(XMAC_CONFIG);
5735
5736        if (on)
5737                val |= XMAC_CONFIG_TX_ENABLE;
5738        else
5739                val &= ~XMAC_CONFIG_TX_ENABLE;
5740        nw64_mac(XMAC_CONFIG, val);
5741}
5742
5743static void niu_enable_tx_bmac(struct niu *np, int on)
5744{
5745        u64 val = nr64_mac(BTXMAC_CONFIG);
5746
5747        if (on)
5748                val |= BTXMAC_CONFIG_ENABLE;
5749        else
5750                val &= ~BTXMAC_CONFIG_ENABLE;
5751        nw64_mac(BTXMAC_CONFIG, val);
5752}
5753
5754static void niu_enable_tx_mac(struct niu *np, int on)
5755{
5756        if (np->flags & NIU_FLAGS_XMAC)
5757                niu_enable_tx_xmac(np, on);
5758        else
5759                niu_enable_tx_bmac(np, on);
5760}
5761
5762static void niu_enable_rx_xmac(struct niu *np, int on)
5763{
5764        u64 val = nr64_mac(XMAC_CONFIG);
5765
5766        val &= ~(XMAC_CONFIG_HASH_FILTER_EN |
5767                 XMAC_CONFIG_PROMISCUOUS);
5768
5769        if (np->flags & NIU_FLAGS_MCAST)
5770                val |= XMAC_CONFIG_HASH_FILTER_EN;
5771        if (np->flags & NIU_FLAGS_PROMISC)
5772                val |= XMAC_CONFIG_PROMISCUOUS;
5773
5774        if (on)
5775                val |= XMAC_CONFIG_RX_MAC_ENABLE;
5776        else
5777                val &= ~XMAC_CONFIG_RX_MAC_ENABLE;
5778        nw64_mac(XMAC_CONFIG, val);
5779}
5780
5781static void niu_enable_rx_bmac(struct niu *np, int on)
5782{
5783        u64 val = nr64_mac(BRXMAC_CONFIG);
5784
5785        val &= ~(BRXMAC_CONFIG_HASH_FILT_EN |
5786                 BRXMAC_CONFIG_PROMISC);
5787
5788        if (np->flags & NIU_FLAGS_MCAST)
5789                val |= BRXMAC_CONFIG_HASH_FILT_EN;
5790        if (np->flags & NIU_FLAGS_PROMISC)
5791                val |= BRXMAC_CONFIG_PROMISC;
5792
5793        if (on)
5794                val |= BRXMAC_CONFIG_ENABLE;
5795        else
5796                val &= ~BRXMAC_CONFIG_ENABLE;
5797        nw64_mac(BRXMAC_CONFIG, val);
5798}
5799
5800static void niu_enable_rx_mac(struct niu *np, int on)
5801{
5802        if (np->flags & NIU_FLAGS_XMAC)
5803                niu_enable_rx_xmac(np, on);
5804        else
5805                niu_enable_rx_bmac(np, on);
5806}
5807
5808static int niu_init_mac(struct niu *np)
5809{
5810        int err;
5811
5812        niu_init_xif(np);
5813        err = niu_init_pcs(np);
5814        if (err)
5815                return err;
5816
5817        err = niu_reset_tx_mac(np);
5818        if (err)
5819                return err;
5820        niu_init_tx_mac(np);
5821        err = niu_reset_rx_mac(np);
5822        if (err)
5823                return err;
5824        niu_init_rx_mac(np);
5825
5826        /* This looks hookey but the RX MAC reset we just did will
5827         * undo some of the state we setup in niu_init_tx_mac() so we
5828         * have to call it again.  In particular, the RX MAC reset will
5829         * set the XMAC_MAX register back to it's default value.
5830         */
5831        niu_init_tx_mac(np);
5832        niu_enable_tx_mac(np, 1);
5833
5834        niu_enable_rx_mac(np, 1);
5835
5836        return 0;
5837}
5838
5839static void niu_stop_one_tx_channel(struct niu *np, struct tx_ring_info *rp)
5840{
5841        (void) niu_tx_channel_stop(np, rp->tx_channel);
5842}
5843
5844static void niu_stop_tx_channels(struct niu *np)
5845{
5846        int i;
5847
5848        for (i = 0; i < np->num_tx_rings; i++) {
5849                struct tx_ring_info *rp = &np->tx_rings[i];
5850
5851                niu_stop_one_tx_channel(np, rp);
5852        }
5853}
5854
5855static void niu_reset_one_tx_channel(struct niu *np, struct tx_ring_info *rp)
5856{
5857        (void) niu_tx_channel_reset(np, rp->tx_channel);
5858}
5859
5860static void niu_reset_tx_channels(struct niu *np)
5861{
5862        int i;
5863
5864        for (i = 0; i < np->num_tx_rings; i++) {
5865                struct tx_ring_info *rp = &np->tx_rings[i];
5866
5867                niu_reset_one_tx_channel(np, rp);
5868        }
5869}
5870
5871static void niu_stop_one_rx_channel(struct niu *np, struct rx_ring_info *rp)
5872{
5873        (void) niu_enable_rx_channel(np, rp->rx_channel, 0);
5874}
5875
5876static void niu_stop_rx_channels(struct niu *np)
5877{
5878        int i;
5879
5880        for (i = 0; i < np->num_rx_rings; i++) {
5881                struct rx_ring_info *rp = &np->rx_rings[i];
5882
5883                niu_stop_one_rx_channel(np, rp);
5884        }
5885}
5886
5887static void niu_reset_one_rx_channel(struct niu *np, struct rx_ring_info *rp)
5888{
5889        int channel = rp->rx_channel;
5890
5891        (void) niu_rx_channel_reset(np, channel);
5892        nw64(RX_DMA_ENT_MSK(channel), RX_DMA_ENT_MSK_ALL);
5893        nw64(RX_DMA_CTL_STAT(channel), 0);
5894        (void) niu_enable_rx_channel(np, channel, 0);
5895}
5896
5897static void niu_reset_rx_channels(struct niu *np)
5898{
5899        int i;
5900
5901        for (i = 0; i < np->num_rx_rings; i++) {
5902                struct rx_ring_info *rp = &np->rx_rings[i];
5903
5904                niu_reset_one_rx_channel(np, rp);
5905        }
5906}
5907
5908static void niu_disable_ipp(struct niu *np)
5909{
5910        u64 rd, wr, val;
5911        int limit;
5912
5913        rd = nr64_ipp(IPP_DFIFO_RD_PTR);
5914        wr = nr64_ipp(IPP_DFIFO_WR_PTR);
5915        limit = 100;
5916        while (--limit >= 0 && (rd != wr)) {
5917                rd = nr64_ipp(IPP_DFIFO_RD_PTR);
5918                wr = nr64_ipp(IPP_DFIFO_WR_PTR);
5919        }
5920        if (limit < 0 &&
5921            (rd != 0 && wr != 1)) {
5922                netdev_err(np->dev, "IPP would not quiesce, rd_ptr[%llx] wr_ptr[%llx]\n",
5923                           (unsigned long long)nr64_ipp(IPP_DFIFO_RD_PTR),
5924                           (unsigned long long)nr64_ipp(IPP_DFIFO_WR_PTR));
5925        }
5926
5927        val = nr64_ipp(IPP_CFIG);
5928        val &= ~(IPP_CFIG_IPP_ENABLE |
5929                 IPP_CFIG_DFIFO_ECC_EN |
5930                 IPP_CFIG_DROP_BAD_CRC |
5931                 IPP_CFIG_CKSUM_EN);
5932        nw64_ipp(IPP_CFIG, val);
5933
5934        (void) niu_ipp_reset(np);
5935}
5936
5937static int niu_init_hw(struct niu *np)
5938{
5939        int i, err;
5940
5941        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize TXC\n");
5942        niu_txc_enable_port(np, 1);
5943        niu_txc_port_dma_enable(np, 1);
5944        niu_txc_set_imask(np, 0);
5945
5946        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize TX channels\n");
5947        for (i = 0; i < np->num_tx_rings; i++) {
5948                struct tx_ring_info *rp = &np->tx_rings[i];
5949
5950                err = niu_init_one_tx_channel(np, rp);
5951                if (err)
5952                        return err;
5953        }
5954
5955        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize RX channels\n");
5956        err = niu_init_rx_channels(np);
5957        if (err)
5958                goto out_uninit_tx_channels;
5959
5960        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize classifier\n");
5961        err = niu_init_classifier_hw(np);
5962        if (err)
5963                goto out_uninit_rx_channels;
5964
5965        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize ZCP\n");
5966        err = niu_init_zcp(np);
5967        if (err)
5968                goto out_uninit_rx_channels;
5969
5970        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize IPP\n");
5971        err = niu_init_ipp(np);
5972        if (err)
5973                goto out_uninit_rx_channels;
5974
5975        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Initialize MAC\n");
5976        err = niu_init_mac(np);
5977        if (err)
5978                goto out_uninit_ipp;
5979
5980        return 0;
5981
5982out_uninit_ipp:
5983        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Uninit IPP\n");
5984        niu_disable_ipp(np);
5985
5986out_uninit_rx_channels:
5987        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Uninit RX channels\n");
5988        niu_stop_rx_channels(np);
5989        niu_reset_rx_channels(np);
5990
5991out_uninit_tx_channels:
5992        netif_printk(np, ifup, KERN_DEBUG, np->dev, "Uninit TX channels\n");
5993        niu_stop_tx_channels(np);
5994        niu_reset_tx_channels(np);
5995
5996        return err;
5997}
5998
5999static void niu_stop_hw(struct niu *np)
6000{
6001        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Disable interrupts\n");
6002        niu_enable_interrupts(np, 0);
6003
6004        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Disable RX MAC\n");
6005        niu_enable_rx_mac(np, 0);
6006
6007        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Disable IPP\n");
6008        niu_disable_ipp(np);
6009
6010        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Stop TX channels\n");
6011        niu_stop_tx_channels(np);
6012
6013        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Stop RX channels\n");
6014        niu_stop_rx_channels(np);
6015
6016        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Reset TX channels\n");
6017        niu_reset_tx_channels(np);
6018
6019        netif_printk(np, ifdown, KERN_DEBUG, np->dev, "Reset RX channels\n");
6020        niu_reset_rx_channels(np);
6021}
6022
6023static void niu_set_irq_name(struct niu *np)
6024{
6025        int port = np->port;
6026        int i, j = 1;
6027
6028        sprintf(np->irq_name[0], "%s:MAC", np->dev->name);
6029
6030        if (port == 0) {
6031                sprintf(np->irq_name[1], "%s:MIF", np->dev->name);
6032                sprintf(np->irq_name[2], "%s:SYSERR", np->dev->name);
6033                j = 3;
6034        }
6035
6036        for (i = 0; i < np->num_ldg - j; i++) {
6037                if (i < np->num_rx_rings)
6038                        sprintf(np->irq_name[i+j], "%s-rx-%d",
6039                                np->dev->name, i);
6040                else if (i < np->num_tx_rings + np->num_rx_rings)
6041                        sprintf(np->irq_name[i+j], "%s-tx-%d", np->dev->name,
6042                                i - np->num_rx_rings);
6043        }
6044}
6045
6046static int niu_request_irq(struct niu *np)
6047{
6048        int i, j, err;
6049
6050        niu_set_irq_name(np);
6051
6052        err = 0;
6053        for (i = 0; i < np->num_ldg; i++) {
6054                struct niu_ldg *lp = &np->ldg[i];
6055
6056                err = request_irq(lp->irq, niu_interrupt, IRQF_SHARED,
6057                                  np->irq_name[i], lp);
6058                if (err)
6059                        goto out_free_irqs;
6060
6061        }
6062
6063        return 0;
6064
6065out_free_irqs:
6066        for (j = 0; j < i; j++) {
6067                struct niu_ldg *lp = &np->ldg[j];
6068
6069                free_irq(lp->irq, lp);
6070        }
6071        return err;
6072}
6073
6074static void niu_free_irq(struct niu *np)
6075{
6076        int i;
6077
6078        for (i = 0; i < np->num_ldg; i++) {
6079                struct niu_ldg *lp = &np->ldg[i];
6080
6081                free_irq(lp->irq, lp);
6082        }
6083}
6084
6085static void niu_enable_napi(struct niu *np)
6086{
6087        int i;
6088
6089        for (i = 0; i < np->num_ldg; i++)
6090                napi_enable(&np->ldg[i].napi);
6091}
6092
6093static void niu_disable_napi(struct niu *np)
6094{
6095        int i;
6096
6097        for (i = 0; i < np->num_ldg; i++)
6098                napi_disable(&np->ldg[i].napi);
6099}
6100
6101static int niu_open(struct net_device *dev)
6102{
6103        struct niu *np = netdev_priv(dev);
6104        int err;
6105
6106        netif_carrier_off(dev);
6107
6108        err = niu_alloc_channels(np);
6109        if (err)
6110                goto out_err;
6111
6112        err = niu_enable_interrupts(np, 0);
6113        if (err)
6114                goto out_free_channels;
6115
6116        err = niu_request_irq(np);
6117        if (err)
6118                goto out_free_channels;
6119
6120        niu_enable_napi(np);
6121
6122        spin_lock_irq(&np->lock);
6123
6124        err = niu_init_hw(np);
6125        if (!err) {
6126                init_timer(&np->timer);
6127                np->timer.expires = jiffies + HZ;
6128                np->timer.data = (unsigned long) np;
6129                np->timer.function = niu_timer;
6130
6131                err = niu_enable_interrupts(np, 1);
6132                if (err)
6133                        niu_stop_hw(np);
6134        }
6135
6136        spin_unlock_irq(&np->lock);
6137
6138        if (err) {
6139                niu_disable_napi(np);
6140                goto out_free_irq;
6141        }
6142
6143        netif_tx_start_all_queues(dev);
6144
6145        if (np->link_config.loopback_mode != LOOPBACK_DISABLED)
6146                netif_carrier_on(dev);
6147
6148        add_timer(&np->timer);
6149
6150        return 0;
6151
6152out_free_irq:
6153        niu_free_irq(np);
6154
6155out_free_channels:
6156        niu_free_channels(np);
6157
6158out_err:
6159        return err;
6160}
6161
6162static void niu_full_shutdown(struct niu *np, struct net_device *dev)
6163{
6164        cancel_work_sync(&np->reset_task);
6165
6166        niu_disable_napi(np);
6167        netif_tx_stop_all_queues(dev);
6168
6169        del_timer_sync(&np->timer);
6170
6171        spin_lock_irq(&np->lock);
6172
6173        niu_stop_hw(np);
6174
6175        spin_unlock_irq(&np->lock);
6176}
6177
6178static int niu_close(struct net_device *dev)
6179{
6180        struct niu *np = netdev_priv(dev);
6181
6182        niu_full_shutdown(np, dev);
6183
6184        niu_free_irq(np);
6185
6186        niu_free_channels(np);
6187
6188        niu_handle_led(np, 0);
6189
6190        return 0;
6191}
6192
6193static void niu_sync_xmac_stats(struct niu *np)
6194{
6195        struct niu_xmac_stats *mp = &np->mac_stats.xmac;
6196
6197        mp->tx_frames += nr64_mac(TXMAC_FRM_CNT);
6198        mp->tx_bytes += nr64_mac(TXMAC_BYTE_CNT);
6199
6200        mp->rx_link_faults += nr64_mac(LINK_FAULT_CNT);
6201        mp->rx_align_errors += nr64_mac(RXMAC_ALIGN_ERR_CNT);
6202        mp->rx_frags += nr64_mac(RXMAC_FRAG_CNT);
6203        mp->rx_mcasts += nr64_mac(RXMAC_MC_FRM_CNT);
6204        mp->rx_bcasts += nr64_mac(RXMAC_BC_FRM_CNT);
6205        mp->rx_hist_cnt1 += nr64_mac(RXMAC_HIST_CNT1);
6206        mp->rx_hist_cnt2 += nr64_mac(RXMAC_HIST_CNT2);
6207        mp->rx_hist_cnt3 += nr64_mac(RXMAC_HIST_CNT3);
6208        mp->rx_hist_cnt4 += nr64_mac(RXMAC_HIST_CNT4);
6209        mp->rx_hist_cnt5 += nr64_mac(RXMAC_HIST_CNT5);
6210        mp->rx_hist_cnt6 += nr64_mac(RXMAC_HIST_CNT6);
6211        mp->rx_hist_cnt7 += nr64_mac(RXMAC_HIST_CNT7);
6212        mp->rx_octets += nr64_mac(RXMAC_BT_CNT);
6213        mp->rx_code_violations += nr64_mac(RXMAC_CD_VIO_CNT);
6214        mp->rx_len_errors += nr64_mac(RXMAC_MPSZER_CNT);
6215        mp->rx_crc_errors += nr64_mac(RXMAC_CRC_ER_CNT);
6216}
6217
6218static void niu_sync_bmac_stats(struct niu *np)
6219{
6220        struct niu_bmac_stats *mp = &np->mac_stats.bmac;
6221
6222        mp->tx_bytes += nr64_mac(BTXMAC_BYTE_CNT);
6223        mp->tx_frames += nr64_mac(BTXMAC_FRM_CNT);
6224
6225        mp->rx_frames += nr64_mac(BRXMAC_FRAME_CNT);
6226        mp->rx_align_errors += nr64_mac(BRXMAC_ALIGN_ERR_CNT);
6227        mp->rx_crc_errors += nr64_mac(BRXMAC_ALIGN_ERR_CNT);
6228        mp->rx_len_errors += nr64_mac(BRXMAC_CODE_VIOL_ERR_CNT);
6229}
6230
6231static void niu_sync_mac_stats(struct niu *np)
6232{
6233        if (np->flags & NIU_FLAGS_XMAC)
6234                niu_sync_xmac_stats(np);
6235        else
6236                niu_sync_bmac_stats(np);
6237}
6238
6239static void niu_get_rx_stats(struct niu *np,
6240                             struct rtnl_link_stats64 *stats)
6241{
6242        u64 pkts, dropped, errors, bytes;
6243        struct rx_ring_info *rx_rings;
6244        int i;
6245
6246        pkts = dropped = errors = bytes = 0;
6247
6248        rx_rings = ACCESS_ONCE(np->rx_rings);
6249        if (!rx_rings)
6250                goto no_rings;
6251
6252        for (i = 0; i < np->num_rx_rings; i++) {
6253                struct rx_ring_info *rp = &rx_rings[i];
6254
6255                niu_sync_rx_discard_stats(np, rp, 0);
6256
6257                pkts += rp->rx_packets;
6258                bytes += rp->rx_bytes;
6259                dropped += rp->rx_dropped;
6260                errors += rp->rx_errors;
6261        }
6262
6263no_rings:
6264        stats->rx_packets = pkts;
6265        stats->rx_bytes = bytes;
6266        stats->rx_dropped = dropped;
6267        stats->rx_errors = errors;
6268}
6269
6270static void niu_get_tx_stats(struct niu *np,
6271                             struct rtnl_link_stats64 *stats)
6272{
6273        u64 pkts, errors, bytes;
6274        struct tx_ring_info *tx_rings;
6275        int i;
6276
6277        pkts = errors = bytes = 0;
6278
6279        tx_rings = ACCESS_ONCE(np->tx_rings);
6280        if (!tx_rings)
6281                goto no_rings;
6282
6283        for (i = 0; i < np->num_tx_rings; i++) {
6284                struct tx_ring_info *rp = &tx_rings[i];
6285
6286                pkts += rp->tx_packets;
6287                bytes += rp->tx_bytes;
6288                errors += rp->tx_errors;
6289        }
6290
6291no_rings:
6292        stats->tx_packets = pkts;
6293        stats->tx_bytes = bytes;
6294        stats->tx_errors = errors;
6295}
6296
6297static struct rtnl_link_stats64 *niu_get_stats(struct net_device *dev,
6298                                               struct rtnl_link_stats64 *stats)
6299{
6300        struct niu *np = netdev_priv(dev);
6301
6302        if (netif_running(dev)) {
6303                niu_get_rx_stats(np, stats);
6304                niu_get_tx_stats(np, stats);
6305        }
6306
6307        return stats;
6308}
6309
6310static void niu_load_hash_xmac(struct niu *np, u16 *hash)
6311{
6312        int i;
6313
6314        for (i = 0; i < 16; i++)
6315                nw64_mac(XMAC_HASH_TBL(i), hash[i]);
6316}
6317
6318static void niu_load_hash_bmac(struct niu *np, u16 *hash)
6319{
6320        int i;
6321
6322        for (i = 0; i < 16; i++)
6323                nw64_mac(BMAC_HASH_TBL(i), hash[i]);
6324}
6325
6326static void niu_load_hash(struct niu *np, u16 *hash)
6327{
6328        if (np->flags & NIU_FLAGS_XMAC)
6329                niu_load_hash_xmac(np, hash);
6330        else
6331                niu_load_hash_bmac(np, hash);
6332}
6333
6334static void niu_set_rx_mode(struct net_device *dev)
6335{
6336        struct niu *np = netdev_priv(dev);
6337        int i, alt_cnt, err;
6338        struct netdev_hw_addr *ha;
6339        unsigned long flags;
6340        u16 hash[16] = { 0, };
6341
6342        spin_lock_irqsave(&np->lock, flags);
6343        niu_enable_rx_mac(np, 0);
6344
6345        np->flags &= ~(NIU_FLAGS_MCAST | NIU_FLAGS_PROMISC);
6346        if (dev->flags & IFF_PROMISC)
6347                np->flags |= NIU_FLAGS_PROMISC;
6348        if ((dev->flags & IFF_ALLMULTI) || (!netdev_mc_empty(dev)))
6349                np->flags |= NIU_FLAGS_MCAST;
6350
6351        alt_cnt = netdev_uc_count(dev);
6352        if (alt_cnt > niu_num_alt_addr(np)) {
6353                alt_cnt = 0;
6354                np->flags |= NIU_FLAGS_PROMISC;
6355        }
6356
6357        if (alt_cnt) {
6358                int index = 0;
6359
6360                netdev_for_each_uc_addr(ha, dev) {
6361                        err = niu_set_alt_mac(np, index, ha->addr);
6362                        if (err)
6363                                netdev_warn(dev, "Error %d adding alt mac %d\n",
6364                                            err, index);
6365                        err = niu_enable_alt_mac(np, index, 1);
6366                        if (err)
6367                                netdev_warn(dev, "Error %d enabling alt mac %d\n",
6368                                            err, index);
6369
6370                        index++;
6371                }
6372        } else {
6373                int alt_start;
6374                if (np->flags & NIU_FLAGS_XMAC)
6375                        alt_start = 0;
6376                else
6377                        alt_start = 1;
6378                for (i = alt_start; i < niu_num_alt_addr(np); i++) {
6379                        err = niu_enable_alt_mac(np, i, 0);
6380                        if (err)
6381                                netdev_warn(dev, "Error %d disabling alt mac %d\n",
6382                                            err, i);
6383                }
6384        }
6385        if (dev->flags & IFF_ALLMULTI) {
6386                for (i = 0; i < 16; i++)
6387                        hash[i] = 0xffff;
6388        } else if (!netdev_mc_empty(dev)) {
6389                netdev_for_each_mc_addr(ha, dev) {
6390                        u32 crc = ether_crc_le(ETH_ALEN, ha->addr);
6391
6392                        crc >>= 24;
6393                        hash[crc >> 4] |= (1 << (15 - (crc & 0xf)));
6394                }
6395        }
6396
6397        if (np->flags & NIU_FLAGS_MCAST)
6398                niu_load_hash(np, hash);
6399
6400        niu_enable_rx_mac(np, 1);
6401        spin_unlock_irqrestore(&np->lock, flags);
6402}
6403
6404static int niu_set_mac_addr(struct net_device *dev, void *p)
6405{
6406        struct niu *np = netdev_priv(dev);
6407        struct sockaddr *addr = p;
6408        unsigned long flags;
6409
6410        if (!is_valid_ether_addr(addr->sa_data))
6411                return -EADDRNOTAVAIL;
6412
6413        memcpy(dev->dev_addr, addr->sa_data, ETH_ALEN);
6414
6415        if (!netif_running(dev))
6416                return 0;
6417
6418        spin_lock_irqsave(&np->lock, flags);
6419        niu_enable_rx_mac(np, 0);
6420        niu_set_primary_mac(np, dev->dev_addr);
6421        niu_enable_rx_mac(np, 1);
6422        spin_unlock_irqrestore(&np->lock, flags);
6423
6424        return 0;
6425}
6426
6427static int niu_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
6428{
6429        return -EOPNOTSUPP;
6430}
6431
6432static void niu_netif_stop(struct niu *np)
6433{
6434        np->dev->trans_start = jiffies; /* prevent tx timeout */
6435
6436        niu_disable_napi(np);
6437
6438        netif_tx_disable(np->dev);
6439}
6440
6441static void niu_netif_start(struct niu *np)
6442{
6443        /* NOTE: unconditional netif_wake_queue is only appropriate
6444         * so long as all callers are assured to have free tx slots
6445         * (such as after niu_init_hw).
6446         */
6447        netif_tx_wake_all_queues(np->dev);
6448
6449        niu_enable_napi(np);
6450
6451        niu_enable_interrupts(np, 1);
6452}
6453
6454static void niu_reset_buffers(struct niu *np)
6455{
6456        int i, j, k, err;
6457
6458        if (np->rx_rings) {
6459                for (i = 0; i < np->num_rx_rings; i++) {
6460                        struct rx_ring_info *rp = &np->rx_rings[i];
6461
6462                        for (j = 0, k = 0; j < MAX_RBR_RING_SIZE; j++) {
6463                                struct page *page;
6464
6465                                page = rp->rxhash[j];
6466                                while (page) {
6467                                        struct page *next =
6468                                                (struct page *) page->mapping;
6469                                        u64 base = page->index;
6470                                        base = base >> RBR_DESCR_ADDR_SHIFT;
6471                                        rp->rbr[k++] = cpu_to_le32(base);
6472                                        page = next;
6473                                }
6474                        }
6475                        for (; k < MAX_RBR_RING_SIZE; k++) {
6476                                err = niu_rbr_add_page(np, rp, GFP_ATOMIC, k);
6477                                if (unlikely(err))
6478                                        break;
6479                        }
6480
6481                        rp->rbr_index = rp->rbr_table_size - 1;
6482                        rp->rcr_index = 0;
6483                        rp->rbr_pending = 0;
6484                        rp->rbr_refill_pending = 0;
6485                }
6486        }
6487        if (np->tx_rings) {
6488                for (i = 0; i < np->num_tx_rings; i++) {
6489                        struct tx_ring_info *rp = &np->tx_rings[i];
6490
6491                        for (j = 0; j < MAX_TX_RING_SIZE; j++) {
6492                                if (rp->tx_buffs[j].skb)
6493                                        (void) release_tx_packet(np, rp, j);
6494                        }
6495
6496                        rp->pending = MAX_TX_RING_SIZE;
6497                        rp->prod = 0;
6498                        rp->cons = 0;
6499                        rp->wrap_bit = 0;
6500                }
6501        }
6502}
6503
6504static void niu_reset_task(struct work_struct *work)
6505{
6506        struct niu *np = container_of(work, struct niu, reset_task);
6507        unsigned long flags;
6508        int err;
6509
6510        spin_lock_irqsave(&np->lock, flags);
6511        if (!netif_running(np->dev)) {
6512                spin_unlock_irqrestore(&np->lock, flags);
6513                return;
6514        }
6515
6516        spin_unlock_irqrestore(&np->lock, flags);
6517
6518        del_timer_sync(&np->timer);
6519
6520        niu_netif_stop(np);
6521
6522        spin_lock_irqsave(&np->lock, flags);
6523
6524        niu_stop_hw(np);
6525
6526        spin_unlock_irqrestore(&np->lock, flags);
6527
6528        niu_reset_buffers(np);
6529
6530        spin_lock_irqsave(&np->lock, flags);
6531
6532        err = niu_init_hw(np);
6533        if (!err) {
6534                np->timer.expires = jiffies + HZ;
6535                add_timer(&np->timer);
6536                niu_netif_start(np);
6537        }
6538
6539        spin_unlock_irqrestore(&np->lock, flags);
6540}
6541
6542static void niu_tx_timeout(struct net_device *dev)
6543{
6544        struct niu *np = netdev_priv(dev);
6545
6546        dev_err(np->device, "%s: Transmit timed out, resetting\n",
6547                dev->name);
6548
6549        schedule_work(&np->reset_task);
6550}
6551
6552static void niu_set_txd(struct tx_ring_info *rp, int index,
6553                        u64 mapping, u64 len, u64 mark,
6554                        u64 n_frags)
6555{
6556        __le64 *desc = &rp->descr[index];
6557
6558        *desc = cpu_to_le64(mark |
6559                            (n_frags << TX_DESC_NUM_PTR_SHIFT) |
6560                            (len << TX_DESC_TR_LEN_SHIFT) |
6561                            (mapping & TX_DESC_SAD));
6562}
6563
6564static u64 niu_compute_tx_flags(struct sk_buff *skb, struct ethhdr *ehdr,
6565                                u64 pad_bytes, u64 len)
6566{
6567        u16 eth_proto, eth_proto_inner;
6568        u64 csum_bits, l3off, ihl, ret;
6569        u8 ip_proto;
6570        int ipv6;
6571
6572        eth_proto = be16_to_cpu(ehdr->h_proto);
6573        eth_proto_inner = eth_proto;
6574        if (eth_proto == ETH_P_8021Q) {
6575                struct vlan_ethhdr *vp = (struct vlan_ethhdr *) ehdr;
6576                __be16 val = vp->h_vlan_encapsulated_proto;
6577
6578                eth_proto_inner = be16_to_cpu(val);
6579        }
6580
6581        ipv6 = ihl = 0;
6582        switch (skb->protocol) {
6583        case cpu_to_be16(ETH_P_IP):
6584                ip_proto = ip_hdr(skb)->protocol;
6585                ihl = ip_hdr(skb)->ihl;
6586                break;
6587        case cpu_to_be16(ETH_P_IPV6):
6588                ip_proto = ipv6_hdr(skb)->nexthdr;
6589                ihl = (40 >> 2);
6590                ipv6 = 1;
6591                break;
6592        default:
6593                ip_proto = ihl = 0;
6594                break;
6595        }
6596
6597        csum_bits = TXHDR_CSUM_NONE;
6598        if (skb->ip_summed == CHECKSUM_PARTIAL) {
6599                u64 start, stuff;
6600
6601                csum_bits = (ip_proto == IPPROTO_TCP ?
6602                             TXHDR_CSUM_TCP :
6603                             (ip_proto == IPPROTO_UDP ?
6604                              TXHDR_CSUM_UDP : TXHDR_CSUM_SCTP));
6605
6606                start = skb_checksum_start_offset(skb) -
6607                        (pad_bytes + sizeof(struct tx_pkt_hdr));
6608                stuff = start + skb->csum_offset;
6609
6610                csum_bits |= (start / 2) << TXHDR_L4START_SHIFT;
6611                csum_bits |= (stuff / 2) << TXHDR_L4STUFF_SHIFT;
6612        }
6613
6614        l3off = skb_network_offset(skb) -
6615                (pad_bytes + sizeof(struct tx_pkt_hdr));
6616
6617        ret = (((pad_bytes / 2) << TXHDR_PAD_SHIFT) |
6618               (len << TXHDR_LEN_SHIFT) |
6619               ((l3off / 2) << TXHDR_L3START_SHIFT) |
6620               (ihl << TXHDR_IHL_SHIFT) |
6621               ((eth_proto_inner < ETH_P_802_3_MIN) ? TXHDR_LLC : 0) |
6622               ((eth_proto == ETH_P_8021Q) ? TXHDR_VLAN : 0) |
6623               (ipv6 ? TXHDR_IP_VER : 0) |
6624               csum_bits);
6625
6626        return ret;
6627}
6628
6629static netdev_tx_t niu_start_xmit(struct sk_buff *skb,
6630                                  struct net_device *dev)
6631{
6632        struct niu *np = netdev_priv(dev);
6633        unsigned long align, headroom;
6634        struct netdev_queue *txq;
6635        struct tx_ring_info *rp;
6636        struct tx_pkt_hdr *tp;
6637        unsigned int len, nfg;
6638        struct ethhdr *ehdr;
6639        int prod, i, tlen;
6640        u64 mapping, mrk;
6641
6642        i = skb_get_queue_mapping(skb);
6643        rp = &np->tx_rings[i];
6644        txq = netdev_get_tx_queue(dev, i);
6645
6646        if (niu_tx_avail(rp) <= (skb_shinfo(skb)->nr_frags + 1)) {
6647                netif_tx_stop_queue(txq);
6648                dev_err(np->device, "%s: BUG! Tx ring full when queue awake!\n", dev->name);
6649                rp->tx_errors++;
6650                return NETDEV_TX_BUSY;
6651        }
6652
6653        if (skb->len < ETH_ZLEN) {
6654                unsigned int pad_bytes = ETH_ZLEN - skb->len;
6655
6656                if (skb_pad(skb, pad_bytes))
6657                        goto out;
6658                skb_put(skb, pad_bytes);
6659        }
6660
6661        len = sizeof(struct tx_pkt_hdr) + 15;
6662        if (skb_headroom(skb) < len) {
6663                struct sk_buff *skb_new;
6664
6665                skb_new = skb_realloc_headroom(skb, len);
6666                if (!skb_new) {
6667                        rp->tx_errors++;
6668                        goto out_drop;
6669                }
6670                kfree_skb(skb);
6671                skb = skb_new;
6672        } else
6673                skb_orphan(skb);
6674
6675        align = ((unsigned long) skb->data & (16 - 1));
6676        headroom = align + sizeof(struct tx_pkt_hdr);
6677
6678        ehdr = (struct ethhdr *) skb->data;
6679        tp = (struct tx_pkt_hdr *) skb_push(skb, headroom);
6680
6681        len = skb->len - sizeof(struct tx_pkt_hdr);
6682        tp->flags = cpu_to_le64(niu_compute_tx_flags(skb, ehdr, align, len));
6683        tp->resv = 0;
6684
6685        len = skb_headlen(skb);
6686        mapping = np->ops->map_single(np->device, skb->data,
6687                                      len, DMA_TO_DEVICE);
6688
6689        prod = rp->prod;
6690
6691        rp->tx_buffs[prod].skb = skb;
6692        rp->tx_buffs[prod].mapping = mapping;
6693
6694        mrk = TX_DESC_SOP;
6695        if (++rp->mark_counter == rp->mark_freq) {
6696                rp->mark_counter = 0;
6697                mrk |= TX_DESC_MARK;
6698                rp->mark_pending++;
6699        }
6700
6701        tlen = len;
6702        nfg = skb_shinfo(skb)->nr_frags;
6703        while (tlen > 0) {
6704                tlen -= MAX_TX_DESC_LEN;
6705                nfg++;
6706        }
6707
6708        while (len > 0) {
6709                unsigned int this_len = len;
6710
6711                if (this_len > MAX_TX_DESC_LEN)
6712                        this_len = MAX_TX_DESC_LEN;
6713
6714                niu_set_txd(rp, prod, mapping, this_len, mrk, nfg);
6715                mrk = nfg = 0;
6716
6717                prod = NEXT_TX(rp, prod);
6718                mapping += this_len;
6719                len -= this_len;
6720        }
6721
6722        for (i = 0; i <  skb_shinfo(skb)->nr_frags; i++) {
6723                const skb_frag_t *frag = &skb_shinfo(skb)->frags[i];
6724
6725                len = skb_frag_size(frag);
6726                mapping = np->ops->map_page(np->device, skb_frag_page(frag),
6727                                            frag->page_offset, len,
6728                                            DMA_TO_DEVICE);
6729
6730                rp->tx_buffs[prod].skb = NULL;
6731                rp->tx_buffs[prod].mapping = mapping;
6732
6733                niu_set_txd(rp, prod, mapping, len, 0, 0);
6734
6735                prod = NEXT_TX(rp, prod);
6736        }
6737
6738        if (prod < rp->prod)
6739                rp->wrap_bit ^= TX_RING_KICK_WRAP;
6740        rp->prod = prod;
6741
6742        nw64(TX_RING_KICK(rp->tx_channel), rp->wrap_bit | (prod << 3));
6743
6744        if (unlikely(niu_tx_avail(rp) <= (MAX_SKB_FRAGS + 1))) {
6745                netif_tx_stop_queue(txq);
6746                if (niu_tx_avail(rp) > NIU_TX_WAKEUP_THRESH(rp))
6747                        netif_tx_wake_queue(txq);
6748        }
6749
6750out:
6751        return NETDEV_TX_OK;
6752
6753out_drop:
6754        rp->tx_errors++;
6755        kfree_skb(skb);
6756        goto out;
6757}
6758
6759static int niu_change_mtu(struct net_device *dev, int new_mtu)
6760{
6761        struct niu *np = netdev_priv(dev);
6762        int err, orig_jumbo, new_jumbo;
6763
6764        if (new_mtu < 68 || new_mtu > NIU_MAX_MTU)
6765                return -EINVAL;
6766
6767        orig_jumbo = (dev->mtu > ETH_DATA_LEN);
6768        new_jumbo = (new_mtu > ETH_DATA_LEN);
6769
6770        dev->mtu = new_mtu;
6771
6772        if (!netif_running(dev) ||
6773            (orig_jumbo == new_jumbo))
6774                return 0;
6775
6776        niu_full_shutdown(np, dev);
6777
6778        niu_free_channels(np);
6779
6780        niu_enable_napi(np);
6781
6782        err = niu_alloc_channels(np);
6783        if (err)
6784                return err;
6785
6786        spin_lock_irq(&np->lock);
6787
6788        err = niu_init_hw(np);
6789        if (!err) {
6790                init_timer(&np->timer);
6791                np->timer.expires = jiffies + HZ;
6792                np->timer.data = (unsigned long) np;
6793                np->timer.function = niu_timer;
6794
6795                err = niu_enable_interrupts(np, 1);
6796                if (err)
6797                        niu_stop_hw(np);
6798        }
6799
6800        spin_unlock_irq(&np->lock);
6801
6802        if (!err) {
6803                netif_tx_start_all_queues(dev);
6804                if (np->link_config.loopback_mode != LOOPBACK_DISABLED)
6805                        netif_carrier_on(dev);
6806
6807                add_timer(&np->timer);
6808        }
6809
6810        return err;
6811}
6812
6813static void niu_get_drvinfo(struct net_device *dev,
6814                            struct ethtool_drvinfo *info)
6815{
6816        struct niu *np = netdev_priv(dev);
6817        struct niu_vpd *vpd = &np->vpd;
6818
6819        strlcpy(info->driver, DRV_MODULE_NAME, sizeof(info->driver));
6820        strlcpy(info->version, DRV_MODULE_VERSION, sizeof(info->version));
6821        snprintf(info->fw_version, sizeof(info->fw_version), "%d.%d",
6822                vpd->fcode_major, vpd->fcode_minor);
6823        if (np->parent->plat_type != PLAT_TYPE_NIU)
6824                strlcpy(info->bus_info, pci_name(np->pdev),
6825                        sizeof(info->bus_info));
6826}
6827
6828static int niu_get_settings(struct net_device *dev, struct ethtool_cmd *cmd)
6829{
6830        struct niu *np = netdev_priv(dev);
6831        struct niu_link_config *lp;
6832
6833        lp = &np->link_config;
6834
6835        memset(cmd, 0, sizeof(*cmd));
6836        cmd->phy_address = np->phy_addr;
6837        cmd->supported = lp->supported;
6838        cmd->advertising = lp->active_advertising;
6839        cmd->autoneg = lp->active_autoneg;
6840        ethtool_cmd_speed_set(cmd, lp->active_speed);
6841        cmd->duplex = lp->active_duplex;
6842        cmd->port = (np->flags & NIU_FLAGS_FIBER) ? PORT_FIBRE : PORT_TP;
6843        cmd->transceiver = (np->flags & NIU_FLAGS_XCVR_SERDES) ?
6844                XCVR_EXTERNAL : XCVR_INTERNAL;
6845
6846        return 0;
6847}
6848
6849static int niu_set_settings(struct net_device *dev, struct ethtool_cmd *cmd)
6850{
6851        struct niu *np = netdev_priv(dev);
6852        struct niu_link_config *lp = &np->link_config;
6853
6854        lp->advertising = cmd->advertising;
6855        lp->speed = ethtool_cmd_speed(cmd);
6856        lp->duplex = cmd->duplex;
6857        lp->autoneg = cmd->autoneg;
6858        return niu_init_link(np);
6859}
6860
6861static u32 niu_get_msglevel(struct net_device *dev)
6862{
6863        struct niu *np = netdev_priv(dev);
6864        return np->msg_enable;
6865}
6866
6867static void niu_set_msglevel(struct net_device *dev, u32 value)
6868{
6869        struct niu *np = netdev_priv(dev);
6870        np->msg_enable = value;
6871}
6872
6873static int niu_nway_reset(struct net_device *dev)
6874{
6875        struct niu *np = netdev_priv(dev);
6876
6877        if (np->link_config.autoneg)
6878                return niu_init_link(np);
6879
6880        return 0;
6881}
6882
6883static int niu_get_eeprom_len(struct net_device *dev)
6884{
6885        struct niu *np = netdev_priv(dev);
6886
6887        return np->eeprom_len;
6888}
6889
6890static int niu_get_eeprom(struct net_device *dev,
6891                          struct ethtool_eeprom *eeprom, u8 *data)
6892{
6893        struct niu *np = netdev_priv(dev);
6894        u32 offset, len, val;
6895
6896        offset = eeprom->offset;
6897        len = eeprom->len;
6898
6899        if (offset + len < offset)
6900                return -EINVAL;
6901        if (offset >= np->eeprom_len)
6902                return -EINVAL;
6903        if (offset + len > np->eeprom_len)
6904                len = eeprom->len = np->eeprom_len - offset;
6905
6906        if (offset & 3) {
6907                u32 b_offset, b_count;
6908
6909                b_offset = offset & 3;
6910                b_count = 4 - b_offset;
6911                if (b_count > len)
6912                        b_count = len;
6913
6914                val = nr64(ESPC_NCR((offset - b_offset) / 4));
6915                memcpy(data, ((char *)&val) + b_offset, b_count);
6916                data += b_count;
6917                len -= b_count;
6918                offset += b_count;
6919        }
6920        while (len >= 4) {
6921                val = nr64(ESPC_NCR(offset / 4));
6922                memcpy(data, &val, 4);
6923                data += 4;
6924                len -= 4;
6925                offset += 4;
6926        }
6927        if (len) {
6928                val = nr64(ESPC_NCR(offset / 4));
6929                memcpy(data, &val, len);
6930        }
6931        return 0;
6932}
6933
6934static void niu_ethflow_to_l3proto(int flow_type, u8 *pid)
6935{
6936        switch (flow_type) {
6937        case TCP_V4_FLOW:
6938        case TCP_V6_FLOW:
6939                *pid = IPPROTO_TCP;
6940                break;
6941        case UDP_V4_FLOW:
6942        case UDP_V6_FLOW:
6943                *pid = IPPROTO_UDP;
6944                break;
6945        case SCTP_V4_FLOW:
6946        case SCTP_V6_FLOW:
6947                *pid = IPPROTO_SCTP;
6948                break;
6949        case AH_V4_FLOW:
6950        case AH_V6_FLOW:
6951                *pid = IPPROTO_AH;
6952                break;
6953        case ESP_V4_FLOW:
6954        case ESP_V6_FLOW:
6955                *pid = IPPROTO_ESP;
6956                break;
6957        default:
6958                *pid = 0;
6959                break;
6960        }
6961}
6962
6963static int niu_class_to_ethflow(u64 class, int *flow_type)
6964{
6965        switch (class) {
6966        case CLASS_CODE_TCP_IPV4:
6967                *flow_type = TCP_V4_FLOW;
6968                break;
6969        case CLASS_CODE_UDP_IPV4:
6970                *flow_type = UDP_V4_FLOW;
6971                break;
6972        case CLASS_CODE_AH_ESP_IPV4:
6973                *flow_type = AH_V4_FLOW;
6974                break;
6975        case CLASS_CODE_SCTP_IPV4:
6976                *flow_type = SCTP_V4_FLOW;
6977                break;
6978        case CLASS_CODE_TCP_IPV6:
6979                *flow_type = TCP_V6_FLOW;
6980                break;
6981        case CLASS_CODE_UDP_IPV6:
6982                *flow_type = UDP_V6_FLOW;
6983                break;
6984        case CLASS_CODE_AH_ESP_IPV6:
6985                *flow_type = AH_V6_FLOW;
6986                break;
6987        case CLASS_CODE_SCTP_IPV6:
6988                *flow_type = SCTP_V6_FLOW;
6989                break;
6990        case CLASS_CODE_USER_PROG1:
6991        case CLASS_CODE_USER_PROG2:
6992        case CLASS_CODE_USER_PROG3:
6993        case CLASS_CODE_USER_PROG4:
6994                *flow_type = IP_USER_FLOW;
6995                break;
6996        default:
6997                return 0;
6998        }
6999
7000        return 1;
7001}
7002
7003static int niu_ethflow_to_class(int flow_type, u64 *class)
7004{
7005        switch (flow_type) {
7006        case TCP_V4_FLOW:
7007                *class = CLASS_CODE_TCP_IPV4;
7008                break;
7009        case UDP_V4_FLOW:
7010                *class = CLASS_CODE_UDP_IPV4;
7011                break;
7012        case AH_ESP_V4_FLOW:
7013        case AH_V4_FLOW:
7014        case ESP_V4_FLOW:
7015                *class = CLASS_CODE_AH_ESP_IPV4;
7016                break;
7017        case SCTP_V4_FLOW:
7018                *class = CLASS_CODE_SCTP_IPV4;
7019                break;
7020        case TCP_V6_FLOW:
7021                *class = CLASS_CODE_TCP_IPV6;
7022                break;
7023        case UDP_V6_FLOW:
7024                *class = CLASS_CODE_UDP_IPV6;
7025                break;
7026        case AH_ESP_V6_FLOW:
7027        case AH_V6_FLOW:
7028        case ESP_V6_FLOW:
7029                *class = CLASS_CODE_AH_ESP_IPV6;
7030                break;
7031        case SCTP_V6_FLOW:
7032                *class = CLASS_CODE_SCTP_IPV6;
7033                break;
7034        default:
7035                return 0;
7036        }
7037
7038        return 1;
7039}
7040
7041static u64 niu_flowkey_to_ethflow(u64 flow_key)
7042{
7043        u64 ethflow = 0;
7044
7045        if (flow_key & FLOW_KEY_L2DA)
7046                ethflow |= RXH_L2DA;
7047        if (flow_key & FLOW_KEY_VLAN)
7048                ethflow |= RXH_VLAN;
7049        if (flow_key & FLOW_KEY_IPSA)
7050                ethflow |= RXH_IP_SRC;
7051        if (flow_key & FLOW_KEY_IPDA)
7052                ethflow |= RXH_IP_DST;
7053        if (flow_key & FLOW_KEY_PROTO)
7054                ethflow |= RXH_L3_PROTO;
7055        if (flow_key & (FLOW_KEY_L4_BYTE12 << FLOW_KEY_L4_0_SHIFT))
7056                ethflow |= RXH_L4_B_0_1;
7057        if (flow_key & (FLOW_KEY_L4_BYTE12 << FLOW_KEY_L4_1_SHIFT))
7058                ethflow |= RXH_L4_B_2_3;
7059
7060        return ethflow;
7061
7062}
7063
7064static int niu_ethflow_to_flowkey(u64 ethflow, u64 *flow_key)
7065{
7066        u64 key = 0;
7067
7068        if (ethflow & RXH_L2DA)
7069                key |= FLOW_KEY_L2DA;
7070        if (ethflow & RXH_VLAN)
7071                key |= FLOW_KEY_VLAN;
7072        if (ethflow & RXH_IP_SRC)
7073                key |= FLOW_KEY_IPSA;
7074        if (ethflow & RXH_IP_DST)
7075                key |= FLOW_KEY_IPDA;
7076        if (ethflow & RXH_L3_PROTO)
7077                key |= FLOW_KEY_PROTO;
7078        if (ethflow & RXH_L4_B_0_1)
7079                key |= (FLOW_KEY_L4_BYTE12 << FLOW_KEY_L4_0_SHIFT);
7080        if (ethflow & RXH_L4_B_2_3)
7081                key |= (FLOW_KEY_L4_BYTE12 << FLOW_KEY_L4_1_SHIFT);
7082
7083        *flow_key = key;
7084
7085        return 1;
7086
7087}
7088
7089static int niu_get_hash_opts(struct niu *np, struct ethtool_rxnfc *nfc)
7090{
7091        u64 class;
7092
7093        nfc->data = 0;
7094
7095        if (!niu_ethflow_to_class(nfc->flow_type, &class))
7096                return -EINVAL;
7097
7098        if (np->parent->tcam_key[class - CLASS_CODE_USER_PROG1] &
7099            TCAM_KEY_DISC)
7100                nfc->data = RXH_DISCARD;
7101        else
7102                nfc->data = niu_flowkey_to_ethflow(np->parent->flow_key[class -
7103                                                      CLASS_CODE_USER_PROG1]);
7104        return 0;
7105}
7106
7107static void niu_get_ip4fs_from_tcam_key(struct niu_tcam_entry *tp,
7108                                        struct ethtool_rx_flow_spec *fsp)
7109{
7110        u32 tmp;
7111        u16 prt;
7112
7113        tmp = (tp->key[3] & TCAM_V4KEY3_SADDR) >> TCAM_V4KEY3_SADDR_SHIFT;
7114        fsp->h_u.tcp_ip4_spec.ip4src = cpu_to_be32(tmp);
7115
7116        tmp = (tp->key[3] & TCAM_V4KEY3_DADDR) >> TCAM_V4KEY3_DADDR_SHIFT;
7117        fsp->h_u.tcp_ip4_spec.ip4dst = cpu_to_be32(tmp);
7118
7119        tmp = (tp->key_mask[3] & TCAM_V4KEY3_SADDR) >> TCAM_V4KEY3_SADDR_SHIFT;
7120        fsp->m_u.tcp_ip4_spec.ip4src = cpu_to_be32(tmp);
7121
7122        tmp = (tp->key_mask[3] & TCAM_V4KEY3_DADDR) >> TCAM_V4KEY3_DADDR_SHIFT;
7123        fsp->m_u.tcp_ip4_spec.ip4dst = cpu_to_be32(tmp);
7124
7125        fsp->h_u.tcp_ip4_spec.tos = (tp->key[2] & TCAM_V4KEY2_TOS) >>
7126                TCAM_V4KEY2_TOS_SHIFT;
7127        fsp->m_u.tcp_ip4_spec.tos = (tp->key_mask[2] & TCAM_V4KEY2_TOS) >>
7128                TCAM_V4KEY2_TOS_SHIFT;
7129
7130        switch (fsp->flow_type) {
7131        case TCP_V4_FLOW:
7132        case UDP_V4_FLOW:
7133        case SCTP_V4_FLOW:
7134                prt = ((tp->key[2] & TCAM_V4KEY2_PORT_SPI) >>
7135                        TCAM_V4KEY2_PORT_SPI_SHIFT) >> 16;
7136                fsp->h_u.tcp_ip4_spec.psrc = cpu_to_be16(prt);
7137
7138                prt = ((tp->key[2] & TCAM_V4KEY2_PORT_SPI) >>
7139                        TCAM_V4KEY2_PORT_SPI_SHIFT) & 0xffff;
7140                fsp->h_u.tcp_ip4_spec.pdst = cpu_to_be16(prt);
7141
7142                prt = ((tp->key_mask[2] & TCAM_V4KEY2_PORT_SPI) >>
7143                        TCAM_V4KEY2_PORT_SPI_SHIFT) >> 16;
7144                fsp->m_u.tcp_ip4_spec.psrc = cpu_to_be16(prt);
7145
7146                prt = ((tp->key_mask[2] & TCAM_V4KEY2_PORT_SPI) >>
7147                         TCAM_V4KEY2_PORT_SPI_SHIFT) & 0xffff;
7148                fsp->m_u.tcp_ip4_spec.pdst = cpu_to_be16(prt);
7149                break;
7150        case AH_V4_FLOW:
7151        case ESP_V4_FLOW:
7152                tmp = (tp->key[2] & TCAM_V4KEY2_PORT_SPI) >>
7153                        TCAM_V4KEY2_PORT_SPI_SHIFT;
7154                fsp->h_u.ah_ip4_spec.spi = cpu_to_be32(tmp);
7155
7156                tmp = (tp->key_mask[2] & TCAM_V4KEY2_PORT_SPI) >>
7157                        TCAM_V4KEY2_PORT_SPI_SHIFT;
7158                fsp->m_u.ah_ip4_spec.spi = cpu_to_be32(tmp);
7159                break;
7160        case IP_USER_FLOW:
7161                tmp = (tp->key[2] & TCAM_V4KEY2_PORT_SPI) >>
7162                        TCAM_V4KEY2_PORT_SPI_SHIFT;
7163                fsp->h_u.usr_ip4_spec.l4_4_bytes = cpu_to_be32(tmp);
7164
7165                tmp = (tp->key_mask[2] & TCAM_V4KEY2_PORT_SPI) >>
7166                        TCAM_V4KEY2_PORT_SPI_SHIFT;
7167                fsp->m_u.usr_ip4_spec.l4_4_bytes = cpu_to_be32(tmp);
7168
7169                fsp->h_u.usr_ip4_spec.proto =
7170                        (tp->key[2] & TCAM_V4KEY2_PROTO) >>
7171                        TCAM_V4KEY2_PROTO_SHIFT;
7172                fsp->m_u.usr_ip4_spec.proto =
7173                        (tp->key_mask[2] & TCAM_V4KEY2_PROTO) >>
7174                        TCAM_V4KEY2_PROTO_SHIFT;
7175
7176                fsp->h_u.usr_ip4_spec.ip_ver = ETH_RX_NFC_IP4;
7177                break;
7178        default:
7179                break;
7180        }
7181}
7182
7183static int niu_get_ethtool_tcam_entry(struct niu *np,
7184                                      struct ethtool_rxnfc *nfc)
7185{
7186        struct niu_parent *parent = np->parent;
7187        struct niu_tcam_entry *tp;
7188        struct ethtool_rx_flow_spec *fsp = &nfc->fs;
7189        u16 idx;
7190        u64 class;
7191        int ret = 0;
7192
7193        idx = tcam_get_index(np, (u16)nfc->fs.location);
7194
7195        tp = &parent->tcam[idx];
7196        if (!tp->valid) {
7197                netdev_info(np->dev, "niu%d: entry [%d] invalid for idx[%d]\n",
7198                            parent->index, (u16)nfc->fs.location, idx);
7199                return -EINVAL;
7200        }
7201
7202        /* fill the flow spec entry */
7203        class = (tp->key[0] & TCAM_V4KEY0_CLASS_CODE) >>
7204                TCAM_V4KEY0_CLASS_CODE_SHIFT;
7205        ret = niu_class_to_ethflow(class, &fsp->flow_type);
7206
7207        if (ret < 0) {
7208                netdev_info(np->dev, "niu%d: niu_class_to_ethflow failed\n",
7209                            parent->index);
7210                ret = -EINVAL;
7211                goto out;
7212        }
7213
7214        if (fsp->flow_type == AH_V4_FLOW || fsp->flow_type == AH_V6_FLOW) {
7215                u32 proto = (tp->key[2] & TCAM_V4KEY2_PROTO) >>
7216                        TCAM_V4KEY2_PROTO_SHIFT;
7217                if (proto == IPPROTO_ESP) {
7218                        if (fsp->flow_type == AH_V4_FLOW)
7219                                fsp->flow_type = ESP_V4_FLOW;
7220                        else
7221                                fsp->flow_type = ESP_V6_FLOW;
7222                }
7223        }
7224
7225        switch (fsp->flow_type) {
7226        case TCP_V4_FLOW:
7227        case UDP_V4_FLOW:
7228        case SCTP_V4_FLOW:
7229        case AH_V4_FLOW:
7230        case ESP_V4_FLOW:
7231                niu_get_ip4fs_from_tcam_key(tp, fsp);
7232                break;
7233        case TCP_V6_FLOW:
7234        case UDP_V6_FLOW:
7235        case SCTP_V6_FLOW:
7236        case AH_V6_FLOW:
7237        case ESP_V6_FLOW:
7238                /* Not yet implemented */
7239                ret = -EINVAL;
7240                break;
7241        case IP_USER_FLOW:
7242                niu_get_ip4fs_from_tcam_key(tp, fsp);
7243                break;
7244        default:
7245                ret = -EINVAL;
7246                break;
7247        }
7248
7249        if (ret < 0)
7250                goto out;
7251
7252        if (tp->assoc_data & TCAM_ASSOCDATA_DISC)
7253                fsp->ring_cookie = RX_CLS_FLOW_DISC;
7254        else
7255                fsp->ring_cookie = (tp->assoc_data & TCAM_ASSOCDATA_OFFSET) >>
7256                        TCAM_ASSOCDATA_OFFSET_SHIFT;
7257
7258        /* put the tcam size here */
7259        nfc->data = tcam_get_size(np);
7260out:
7261        return ret;
7262}
7263
7264static int niu_get_ethtool_tcam_all(struct niu *np,
7265                                    struct ethtool_rxnfc *nfc,
7266                                    u32 *rule_locs)
7267{
7268        struct niu_parent *parent = np->parent;
7269        struct niu_tcam_entry *tp;
7270        int i, idx, cnt;
7271        unsigned long flags;
7272        int ret = 0;
7273
7274        /* put the tcam size here */
7275        nfc->data = tcam_get_size(np);
7276
7277        niu_lock_parent(np, flags);
7278        for (cnt = 0, i = 0; i < nfc->data; i++) {
7279                idx = tcam_get_index(np, i);
7280                tp = &parent->tcam[idx];
7281                if (!tp->valid)
7282                        continue;
7283                if (cnt == nfc->rule_cnt) {
7284                        ret = -EMSGSIZE;
7285                        break;
7286                }
7287                rule_locs[cnt] = i;
7288                cnt++;
7289        }
7290        niu_unlock_parent(np, flags);
7291
7292        nfc->rule_cnt = cnt;
7293
7294        return ret;
7295}
7296
7297static int niu_get_nfc(struct net_device *dev, struct ethtool_rxnfc *cmd,
7298                       u32 *rule_locs)
7299{
7300        struct niu *np = netdev_priv(dev);
7301        int ret = 0;
7302
7303        switch (cmd->cmd) {
7304        case ETHTOOL_GRXFH:
7305                ret = niu_get_hash_opts(np, cmd);
7306                break;
7307        case ETHTOOL_GRXRINGS:
7308                cmd->data = np->num_rx_rings;
7309                break;
7310        case ETHTOOL_GRXCLSRLCNT:
7311                cmd->rule_cnt = tcam_get_valid_entry_cnt(np);
7312                break;
7313        case ETHTOOL_GRXCLSRULE:
7314                ret = niu_get_ethtool_tcam_entry(np, cmd);
7315                break;
7316        case ETHTOOL_GRXCLSRLALL:
7317                ret = niu_get_ethtool_tcam_all(np, cmd, rule_locs);
7318                break;
7319        default:
7320                ret = -EINVAL;
7321                break;
7322        }
7323
7324        return ret;
7325}
7326
7327static int niu_set_hash_opts(struct niu *np, struct ethtool_rxnfc *nfc)
7328{
7329        u64 class;
7330        u64 flow_key = 0;
7331        unsigned long flags;
7332
7333        if (!niu_ethflow_to_class(nfc->flow_type, &class))
7334                return -EINVAL;
7335
7336        if (class < CLASS_CODE_USER_PROG1 ||
7337            class > CLASS_CODE_SCTP_IPV6)
7338                return -EINVAL;
7339
7340        if (nfc->data & RXH_DISCARD) {
7341                niu_lock_parent(np, flags);
7342                flow_key = np->parent->tcam_key[class -
7343                                               CLASS_CODE_USER_PROG1];
7344                flow_key |= TCAM_KEY_DISC;
7345                nw64(TCAM_KEY(class - CLASS_CODE_USER_PROG1), flow_key);
7346                np->parent->tcam_key[class - CLASS_CODE_USER_PROG1] = flow_key;
7347                niu_unlock_parent(np, flags);
7348                return 0;
7349        } else {
7350                /* Discard was set before, but is not set now */
7351                if (np->parent->tcam_key[class - CLASS_CODE_USER_PROG1] &
7352                    TCAM_KEY_DISC) {
7353                        niu_lock_parent(np, flags);
7354                        flow_key = np->parent->tcam_key[class -
7355                                               CLASS_CODE_USER_PROG1];
7356                        flow_key &= ~TCAM_KEY_DISC;
7357                        nw64(TCAM_KEY(class - CLASS_CODE_USER_PROG1),
7358                             flow_key);
7359                        np->parent->tcam_key[class - CLASS_CODE_USER_PROG1] =
7360                                flow_key;
7361                        niu_unlock_parent(np, flags);
7362                }
7363        }
7364
7365        if (!niu_ethflow_to_flowkey(nfc->data, &flow_key))
7366                return -EINVAL;
7367
7368        niu_lock_parent(np, flags);
7369        nw64(FLOW_KEY(class - CLASS_CODE_USER_PROG1), flow_key);
7370        np->parent->flow_key[class - CLASS_CODE_USER_PROG1] = flow_key;
7371        niu_unlock_parent(np, flags);
7372
7373        return 0;
7374}
7375
7376static void niu_get_tcamkey_from_ip4fs(struct ethtool_rx_flow_spec *fsp,
7377                                       struct niu_tcam_entry *tp,
7378                                       int l2_rdc_tab, u64 class)
7379{
7380        u8 pid = 0;
7381        u32 sip, dip, sipm, dipm, spi, spim;
7382        u16 sport, dport, spm, dpm;
7383
7384        sip = be32_to_cpu(fsp->h_u.tcp_ip4_spec.ip4src);
7385        sipm = be32_to_cpu(fsp->m_u.tcp_ip4_spec.ip4src);
7386        dip = be32_to_cpu(fsp->h_u.tcp_ip4_spec.ip4dst);
7387        dipm = be32_to_cpu(fsp->m_u.tcp_ip4_spec.ip4dst);
7388
7389        tp->key[0] = class << TCAM_V4KEY0_CLASS_CODE_SHIFT;
7390        tp->key_mask[0] = TCAM_V4KEY0_CLASS_CODE;
7391        tp->key[1] = (u64)l2_rdc_tab << TCAM_V4KEY1_L2RDCNUM_SHIFT;
7392        tp->key_mask[1] = TCAM_V4KEY1_L2RDCNUM;
7393
7394        tp->key[3] = (u64)sip << TCAM_V4KEY3_SADDR_SHIFT;
7395        tp->key[3] |= dip;
7396
7397        tp->key_mask[3] = (u64)sipm << TCAM_V4KEY3_SADDR_SHIFT;
7398        tp->key_mask[3] |= dipm;
7399
7400        tp->key[2] |= ((u64)fsp->h_u.tcp_ip4_spec.tos <<
7401                       TCAM_V4KEY2_TOS_SHIFT);
7402        tp->key_mask[2] |= ((u64)fsp->m_u.tcp_ip4_spec.tos <<
7403                            TCAM_V4KEY2_TOS_SHIFT);
7404        switch (fsp->flow_type) {
7405        case TCP_V4_FLOW:
7406        case UDP_V4_FLOW:
7407        case SCTP_V4_FLOW:
7408                sport = be16_to_cpu(fsp->h_u.tcp_ip4_spec.psrc);
7409                spm = be16_to_cpu(fsp->m_u.tcp_ip4_spec.psrc);
7410                dport = be16_to_cpu(fsp->h_u.tcp_ip4_spec.pdst);
7411                dpm = be16_to_cpu(fsp->m_u.tcp_ip4_spec.pdst);
7412
7413                tp->key[2] |= (((u64)sport << 16) | dport);
7414                tp->key_mask[2] |= (((u64)spm << 16) | dpm);
7415                niu_ethflow_to_l3proto(fsp->flow_type, &pid);
7416                break;
7417        case AH_V4_FLOW:
7418        case ESP_V4_FLOW:
7419                spi = be32_to_cpu(fsp->h_u.ah_ip4_spec.spi);
7420                spim = be32_to_cpu(fsp->m_u.ah_ip4_spec.spi);
7421
7422                tp->key[2] |= spi;
7423                tp->key_mask[2] |= spim;
7424                niu_ethflow_to_l3proto(fsp->flow_type, &pid);
7425                break;
7426        case IP_USER_FLOW:
7427                spi = be32_to_cpu(fsp->h_u.usr_ip4_spec.l4_4_bytes);
7428                spim = be32_to_cpu(fsp->m_u.usr_ip4_spec.l4_4_bytes);
7429
7430                tp->key[2] |= spi;
7431                tp->key_mask[2] |= spim;
7432                pid = fsp->h_u.usr_ip4_spec.proto;
7433                break;
7434        default:
7435                break;
7436        }
7437
7438        tp->key[2] |= ((u64)pid << TCAM_V4KEY2_PROTO_SHIFT);
7439        if (pid) {
7440                tp->key_mask[2] |= TCAM_V4KEY2_PROTO;
7441        }
7442}
7443
7444static int niu_add_ethtool_tcam_entry(struct niu *np,
7445                                      struct ethtool_rxnfc *nfc)
7446{
7447        struct niu_parent *parent = np->parent;
7448        struct niu_tcam_entry *tp;
7449        struct ethtool_rx_flow_spec *fsp = &nfc->fs;
7450        struct niu_rdc_tables *rdc_table = &parent->rdc_group_cfg[np->port];
7451        int l2_rdc_table = rdc_table->first_table_num;
7452        u16 idx;
7453        u64 class;
7454        unsigned long flags;
7455        int err, ret;
7456
7457        ret = 0;
7458
7459        idx = nfc->fs.location;
7460        if (idx >= tcam_get_size(np))
7461                return -EINVAL;
7462
7463        if (fsp->flow_type == IP_USER_FLOW) {
7464                int i;
7465                int add_usr_cls = 0;
7466                struct ethtool_usrip4_spec *uspec = &fsp->h_u.usr_ip4_spec;
7467                struct ethtool_usrip4_spec *umask = &fsp->m_u.usr_ip4_spec;
7468
7469                if (uspec->ip_ver != ETH_RX_NFC_IP4)
7470                        return -EINVAL;
7471
7472                niu_lock_parent(np, flags);
7473
7474                for (i = 0; i < NIU_L3_PROG_CLS; i++) {
7475                        if (parent->l3_cls[i]) {
7476                                if (uspec->proto == parent->l3_cls_pid[i]) {
7477                                        class = parent->l3_cls[i];
7478                                        parent->l3_cls_refcnt[i]++;
7479                                        add_usr_cls = 1;
7480                                        break;
7481                                }
7482                        } else {
7483                                /* Program new user IP class */
7484                                switch (i) {
7485                                case 0:
7486                                        class = CLASS_CODE_USER_PROG1;
7487                                        break;
7488                                case 1:
7489                                        class = CLASS_CODE_USER_PROG2;
7490                                        break;
7491                                case 2:
7492                                        class = CLASS_CODE_USER_PROG3;
7493                                        break;
7494                                case 3:
7495                                        class = CLASS_CODE_USER_PROG4;
7496                                        break;
7497                                default:
7498                                        break;
7499                                }
7500                                ret = tcam_user_ip_class_set(np, class, 0,
7501                                                             uspec->proto,
7502                                                             uspec->tos,
7503                                                             umask->tos);
7504                                if (ret)
7505                                        goto out;
7506
7507                                ret = tcam_user_ip_class_enable(np, class, 1);
7508                                if (ret)
7509                                        goto out;
7510                                parent->l3_cls[i] = class;
7511                                parent->l3_cls_pid[i] = uspec->proto;
7512                                parent->l3_cls_refcnt[i]++;
7513                                add_usr_cls = 1;
7514                                break;
7515                        }
7516                }
7517                if (!add_usr_cls) {
7518                        netdev_info(np->dev, "niu%d: %s(): Could not find/insert class for pid %d\n",
7519                                    parent->index, __func__, uspec->proto);
7520                        ret = -EINVAL;
7521                        goto out;
7522                }
7523                niu_unlock_parent(np, flags);
7524        } else {
7525                if (!niu_ethflow_to_class(fsp->flow_type, &class)) {
7526                        return -EINVAL;
7527                }
7528        }
7529
7530        niu_lock_parent(np, flags);
7531
7532        idx = tcam_get_index(np, idx);
7533        tp = &parent->tcam[idx];
7534
7535        memset(tp, 0, sizeof(*tp));
7536
7537        /* fill in the tcam key and mask */
7538        switch (fsp->flow_type) {
7539        case TCP_V4_FLOW:
7540        case UDP_V4_FLOW:
7541        case SCTP_V4_FLOW:
7542        case AH_V4_FLOW:
7543        case ESP_V4_FLOW:
7544                niu_get_tcamkey_from_ip4fs(fsp, tp, l2_rdc_table, class);
7545                break;
7546        case TCP_V6_FLOW:
7547        case UDP_V6_FLOW:
7548        case SCTP_V6_FLOW:
7549        case AH_V6_FLOW:
7550        case ESP_V6_FLOW:
7551                /* Not yet implemented */
7552                netdev_info(np->dev, "niu%d: In %s(): flow %d for IPv6 not implemented\n",
7553                            parent->index, __func__, fsp->flow_type);
7554                ret = -EINVAL;
7555                goto out;
7556        case IP_USER_FLOW:
7557                niu_get_tcamkey_from_ip4fs(fsp, tp, l2_rdc_table, class);
7558                break;
7559        default:
7560                netdev_info(np->dev, "niu%d: In %s(): Unknown flow type %d\n",
7561                            parent->index, __func__, fsp->flow_type);
7562                ret = -EINVAL;
7563                goto out;
7564        }
7565
7566        /* fill in the assoc data */
7567        if (fsp->ring_cookie == RX_CLS_FLOW_DISC) {
7568                tp->assoc_data = TCAM_ASSOCDATA_DISC;
7569        } else {
7570                if (fsp->ring_cookie >= np->num_rx_rings) {
7571                        netdev_info(np->dev, "niu%d: In %s(): Invalid RX ring %lld\n",
7572                                    parent->index, __func__,
7573                                    (long long)fsp->ring_cookie);
7574                        ret = -EINVAL;
7575                        goto out;
7576                }
7577                tp->assoc_data = (TCAM_ASSOCDATA_TRES_USE_OFFSET |
7578                                  (fsp->ring_cookie <<
7579                                   TCAM_ASSOCDATA_OFFSET_SHIFT));
7580        }
7581
7582        err = tcam_write(np, idx, tp->key, tp->key_mask);
7583        if (err) {
7584                ret = -EINVAL;
7585                goto out;
7586        }
7587        err = tcam_assoc_write(np, idx, tp->assoc_data);
7588        if (err) {
7589                ret = -EINVAL;
7590                goto out;
7591        }
7592
7593        /* validate the entry */
7594        tp->valid = 1;
7595        np->clas.tcam_valid_entries++;
7596out:
7597        niu_unlock_parent(np, flags);
7598
7599        return ret;
7600}
7601
7602static int niu_del_ethtool_tcam_entry(struct niu *np, u32 loc)
7603{
7604        struct niu_parent *parent = np->parent;
7605        struct niu_tcam_entry *tp;
7606        u16 idx;
7607        unsigned long flags;
7608        u64 class;
7609        int ret = 0;
7610
7611        if (loc >= tcam_get_size(np))
7612                return -EINVAL;
7613
7614        niu_lock_parent(np, flags);
7615
7616        idx = tcam_get_index(np, loc);
7617        tp = &parent->tcam[idx];
7618
7619        /* if the entry is of a user defined class, then update*/
7620        class = (tp->key[0] & TCAM_V4KEY0_CLASS_CODE) >>
7621                TCAM_V4KEY0_CLASS_CODE_SHIFT;
7622
7623        if (class >= CLASS_CODE_USER_PROG1 && class <= CLASS_CODE_USER_PROG4) {
7624                int i;
7625                for (i = 0; i < NIU_L3_PROG_CLS; i++) {
7626                        if (parent->l3_cls[i] == class) {
7627                                parent->l3_cls_refcnt[i]--;
7628                                if (!parent->l3_cls_refcnt[i]) {
7629                                        /* disable class */
7630                                        ret = tcam_user_ip_class_enable(np,
7631                                                                        class,
7632                                                                        0);
7633                                        if (ret)
7634                                                goto out;
7635                                        parent->l3_cls[i] = 0;
7636                                        parent->l3_cls_pid[i] = 0;
7637                                }
7638                                break;
7639                        }
7640                }
7641                if (i == NIU_L3_PROG_CLS) {
7642                        netdev_info(np->dev, "niu%d: In %s(): Usr class 0x%llx not found\n",
7643                                    parent->index, __func__,
7644                                    (unsigned long long)class);
7645                        ret = -EINVAL;
7646                        goto out;
7647                }
7648        }
7649
7650        ret = tcam_flush(np, idx);
7651        if (ret)
7652                goto out;
7653
7654        /* invalidate the entry */
7655        tp->valid = 0;
7656        np->clas.tcam_valid_entries--;
7657out:
7658        niu_unlock_parent(np, flags);
7659
7660        return ret;
7661}
7662
7663static int niu_set_nfc(struct net_device *dev, struct ethtool_rxnfc *cmd)
7664{
7665        struct niu *np = netdev_priv(dev);
7666        int ret = 0;
7667
7668        switch (cmd->cmd) {
7669        case ETHTOOL_SRXFH:
7670                ret = niu_set_hash_opts(np, cmd);
7671                break;
7672        case ETHTOOL_SRXCLSRLINS:
7673                ret = niu_add_ethtool_tcam_entry(np, cmd);
7674                break;
7675        case ETHTOOL_SRXCLSRLDEL:
7676                ret = niu_del_ethtool_tcam_entry(np, cmd->fs.location);
7677                break;
7678        default:
7679                ret = -EINVAL;
7680                break;
7681        }
7682
7683        return ret;
7684}
7685
7686static const struct {
7687        const char string[ETH_GSTRING_LEN];
7688} niu_xmac_stat_keys[] = {
7689        { "tx_frames" },
7690        { "tx_bytes" },
7691        { "tx_fifo_errors" },
7692        { "tx_overflow_errors" },
7693        { "tx_max_pkt_size_errors" },
7694        { "tx_underflow_errors" },
7695        { "rx_local_faults" },
7696        { "rx_remote_faults" },
7697        { "rx_link_faults" },
7698        { "rx_align_errors" },
7699        { "rx_frags" },
7700        { "rx_mcasts" },
7701        { "rx_bcasts" },
7702        { "rx_hist_cnt1" },
7703        { "rx_hist_cnt2" },
7704        { "rx_hist_cnt3" },
7705        { "rx_hist_cnt4" },
7706        { "rx_hist_cnt5" },
7707        { "rx_hist_cnt6" },
7708        { "rx_hist_cnt7" },
7709        { "rx_octets" },
7710        { "rx_code_violations" },
7711        { "rx_len_errors" },
7712        { "rx_crc_errors" },
7713        { "rx_underflows" },
7714        { "rx_overflows" },
7715        { "pause_off_state" },
7716        { "pause_on_state" },
7717        { "pause_received" },
7718};
7719
7720#define NUM_XMAC_STAT_KEYS      ARRAY_SIZE(niu_xmac_stat_keys)
7721
7722static const struct {
7723        const char string[ETH_GSTRING_LEN];
7724} niu_bmac_stat_keys[] = {
7725        { "tx_underflow_errors" },
7726        { "tx_max_pkt_size_errors" },
7727        { "tx_bytes" },
7728        { "tx_frames" },
7729        { "rx_overflows" },
7730        { "rx_frames" },
7731        { "rx_align_errors" },
7732        { "rx_crc_errors" },
7733        { "rx_len_errors" },
7734        { "pause_off_state" },
7735        { "pause_on_state" },
7736        { "pause_received" },
7737};
7738
7739#define NUM_BMAC_STAT_KEYS      ARRAY_SIZE(niu_bmac_stat_keys)
7740
7741static const struct {
7742        const char string[ETH_GSTRING_LEN];
7743} niu_rxchan_stat_keys[] = {
7744        { "rx_channel" },
7745        { "rx_packets" },
7746        { "rx_bytes" },
7747        { "rx_dropped" },
7748        { "rx_errors" },
7749};
7750
7751#define NUM_RXCHAN_STAT_KEYS    ARRAY_SIZE(niu_rxchan_stat_keys)
7752
7753static const struct {
7754        const char string[ETH_GSTRING_LEN];
7755} niu_txchan_stat_keys[] = {
7756        { "tx_channel" },
7757        { "tx_packets" },
7758        { "tx_bytes" },
7759        { "tx_errors" },
7760};
7761
7762#define NUM_TXCHAN_STAT_KEYS    ARRAY_SIZE(niu_txchan_stat_keys)
7763
7764static void niu_get_strings(struct net_device *dev, u32 stringset, u8 *data)
7765{
7766        struct niu *np = netdev_priv(dev);
7767        int i;
7768
7769        if (stringset != ETH_SS_STATS)
7770                return;
7771
7772        if (np->flags & NIU_FLAGS_XMAC) {
7773                memcpy(data, niu_xmac_stat_keys,
7774                       sizeof(niu_xmac_stat_keys));
7775                data += sizeof(niu_xmac_stat_keys);
7776        } else {
7777                memcpy(data, niu_bmac_stat_keys,
7778                       sizeof(niu_bmac_stat_keys));
7779                data += sizeof(niu_bmac_stat_keys);
7780        }
7781        for (i = 0; i < np->num_rx_rings; i++) {
7782                memcpy(data, niu_rxchan_stat_keys,
7783                       sizeof(niu_rxchan_stat_keys));
7784                data += sizeof(niu_rxchan_stat_keys);
7785        }
7786        for (i = 0; i < np->num_tx_rings; i++) {
7787                memcpy(data, niu_txchan_stat_keys,
7788                       sizeof(niu_txchan_stat_keys));
7789                data += sizeof(niu_txchan_stat_keys);
7790        }
7791}
7792
7793static int niu_get_sset_count(struct net_device *dev, int stringset)
7794{
7795        struct niu *np = netdev_priv(dev);
7796
7797        if (stringset != ETH_SS_STATS)
7798                return -EINVAL;
7799
7800        return (np->flags & NIU_FLAGS_XMAC ?
7801                 NUM_XMAC_STAT_KEYS :
7802                 NUM_BMAC_STAT_KEYS) +
7803                (np->num_rx_rings * NUM_RXCHAN_STAT_KEYS) +
7804                (np->num_tx_rings * NUM_TXCHAN_STAT_KEYS);
7805}
7806
7807static void niu_get_ethtool_stats(struct net_device *dev,
7808                                  struct ethtool_stats *stats, u64 *data)
7809{
7810        struct niu *np = netdev_priv(dev);
7811        int i;
7812
7813        niu_sync_mac_stats(np);
7814        if (np->flags & NIU_FLAGS_XMAC) {
7815                memcpy(data, &np->mac_stats.xmac,
7816                       sizeof(struct niu_xmac_stats));
7817                data += (sizeof(struct niu_xmac_stats) / sizeof(u64));
7818        } else {
7819                memcpy(data, &np->mac_stats.bmac,
7820                       sizeof(struct niu_bmac_stats));
7821                data += (sizeof(struct niu_bmac_stats) / sizeof(u64));
7822        }
7823        for (i = 0; i < np->num_rx_rings; i++) {
7824                struct rx_ring_info *rp = &np->rx_rings[i];
7825
7826                niu_sync_rx_discard_stats(np, rp, 0);
7827
7828                data[0] = rp->rx_channel;
7829                data[1] = rp->rx_packets;
7830                data[2] = rp->rx_bytes;
7831                data[3] = rp->rx_dropped;
7832                data[4] = rp->rx_errors;
7833                data += 5;
7834        }
7835        for (i = 0; i < np->num_tx_rings; i++) {
7836                struct tx_ring_info *rp = &np->tx_rings[i];
7837
7838                data[0] = rp->tx_channel;
7839                data[1] = rp->tx_packets;
7840                data[2] = rp->tx_bytes;
7841                data[3] = rp->tx_errors;
7842                data += 4;
7843        }
7844}
7845
7846static u64 niu_led_state_save(struct niu *np)
7847{
7848        if (np->flags & NIU_FLAGS_XMAC)
7849                return nr64_mac(XMAC_CONFIG);
7850        else
7851                return nr64_mac(BMAC_XIF_CONFIG);
7852}
7853
7854static void niu_led_state_restore(struct niu *np, u64 val)
7855{
7856        if (np->flags & NIU_FLAGS_XMAC)
7857                nw64_mac(XMAC_CONFIG, val);
7858        else
7859                nw64_mac(BMAC_XIF_CONFIG, val);
7860}
7861
7862static void niu_force_led(struct niu *np, int on)
7863{
7864        u64 val, reg, bit;
7865
7866        if (np->flags & NIU_FLAGS_XMAC) {
7867                reg = XMAC_CONFIG;
7868                bit = XMAC_CONFIG_FORCE_LED_ON;
7869        } else {
7870                reg = BMAC_XIF_CONFIG;
7871                bit = BMAC_XIF_CONFIG_LINK_LED;
7872        }
7873
7874        val = nr64_mac(reg);
7875        if (on)
7876                val |= bit;
7877        else
7878                val &= ~bit;
7879        nw64_mac(reg, val);
7880}
7881
7882static int niu_set_phys_id(struct net_device *dev,
7883                           enum ethtool_phys_id_state state)
7884
7885{
7886        struct niu *np = netdev_priv(dev);
7887
7888        if (!netif_running(dev))
7889                return -EAGAIN;
7890
7891        switch (state) {
7892        case ETHTOOL_ID_ACTIVE:
7893                np->orig_led_state = niu_led_state_save(np);
7894                return 1;       /* cycle on/off once per second */
7895
7896        case ETHTOOL_ID_ON:
7897                niu_force_led(np, 1);
7898                break;
7899
7900        case ETHTOOL_ID_OFF:
7901                niu_force_led(np, 0);
7902                break;
7903
7904        case ETHTOOL_ID_INACTIVE:
7905                niu_led_state_restore(np, np->orig_led_state);
7906        }
7907
7908        return 0;
7909}
7910
7911static const struct ethtool_ops niu_ethtool_ops = {
7912        .get_drvinfo            = niu_get_drvinfo,
7913        .get_link               = ethtool_op_get_link,
7914        .get_msglevel           = niu_get_msglevel,
7915        .set_msglevel           = niu_set_msglevel,
7916        .nway_reset             = niu_nway_reset,
7917        .get_eeprom_len         = niu_get_eeprom_len,
7918        .get_eeprom             = niu_get_eeprom,
7919        .get_settings           = niu_get_settings,
7920        .set_settings           = niu_set_settings,
7921        .get_strings            = niu_get_strings,
7922        .get_sset_count         = niu_get_sset_count,
7923        .get_ethtool_stats      = niu_get_ethtool_stats,
7924        .set_phys_id            = niu_set_phys_id,
7925        .get_rxnfc              = niu_get_nfc,
7926        .set_rxnfc              = niu_set_nfc,
7927};
7928
7929static int niu_ldg_assign_ldn(struct niu *np, struct niu_parent *parent,
7930                              int ldg, int ldn)
7931{
7932        if (ldg < NIU_LDG_MIN || ldg > NIU_LDG_MAX)
7933                return -EINVAL;
7934        if (ldn < 0 || ldn > LDN_MAX)
7935                return -EINVAL;
7936
7937        parent->ldg_map[ldn] = ldg;
7938
7939        if (np->parent->plat_type == PLAT_TYPE_NIU) {
7940                /* On N2 NIU, the ldn-->ldg assignments are setup and fixed by
7941                 * the firmware, and we're not supposed to change them.
7942                 * Validate the mapping, because if it's wrong we probably
7943                 * won't get any interrupts and that's painful to debug.
7944                 */
7945                if (nr64(LDG_NUM(ldn)) != ldg) {
7946                        dev_err(np->device, "Port %u, mis-matched LDG assignment for ldn %d, should be %d is %llu\n",
7947                                np->port, ldn, ldg,
7948                                (unsigned long long) nr64(LDG_NUM(ldn)));
7949                        return -EINVAL;
7950                }
7951        } else
7952                nw64(LDG_NUM(ldn), ldg);
7953
7954        return 0;
7955}
7956
7957static int niu_set_ldg_timer_res(struct niu *np, int res)
7958{
7959        if (res < 0 || res > LDG_TIMER_RES_VAL)
7960                return -EINVAL;
7961
7962
7963        nw64(LDG_TIMER_RES, res);
7964
7965        return 0;
7966}
7967
7968static int niu_set_ldg_sid(struct niu *np, int ldg, int func, int vector)
7969{
7970        if ((ldg < NIU_LDG_MIN || ldg > NIU_LDG_MAX) ||
7971            (func < 0 || func > 3) ||
7972            (vector < 0 || vector > 0x1f))
7973                return -EINVAL;
7974
7975        nw64(SID(ldg), (func << SID_FUNC_SHIFT) | vector);
7976
7977        return 0;
7978}
7979
7980static int niu_pci_eeprom_read(struct niu *np, u32 addr)
7981{
7982        u64 frame, frame_base = (ESPC_PIO_STAT_READ_START |
7983                                 (addr << ESPC_PIO_STAT_ADDR_SHIFT));
7984        int limit;
7985
7986        if (addr > (ESPC_PIO_STAT_ADDR >> ESPC_PIO_STAT_ADDR_SHIFT))
7987                return -EINVAL;
7988
7989        frame = frame_base;
7990        nw64(ESPC_PIO_STAT, frame);
7991        limit = 64;
7992        do {
7993                udelay(5);
7994                frame = nr64(ESPC_PIO_STAT);
7995                if (frame & ESPC_PIO_STAT_READ_END)
7996                        break;
7997        } while (limit--);
7998        if (!(frame & ESPC_PIO_STAT_READ_END)) {
7999                dev_err(np->device, "EEPROM read timeout frame[%llx]\n",
8000                        (unsigned long long) frame);
8001                return -ENODEV;
8002        }
8003
8004        frame = frame_base;
8005        nw64(ESPC_PIO_STAT, frame);
8006        limit = 64;
8007        do {
8008                udelay(5);
8009                frame = nr64(ESPC_PIO_STAT);
8010                if (frame & ESPC_PIO_STAT_READ_END)
8011                        break;
8012        } while (limit--);
8013        if (!(frame & ESPC_PIO_STAT_READ_END)) {
8014                dev_err(np->device, "EEPROM read timeout frame[%llx]\n",
8015                        (unsigned long long) frame);
8016                return -ENODEV;
8017        }
8018
8019        frame = nr64(ESPC_PIO_STAT);
8020        return (frame & ESPC_PIO_STAT_DATA) >> ESPC_PIO_STAT_DATA_SHIFT;
8021}
8022
8023static int niu_pci_eeprom_read16(struct niu *np, u32 off)
8024{
8025        int err = niu_pci_eeprom_read(np, off);
8026        u16 val;
8027
8028        if (err < 0)
8029                return err;
8030        val = (err << 8);
8031        err = niu_pci_eeprom_read(np, off + 1);
8032        if (err < 0)
8033                return err;
8034        val |= (err & 0xff);
8035
8036        return val;
8037}
8038
8039static int niu_pci_eeprom_read16_swp(struct niu *np, u32 off)
8040{
8041        int err = niu_pci_eeprom_read(np, off);
8042        u16 val;
8043
8044        if (err < 0)
8045                return err;
8046
8047        val = (err & 0xff);
8048        err = niu_pci_eeprom_read(np, off + 1);
8049        if (err < 0)
8050                return err;
8051
8052        val |= (err & 0xff) << 8;
8053
8054        return val;
8055}
8056
8057static int niu_pci_vpd_get_propname(struct niu *np, u32 off, char *namebuf,
8058                                    int namebuf_len)
8059{
8060        int i;
8061
8062        for (i = 0; i < namebuf_len; i++) {
8063                int err = niu_pci_eeprom_read(np, off + i);
8064                if (err < 0)
8065                        return err;
8066                *namebuf++ = err;
8067                if (!err)
8068                        break;
8069        }
8070        if (i >= namebuf_len)
8071                return -EINVAL;
8072
8073        return i + 1;
8074}
8075
8076static void niu_vpd_parse_version(struct niu *np)
8077{
8078        struct niu_vpd *vpd = &np->vpd;
8079        int len = strlen(vpd->version) + 1;
8080        const char *s = vpd->version;
8081        int i;
8082
8083        for (i = 0; i < len - 5; i++) {
8084                if (!strncmp(s + i, "FCode ", 6))
8085                        break;
8086        }
8087        if (i >= len - 5)
8088                return;
8089
8090        s += i + 5;
8091        sscanf(s, "%d.%d", &vpd->fcode_major, &vpd->fcode_minor);
8092
8093        netif_printk(np, probe, KERN_DEBUG, np->dev,
8094                     "VPD_SCAN: FCODE major(%d) minor(%d)\n",
8095                     vpd->fcode_major, vpd->fcode_minor);
8096        if (vpd->fcode_major > NIU_VPD_MIN_MAJOR ||
8097            (vpd->fcode_major == NIU_VPD_MIN_MAJOR &&
8098             vpd->fcode_minor >= NIU_VPD_MIN_MINOR))
8099                np->flags |= NIU_FLAGS_VPD_VALID;
8100}
8101
8102/* ESPC_PIO_EN_ENABLE must be set */
8103static int niu_pci_vpd_scan_props(struct niu *np, u32 start, u32 end)
8104{
8105        unsigned int found_mask = 0;
8106#define FOUND_MASK_MODEL        0x00000001
8107#define FOUND_MASK_BMODEL       0x00000002
8108#define FOUND_MASK_VERS         0x00000004
8109#define FOUND_MASK_MAC          0x00000008
8110#define FOUND_MASK_NMAC         0x00000010
8111#define FOUND_MASK_PHY          0x00000020
8112#define FOUND_MASK_ALL          0x0000003f
8113
8114        netif_printk(np, probe, KERN_DEBUG, np->dev,
8115                     "VPD_SCAN: start[%x] end[%x]\n", start, end);
8116        while (start < end) {
8117                int len, err, prop_len;
8118                char namebuf[64];
8119                u8 *prop_buf;
8120                int max_len;
8121
8122                if (found_mask == FOUND_MASK_ALL) {
8123                        niu_vpd_parse_version(np);
8124                        return 1;
8125                }
8126
8127                err = niu_pci_eeprom_read(np, start + 2);
8128                if (err < 0)
8129                        return err;
8130                len = err;
8131                start += 3;
8132
8133                prop_len = niu_pci_eeprom_read(np, start + 4);
8134                err = niu_pci_vpd_get_propname(np, start + 5, namebuf, 64);
8135                if (err < 0)
8136                        return err;
8137
8138                prop_buf = NULL;
8139                max_len = 0;
8140                if (!strcmp(namebuf, "model")) {
8141                        prop_buf = np->vpd.model;
8142                        max_len = NIU_VPD_MODEL_MAX;
8143                        found_mask |= FOUND_MASK_MODEL;
8144                } else if (!strcmp(namebuf, "board-model")) {
8145                        prop_buf = np->vpd.board_model;
8146                        max_len = NIU_VPD_BD_MODEL_MAX;
8147                        found_mask |= FOUND_MASK_BMODEL;
8148                } else if (!strcmp(namebuf, "version")) {
8149                        prop_buf = np->vpd.version;
8150                        max_len = NIU_VPD_VERSION_MAX;
8151                        found_mask |= FOUND_MASK_VERS;
8152                } else if (!strcmp(namebuf, "local-mac-address")) {
8153                        prop_buf = np->vpd.local_mac;
8154                        max_len = ETH_ALEN;
8155                        found_mask |= FOUND_MASK_MAC;
8156                } else if (!strcmp(namebuf, "num-mac-addresses")) {
8157                        prop_buf = &np->vpd.mac_num;
8158                        max_len = 1;
8159                        found_mask |= FOUND_MASK_NMAC;
8160                } else if (!strcmp(namebuf, "phy-type")) {
8161                        prop_buf = np->vpd.phy_type;
8162                        max_len = NIU_VPD_PHY_TYPE_MAX;
8163                        found_mask |= FOUND_MASK_PHY;
8164                }
8165
8166                if (max_len && prop_len > max_len) {
8167                        dev_err(np->device, "Property '%s' length (%d) is too long\n", namebuf, prop_len);
8168                        return -EINVAL;
8169                }
8170
8171                if (prop_buf) {
8172                        u32 off = start + 5 + err;
8173                        int i;
8174
8175                        netif_printk(np, probe, KERN_DEBUG, np->dev,
8176                                     "VPD_SCAN: Reading in property [%s] len[%d]\n",
8177                                     namebuf, prop_len);
8178                        for (i = 0; i < prop_len; i++)
8179                                *prop_buf++ = niu_pci_eeprom_read(np, off + i);
8180                }
8181
8182                start += len;
8183        }
8184
8185        return 0;
8186}
8187
8188/* ESPC_PIO_EN_ENABLE must be set */
8189static void niu_pci_vpd_fetch(struct niu *np, u32 start)
8190{
8191        u32 offset;
8192        int err;
8193
8194        err = niu_pci_eeprom_read16_swp(np, start + 1);
8195        if (err < 0)
8196                return;
8197
8198        offset = err + 3;
8199
8200        while (start + offset < ESPC_EEPROM_SIZE) {
8201                u32 here = start + offset;
8202                u32 end;
8203
8204                err = niu_pci_eeprom_read(np, here);
8205                if (err != 0x90)
8206                        return;
8207
8208                err = niu_pci_eeprom_read16_swp(np, here + 1);
8209                if (err < 0)
8210                        return;
8211
8212                here = start + offset + 3;
8213                end = start + offset + err;
8214
8215                offset += err;
8216
8217                err = niu_pci_vpd_scan_props(np, here, end);
8218                if (err < 0 || err == 1)
8219                        return;
8220        }
8221}
8222
8223/* ESPC_PIO_EN_ENABLE must be set */
8224static u32 niu_pci_vpd_offset(struct niu *np)
8225{
8226        u32 start = 0, end = ESPC_EEPROM_SIZE, ret;
8227        int err;
8228
8229        while (start < end) {
8230                ret = start;
8231
8232                /* ROM header signature?  */
8233                err = niu_pci_eeprom_read16(np, start +  0);
8234                if (err != 0x55aa)
8235                        return 0;
8236
8237                /* Apply offset to PCI data structure.  */
8238                err = niu_pci_eeprom_read16(np, start + 23);
8239                if (err < 0)
8240                        return 0;
8241                start += err;
8242
8243                /* Check for "PCIR" signature.  */
8244                err = niu_pci_eeprom_read16(np, start +  0);
8245                if (err != 0x5043)
8246                        return 0;
8247                err = niu_pci_eeprom_read16(np, start +  2);
8248                if (err != 0x4952)
8249                        return 0;
8250
8251                /* Check for OBP image type.  */
8252                err = niu_pci_eeprom_read(np, start + 20);
8253                if (err < 0)
8254                        return 0;
8255                if (err != 0x01) {
8256                        err = niu_pci_eeprom_read(np, ret + 2);
8257                        if (err < 0)
8258                                return 0;
8259
8260                        start = ret + (err * 512);
8261                        continue;
8262                }
8263
8264                err = niu_pci_eeprom_read16_swp(np, start + 8);
8265                if (err < 0)
8266                        return err;
8267                ret += err;
8268
8269                err = niu_pci_eeprom_read(np, ret + 0);
8270                if (err != 0x82)
8271                        return 0;
8272
8273                return ret;
8274        }
8275
8276        return 0;
8277}
8278
8279static int niu_phy_type_prop_decode(struct niu *np, const char *phy_prop)
8280{
8281        if (!strcmp(phy_prop, "mif")) {
8282                /* 1G copper, MII */
8283                np->flags &= ~(NIU_FLAGS_FIBER |
8284                               NIU_FLAGS_10G);
8285                np->mac_xcvr = MAC_XCVR_MII;
8286        } else if (!strcmp(phy_prop, "xgf")) {
8287                /* 10G fiber, XPCS */
8288                np->flags |= (NIU_FLAGS_10G |
8289                              NIU_FLAGS_FIBER);
8290                np->mac_xcvr = MAC_XCVR_XPCS;
8291        } else if (!strcmp(phy_prop, "pcs")) {
8292                /* 1G fiber, PCS */
8293                np->flags &= ~NIU_FLAGS_10G;
8294                np->flags |= NIU_FLAGS_FIBER;
8295                np->mac_xcvr = MAC_XCVR_PCS;
8296        } else if (!strcmp(phy_prop, "xgc")) {
8297                /* 10G copper, XPCS */
8298                np->flags |= NIU_FLAGS_10G;
8299                np->flags &= ~NIU_FLAGS_FIBER;
8300                np->mac_xcvr = MAC_XCVR_XPCS;
8301        } else if (!strcmp(phy_prop, "xgsd") || !strcmp(phy_prop, "gsd")) {
8302                /* 10G Serdes or 1G Serdes, default to 10G */
8303                np->flags |= NIU_FLAGS_10G;
8304                np->flags &= ~NIU_FLAGS_FIBER;
8305                np->flags |= NIU_FLAGS_XCVR_SERDES;
8306                np->mac_xcvr = MAC_XCVR_XPCS;
8307        } else {
8308                return -EINVAL;
8309        }
8310        return 0;
8311}
8312
8313static int niu_pci_vpd_get_nports(struct niu *np)
8314{
8315        int ports = 0;
8316
8317        if ((!strcmp(np->vpd.model, NIU_QGC_LP_MDL_STR)) ||
8318            (!strcmp(np->vpd.model, NIU_QGC_PEM_MDL_STR)) ||
8319            (!strcmp(np->vpd.model, NIU_MARAMBA_MDL_STR)) ||
8320            (!strcmp(np->vpd.model, NIU_KIMI_MDL_STR)) ||
8321            (!strcmp(np->vpd.model, NIU_ALONSO_MDL_STR))) {
8322                ports = 4;
8323        } else if ((!strcmp(np->vpd.model, NIU_2XGF_LP_MDL_STR)) ||
8324                   (!strcmp(np->vpd.model, NIU_2XGF_PEM_MDL_STR)) ||
8325                   (!strcmp(np->vpd.model, NIU_FOXXY_MDL_STR)) ||
8326                   (!strcmp(np->vpd.model, NIU_2XGF_MRVL_MDL_STR))) {
8327                ports = 2;
8328        }
8329
8330        return ports;
8331}
8332
8333static void niu_pci_vpd_validate(struct niu *np)
8334{
8335        struct net_device *dev = np->dev;
8336        struct niu_vpd *vpd = &np->vpd;
8337        u8 val8;
8338
8339        if (!is_valid_ether_addr(&vpd->local_mac[0])) {
8340                dev_err(np->device, "VPD MAC invalid, falling back to SPROM\n");
8341
8342                np->flags &= ~NIU_FLAGS_VPD_VALID;
8343                return;
8344        }
8345
8346        if (!strcmp(np->vpd.model, NIU_ALONSO_MDL_STR) ||
8347            !strcmp(np->vpd.model, NIU_KIMI_MDL_STR)) {
8348                np->flags |= NIU_FLAGS_10G;
8349                np->flags &= ~NIU_FLAGS_FIBER;
8350                np->flags |= NIU_FLAGS_XCVR_SERDES;
8351                np->mac_xcvr = MAC_XCVR_PCS;
8352                if (np->port > 1) {
8353                        np->flags |= NIU_FLAGS_FIBER;
8354                        np->flags &= ~NIU_FLAGS_10G;
8355                }
8356                if (np->flags & NIU_FLAGS_10G)
8357                        np->mac_xcvr = MAC_XCVR_XPCS;
8358        } else if (!strcmp(np->vpd.model, NIU_FOXXY_MDL_STR)) {
8359                np->flags |= (NIU_FLAGS_10G | NIU_FLAGS_FIBER |
8360                              NIU_FLAGS_HOTPLUG_PHY);
8361        } else if (niu_phy_type_prop_decode(np, np->vpd.phy_type)) {
8362                dev_err(np->device, "Illegal phy string [%s]\n",
8363                        np->vpd.phy_type);
8364                dev_err(np->device, "Falling back to SPROM\n");
8365                np->flags &= ~NIU_FLAGS_VPD_VALID;
8366                return;
8367        }
8368
8369        memcpy(dev->dev_addr, vpd->local_mac, ETH_ALEN);
8370
8371        val8 = dev->dev_addr[5];
8372        dev->dev_addr[5] += np->port;
8373        if (dev->dev_addr[5] < val8)
8374                dev->dev_addr[4]++;
8375}
8376
8377static int niu_pci_probe_sprom(struct niu *np)
8378{
8379        struct net_device *dev = np->dev;
8380        int len, i;
8381        u64 val, sum;
8382        u8 val8;
8383
8384        val = (nr64(ESPC_VER_IMGSZ) & ESPC_VER_IMGSZ_IMGSZ);
8385        val >>= ESPC_VER_IMGSZ_IMGSZ_SHIFT;
8386        len = val / 4;
8387
8388        np->eeprom_len = len;
8389
8390        netif_printk(np, probe, KERN_DEBUG, np->dev,
8391                     "SPROM: Image size %llu\n", (unsigned long long)val);
8392
8393        sum = 0;
8394        for (i = 0; i < len; i++) {
8395                val = nr64(ESPC_NCR(i));
8396                sum += (val >>  0) & 0xff;
8397                sum += (val >>  8) & 0xff;
8398                sum += (val >> 16) & 0xff;
8399                sum += (val >> 24) & 0xff;
8400        }
8401        netif_printk(np, probe, KERN_DEBUG, np->dev,
8402                     "SPROM: Checksum %x\n", (int)(sum & 0xff));
8403        if ((sum & 0xff) != 0xab) {
8404                dev_err(np->device, "Bad SPROM checksum (%x, should be 0xab)\n", (int)(sum & 0xff));
8405                return -EINVAL;
8406        }
8407
8408        val = nr64(ESPC_PHY_TYPE);
8409        switch (np->port) {
8410        case 0:
8411                val8 = (val & ESPC_PHY_TYPE_PORT0) >>
8412                        ESPC_PHY_TYPE_PORT0_SHIFT;
8413                break;
8414        case 1:
8415                val8 = (val & ESPC_PHY_TYPE_PORT1) >>
8416                        ESPC_PHY_TYPE_PORT1_SHIFT;
8417                break;
8418        case 2:
8419                val8 = (val & ESPC_PHY_TYPE_PORT2) >>
8420                        ESPC_PHY_TYPE_PORT2_SHIFT;
8421                break;
8422        case 3:
8423                val8 = (val & ESPC_PHY_TYPE_PORT3) >>
8424                        ESPC_PHY_TYPE_PORT3_SHIFT;
8425                break;
8426        default:
8427                dev_err(np->device, "Bogus port number %u\n",
8428                        np->port);
8429                return -EINVAL;
8430        }
8431        netif_printk(np, probe, KERN_DEBUG, np->dev,
8432                     "SPROM: PHY type %x\n", val8);
8433
8434        switch (val8) {
8435        case ESPC_PHY_TYPE_1G_COPPER:
8436                /* 1G copper, MII */
8437                np->flags &= ~(NIU_FLAGS_FIBER |
8438                               NIU_FLAGS_10G);
8439                np->mac_xcvr = MAC_XCVR_MII;
8440                break;
8441
8442        case ESPC_PHY_TYPE_1G_FIBER:
8443                /* 1G fiber, PCS */
8444                np->flags &= ~NIU_FLAGS_10G;
8445                np->flags |= NIU_FLAGS_FIBER;
8446                np->mac_xcvr = MAC_XCVR_PCS;
8447                break;
8448
8449        case ESPC_PHY_TYPE_10G_COPPER:
8450                /* 10G copper, XPCS */
8451                np->flags |= NIU_FLAGS_10G;
8452                np->flags &= ~NIU_FLAGS_FIBER;
8453                np->mac_xcvr = MAC_XCVR_XPCS;
8454                break;
8455
8456        case ESPC_PHY_TYPE_10G_FIBER:
8457                /* 10G fiber, XPCS */
8458                np->flags |= (NIU_FLAGS_10G |
8459                              NIU_FLAGS_FIBER);
8460                np->mac_xcvr = MAC_XCVR_XPCS;
8461                break;
8462
8463        default:
8464                dev_err(np->device, "Bogus SPROM phy type %u\n", val8);
8465                return -EINVAL;
8466        }
8467
8468        val = nr64(ESPC_MAC_ADDR0);
8469        netif_printk(np, probe, KERN_DEBUG, np->dev,
8470                     "SPROM: MAC_ADDR0[%08llx]\n", (unsigned long long)val);
8471        dev->dev_addr[0] = (val >>  0) & 0xff;
8472        dev->dev_addr[1] = (val >>  8) & 0xff;
8473        dev->dev_addr[2] = (val >> 16) & 0xff;
8474        dev->dev_addr[3] = (val >> 24) & 0xff;
8475
8476        val = nr64(ESPC_MAC_ADDR1);
8477        netif_printk(np, probe, KERN_DEBUG, np->dev,
8478                     "SPROM: MAC_ADDR1[%08llx]\n", (unsigned long long)val);
8479        dev->dev_addr[4] = (val >>  0) & 0xff;
8480        dev->dev_addr[5] = (val >>  8) & 0xff;
8481
8482        if (!is_valid_ether_addr(&dev->dev_addr[0])) {
8483                dev_err(np->device, "SPROM MAC address invalid [ %pM ]\n",
8484                        dev->dev_addr);
8485                return -EINVAL;
8486        }
8487
8488        val8 = dev->dev_addr[5];
8489        dev->dev_addr[5] += np->port;
8490        if (dev->dev_addr[5] < val8)
8491                dev->dev_addr[4]++;
8492
8493        val = nr64(ESPC_MOD_STR_LEN);
8494        netif_printk(np, probe, KERN_DEBUG, np->dev,
8495                     "SPROM: MOD_STR_LEN[%llu]\n", (unsigned long long)val);
8496        if (val >= 8 * 4)
8497                return -EINVAL;
8498
8499        for (i = 0; i < val; i += 4) {
8500                u64 tmp = nr64(ESPC_NCR(5 + (i / 4)));
8501
8502                np->vpd.model[i + 3] = (tmp >>  0) & 0xff;
8503                np->vpd.model[i + 2] = (tmp >>  8) & 0xff;
8504                np->vpd.model[i + 1] = (tmp >> 16) & 0xff;
8505                np->vpd.model[i + 0] = (tmp >> 24) & 0xff;
8506        }
8507        np->vpd.model[val] = '\0';
8508
8509        val = nr64(ESPC_BD_MOD_STR_LEN);
8510        netif_printk(np, probe, KERN_DEBUG, np->dev,
8511                     "SPROM: BD_MOD_STR_LEN[%llu]\n", (unsigned long long)val);
8512        if (val >= 4 * 4)
8513                return -EINVAL;
8514
8515        for (i = 0; i < val; i += 4) {
8516                u64 tmp = nr64(ESPC_NCR(14 + (i / 4)));
8517
8518                np->vpd.board_model[i + 3] = (tmp >>  0) & 0xff;
8519                np->vpd.board_model[i + 2] = (tmp >>  8) & 0xff;
8520                np->vpd.board_model[i + 1] = (tmp >> 16) & 0xff;
8521                np->vpd.board_model[i + 0] = (tmp >> 24) & 0xff;
8522        }
8523        np->vpd.board_model[val] = '\0';
8524
8525        np->vpd.mac_num =
8526                nr64(ESPC_NUM_PORTS_MACS) & ESPC_NUM_PORTS_MACS_VAL;
8527        netif_printk(np, probe, KERN_DEBUG, np->dev,
8528                     "SPROM: NUM_PORTS_MACS[%d]\n", np->vpd.mac_num);
8529
8530        return 0;
8531}
8532
8533static int niu_get_and_validate_port(struct niu *np)
8534{
8535        struct niu_parent *parent = np->parent;
8536
8537        if (np->port <= 1)
8538                np->flags |= NIU_FLAGS_XMAC;
8539
8540        if (!parent->num_ports) {
8541                if (parent->plat_type == PLAT_TYPE_NIU) {
8542                        parent->num_ports = 2;
8543                } else {
8544                        parent->num_ports = niu_pci_vpd_get_nports(np);
8545                        if (!parent->num_ports) {
8546                                /* Fall back to SPROM as last resort.
8547                                 * This will fail on most cards.
8548                                 */
8549                                parent->num_ports = nr64(ESPC_NUM_PORTS_MACS) &
8550                                        ESPC_NUM_PORTS_MACS_VAL;
8551
8552                                /* All of the current probing methods fail on
8553                                 * Maramba on-board parts.
8554                                 */
8555                                if (!parent->num_ports)
8556                                        parent->num_ports = 4;
8557                        }
8558                }
8559        }
8560
8561        if (np->port >= parent->num_ports)
8562                return -ENODEV;
8563
8564        return 0;
8565}
8566
8567static int phy_record(struct niu_parent *parent, struct phy_probe_info *p,
8568                      int dev_id_1, int dev_id_2, u8 phy_port, int type)
8569{
8570        u32 id = (dev_id_1 << 16) | dev_id_2;
8571        u8 idx;
8572
8573        if (dev_id_1 < 0 || dev_id_2 < 0)
8574                return 0;
8575        if (type == PHY_TYPE_PMA_PMD || type == PHY_TYPE_PCS) {
8576                /* Because of the NIU_PHY_ID_MASK being applied, the 8704
8577                 * test covers the 8706 as well.
8578                 */
8579                if (((id & NIU_PHY_ID_MASK) != NIU_PHY_ID_BCM8704) &&
8580                    ((id & NIU_PHY_ID_MASK) != NIU_PHY_ID_MRVL88X2011))
8581                        return 0;
8582        } else {
8583                if ((id & NIU_PHY_ID_MASK) != NIU_PHY_ID_BCM5464R)
8584                        return 0;
8585        }
8586
8587        pr_info("niu%d: Found PHY %08x type %s at phy_port %u\n",
8588                parent->index, id,
8589                type == PHY_TYPE_PMA_PMD ? "PMA/PMD" :
8590                type == PHY_TYPE_PCS ? "PCS" : "MII",
8591                phy_port);
8592
8593        if (p->cur[type] >= NIU_MAX_PORTS) {
8594                pr_err("Too many PHY ports\n");
8595                return -EINVAL;
8596        }
8597        idx = p->cur[type];
8598        p->phy_id[type][idx] = id;
8599        p->phy_port[type][idx] = phy_port;
8600        p->cur[type] = idx + 1;
8601        return 0;
8602}
8603
8604static int port_has_10g(struct phy_probe_info *p, int port)
8605{
8606        int i;
8607
8608        for (i = 0; i < p->cur[PHY_TYPE_PMA_PMD]; i++) {
8609                if (p->phy_port[PHY_TYPE_PMA_PMD][i] == port)
8610                        return 1;
8611        }
8612        for (i = 0; i < p->cur[PHY_TYPE_PCS]; i++) {
8613                if (p->phy_port[PHY_TYPE_PCS][i] == port)
8614                        return 1;
8615        }
8616
8617        return 0;
8618}
8619
8620static int count_10g_ports(struct phy_probe_info *p, int *lowest)
8621{
8622        int port, cnt;
8623
8624        cnt = 0;
8625        *lowest = 32;
8626        for (port = 8; port < 32; port++) {
8627                if (port_has_10g(p, port)) {
8628                        if (!cnt)
8629                                *lowest = port;
8630                        cnt++;
8631                }
8632        }
8633
8634        return cnt;
8635}
8636
8637static int count_1g_ports(struct phy_probe_info *p, int *lowest)
8638{
8639        *lowest = 32;
8640        if (p->cur[PHY_TYPE_MII])
8641                *lowest = p->phy_port[PHY_TYPE_MII][0];
8642
8643        return p->cur[PHY_TYPE_MII];
8644}
8645
8646static void niu_n2_divide_channels(struct niu_parent *parent)
8647{
8648        int num_ports = parent->num_ports;
8649        int i;
8650
8651        for (i = 0; i < num_ports; i++) {
8652                parent->rxchan_per_port[i] = (16 / num_ports);
8653                parent->txchan_per_port[i] = (16 / num_ports);
8654
8655                pr_info("niu%d: Port %u [%u RX chans] [%u TX chans]\n",
8656                        parent->index, i,
8657                        parent->rxchan_per_port[i],
8658                        parent->txchan_per_port[i]);
8659        }
8660}
8661
8662static void niu_divide_channels(struct niu_parent *parent,
8663                                int num_10g, int num_1g)
8664{
8665        int num_ports = parent->num_ports;
8666        int rx_chans_per_10g, rx_chans_per_1g;
8667        int tx_chans_per_10g, tx_chans_per_1g;
8668        int i, tot_rx, tot_tx;
8669
8670        if (!num_10g || !num_1g) {
8671                rx_chans_per_10g = rx_chans_per_1g =
8672                        (NIU_NUM_RXCHAN / num_ports);
8673                tx_chans_per_10g = tx_chans_per_1g =
8674                        (NIU_NUM_TXCHAN / num_ports);
8675        } else {
8676                rx_chans_per_1g = NIU_NUM_RXCHAN / 8;
8677                rx_chans_per_10g = (NIU_NUM_RXCHAN -
8678                                    (rx_chans_per_1g * num_1g)) /
8679                        num_10g;
8680
8681                tx_chans_per_1g = NIU_NUM_TXCHAN / 6;
8682                tx_chans_per_10g = (NIU_NUM_TXCHAN -
8683                                    (tx_chans_per_1g * num_1g)) /
8684                        num_10g;
8685        }
8686
8687        tot_rx = tot_tx = 0;
8688        for (i = 0; i < num_ports; i++) {
8689                int type = phy_decode(parent->port_phy, i);
8690
8691                if (type == PORT_TYPE_10G) {
8692                        parent->rxchan_per_port[i] = rx_chans_per_10g;
8693                        parent->txchan_per_port[i] = tx_chans_per_10g;
8694                } else {
8695                        parent->rxchan_per_port[i] = rx_chans_per_1g;
8696                        parent->txchan_per_port[i] = tx_chans_per_1g;
8697                }
8698                pr_info("niu%d: Port %u [%u RX chans] [%u TX chans]\n",
8699                        parent->index, i,
8700                        parent->rxchan_per_port[i],
8701                        parent->txchan_per_port[i]);
8702                tot_rx += parent->rxchan_per_port[i];
8703                tot_tx += parent->txchan_per_port[i];
8704        }
8705
8706        if (tot_rx > NIU_NUM_RXCHAN) {
8707                pr_err("niu%d: Too many RX channels (%d), resetting to one per port\n",
8708                       parent->index, tot_rx);
8709                for (i = 0; i < num_ports; i++)
8710                        parent->rxchan_per_port[i] = 1;
8711        }
8712        if (tot_tx > NIU_NUM_TXCHAN) {
8713                pr_err("niu%d: Too many TX channels (%d), resetting to one per port\n",
8714                       parent->index, tot_tx);
8715                for (i = 0; i < num_ports; i++)
8716                        parent->txchan_per_port[i] = 1;
8717        }
8718        if (tot_rx < NIU_NUM_RXCHAN || tot_tx < NIU_NUM_TXCHAN) {
8719                pr_warning("niu%d: Driver bug, wasted channels, RX[%d] TX[%d]\n",
8720                           parent->index, tot_rx, tot_tx);
8721        }
8722}
8723
8724static void niu_divide_rdc_groups(struct niu_parent *parent,
8725                                  int num_10g, int num_1g)
8726{
8727        int i, num_ports = parent->num_ports;
8728        int rdc_group, rdc_groups_per_port;
8729        int rdc_channel_base;
8730
8731        rdc_group = 0;
8732        rdc_groups_per_port = NIU_NUM_RDC_TABLES / num_ports;
8733
8734        rdc_channel_base = 0;
8735
8736        for (i = 0; i < num_ports; i++) {
8737                struct niu_rdc_tables *tp = &parent->rdc_group_cfg[i];
8738                int grp, num_channels = parent->rxchan_per_port[i];
8739                int this_channel_offset;
8740
8741                tp->first_table_num = rdc_group;
8742                tp->num_tables = rdc_groups_per_port;
8743                this_channel_offset = 0;
8744                for (grp = 0; grp < tp->num_tables; grp++) {
8745                        struct rdc_table *rt = &tp->tables[grp];
8746                        int slot;
8747
8748                        pr_info("niu%d: Port %d RDC tbl(%d) [ ",
8749                                parent->index, i, tp->first_table_num + grp);
8750                        for (slot = 0; slot < NIU_RDC_TABLE_SLOTS; slot++) {
8751                                rt->rxdma_channel[slot] =
8752                                        rdc_channel_base + this_channel_offset;
8753
8754                                pr_cont("%d ", rt->rxdma_channel[slot]);
8755
8756                                if (++this_channel_offset == num_channels)
8757                                        this_channel_offset = 0;
8758                        }
8759                        pr_cont("]\n");
8760                }
8761
8762                parent->rdc_default[i] = rdc_channel_base;
8763
8764                rdc_channel_base += num_channels;
8765                rdc_group += rdc_groups_per_port;
8766        }
8767}
8768
8769static int fill_phy_probe_info(struct niu *np, struct niu_parent *parent,
8770                               struct phy_probe_info *info)
8771{
8772        unsigned long flags;
8773        int port, err;
8774
8775        memset(info, 0, sizeof(*info));
8776
8777        /* Port 0 to 7 are reserved for onboard Serdes, probe the rest.  */
8778        niu_lock_parent(np, flags);
8779        err = 0;
8780        for (port = 8; port < 32; port++) {
8781                int dev_id_1, dev_id_2;
8782
8783                dev_id_1 = mdio_read(np, port,
8784                                     NIU_PMA_PMD_DEV_ADDR, MII_PHYSID1);
8785                dev_id_2 = mdio_read(np, port,
8786                                     NIU_PMA_PMD_DEV_ADDR, MII_PHYSID2);
8787                err = phy_record(parent, info, dev_id_1, dev_id_2, port,
8788                                 PHY_TYPE_PMA_PMD);
8789                if (err)
8790                        break;
8791                dev_id_1 = mdio_read(np, port,
8792                                     NIU_PCS_DEV_ADDR, MII_PHYSID1);
8793                dev_id_2 = mdio_read(np, port,
8794                                     NIU_PCS_DEV_ADDR, MII_PHYSID2);
8795                err = phy_record(parent, info, dev_id_1, dev_id_2, port,
8796                                 PHY_TYPE_PCS);
8797                if (err)
8798                        break;
8799                dev_id_1 = mii_read(np, port, MII_PHYSID1);
8800                dev_id_2 = mii_read(np, port, MII_PHYSID2);
8801                err = phy_record(parent, info, dev_id_1, dev_id_2, port,
8802                                 PHY_TYPE_MII);
8803                if (err)
8804                        break;
8805        }
8806        niu_unlock_parent(np, flags);
8807
8808        return err;
8809}
8810
8811static int walk_phys(struct niu *np, struct niu_parent *parent)
8812{
8813        struct phy_probe_info *info = &parent->phy_probe_info;
8814        int lowest_10g, lowest_1g;
8815        int num_10g, num_1g;
8816        u32 val;
8817        int err;
8818
8819        num_10g = num_1g = 0;
8820
8821        if (!strcmp(np->vpd.model, NIU_ALONSO_MDL_STR) ||
8822            !strcmp(np->vpd.model, NIU_KIMI_MDL_STR)) {
8823                num_10g = 0;
8824                num_1g = 2;
8825                parent->plat_type = PLAT_TYPE_ATCA_CP3220;
8826                parent->num_ports = 4;
8827                val = (phy_encode(PORT_TYPE_1G, 0) |
8828                       phy_encode(PORT_TYPE_1G, 1) |
8829                       phy_encode(PORT_TYPE_1G, 2) |
8830                       phy_encode(PORT_TYPE_1G, 3));
8831        } else if (!strcmp(np->vpd.model, NIU_FOXXY_MDL_STR)) {
8832                num_10g = 2;
8833                num_1g = 0;
8834                parent->num_ports = 2;
8835                val = (phy_encode(PORT_TYPE_10G, 0) |
8836                       phy_encode(PORT_TYPE_10G, 1));
8837        } else if ((np->flags & NIU_FLAGS_XCVR_SERDES) &&
8838                   (parent->plat_type == PLAT_TYPE_NIU)) {
8839                /* this is the Monza case */
8840                if (np->flags & NIU_FLAGS_10G) {
8841                        val = (phy_encode(PORT_TYPE_10G, 0) |
8842                               phy_encode(PORT_TYPE_10G, 1));
8843                } else {
8844                        val = (phy_encode(PORT_TYPE_1G, 0) |
8845                               phy_encode(PORT_TYPE_1G, 1));
8846                }
8847        } else {
8848                err = fill_phy_probe_info(np, parent, info);
8849                if (err)
8850                        return err;
8851
8852                num_10g = count_10g_ports(info, &lowest_10g);
8853                num_1g = count_1g_ports(info, &lowest_1g);
8854
8855                switch ((num_10g << 4) | num_1g) {
8856                case 0x24:
8857                        if (lowest_1g == 10)
8858                                parent->plat_type = PLAT_TYPE_VF_P0;
8859                        else if (lowest_1g == 26)
8860                                parent->plat_type = PLAT_TYPE_VF_P1;
8861                        else
8862                                goto unknown_vg_1g_port;
8863
8864                        /* fallthru */
8865                case 0x22:
8866                        val = (phy_encode(PORT_TYPE_10G, 0) |
8867                               phy_encode(PORT_TYPE_10G, 1) |
8868                               phy_encode(PORT_TYPE_1G, 2) |
8869                               phy_encode(PORT_TYPE_1G, 3));
8870                        break;
8871
8872                case 0x20:
8873                        val = (phy_encode(PORT_TYPE_10G, 0) |
8874                               phy_encode(PORT_TYPE_10G, 1));
8875                        break;
8876
8877                case 0x10:
8878                        val = phy_encode(PORT_TYPE_10G, np->port);
8879                        break;
8880
8881                case 0x14:
8882                        if (lowest_1g == 10)
8883                                parent->plat_type = PLAT_TYPE_VF_P0;
8884                        else if (lowest_1g == 26)
8885                                parent->plat_type = PLAT_TYPE_VF_P1;
8886                        else
8887                                goto unknown_vg_1g_port;
8888
8889                        /* fallthru */
8890                case 0x13:
8891                        if ((lowest_10g & 0x7) == 0)
8892                                val = (phy_encode(PORT_TYPE_10G, 0) |
8893                                       phy_encode(PORT_TYPE_1G, 1) |
8894                                       phy_encode(PORT_TYPE_1G, 2) |
8895                                       phy_encode(PORT_TYPE_1G, 3));
8896                        else
8897                                val = (phy_encode(PORT_TYPE_1G, 0) |
8898                                       phy_encode(PORT_TYPE_10G, 1) |
8899                                       phy_encode(PORT_TYPE_1G, 2) |
8900                                       phy_encode(PORT_TYPE_1G, 3));
8901                        break;
8902
8903                case 0x04:
8904                        if (lowest_1g == 10)
8905                                parent->plat_type = PLAT_TYPE_VF_P0;
8906                        else if (lowest_1g == 26)
8907                                parent->plat_type = PLAT_TYPE_VF_P1;
8908                        else
8909                                goto unknown_vg_1g_port;
8910
8911                        val = (phy_encode(PORT_TYPE_1G, 0) |
8912                               phy_encode(PORT_TYPE_1G, 1) |
8913                               phy_encode(PORT_TYPE_1G, 2) |
8914                               phy_encode(PORT_TYPE_1G, 3));
8915                        break;
8916
8917                default:
8918                        pr_err("Unsupported port config 10G[%d] 1G[%d]\n",
8919                               num_10g, num_1g);
8920                        return -EINVAL;
8921                }
8922        }
8923
8924        parent->port_phy = val;
8925
8926        if (parent->plat_type == PLAT_TYPE_NIU)
8927                niu_n2_divide_channels(parent);
8928        else
8929                niu_divide_channels(parent, num_10g, num_1g);
8930
8931        niu_divide_rdc_groups(parent, num_10g, num_1g);
8932
8933        return 0;
8934
8935unknown_vg_1g_port:
8936        pr_err("Cannot identify platform type, 1gport=%d\n", lowest_1g);
8937        return -EINVAL;
8938}
8939
8940static int niu_probe_ports(struct niu *np)
8941{
8942        struct niu_parent *parent = np->parent;
8943        int err, i;
8944
8945        if (parent->port_phy == PORT_PHY_UNKNOWN) {
8946                err = walk_phys(np, parent);
8947                if (err)
8948                        return err;
8949
8950                niu_set_ldg_timer_res(np, 2);
8951                for (i = 0; i <= LDN_MAX; i++)
8952                        niu_ldn_irq_enable(np, i, 0);
8953        }
8954
8955        if (parent->port_phy == PORT_PHY_INVALID)
8956                return -EINVAL;
8957
8958        return 0;
8959}
8960
8961static int niu_classifier_swstate_init(struct niu *np)
8962{
8963        struct niu_classifier *cp = &np->clas;
8964
8965        cp->tcam_top = (u16) np->port;
8966        cp->tcam_sz = np->parent->tcam_num_entries / np->parent->num_ports;
8967        cp->h1_init = 0xffffffff;
8968        cp->h2_init = 0xffff;
8969
8970        return fflp_early_init(np);
8971}
8972
8973static void niu_link_config_init(struct niu *np)
8974{
8975        struct niu_link_config *lp = &np->link_config;
8976
8977        lp->advertising = (ADVERTISED_10baseT_Half |
8978                           ADVERTISED_10baseT_Full |
8979                           ADVERTISED_100baseT_Half |
8980                           ADVERTISED_100baseT_Full |
8981                           ADVERTISED_1000baseT_Half |
8982                           ADVERTISED_1000baseT_Full |
8983                           ADVERTISED_10000baseT_Full |
8984                           ADVERTISED_Autoneg);
8985        lp->speed = lp->active_speed = SPEED_INVALID;
8986        lp->duplex = DUPLEX_FULL;
8987        lp->active_duplex = DUPLEX_INVALID;
8988        lp->autoneg = 1;
8989#if 0
8990        lp->loopback_mode = LOOPBACK_MAC;
8991        lp->active_speed = SPEED_10000;
8992        lp->active_duplex = DUPLEX_FULL;
8993#else
8994        lp->loopback_mode = LOOPBACK_DISABLED;
8995#endif
8996}
8997
8998static int niu_init_mac_ipp_pcs_base(struct niu *np)
8999{
9000        switch (np->port) {
9001        case 0:
9002                np->mac_regs = np->regs + XMAC_PORT0_OFF;
9003                np->ipp_off  = 0x00000;
9004                np->pcs_off  = 0x04000;
9005                np->xpcs_off = 0x02000;
9006                break;
9007
9008        case 1:
9009                np->mac_regs = np->regs + XMAC_PORT1_OFF;
9010                np->ipp_off  = 0x08000;
9011                np->pcs_off  = 0x0a000;
9012                np->xpcs_off = 0x08000;
9013                break;
9014
9015        case 2:
9016                np->mac_regs = np->regs + BMAC_PORT2_OFF;
9017                np->ipp_off  = 0x04000;
9018                np->pcs_off  = 0x0e000;
9019                np->xpcs_off = ~0UL;
9020                break;
9021
9022        case 3:
9023                np->mac_regs = np->regs + BMAC_PORT3_OFF;
9024                np->ipp_off  = 0x0c000;
9025                np->pcs_off  = 0x12000;
9026                np->xpcs_off = ~0UL;
9027                break;
9028
9029        default:
9030                dev_err(np->device, "Port %u is invalid, cannot compute MAC block offset\n", np->port);
9031                return -EINVAL;
9032        }
9033
9034        return 0;
9035}
9036
9037static void niu_try_msix(struct niu *np, u8 *ldg_num_map)
9038{
9039        struct msix_entry msi_vec[NIU_NUM_LDG];
9040        struct niu_parent *parent = np->parent;
9041        struct pci_dev *pdev = np->pdev;
9042        int i, num_irqs, err;
9043        u8 first_ldg;
9044
9045        first_ldg = (NIU_NUM_LDG / parent->num_ports) * np->port;
9046        for (i = 0; i < (NIU_NUM_LDG / parent->num_ports); i++)
9047                ldg_num_map[i] = first_ldg + i;
9048
9049        num_irqs = (parent->rxchan_per_port[np->port] +
9050                    parent->txchan_per_port[np->port] +
9051                    (np->port == 0 ? 3 : 1));
9052        BUG_ON(num_irqs > (NIU_NUM_LDG / parent->num_ports));
9053
9054retry:
9055        for (i = 0; i < num_irqs; i++) {
9056                msi_vec[i].vector = 0;
9057                msi_vec[i].entry = i;
9058        }
9059
9060        err = pci_enable_msix(pdev, msi_vec, num_irqs);
9061        if (err < 0) {
9062                np->flags &= ~NIU_FLAGS_MSIX;
9063                return;
9064        }
9065        if (err > 0) {
9066                num_irqs = err;
9067                goto retry;
9068        }
9069
9070        np->flags |= NIU_FLAGS_MSIX;
9071        for (i = 0; i < num_irqs; i++)
9072                np->ldg[i].irq = msi_vec[i].vector;
9073        np->num_ldg = num_irqs;
9074}
9075
9076static int niu_n2_irq_init(struct niu *np, u8 *ldg_num_map)
9077{
9078#ifdef CONFIG_SPARC64
9079        struct platform_device *op = np->op;
9080        const u32 *int_prop;
9081        int i;
9082
9083        int_prop = of_get_property(op->dev.of_node, "interrupts", NULL);
9084        if (!int_prop)
9085                return -ENODEV;
9086
9087        for (i = 0; i < op->archdata.num_irqs; i++) {
9088                ldg_num_map[i] = int_prop[i];
9089                np->ldg[i].irq = op->archdata.irqs[i];
9090        }
9091
9092        np->num_ldg = op->archdata.num_irqs;
9093
9094        return 0;
9095#else
9096        return -EINVAL;
9097#endif
9098}
9099
9100static int niu_ldg_init(struct niu *np)
9101{
9102        struct niu_parent *parent = np->parent;
9103        u8 ldg_num_map[NIU_NUM_LDG];
9104        int first_chan, num_chan;
9105        int i, err, ldg_rotor;
9106        u8 port;
9107
9108        np->num_ldg = 1;
9109        np->ldg[0].irq = np->dev->irq;
9110        if (parent->plat_type == PLAT_TYPE_NIU) {
9111                err = niu_n2_irq_init(np, ldg_num_map);
9112                if (err)
9113                        return err;
9114        } else
9115                niu_try_msix(np, ldg_num_map);
9116
9117        port = np->port;
9118        for (i = 0; i < np->num_ldg; i++) {
9119                struct niu_ldg *lp = &np->ldg[i];
9120
9121                netif_napi_add(np->dev, &lp->napi, niu_poll, 64);
9122
9123                lp->np = np;
9124                lp->ldg_num = ldg_num_map[i];
9125                lp->timer = 2; /* XXX */
9126
9127                /* On N2 NIU the firmware has setup the SID mappings so they go
9128                 * to the correct values that will route the LDG to the proper
9129                 * interrupt in the NCU interrupt table.
9130                 */
9131                if (np->parent->plat_type != PLAT_TYPE_NIU) {
9132                        err = niu_set_ldg_sid(np, lp->ldg_num, port, i);
9133                        if (err)
9134                                return err;
9135                }
9136        }
9137
9138        /* We adopt the LDG assignment ordering used by the N2 NIU
9139         * 'interrupt' properties because that simplifies a lot of
9140         * things.  This ordering is:
9141         *
9142         *      MAC
9143         *      MIF     (if port zero)
9144         *      SYSERR  (if port zero)
9145         *      RX channels
9146         *      TX channels
9147         */
9148
9149        ldg_rotor = 0;
9150
9151        err = niu_ldg_assign_ldn(np, parent, ldg_num_map[ldg_rotor],
9152                                  LDN_MAC(port));
9153        if (err)
9154                return err;
9155
9156        ldg_rotor++;
9157        if (ldg_rotor == np->num_ldg)
9158                ldg_rotor = 0;
9159
9160        if (port == 0) {
9161                err = niu_ldg_assign_ldn(np, parent,
9162                                         ldg_num_map[ldg_rotor],
9163                                         LDN_MIF);
9164                if (err)
9165                        return err;
9166
9167                ldg_rotor++;
9168                if (ldg_rotor == np->num_ldg)
9169                        ldg_rotor = 0;
9170
9171                err = niu_ldg_assign_ldn(np, parent,
9172                                         ldg_num_map[ldg_rotor],
9173                                         LDN_DEVICE_ERROR);
9174                if (err)
9175                        return err;
9176
9177                ldg_rotor++;
9178                if (ldg_rotor == np->num_ldg)
9179                        ldg_rotor = 0;
9180
9181        }
9182
9183        first_chan = 0;
9184        for (i = 0; i < port; i++)
9185                first_chan += parent->rxchan_per_port[i];
9186        num_chan = parent->rxchan_per_port[port];
9187
9188        for (i = first_chan; i < (first_chan + num_chan); i++) {
9189                err = niu_ldg_assign_ldn(np, parent,
9190                                         ldg_num_map[ldg_rotor],
9191                                         LDN_RXDMA(i));
9192                if (err)
9193                        return err;
9194                ldg_rotor++;
9195                if (ldg_rotor == np->num_ldg)
9196                        ldg_rotor = 0;
9197        }
9198
9199        first_chan = 0;
9200        for (i = 0; i < port; i++)
9201                first_chan += parent->txchan_per_port[i];
9202        num_chan = parent->txchan_per_port[port];
9203        for (i = first_chan; i < (first_chan + num_chan); i++) {
9204                err = niu_ldg_assign_ldn(np, parent,
9205                                         ldg_num_map[ldg_rotor],
9206                                         LDN_TXDMA(i));
9207                if (err)
9208                        return err;
9209                ldg_rotor++;
9210                if (ldg_rotor == np->num_ldg)
9211                        ldg_rotor = 0;
9212        }
9213
9214        return 0;
9215}
9216
9217static void niu_ldg_free(struct niu *np)
9218{
9219        if (np->flags & NIU_FLAGS_MSIX)
9220                pci_disable_msix(np->pdev);
9221}
9222
9223static int niu_get_of_props(struct niu *np)
9224{
9225#ifdef CONFIG_SPARC64
9226        struct net_device *dev = np->dev;
9227        struct device_node *dp;
9228        const char *phy_type;
9229        const u8 *mac_addr;
9230        const char *model;
9231        int prop_len;
9232
9233        if (np->parent->plat_type == PLAT_TYPE_NIU)
9234                dp = np->op->dev.of_node;
9235        else
9236                dp = pci_device_to_OF_node(np->pdev);
9237
9238        phy_type = of_get_property(dp, "phy-type", &prop_len);
9239        if (!phy_type) {
9240                netdev_err(dev, "%s: OF node lacks phy-type property\n",
9241                           dp->full_name);
9242                return -EINVAL;
9243        }
9244
9245        if (!strcmp(phy_type, "none"))
9246                return -ENODEV;
9247
9248        strcpy(np->vpd.phy_type, phy_type);
9249
9250        if (niu_phy_type_prop_decode(np, np->vpd.phy_type)) {
9251                netdev_err(dev, "%s: Illegal phy string [%s]\n",
9252                           dp->full_name, np->vpd.phy_type);
9253                return -EINVAL;
9254        }
9255
9256        mac_addr = of_get_property(dp, "local-mac-address", &prop_len);
9257        if (!mac_addr) {
9258                netdev_err(dev, "%s: OF node lacks local-mac-address property\n",
9259                           dp->full_name);
9260                return -EINVAL;
9261        }
9262        if (prop_len != dev->addr_len) {
9263                netdev_err(dev, "%s: OF MAC address prop len (%d) is wrong\n",
9264                           dp->full_name, prop_len);
9265        }
9266        memcpy(dev->dev_addr, mac_addr, dev->addr_len);
9267        if (!is_valid_ether_addr(&dev->dev_addr[0])) {
9268                netdev_err(dev, "%s: OF MAC address is invalid\n",
9269                           dp->full_name);
9270                netdev_err(dev, "%s: [ %pM ]\n", dp->full_name, dev->dev_addr);
9271                return -EINVAL;
9272        }
9273
9274        model = of_get_property(dp, "model", &prop_len);
9275
9276        if (model)
9277                strcpy(np->vpd.model, model);
9278
9279        if (of_find_property(dp, "hot-swappable-phy", &prop_len)) {
9280                np->flags |= (NIU_FLAGS_10G | NIU_FLAGS_FIBER |
9281                        NIU_FLAGS_HOTPLUG_PHY);
9282        }
9283
9284        return 0;
9285#else
9286        return -EINVAL;
9287#endif
9288}
9289
9290static int niu_get_invariants(struct niu *np)
9291{
9292        int err, have_props;
9293        u32 offset;
9294
9295        err = niu_get_of_props(np);
9296        if (err == -ENODEV)
9297                return err;
9298
9299        have_props = !err;
9300
9301        err = niu_init_mac_ipp_pcs_base(np);
9302        if (err)
9303                return err;
9304
9305        if (have_props) {
9306                err = niu_get_and_validate_port(np);
9307                if (err)
9308                        return err;
9309
9310        } else  {
9311                if (np->parent->plat_type == PLAT_TYPE_NIU)
9312                        return -EINVAL;
9313
9314                nw64(ESPC_PIO_EN, ESPC_PIO_EN_ENABLE);
9315                offset = niu_pci_vpd_offset(np);
9316                netif_printk(np, probe, KERN_DEBUG, np->dev,
9317                             "%s() VPD offset [%08x]\n", __func__, offset);
9318                if (offset)
9319                        niu_pci_vpd_fetch(np, offset);
9320                nw64(ESPC_PIO_EN, 0);
9321
9322                if (np->flags & NIU_FLAGS_VPD_VALID) {
9323                        niu_pci_vpd_validate(np);
9324                        err = niu_get_and_validate_port(np);
9325                        if (err)
9326                                return err;
9327                }
9328
9329                if (!(np->flags & NIU_FLAGS_VPD_VALID)) {
9330                        err = niu_get_and_validate_port(np);
9331                        if (err)
9332                                return err;
9333                        err = niu_pci_probe_sprom(np);
9334                        if (err)
9335                                return err;
9336                }
9337        }
9338
9339        err = niu_probe_ports(np);
9340        if (err)
9341                return err;
9342
9343        niu_ldg_init(np);
9344
9345        niu_classifier_swstate_init(np);
9346        niu_link_config_init(np);
9347
9348        err = niu_determine_phy_disposition(np);
9349        if (!err)
9350                err = niu_init_link(np);
9351
9352        return err;
9353}
9354
9355static LIST_HEAD(niu_parent_list);
9356static DEFINE_MUTEX(niu_parent_lock);
9357static int niu_parent_index;
9358
9359static ssize_t show_port_phy(struct device *dev,
9360                             struct device_attribute *attr, char *buf)
9361{
9362        struct platform_device *plat_dev = to_platform_device(dev);
9363        struct niu_parent *p = plat_dev->dev.platform_data;
9364        u32 port_phy = p->port_phy;
9365        char *orig_buf = buf;
9366        int i;
9367
9368        if (port_phy == PORT_PHY_UNKNOWN ||
9369            port_phy == PORT_PHY_INVALID)
9370                return 0;
9371
9372        for (i = 0; i < p->num_ports; i++) {
9373                const char *type_str;
9374                int type;
9375
9376                type = phy_decode(port_phy, i);
9377                if (type == PORT_TYPE_10G)
9378                        type_str = "10G";
9379                else
9380                        type_str = "1G";
9381                buf += sprintf(buf,
9382                               (i == 0) ? "%s" : " %s",
9383                               type_str);
9384        }
9385        buf += sprintf(buf, "\n");
9386        return buf - orig_buf;
9387}
9388
9389static ssize_t show_plat_type(struct device *dev,
9390                              struct device_attribute *attr, char *buf)
9391{
9392        struct platform_device *plat_dev = to_platform_device(dev);
9393        struct niu_parent *p = plat_dev->dev.platform_data;
9394        const char *type_str;
9395
9396        switch (p->plat_type) {
9397        case PLAT_TYPE_ATLAS:
9398                type_str = "atlas";
9399                break;
9400        case PLAT_TYPE_NIU:
9401                type_str = "niu";
9402                break;
9403        case PLAT_TYPE_VF_P0:
9404                type_str = "vf_p0";
9405                break;
9406        case PLAT_TYPE_VF_P1:
9407                type_str = "vf_p1";
9408                break;
9409        default:
9410                type_str = "unknown";
9411                break;
9412        }
9413
9414        return sprintf(buf, "%s\n", type_str);
9415}
9416
9417static ssize_t __show_chan_per_port(struct device *dev,
9418                                    struct device_attribute *attr, char *buf,
9419                                    int rx)
9420{
9421        struct platform_device *plat_dev = to_platform_device(dev);
9422        struct niu_parent *p = plat_dev->dev.platform_data;
9423        char *orig_buf = buf;
9424        u8 *arr;
9425        int i;
9426
9427        arr = (rx ? p->rxchan_per_port : p->txchan_per_port);
9428
9429        for (i = 0; i < p->num_ports; i++) {
9430                buf += sprintf(buf,
9431                               (i == 0) ? "%d" : " %d",
9432                               arr[i]);
9433        }
9434        buf += sprintf(buf, "\n");
9435
9436        return buf - orig_buf;
9437}
9438
9439static ssize_t show_rxchan_per_port(struct device *dev,
9440                                    struct device_attribute *attr, char *buf)
9441{
9442        return __show_chan_per_port(dev, attr, buf, 1);
9443}
9444
9445static ssize_t show_txchan_per_port(struct device *dev,
9446                                    struct device_attribute *attr, char *buf)
9447{
9448        return __show_chan_per_port(dev, attr, buf, 1);
9449}
9450
9451static ssize_t show_num_ports(struct device *dev,
9452                              struct device_attribute *attr, char *buf)
9453{
9454        struct platform_device *plat_dev = to_platform_device(dev);
9455        struct niu_parent *p = plat_dev->dev.platform_data;
9456
9457        return sprintf(buf, "%d\n", p->num_ports);
9458}
9459
9460static struct device_attribute niu_parent_attributes[] = {
9461        __ATTR(port_phy, S_IRUGO, show_port_phy, NULL),
9462        __ATTR(plat_type, S_IRUGO, show_plat_type, NULL),
9463        __ATTR(rxchan_per_port, S_IRUGO, show_rxchan_per_port, NULL),
9464        __ATTR(txchan_per_port, S_IRUGO, show_txchan_per_port, NULL),
9465        __ATTR(num_ports, S_IRUGO, show_num_ports, NULL),
9466        {}
9467};
9468
9469static struct niu_parent *niu_new_parent(struct niu *np,
9470                                         union niu_parent_id *id, u8 ptype)
9471{
9472        struct platform_device *plat_dev;
9473        struct niu_parent *p;
9474        int i;
9475
9476        plat_dev = platform_device_register_simple("niu-board", niu_parent_index,
9477                                                   NULL, 0);
9478        if (IS_ERR(plat_dev))
9479                return NULL;
9480
9481        for (i = 0; attr_name(niu_parent_attributes[i]); i++) {
9482                int err = device_create_file(&plat_dev->dev,
9483                                             &niu_parent_attributes[i]);
9484                if (err)
9485                        goto fail_unregister;
9486        }
9487
9488        p = kzalloc(sizeof(*p), GFP_KERNEL);
9489        if (!p)
9490                goto fail_unregister;
9491
9492        p->index = niu_parent_index++;
9493
9494        plat_dev->dev.platform_data = p;
9495        p->plat_dev = plat_dev;
9496
9497        memcpy(&p->id, id, sizeof(*id));
9498        p->plat_type = ptype;
9499        INIT_LIST_HEAD(&p->list);
9500        atomic_set(&p->refcnt, 0);
9501        list_add(&p->list, &niu_parent_list);
9502        spin_lock_init(&p->lock);
9503
9504        p->rxdma_clock_divider = 7500;
9505
9506        p->tcam_num_entries = NIU_PCI_TCAM_ENTRIES;
9507        if (p->plat_type == PLAT_TYPE_NIU)
9508                p->tcam_num_entries = NIU_NONPCI_TCAM_ENTRIES;
9509
9510        for (i = CLASS_CODE_USER_PROG1; i <= CLASS_CODE_SCTP_IPV6; i++) {
9511                int index = i - CLASS_CODE_USER_PROG1;
9512
9513                p->tcam_key[index] = TCAM_KEY_TSEL;
9514                p->flow_key[index] = (FLOW_KEY_IPSA |
9515                                      FLOW_KEY_IPDA |
9516                                      FLOW_KEY_PROTO |
9517                                      (FLOW_KEY_L4_BYTE12 <<
9518                                       FLOW_KEY_L4_0_SHIFT) |
9519                                      (FLOW_KEY_L4_BYTE12 <<
9520                                       FLOW_KEY_L4_1_SHIFT));
9521        }
9522
9523        for (i = 0; i < LDN_MAX + 1; i++)
9524                p->ldg_map[i] = LDG_INVALID;
9525
9526        return p;
9527
9528fail_unregister:
9529        platform_device_unregister(plat_dev);
9530        return NULL;
9531}
9532
9533static struct niu_parent *niu_get_parent(struct niu *np,
9534                                         union niu_parent_id *id, u8 ptype)
9535{
9536        struct niu_parent *p, *tmp;
9537        int port = np->port;
9538
9539        mutex_lock(&niu_parent_lock);
9540        p = NULL;
9541        list_for_each_entry(tmp, &niu_parent_list, list) {
9542                if (!memcmp(id, &tmp->id, sizeof(*id))) {
9543                        p = tmp;
9544                        break;
9545                }
9546        }
9547        if (!p)
9548                p = niu_new_parent(np, id, ptype);
9549
9550        if (p) {
9551                char port_name[6];
9552                int err;
9553
9554                sprintf(port_name, "port%d", port);
9555                err = sysfs_create_link(&p->plat_dev->dev.kobj,
9556                                        &np->device->kobj,
9557                                        port_name);
9558                if (!err) {
9559                        p->ports[port] = np;
9560                        atomic_inc(&p->refcnt);
9561                }
9562        }
9563        mutex_unlock(&niu_parent_lock);
9564
9565        return p;
9566}
9567
9568static void niu_put_parent(struct niu *np)
9569{
9570        struct niu_parent *p = np->parent;
9571        u8 port = np->port;
9572        char port_name[6];
9573
9574        BUG_ON(!p || p->ports[port] != np);
9575
9576        netif_printk(np, probe, KERN_DEBUG, np->dev,
9577                     "%s() port[%u]\n", __func__, port);
9578
9579        sprintf(port_name, "port%d", port);
9580
9581        mutex_lock(&niu_parent_lock);
9582
9583        sysfs_remove_link(&p->plat_dev->dev.kobj, port_name);
9584
9585        p->ports[port] = NULL;
9586        np->parent = NULL;
9587
9588        if (atomic_dec_and_test(&p->refcnt)) {
9589                list_del(&p->list);
9590                platform_device_unregister(p->plat_dev);
9591        }
9592
9593        mutex_unlock(&niu_parent_lock);
9594}
9595
9596static void *niu_pci_alloc_coherent(struct device *dev, size_t size,
9597                                    u64 *handle, gfp_t flag)
9598{
9599        dma_addr_t dh;
9600        void *ret;
9601
9602        ret = dma_alloc_coherent(dev, size, &dh, flag);
9603        if (ret)
9604                *handle = dh;
9605        return ret;
9606}
9607
9608static void niu_pci_free_coherent(struct device *dev, size_t size,
9609                                  void *cpu_addr, u64 handle)
9610{
9611        dma_free_coherent(dev, size, cpu_addr, handle);
9612}
9613
9614static u64 niu_pci_map_page(struct device *dev, struct page *page,
9615                            unsigned long offset, size_t size,
9616                            enum dma_data_direction direction)
9617{
9618        return dma_map_page(dev, page, offset, size, direction);
9619}
9620
9621static void niu_pci_unmap_page(struct device *dev, u64 dma_address,
9622                               size_t size, enum dma_data_direction direction)
9623{
9624        dma_unmap_page(dev, dma_address, size, direction);
9625}
9626
9627static u64 niu_pci_map_single(struct device *dev, void *cpu_addr,
9628                              size_t size,
9629                              enum dma_data_direction direction)
9630{
9631        return dma_map_single(dev, cpu_addr, size, direction);
9632}
9633
9634static void niu_pci_unmap_single(struct device *dev, u64 dma_address,
9635                                 size_t size,
9636                                 enum dma_data_direction direction)
9637{
9638        dma_unmap_single(dev, dma_address, size, direction);
9639}
9640
9641static const struct niu_ops niu_pci_ops = {
9642        .alloc_coherent = niu_pci_alloc_coherent,
9643        .free_coherent  = niu_pci_free_coherent,
9644        .map_page       = niu_pci_map_page,
9645        .unmap_page     = niu_pci_unmap_page,
9646        .map_single     = niu_pci_map_single,
9647        .unmap_single   = niu_pci_unmap_single,
9648};
9649
9650static void niu_driver_version(void)
9651{
9652        static int niu_version_printed;
9653
9654        if (niu_version_printed++ == 0)
9655                pr_info("%s", version);
9656}
9657
9658static struct net_device *niu_alloc_and_init(struct device *gen_dev,
9659                                             struct pci_dev *pdev,
9660                                             struct platform_device *op,
9661                                             const struct niu_ops *ops, u8 port)
9662{
9663        struct net_device *dev;
9664        struct niu *np;
9665
9666        dev = alloc_etherdev_mq(sizeof(struct niu), NIU_NUM_TXCHAN);
9667        if (!dev)
9668                return NULL;
9669
9670        SET_NETDEV_DEV(dev, gen_dev);
9671
9672        np = netdev_priv(dev);
9673        np->dev = dev;
9674        np->pdev = pdev;
9675        np->op = op;
9676        np->device = gen_dev;
9677        np->ops = ops;
9678
9679        np->msg_enable = niu_debug;
9680
9681        spin_lock_init(&np->lock);
9682        INIT_WORK(&np->reset_task, niu_reset_task);
9683
9684        np->port = port;
9685
9686        return dev;
9687}
9688
9689static const struct net_device_ops niu_netdev_ops = {
9690        .ndo_open               = niu_open,
9691        .ndo_stop               = niu_close,
9692        .ndo_start_xmit         = niu_start_xmit,
9693        .ndo_get_stats64        = niu_get_stats,
9694        .ndo_set_rx_mode        = niu_set_rx_mode,
9695        .ndo_validate_addr      = eth_validate_addr,
9696        .ndo_set_mac_address    = niu_set_mac_addr,
9697        .ndo_do_ioctl           = niu_ioctl,
9698        .ndo_tx_timeout         = niu_tx_timeout,
9699        .ndo_change_mtu         = niu_change_mtu,
9700};
9701
9702static void niu_assign_netdev_ops(struct net_device *dev)
9703{
9704        dev->netdev_ops = &niu_netdev_ops;
9705        dev->ethtool_ops = &niu_ethtool_ops;
9706        dev->watchdog_timeo = NIU_TX_TIMEOUT;
9707}
9708
9709static void niu_device_announce(struct niu *np)
9710{
9711        struct net_device *dev = np->dev;
9712
9713        pr_info("%s: NIU Ethernet %pM\n", dev->name, dev->dev_addr);
9714
9715        if (np->parent->plat_type == PLAT_TYPE_ATCA_CP3220) {
9716                pr_info("%s: Port type[%s] mode[%s:%s] XCVR[%s] phy[%s]\n",
9717                                dev->name,
9718                                (np->flags & NIU_FLAGS_XMAC ? "XMAC" : "BMAC"),
9719                                (np->flags & NIU_FLAGS_10G ? "10G" : "1G"),
9720                                (np->flags & NIU_FLAGS_FIBER ? "RGMII FIBER" : "SERDES"),
9721                                (np->mac_xcvr == MAC_XCVR_MII ? "MII" :
9722                                 (np->mac_xcvr == MAC_XCVR_PCS ? "PCS" : "XPCS")),
9723                                np->vpd.phy_type);
9724        } else {
9725                pr_info("%s: Port type[%s] mode[%s:%s] XCVR[%s] phy[%s]\n",
9726                                dev->name,
9727                                (np->flags & NIU_FLAGS_XMAC ? "XMAC" : "BMAC"),
9728                                (np->flags & NIU_FLAGS_10G ? "10G" : "1G"),
9729                                (np->flags & NIU_FLAGS_FIBER ? "FIBER" :
9730                                 (np->flags & NIU_FLAGS_XCVR_SERDES ? "SERDES" :
9731                                  "COPPER")),
9732                                (np->mac_xcvr == MAC_XCVR_MII ? "MII" :
9733                                 (np->mac_xcvr == MAC_XCVR_PCS ? "PCS" : "XPCS")),
9734                                np->vpd.phy_type);
9735        }
9736}
9737
9738static void niu_set_basic_features(struct net_device *dev)
9739{
9740        dev->hw_features = NETIF_F_SG | NETIF_F_HW_CSUM | NETIF_F_RXHASH;
9741        dev->features |= dev->hw_features | NETIF_F_RXCSUM;
9742}
9743
9744static int niu_pci_init_one(struct pci_dev *pdev,
9745                            const struct pci_device_id *ent)
9746{
9747        union niu_parent_id parent_id;
9748        struct net_device *dev;
9749        struct niu *np;
9750        int err;
9751        u64 dma_mask;
9752
9753        niu_driver_version();
9754
9755        err = pci_enable_device(pdev);
9756        if (err) {
9757                dev_err(&pdev->dev, "Cannot enable PCI device, aborting\n");
9758                return err;
9759        }
9760
9761        if (!(pci_resource_flags(pdev, 0) & IORESOURCE_MEM) ||
9762            !(pci_resource_flags(pdev, 2) & IORESOURCE_MEM)) {
9763                dev_err(&pdev->dev, "Cannot find proper PCI device base addresses, aborting\n");
9764                err = -ENODEV;
9765                goto err_out_disable_pdev;
9766        }
9767
9768        err = pci_request_regions(pdev, DRV_MODULE_NAME);
9769        if (err) {
9770                dev_err(&pdev->dev, "Cannot obtain PCI resources, aborting\n");
9771                goto err_out_disable_pdev;
9772        }
9773
9774        if (!pci_is_pcie(pdev)) {
9775                dev_err(&pdev->dev, "Cannot find PCI Express capability, aborting\n");
9776                err = -ENODEV;
9777                goto err_out_free_res;
9778        }
9779
9780        dev = niu_alloc_and_init(&pdev->dev, pdev, NULL,
9781                                 &niu_pci_ops, PCI_FUNC(pdev->devfn));
9782        if (!dev) {
9783                err = -ENOMEM;
9784                goto err_out_free_res;
9785        }
9786        np = netdev_priv(dev);
9787
9788        memset(&parent_id, 0, sizeof(parent_id));
9789        parent_id.pci.domain = pci_domain_nr(pdev->bus);
9790        parent_id.pci.bus = pdev->bus->number;
9791        parent_id.pci.device = PCI_SLOT(pdev->devfn);
9792
9793        np->parent = niu_get_parent(np, &parent_id,
9794                                    PLAT_TYPE_ATLAS);
9795        if (!np->parent) {
9796                err = -ENOMEM;
9797                goto err_out_free_dev;
9798        }
9799
9800        pcie_capability_clear_and_set_word(pdev, PCI_EXP_DEVCTL,
9801                PCI_EXP_DEVCTL_NOSNOOP_EN,
9802                PCI_EXP_DEVCTL_CERE | PCI_EXP_DEVCTL_NFERE |
9803                PCI_EXP_DEVCTL_FERE | PCI_EXP_DEVCTL_URRE |
9804                PCI_EXP_DEVCTL_RELAX_EN);
9805
9806        dma_mask = DMA_BIT_MASK(44);
9807        err = pci_set_dma_mask(pdev, dma_mask);
9808        if (!err) {
9809                dev->features |= NETIF_F_HIGHDMA;
9810                err = pci_set_consistent_dma_mask(pdev, dma_mask);
9811                if (err) {
9812                        dev_err(&pdev->dev, "Unable to obtain 44 bit DMA for consistent allocations, aborting\n");
9813                        goto err_out_release_parent;
9814                }
9815        }
9816        if (err) {
9817                err = pci_set_dma_mask(pdev, DMA_BIT_MASK(32));
9818                if (err) {
9819                        dev_err(&pdev->dev, "No usable DMA configuration, aborting\n");
9820                        goto err_out_release_parent;
9821                }
9822        }
9823
9824        niu_set_basic_features(dev);
9825
9826        dev->priv_flags |= IFF_UNICAST_FLT;
9827
9828        np->regs = pci_ioremap_bar(pdev, 0);
9829        if (!np->regs) {
9830                dev_err(&pdev->dev, "Cannot map device registers, aborting\n");
9831                err = -ENOMEM;
9832                goto err_out_release_parent;
9833        }
9834
9835        pci_set_master(pdev);
9836        pci_save_state(pdev);
9837
9838        dev->irq = pdev->irq;
9839
9840        niu_assign_netdev_ops(dev);
9841
9842        err = niu_get_invariants(np);
9843        if (err) {
9844                if (err != -ENODEV)
9845                        dev_err(&pdev->dev, "Problem fetching invariants of chip, aborting\n");
9846                goto err_out_iounmap;
9847        }
9848
9849        err = register_netdev(dev);
9850        if (err) {
9851                dev_err(&pdev->dev, "Cannot register net device, aborting\n");
9852                goto err_out_iounmap;
9853        }
9854
9855        pci_set_drvdata(pdev, dev);
9856
9857        niu_device_announce(np);
9858
9859        return 0;
9860
9861err_out_iounmap:
9862        if (np->regs) {
9863                iounmap(np->regs);
9864                np->regs = NULL;
9865        }
9866
9867err_out_release_parent:
9868        niu_put_parent(np);
9869
9870err_out_free_dev:
9871        free_netdev(dev);
9872
9873err_out_free_res:
9874        pci_release_regions(pdev);
9875
9876err_out_disable_pdev:
9877        pci_disable_device(pdev);
9878        pci_set_drvdata(pdev, NULL);
9879
9880        return err;
9881}
9882
9883static void niu_pci_remove_one(struct pci_dev *pdev)
9884{
9885        struct net_device *dev = pci_get_drvdata(pdev);
9886
9887        if (dev) {
9888                struct niu *np = netdev_priv(dev);
9889
9890                unregister_netdev(dev);
9891                if (np->regs) {
9892                        iounmap(np->regs);
9893                        np->regs = NULL;
9894                }
9895
9896                niu_ldg_free(np);
9897
9898                niu_put_parent(np);
9899
9900                free_netdev(dev);
9901                pci_release_regions(pdev);
9902                pci_disable_device(pdev);
9903                pci_set_drvdata(pdev, NULL);
9904        }
9905}
9906
9907static int niu_suspend(struct pci_dev *pdev, pm_message_t state)
9908{
9909        struct net_device *dev = pci_get_drvdata(pdev);
9910        struct niu *np = netdev_priv(dev);
9911        unsigned long flags;
9912
9913        if (!netif_running(dev))
9914                return 0;
9915
9916        flush_work(&np->reset_task);
9917        niu_netif_stop(np);
9918
9919        del_timer_sync(&np->timer);
9920
9921        spin_lock_irqsave(&np->lock, flags);
9922        niu_enable_interrupts(np, 0);
9923        spin_unlock_irqrestore(&np->lock, flags);
9924
9925        netif_device_detach(dev);
9926
9927        spin_lock_irqsave(&np->lock, flags);
9928        niu_stop_hw(np);
9929        spin_unlock_irqrestore(&np->lock, flags);
9930
9931        pci_save_state(pdev);
9932
9933        return 0;
9934}
9935
9936static int niu_resume(struct pci_dev *pdev)
9937{
9938        struct net_device *dev = pci_get_drvdata(pdev);
9939        struct niu *np = netdev_priv(dev);
9940        unsigned long flags;
9941        int err;
9942
9943        if (!netif_running(dev))
9944                return 0;
9945
9946        pci_restore_state(pdev);
9947
9948        netif_device_attach(dev);
9949
9950        spin_lock_irqsave(&np->lock, flags);
9951
9952        err = niu_init_hw(np);
9953        if (!err) {
9954                np->timer.expires = jiffies + HZ;
9955                add_timer(&np->timer);
9956                niu_netif_start(np);
9957        }
9958
9959        spin_unlock_irqrestore(&np->lock, flags);
9960
9961        return err;
9962}
9963
9964static struct pci_driver niu_pci_driver = {
9965        .name           = DRV_MODULE_NAME,
9966        .id_table       = niu_pci_tbl,
9967        .probe          = niu_pci_init_one,
9968        .remove         = niu_pci_remove_one,
9969        .suspend        = niu_suspend,
9970        .resume         = niu_resume,
9971};
9972
9973#ifdef CONFIG_SPARC64
9974static void *niu_phys_alloc_coherent(struct device *dev, size_t size,
9975                                     u64 *dma_addr, gfp_t flag)
9976{
9977        unsigned long order = get_order(size);
9978        unsigned long page = __get_free_pages(flag, order);
9979
9980        if (page == 0UL)
9981                return NULL;
9982        memset((char *)page, 0, PAGE_SIZE << order);
9983        *dma_addr = __pa(page);
9984
9985        return (void *) page;
9986}
9987
9988static void niu_phys_free_coherent(struct device *dev, size_t size,
9989                                   void *cpu_addr, u64 handle)
9990{
9991        unsigned long order = get_order(size);
9992
9993        free_pages((unsigned long) cpu_addr, order);
9994}
9995
9996static u64 niu_phys_map_page(struct device *dev, struct page *page,
9997                             unsigned long offset, size_t size,
9998                             enum dma_data_direction direction)
9999{
10000        return page_to_phys(page) + offset;
10001}
10002
10003static void niu_phys_unmap_page(struct device *dev, u64 dma_address,
10004                                size_t size, enum dma_data_direction direction)
10005{
10006        /* Nothing to do.  */
10007}
10008
10009static u64 niu_phys_map_single(struct device *dev, void *cpu_addr,
10010                               size_t size,
10011                               enum dma_data_direction direction)
10012{
10013        return __pa(cpu_addr);
10014}
10015
10016static void niu_phys_unmap_single(struct device *dev, u64 dma_address,
10017                                  size_t size,
10018                                  enum dma_data_direction direction)
10019{
10020        /* Nothing to do.  */
10021}
10022
10023static const struct niu_ops niu_phys_ops = {
10024        .alloc_coherent = niu_phys_alloc_coherent,
10025        .free_coherent  = niu_phys_free_coherent,
10026        .map_page       = niu_phys_map_page,
10027        .unmap_page     = niu_phys_unmap_page,
10028        .map_single     = niu_phys_map_single,
10029        .unmap_single   = niu_phys_unmap_single,
10030};
10031
10032static int niu_of_probe(struct platform_device *op)
10033{
10034        union niu_parent_id parent_id;
10035        struct net_device *dev;
10036        struct niu *np;
10037        const u32 *reg;
10038        int err;
10039
10040        niu_driver_version();
10041
10042        reg = of_get_property(op->dev.of_node, "reg", NULL);
10043        if (!reg) {
10044                dev_err(&op->dev, "%s: No 'reg' property, aborting\n",
10045                        op->dev.of_node->full_name);
10046                return -ENODEV;
10047        }
10048
10049        dev = niu_alloc_and_init(&op->dev, NULL, op,
10050                                 &niu_phys_ops, reg[0] & 0x1);
10051        if (!dev) {
10052                err = -ENOMEM;
10053                goto err_out;
10054        }
10055        np = netdev_priv(dev);
10056
10057        memset(&parent_id, 0, sizeof(parent_id));
10058        parent_id.of = of_get_parent(op->dev.of_node);
10059
10060        np->parent = niu_get_parent(np, &parent_id,
10061                                    PLAT_TYPE_NIU);
10062        if (!np->parent) {
10063                err = -ENOMEM;
10064                goto err_out_free_dev;
10065        }
10066
10067        niu_set_basic_features(dev);
10068
10069        np->regs = of_ioremap(&op->resource[1], 0,
10070                              resource_size(&op->resource[1]),
10071                              "niu regs");
10072        if (!np->regs) {
10073                dev_err(&op->dev, "Cannot map device registers, aborting\n");
10074                err = -ENOMEM;
10075                goto err_out_release_parent;
10076        }
10077
10078        np->vir_regs_1 = of_ioremap(&op->resource[2], 0,
10079                                    resource_size(&op->resource[2]),
10080                                    "niu vregs-1");
10081        if (!np->vir_regs_1) {
10082                dev_err(&op->dev, "Cannot map device vir registers 1, aborting\n");
10083                err = -ENOMEM;
10084                goto err_out_iounmap;
10085        }
10086
10087        np->vir_regs_2 = of_ioremap(&op->resource[3], 0,
10088                                    resource_size(&op->resource[3]),
10089                                    "niu vregs-2");
10090        if (!np->vir_regs_2) {
10091                dev_err(&op->dev, "Cannot map device vir registers 2, aborting\n");
10092                err = -ENOMEM;
10093                goto err_out_iounmap;
10094        }
10095
10096        niu_assign_netdev_ops(dev);
10097
10098        err = niu_get_invariants(np);
10099        if (err) {
10100                if (err != -ENODEV)
10101                        dev_err(&op->dev, "Problem fetching invariants of chip, aborting\n");
10102                goto err_out_iounmap;
10103        }
10104
10105        err = register_netdev(dev);
10106        if (err) {
10107                dev_err(&op->dev, "Cannot register net device, aborting\n");
10108                goto err_out_iounmap;
10109        }
10110
10111        dev_set_drvdata(&op->dev, dev);
10112
10113        niu_device_announce(np);
10114
10115        return 0;
10116
10117err_out_iounmap:
10118        if (np->vir_regs_1) {
10119                of_iounmap(&op->resource[2], np->vir_regs_1,
10120                           resource_size(&op->resource[2]));
10121                np->vir_regs_1 = NULL;
10122        }
10123
10124        if (np->vir_regs_2) {
10125                of_iounmap(&op->resource[3], np->vir_regs_2,
10126                           resource_size(&op->resource[3]));
10127                np->vir_regs_2 = NULL;
10128        }
10129
10130        if (np->regs) {
10131                of_iounmap(&op->resource[1], np->regs,
10132                           resource_size(&op->resource[1]));
10133                np->regs = NULL;
10134        }
10135
10136err_out_release_parent:
10137        niu_put_parent(np);
10138
10139err_out_free_dev:
10140        free_netdev(dev);
10141
10142err_out:
10143        return err;
10144}
10145
10146static int niu_of_remove(struct platform_device *op)
10147{
10148        struct net_device *dev = dev_get_drvdata(&op->dev);
10149
10150        if (dev) {
10151                struct niu *np = netdev_priv(dev);
10152
10153                unregister_netdev(dev);
10154
10155                if (np->vir_regs_1) {
10156                        of_iounmap(&op->resource[2], np->vir_regs_1,
10157                                   resource_size(&op->resource[2]));
10158                        np->vir_regs_1 = NULL;
10159                }
10160
10161                if (np->vir_regs_2) {
10162                        of_iounmap(&op->resource[3], np->vir_regs_2,
10163                                   resource_size(&op->resource[3]));
10164                        np->vir_regs_2 = NULL;
10165                }
10166
10167                if (np->regs) {
10168                        of_iounmap(&op->resource[1], np->regs,
10169                                   resource_size(&op->resource[1]));
10170                        np->regs = NULL;
10171                }
10172
10173                niu_ldg_free(np);
10174
10175                niu_put_parent(np);
10176
10177                free_netdev(dev);
10178                dev_set_drvdata(&op->dev, NULL);
10179        }
10180        return 0;
10181}
10182
10183static const struct of_device_id niu_match[] = {
10184        {
10185                .name = "network",
10186                .compatible = "SUNW,niusl",
10187        },
10188        {},
10189};
10190MODULE_DEVICE_TABLE(of, niu_match);
10191
10192static struct platform_driver niu_of_driver = {
10193        .driver = {
10194                .name = "niu",
10195                .owner = THIS_MODULE,
10196                .of_match_table = niu_match,
10197        },
10198        .probe          = niu_of_probe,
10199        .remove         = niu_of_remove,
10200};
10201
10202#endif /* CONFIG_SPARC64 */
10203
10204static int __init niu_init(void)
10205{
10206        int err = 0;
10207
10208        BUILD_BUG_ON(PAGE_SIZE < 4 * 1024);
10209
10210        niu_debug = netif_msg_init(debug, NIU_MSG_DEFAULT);
10211
10212#ifdef CONFIG_SPARC64
10213        err = platform_driver_register(&niu_of_driver);
10214#endif
10215
10216        if (!err) {
10217                err = pci_register_driver(&niu_pci_driver);
10218#ifdef CONFIG_SPARC64
10219                if (err)
10220                        platform_driver_unregister(&niu_of_driver);
10221#endif
10222        }
10223
10224        return err;
10225}
10226
10227static void __exit niu_exit(void)
10228{
10229        pci_unregister_driver(&niu_pci_driver);
10230#ifdef CONFIG_SPARC64
10231        platform_driver_unregister(&niu_of_driver);
10232#endif
10233}
10234
10235module_init(niu_init);
10236module_exit(niu_exit);
10237