root/drivers/net/ethernet/ti/netcp_ethss.c

DEFINITIONS

1. keystone_get_drvinfo
2. keystone_get_msglevel
3. keystone_set_msglevel
4. keystone_get_intf_data
5. keystone_get_stat_strings
6. keystone_get_sset_count
7. gbe_reset_mod_stats
8. gbe_update_hw_stats_entry
9. gbe_update_stats
10. gbe_stats_mod_visible_ver14
11. gbe_reset_mod_stats_ver14
12. gbe_update_stats_ver14
13. keystone_get_ethtool_stats
14. keystone_get_link_ksettings
15. keystone_set_link_ksettings
16. keystone_get_ts_info
17. keystone_get_ts_info
18. gbe_set_slave_mac
19. gbe_get_slave_port
20. netcp_ethss_link_state_action
21. gbe_phy_link_status
22. netcp_2u_rgmii_get_port_link
23. netcp_ethss_update_link_state
24. xgbe_adjust_link
25. gbe_adjust_link
26. gbe_adjust_link_sec_slaves
27. gbe_port_reset
28. gbe_port_config
29. gbe_sgmii_rtreset
30. gbe_slave_stop
31. gbe_sgmii_config
32. gbe_slave_open
33. gbe_init_host_port
34. gbe_add_mcast_addr
35. gbe_add_ucast_addr
36. gbe_del_mcast_addr
37. gbe_del_ucast_addr
38. gbe_add_addr
39. gbe_del_addr
40. gbe_add_vid
41. gbe_del_vid
42. gbe_txtstamp
43. gbe_need_txtstamp
44. gbe_txtstamp_mark_pkt
45. gbe_rxtstamp
46. gbe_hwtstamp_get
47. gbe_hwtstamp
48. gbe_hwtstamp_set
49. gbe_register_cpts
50. gbe_unregister_cpts
51. gbe_txtstamp_mark_pkt
52. gbe_rxtstamp
53. gbe_hwtstamp
54. gbe_register_cpts
55. gbe_unregister_cpts
56. gbe_hwtstamp_get
57. gbe_hwtstamp_set
58. gbe_set_rx_mode
59. gbe_ioctl
60. netcp_ethss_timer
61. gbe_txhook
62. gbe_rxhook
63. gbe_open
64. gbe_close
65. init_slave_ts_ctl
66. init_slave_ts_ctl
67. init_slave
68. init_secondary_ports
69. free_secondary_ports
70. set_xgbe_ethss10_priv
71. get_gbe_resource_version
72. set_gbe_ethss14_priv
73. set_gbenu_ethss_priv
74. gbe_probe
75. gbe_attach
76. gbe_release
77. gbe_remove
78. keystone_gbe_init
79. keystone_gbe_exit

   1 // SPDX-License-Identifier: GPL-2.0
   2 /*
   3  * Keystone GBE and XGBE subsystem code
   4  *
   5  * Copyright (C) 2014 Texas Instruments Incorporated
   6  * Authors:     Sandeep Nair <sandeep_n@ti.com>
   7  *              Sandeep Paulraj <s-paulraj@ti.com>
   8  *              Cyril Chemparathy <cyril@ti.com>
   9  *              Santosh Shilimkar <santosh.shilimkar@ti.com>
  10  *              Wingman Kwok <w-kwok2@ti.com>
  11  */
  12 
  13 #include <linux/io.h>
  14 #include <linux/module.h>
  15 #include <linux/of_mdio.h>
  16 #include <linux/of_net.h>
  17 #include <linux/of_address.h>
  18 #include <linux/if_vlan.h>
  19 #include <linux/ptp_classify.h>
  20 #include <linux/net_tstamp.h>
  21 #include <linux/ethtool.h>
  22 
  23 #include "cpsw.h"
  24 #include "cpsw_ale.h"
  25 #include "netcp.h"
  26 #include "cpts.h"
  27 
  28 #define NETCP_DRIVER_NAME               "TI KeyStone Ethernet Driver"
  29 #define NETCP_DRIVER_VERSION            "v1.0"
  30 
  31 #define GBE_IDENT(reg)                  ((reg >> 16) & 0xffff)
  32 #define GBE_MAJOR_VERSION(reg)          (reg >> 8 & 0x7)
  33 #define GBE_MINOR_VERSION(reg)          (reg & 0xff)
  34 #define GBE_RTL_VERSION(reg)            ((reg >> 11) & 0x1f)
  35 
  36 /* 1G Ethernet SS defines */
  37 #define GBE_MODULE_NAME                 "netcp-gbe"
  38 #define GBE_SS_VERSION_14               0x4ed2
  39 
  40 #define GBE_SS_REG_INDEX                0
  41 #define GBE_SGMII34_REG_INDEX           1
  42 #define GBE_SM_REG_INDEX                2
  43 /* offset relative to base of GBE_SS_REG_INDEX */
  44 #define GBE13_SGMII_MODULE_OFFSET       0x100
  45 /* offset relative to base of GBE_SM_REG_INDEX */
  46 #define GBE13_HOST_PORT_OFFSET          0x34
  47 #define GBE13_SLAVE_PORT_OFFSET         0x60
  48 #define GBE13_EMAC_OFFSET               0x100
  49 #define GBE13_SLAVE_PORT2_OFFSET        0x200
  50 #define GBE13_HW_STATS_OFFSET           0x300
  51 #define GBE13_CPTS_OFFSET               0x500
  52 #define GBE13_ALE_OFFSET                0x600
  53 #define GBE13_HOST_PORT_NUM             0
  54 #define GBE13_NUM_ALE_ENTRIES           1024
  55 
  56 /* 1G Ethernet NU SS defines */
  57 #define GBENU_MODULE_NAME               "netcp-gbenu"
  58 #define GBE_SS_ID_NU                    0x4ee6
  59 #define GBE_SS_ID_2U                    0x4ee8
  60 
  61 #define IS_SS_ID_MU(d) \
  62         ((GBE_IDENT((d)->ss_version) == GBE_SS_ID_NU) || \
  63          (GBE_IDENT((d)->ss_version) == GBE_SS_ID_2U))
  64 
  65 #define IS_SS_ID_NU(d) \
  66         (GBE_IDENT((d)->ss_version) == GBE_SS_ID_NU)
  67 
  68 #define IS_SS_ID_VER_14(d) \
  69         (GBE_IDENT((d)->ss_version) == GBE_SS_VERSION_14)
  70 #define IS_SS_ID_2U(d) \
  71         (GBE_IDENT((d)->ss_version) == GBE_SS_ID_2U)
  72 
  73 #define GBENU_SS_REG_INDEX              0
  74 #define GBENU_SM_REG_INDEX              1
  75 #define GBENU_SGMII_MODULE_OFFSET       0x100
  76 #define GBENU_HOST_PORT_OFFSET          0x1000
  77 #define GBENU_SLAVE_PORT_OFFSET         0x2000
  78 #define GBENU_EMAC_OFFSET               0x2330
  79 #define GBENU_HW_STATS_OFFSET           0x1a000
  80 #define GBENU_CPTS_OFFSET               0x1d000
  81 #define GBENU_ALE_OFFSET                0x1e000
  82 #define GBENU_HOST_PORT_NUM             0
  83 #define GBENU_SGMII_MODULE_SIZE         0x100
  84 
  85 /* 10G Ethernet SS defines */
  86 #define XGBE_MODULE_NAME                "netcp-xgbe"
  87 #define XGBE_SS_VERSION_10              0x4ee4
  88 
  89 #define XGBE_SS_REG_INDEX               0
  90 #define XGBE_SM_REG_INDEX               1
  91 #define XGBE_SERDES_REG_INDEX           2
  92 
  93 /* offset relative to base of XGBE_SS_REG_INDEX */
  94 #define XGBE10_SGMII_MODULE_OFFSET      0x100
  95 #define IS_SS_ID_XGBE(d)                ((d)->ss_version == XGBE_SS_VERSION_10)
  96 /* offset relative to base of XGBE_SM_REG_INDEX */
  97 #define XGBE10_HOST_PORT_OFFSET         0x34
  98 #define XGBE10_SLAVE_PORT_OFFSET        0x64
  99 #define XGBE10_EMAC_OFFSET              0x400
 100 #define XGBE10_CPTS_OFFSET              0x600
 101 #define XGBE10_ALE_OFFSET               0x700
 102 #define XGBE10_HW_STATS_OFFSET          0x800
 103 #define XGBE10_HOST_PORT_NUM            0
 104 #define XGBE10_NUM_ALE_ENTRIES          2048
 105 
 106 #define GBE_TIMER_INTERVAL                      (HZ / 2)
 107 
 108 /* Soft reset register values */
 109 #define SOFT_RESET_MASK                         BIT(0)
 110 #define SOFT_RESET                              BIT(0)
 111 #define DEVICE_EMACSL_RESET_POLL_COUNT          100
 112 #define GMACSL_RET_WARN_RESET_INCOMPLETE        -2
 113 
 114 #define MACSL_RX_ENABLE_CSF                     BIT(23)
 115 #define MACSL_ENABLE_EXT_CTL                    BIT(18)
 116 #define MACSL_XGMII_ENABLE                      BIT(13)
 117 #define MACSL_XGIG_MODE                         BIT(8)
 118 #define MACSL_GIG_MODE                          BIT(7)
 119 #define MACSL_GMII_ENABLE                       BIT(5)
 120 #define MACSL_FULLDUPLEX                        BIT(0)
 121 
 122 #define GBE_CTL_P0_ENABLE                       BIT(2)
 123 #define ETH_SW_CTL_P0_TX_CRC_REMOVE             BIT(13)
 124 #define GBE13_REG_VAL_STAT_ENABLE_ALL           0xff
 125 #define XGBE_REG_VAL_STAT_ENABLE_ALL            0xf
 126 #define GBE_STATS_CD_SEL                        BIT(28)
 127 
 128 #define GBE_PORT_MASK(x)                        (BIT(x) - 1)
 129 #define GBE_MASK_NO_PORTS                       0
 130 
 131 #define GBE_DEF_1G_MAC_CONTROL                                  \
 132                 (MACSL_GIG_MODE | MACSL_GMII_ENABLE |           \
 133                  MACSL_ENABLE_EXT_CTL | MACSL_RX_ENABLE_CSF)
 134 
 135 #define GBE_DEF_10G_MAC_CONTROL                         \
 136                 (MACSL_XGIG_MODE | MACSL_XGMII_ENABLE |         \
 137                  MACSL_ENABLE_EXT_CTL | MACSL_RX_ENABLE_CSF)
 138 
 139 #define GBE_STATSA_MODULE                       0
 140 #define GBE_STATSB_MODULE                       1
 141 #define GBE_STATSC_MODULE                       2
 142 #define GBE_STATSD_MODULE                       3
 143 
 144 #define GBENU_STATS0_MODULE                     0
 145 #define GBENU_STATS1_MODULE                     1
 146 #define GBENU_STATS2_MODULE                     2
 147 #define GBENU_STATS3_MODULE                     3
 148 #define GBENU_STATS4_MODULE                     4
 149 #define GBENU_STATS5_MODULE                     5
 150 #define GBENU_STATS6_MODULE                     6
 151 #define GBENU_STATS7_MODULE                     7
 152 #define GBENU_STATS8_MODULE                     8
 153 
 154 #define XGBE_STATS0_MODULE                      0
 155 #define XGBE_STATS1_MODULE                      1
 156 #define XGBE_STATS2_MODULE                      2
 157 
 158 /* s: 0-based slave_port */
 159 #define SGMII_BASE(d, s) \
 160         (((s) < 2) ? (d)->sgmii_port_regs : (d)->sgmii_port34_regs)
 161 
 162 #define GBE_TX_QUEUE                            648
 163 #define GBE_TXHOOK_ORDER                        0
 164 #define GBE_RXHOOK_ORDER                        0
 165 #define GBE_DEFAULT_ALE_AGEOUT                  30
 166 #define SLAVE_LINK_IS_XGMII(s) ((s)->link_interface >= XGMII_LINK_MAC_PHY)
 167 #define SLAVE_LINK_IS_RGMII(s) \
 168         (((s)->link_interface >= RGMII_LINK_MAC_PHY) && \
 169          ((s)->link_interface <= RGMII_LINK_MAC_PHY_NO_MDIO))
 170 #define SLAVE_LINK_IS_SGMII(s) \
 171         ((s)->link_interface <= SGMII_LINK_MAC_PHY_NO_MDIO)
 172 #define NETCP_LINK_STATE_INVALID                -1
 173 
 174 #define GBE_SET_REG_OFS(p, rb, rn) p->rb##_ofs.rn = \
 175                 offsetof(struct gbe##_##rb, rn)
 176 #define GBENU_SET_REG_OFS(p, rb, rn) p->rb##_ofs.rn = \
 177                 offsetof(struct gbenu##_##rb, rn)
 178 #define XGBE_SET_REG_OFS(p, rb, rn) p->rb##_ofs.rn = \
 179                 offsetof(struct xgbe##_##rb, rn)
 180 #define GBE_REG_ADDR(p, rb, rn) (p->rb + p->rb##_ofs.rn)
 181 
 182 #define HOST_TX_PRI_MAP_DEFAULT                 0x00000000
 183 
 184 #if IS_ENABLED(CONFIG_TI_CPTS)
 185 /* Px_TS_CTL register fields */
 186 #define TS_RX_ANX_F_EN                          BIT(0)
 187 #define TS_RX_VLAN_LT1_EN                       BIT(1)
 188 #define TS_RX_VLAN_LT2_EN                       BIT(2)
 189 #define TS_RX_ANX_D_EN                          BIT(3)
 190 #define TS_TX_ANX_F_EN                          BIT(4)
 191 #define TS_TX_VLAN_LT1_EN                       BIT(5)
 192 #define TS_TX_VLAN_LT2_EN                       BIT(6)
 193 #define TS_TX_ANX_D_EN                          BIT(7)
 194 #define TS_LT2_EN                               BIT(8)
 195 #define TS_RX_ANX_E_EN                          BIT(9)
 196 #define TS_TX_ANX_E_EN                          BIT(10)
 197 #define TS_MSG_TYPE_EN_SHIFT                    16
 198 #define TS_MSG_TYPE_EN_MASK                     0xffff
 199 
 200 /* Px_TS_SEQ_LTYPE register fields */
 201 #define TS_SEQ_ID_OFS_SHIFT                     16
 202 #define TS_SEQ_ID_OFS_MASK                      0x3f
 203 
 204 /* Px_TS_CTL_LTYPE2 register fields */
 205 #define TS_107                                  BIT(16)
 206 #define TS_129                                  BIT(17)
 207 #define TS_130                                  BIT(18)
 208 #define TS_131                                  BIT(19)
 209 #define TS_132                                  BIT(20)
 210 #define TS_319                                  BIT(21)
 211 #define TS_320                                  BIT(22)
 212 #define TS_TTL_NONZERO                          BIT(23)
 213 #define TS_UNI_EN                               BIT(24)
 214 #define TS_UNI_EN_SHIFT                         24
 215 
 216 #define TS_TX_ANX_ALL_EN         \
 217         (TS_TX_ANX_D_EN | TS_TX_ANX_E_EN | TS_TX_ANX_F_EN)
 218 
 219 #define TS_RX_ANX_ALL_EN         \
 220         (TS_RX_ANX_D_EN | TS_RX_ANX_E_EN | TS_RX_ANX_F_EN)
 221 
 222 #define TS_CTL_DST_PORT                         TS_319
 223 #define TS_CTL_DST_PORT_SHIFT                   21
 224 
 225 #define TS_CTL_MADDR_ALL        \
 226         (TS_107 | TS_129 | TS_130 | TS_131 | TS_132)
 227 
 228 #define TS_CTL_MADDR_SHIFT                      16
 229 
 230 /* The PTP event messages - Sync, Delay_Req, Pdelay_Req, and Pdelay_Resp. */
 231 #define EVENT_MSG_BITS (BIT(0) | BIT(1) | BIT(2) | BIT(3))
 232 #endif /* CONFIG_TI_CPTS */
 233 
 234 struct xgbe_ss_regs {
 235         u32     id_ver;
 236         u32     synce_count;
 237         u32     synce_mux;
 238         u32     control;
 239 };
 240 
 241 struct xgbe_switch_regs {
 242         u32     id_ver;
 243         u32     control;
 244         u32     emcontrol;
 245         u32     stat_port_en;
 246         u32     ptype;
 247         u32     soft_idle;
 248         u32     thru_rate;
 249         u32     gap_thresh;
 250         u32     tx_start_wds;
 251         u32     flow_control;
 252         u32     cppi_thresh;
 253 };
 254 
 255 struct xgbe_port_regs {
 256         u32     blk_cnt;
 257         u32     port_vlan;
 258         u32     tx_pri_map;
 259         u32     sa_lo;
 260         u32     sa_hi;
 261         u32     ts_ctl;
 262         u32     ts_seq_ltype;
 263         u32     ts_vlan;
 264         u32     ts_ctl_ltype2;
 265         u32     ts_ctl2;
 266         u32     control;
 267 };
 268 
 269 struct xgbe_host_port_regs {
 270         u32     blk_cnt;
 271         u32     port_vlan;
 272         u32     tx_pri_map;
 273         u32     src_id;
 274         u32     rx_pri_map;
 275         u32     rx_maxlen;
 276 };
 277 
 278 struct xgbe_emac_regs {
 279         u32     id_ver;
 280         u32     mac_control;
 281         u32     mac_status;
 282         u32     soft_reset;
 283         u32     rx_maxlen;
 284         u32     __reserved_0;
 285         u32     rx_pause;
 286         u32     tx_pause;
 287         u32     em_control;
 288         u32     __reserved_1;
 289         u32     tx_gap;
 290         u32     rsvd[4];
 291 };
 292 
 293 struct xgbe_host_hw_stats {
 294         u32     rx_good_frames;
 295         u32     rx_broadcast_frames;
 296         u32     rx_multicast_frames;
 297         u32     __rsvd_0[3];
 298         u32     rx_oversized_frames;
 299         u32     __rsvd_1;
 300         u32     rx_undersized_frames;
 301         u32     __rsvd_2;
 302         u32     overrun_type4;
 303         u32     overrun_type5;
 304         u32     rx_bytes;
 305         u32     tx_good_frames;
 306         u32     tx_broadcast_frames;
 307         u32     tx_multicast_frames;
 308         u32     __rsvd_3[9];
 309         u32     tx_bytes;
 310         u32     tx_64byte_frames;
 311         u32     tx_65_to_127byte_frames;
 312         u32     tx_128_to_255byte_frames;
 313         u32     tx_256_to_511byte_frames;
 314         u32     tx_512_to_1023byte_frames;
 315         u32     tx_1024byte_frames;
 316         u32     net_bytes;
 317         u32     rx_sof_overruns;
 318         u32     rx_mof_overruns;
 319         u32     rx_dma_overruns;
 320 };
 321 
 322 struct xgbe_hw_stats {
 323         u32     rx_good_frames;
 324         u32     rx_broadcast_frames;
 325         u32     rx_multicast_frames;
 326         u32     rx_pause_frames;
 327         u32     rx_crc_errors;
 328         u32     rx_align_code_errors;
 329         u32     rx_oversized_frames;
 330         u32     rx_jabber_frames;
 331         u32     rx_undersized_frames;
 332         u32     rx_fragments;
 333         u32     overrun_type4;
 334         u32     overrun_type5;
 335         u32     rx_bytes;
 336         u32     tx_good_frames;
 337         u32     tx_broadcast_frames;
 338         u32     tx_multicast_frames;
 339         u32     tx_pause_frames;
 340         u32     tx_deferred_frames;
 341         u32     tx_collision_frames;
 342         u32     tx_single_coll_frames;
 343         u32     tx_mult_coll_frames;
 344         u32     tx_excessive_collisions;
 345         u32     tx_late_collisions;
 346         u32     tx_underrun;
 347         u32     tx_carrier_sense_errors;
 348         u32     tx_bytes;
 349         u32     tx_64byte_frames;
 350         u32     tx_65_to_127byte_frames;
 351         u32     tx_128_to_255byte_frames;
 352         u32     tx_256_to_511byte_frames;
 353         u32     tx_512_to_1023byte_frames;
 354         u32     tx_1024byte_frames;
 355         u32     net_bytes;
 356         u32     rx_sof_overruns;
 357         u32     rx_mof_overruns;
 358         u32     rx_dma_overruns;
 359 };
 360 
 361 struct gbenu_ss_regs {
 362         u32     id_ver;
 363         u32     synce_count;            /* NU */
 364         u32     synce_mux;              /* NU */
 365         u32     control;                /* 2U */
 366         u32     __rsvd_0[2];            /* 2U */
 367         u32     rgmii_status;           /* 2U */
 368         u32     ss_status;              /* 2U */
 369 };
 370 
 371 struct gbenu_switch_regs {
 372         u32     id_ver;
 373         u32     control;
 374         u32     __rsvd_0[2];
 375         u32     emcontrol;
 376         u32     stat_port_en;
 377         u32     ptype;                  /* NU */
 378         u32     soft_idle;
 379         u32     thru_rate;              /* NU */
 380         u32     gap_thresh;             /* NU */
 381         u32     tx_start_wds;           /* NU */
 382         u32     eee_prescale;           /* 2U */
 383         u32     tx_g_oflow_thresh_set;  /* NU */
 384         u32     tx_g_oflow_thresh_clr;  /* NU */
 385         u32     tx_g_buf_thresh_set_l;  /* NU */
 386         u32     tx_g_buf_thresh_set_h;  /* NU */
 387         u32     tx_g_buf_thresh_clr_l;  /* NU */
 388         u32     tx_g_buf_thresh_clr_h;  /* NU */
 389 };
 390 
 391 struct gbenu_port_regs {
 392         u32     __rsvd_0;
 393         u32     control;
 394         u32     max_blks;               /* 2U */
 395         u32     mem_align1;
 396         u32     blk_cnt;
 397         u32     port_vlan;
 398         u32     tx_pri_map;             /* NU */
 399         u32     pri_ctl;                /* 2U */
 400         u32     rx_pri_map;
 401         u32     rx_maxlen;
 402         u32     tx_blks_pri;            /* NU */
 403         u32     __rsvd_1;
 404         u32     idle2lpi;               /* 2U */
 405         u32     lpi2idle;               /* 2U */
 406         u32     eee_status;             /* 2U */
 407         u32     __rsvd_2;
 408         u32     __rsvd_3[176];          /* NU: more to add */
 409         u32     __rsvd_4[2];
 410         u32     sa_lo;
 411         u32     sa_hi;
 412         u32     ts_ctl;
 413         u32     ts_seq_ltype;
 414         u32     ts_vlan;
 415         u32     ts_ctl_ltype2;
 416         u32     ts_ctl2;
 417 };
 418 
 419 struct gbenu_host_port_regs {
 420         u32     __rsvd_0;
 421         u32     control;
 422         u32     flow_id_offset;         /* 2U */
 423         u32     __rsvd_1;
 424         u32     blk_cnt;
 425         u32     port_vlan;
 426         u32     tx_pri_map;             /* NU */
 427         u32     pri_ctl;
 428         u32     rx_pri_map;
 429         u32     rx_maxlen;
 430         u32     tx_blks_pri;            /* NU */
 431         u32     __rsvd_2;
 432         u32     idle2lpi;               /* 2U */
 433         u32     lpi2wake;               /* 2U */
 434         u32     eee_status;             /* 2U */
 435         u32     __rsvd_3;
 436         u32     __rsvd_4[184];          /* NU */
 437         u32     host_blks_pri;          /* NU */
 438 };
 439 
 440 struct gbenu_emac_regs {
 441         u32     mac_control;
 442         u32     mac_status;
 443         u32     soft_reset;
 444         u32     boff_test;
 445         u32     rx_pause;
 446         u32     __rsvd_0[11];           /* NU */
 447         u32     tx_pause;
 448         u32     __rsvd_1[11];           /* NU */
 449         u32     em_control;
 450         u32     tx_gap;
 451 };
 452 
 453 /* Some hw stat regs are applicable to slave port only.
 454  * This is handled by gbenu_et_stats struct.  Also some
 455  * are for SS version NU and some are for 2U.
 456  */
 457 struct gbenu_hw_stats {
 458         u32     rx_good_frames;
 459         u32     rx_broadcast_frames;
 460         u32     rx_multicast_frames;
 461         u32     rx_pause_frames;                /* slave */
 462         u32     rx_crc_errors;
 463         u32     rx_align_code_errors;           /* slave */
 464         u32     rx_oversized_frames;
 465         u32     rx_jabber_frames;               /* slave */
 466         u32     rx_undersized_frames;
 467         u32     rx_fragments;                   /* slave */
 468         u32     ale_drop;
 469         u32     ale_overrun_drop;
 470         u32     rx_bytes;
 471         u32     tx_good_frames;
 472         u32     tx_broadcast_frames;
 473         u32     tx_multicast_frames;
 474         u32     tx_pause_frames;                /* slave */
 475         u32     tx_deferred_frames;             /* slave */
 476         u32     tx_collision_frames;            /* slave */
 477         u32     tx_single_coll_frames;          /* slave */
 478         u32     tx_mult_coll_frames;            /* slave */
 479         u32     tx_excessive_collisions;        /* slave */
 480         u32     tx_late_collisions;             /* slave */
 481         u32     rx_ipg_error;                   /* slave 10G only */
 482         u32     tx_carrier_sense_errors;        /* slave */
 483         u32     tx_bytes;
 484         u32     tx_64B_frames;
 485         u32     tx_65_to_127B_frames;
 486         u32     tx_128_to_255B_frames;
 487         u32     tx_256_to_511B_frames;
 488         u32     tx_512_to_1023B_frames;
 489         u32     tx_1024B_frames;
 490         u32     net_bytes;
 491         u32     rx_bottom_fifo_drop;
 492         u32     rx_port_mask_drop;
 493         u32     rx_top_fifo_drop;
 494         u32     ale_rate_limit_drop;
 495         u32     ale_vid_ingress_drop;
 496         u32     ale_da_eq_sa_drop;
 497         u32     __rsvd_0[3];
 498         u32     ale_unknown_ucast;
 499         u32     ale_unknown_ucast_bytes;
 500         u32     ale_unknown_mcast;
 501         u32     ale_unknown_mcast_bytes;
 502         u32     ale_unknown_bcast;
 503         u32     ale_unknown_bcast_bytes;
 504         u32     ale_pol_match;
 505         u32     ale_pol_match_red;              /* NU */
 506         u32     ale_pol_match_yellow;           /* NU */
 507         u32     __rsvd_1[44];
 508         u32     tx_mem_protect_err;
 509         /* following NU only */
 510         u32     tx_pri0;
 511         u32     tx_pri1;
 512         u32     tx_pri2;
 513         u32     tx_pri3;
 514         u32     tx_pri4;
 515         u32     tx_pri5;
 516         u32     tx_pri6;
 517         u32     tx_pri7;
 518         u32     tx_pri0_bcnt;
 519         u32     tx_pri1_bcnt;
 520         u32     tx_pri2_bcnt;
 521         u32     tx_pri3_bcnt;
 522         u32     tx_pri4_bcnt;
 523         u32     tx_pri5_bcnt;
 524         u32     tx_pri6_bcnt;
 525         u32     tx_pri7_bcnt;
 526         u32     tx_pri0_drop;
 527         u32     tx_pri1_drop;
 528         u32     tx_pri2_drop;
 529         u32     tx_pri3_drop;
 530         u32     tx_pri4_drop;
 531         u32     tx_pri5_drop;
 532         u32     tx_pri6_drop;
 533         u32     tx_pri7_drop;
 534         u32     tx_pri0_drop_bcnt;
 535         u32     tx_pri1_drop_bcnt;
 536         u32     tx_pri2_drop_bcnt;
 537         u32     tx_pri3_drop_bcnt;
 538         u32     tx_pri4_drop_bcnt;
 539         u32     tx_pri5_drop_bcnt;
 540         u32     tx_pri6_drop_bcnt;
 541         u32     tx_pri7_drop_bcnt;
 542 };
 543 
 544 #define GBENU_HW_STATS_REG_MAP_SZ       0x200
 545 
 546 struct gbe_ss_regs {
 547         u32     id_ver;
 548         u32     synce_count;
 549         u32     synce_mux;
 550 };
 551 
 552 struct gbe_ss_regs_ofs {
 553         u16     id_ver;
 554         u16     control;
 555         u16     rgmii_status; /* 2U */
 556 };
 557 
 558 struct gbe_switch_regs {
 559         u32     id_ver;
 560         u32     control;
 561         u32     soft_reset;
 562         u32     stat_port_en;
 563         u32     ptype;
 564         u32     soft_idle;
 565         u32     thru_rate;
 566         u32     gap_thresh;
 567         u32     tx_start_wds;
 568         u32     flow_control;
 569 };
 570 
 571 struct gbe_switch_regs_ofs {
 572         u16     id_ver;
 573         u16     control;
 574         u16     soft_reset;
 575         u16     emcontrol;
 576         u16     stat_port_en;
 577         u16     ptype;
 578         u16     flow_control;
 579 };
 580 
 581 struct gbe_port_regs {
 582         u32     max_blks;
 583         u32     blk_cnt;
 584         u32     port_vlan;
 585         u32     tx_pri_map;
 586         u32     sa_lo;
 587         u32     sa_hi;
 588         u32     ts_ctl;
 589         u32     ts_seq_ltype;
 590         u32     ts_vlan;
 591         u32     ts_ctl_ltype2;
 592         u32     ts_ctl2;
 593 };
 594 
 595 struct gbe_port_regs_ofs {
 596         u16     port_vlan;
 597         u16     tx_pri_map;
 598         u16     rx_pri_map;
 599         u16     sa_lo;
 600         u16     sa_hi;
 601         u16     ts_ctl;
 602         u16     ts_seq_ltype;
 603         u16     ts_vlan;
 604         u16     ts_ctl_ltype2;
 605         u16     ts_ctl2;
 606         u16     rx_maxlen;      /* 2U, NU */
 607 };
 608 
 609 struct gbe_host_port_regs {
 610         u32     src_id;
 611         u32     port_vlan;
 612         u32     rx_pri_map;
 613         u32     rx_maxlen;
 614 };
 615 
 616 struct gbe_host_port_regs_ofs {
 617         u16     port_vlan;
 618         u16     tx_pri_map;
 619         u16     rx_maxlen;
 620 };
 621 
 622 struct gbe_emac_regs {
 623         u32     id_ver;
 624         u32     mac_control;
 625         u32     mac_status;
 626         u32     soft_reset;
 627         u32     rx_maxlen;
 628         u32     __reserved_0;
 629         u32     rx_pause;
 630         u32     tx_pause;
 631         u32     __reserved_1;
 632         u32     rx_pri_map;
 633         u32     rsvd[6];
 634 };
 635 
 636 struct gbe_emac_regs_ofs {
 637         u16     mac_control;
 638         u16     soft_reset;
 639         u16     rx_maxlen;
 640 };
 641 
 642 struct gbe_hw_stats {
 643         u32     rx_good_frames;
 644         u32     rx_broadcast_frames;
 645         u32     rx_multicast_frames;
 646         u32     rx_pause_frames;
 647         u32     rx_crc_errors;
 648         u32     rx_align_code_errors;
 649         u32     rx_oversized_frames;
 650         u32     rx_jabber_frames;
 651         u32     rx_undersized_frames;
 652         u32     rx_fragments;
 653         u32     __pad_0[2];
 654         u32     rx_bytes;
 655         u32     tx_good_frames;
 656         u32     tx_broadcast_frames;
 657         u32     tx_multicast_frames;
 658         u32     tx_pause_frames;
 659         u32     tx_deferred_frames;
 660         u32     tx_collision_frames;
 661         u32     tx_single_coll_frames;
 662         u32     tx_mult_coll_frames;
 663         u32     tx_excessive_collisions;
 664         u32     tx_late_collisions;
 665         u32     tx_underrun;
 666         u32     tx_carrier_sense_errors;
 667         u32     tx_bytes;
 668         u32     tx_64byte_frames;
 669         u32     tx_65_to_127byte_frames;
 670         u32     tx_128_to_255byte_frames;
 671         u32     tx_256_to_511byte_frames;
 672         u32     tx_512_to_1023byte_frames;
 673         u32     tx_1024byte_frames;
 674         u32     net_bytes;
 675         u32     rx_sof_overruns;
 676         u32     rx_mof_overruns;
 677         u32     rx_dma_overruns;
 678 };
 679 
 680 #define GBE_MAX_HW_STAT_MODS                    9
 681 #define GBE_HW_STATS_REG_MAP_SZ                 0x100
 682 
 683 struct ts_ctl {
 684         int     uni;
 685         u8      dst_port_map;
 686         u8      maddr_map;
 687         u8      ts_mcast_type;
 688 };
 689 
 690 struct gbe_slave {
 691         void __iomem                    *port_regs;
 692         void __iomem                    *emac_regs;
 693         struct gbe_port_regs_ofs        port_regs_ofs;
 694         struct gbe_emac_regs_ofs        emac_regs_ofs;
 695         int                             slave_num; /* 0 based logical number */
 696         int                             port_num;  /* actual port number */
 697         atomic_t                        link_state;
 698         bool                            open;
 699         struct phy_device               *phy;
 700         u32                             link_interface;
 701         u32                             mac_control;
 702         u8                              phy_port_t;
 703         struct device_node              *node;
 704         struct device_node              *phy_node;
 705         struct ts_ctl                   ts_ctl;
 706         struct list_head                slave_list;
 707 };
 708 
 709 struct gbe_priv {
 710         struct device                   *dev;
 711         struct netcp_device             *netcp_device;
 712         struct timer_list               timer;
 713         u32                             num_slaves;
 714         u32                             ale_entries;
 715         u32                             ale_ports;
 716         bool                            enable_ale;
 717         u8                              max_num_slaves;
 718         u8                              max_num_ports; /* max_num_slaves + 1 */
 719         u8                              num_stats_mods;
 720         struct netcp_tx_pipe            tx_pipe;
 721 
 722         int                             host_port;
 723         u32                             rx_packet_max;
 724         u32                             ss_version;
 725         u32                             stats_en_mask;
 726 
 727         void __iomem                    *ss_regs;
 728         void __iomem                    *switch_regs;
 729         void __iomem                    *host_port_regs;
 730         void __iomem                    *ale_reg;
 731         void __iomem                    *cpts_reg;
 732         void __iomem                    *sgmii_port_regs;
 733         void __iomem                    *sgmii_port34_regs;
 734         void __iomem                    *xgbe_serdes_regs;
 735         void __iomem                    *hw_stats_regs[GBE_MAX_HW_STAT_MODS];
 736 
 737         struct gbe_ss_regs_ofs          ss_regs_ofs;
 738         struct gbe_switch_regs_ofs      switch_regs_ofs;
 739         struct gbe_host_port_regs_ofs   host_port_regs_ofs;
 740 
 741         struct cpsw_ale                 *ale;
 742         unsigned int                    tx_queue_id;
 743         const char                      *dma_chan_name;
 744 
 745         struct list_head                gbe_intf_head;
 746         struct list_head                secondary_slaves;
 747         struct net_device               *dummy_ndev;
 748 
 749         u64                             *hw_stats;
 750         u32                             *hw_stats_prev;
 751         const struct netcp_ethtool_stat *et_stats;
 752         int                             num_et_stats;
 753         /*  Lock for updating the hwstats */
 754         spinlock_t                      hw_stats_lock;
 755 
 756         int                             cpts_registered;
 757         struct cpts                     *cpts;
 758         int                             rx_ts_enabled;
 759         int                             tx_ts_enabled;
 760 };
 761 
 762 struct gbe_intf {
 763         struct net_device       *ndev;
 764         struct device           *dev;
 765         struct gbe_priv         *gbe_dev;
 766         struct netcp_tx_pipe    tx_pipe;
 767         struct gbe_slave        *slave;
 768         struct list_head        gbe_intf_list;
 769         unsigned long           active_vlans[BITS_TO_LONGS(VLAN_N_VID)];
 770 };
 771 
 772 static struct netcp_module gbe_module;
 773 static struct netcp_module xgbe_module;
 774 
 775 /* Statistic management */
 776 struct netcp_ethtool_stat {
 777         char desc[ETH_GSTRING_LEN];
 778         int type;
 779         u32 size;
 780         int offset;
 781 };
 782 
 783 #define GBE_STATSA_INFO(field)                                          \
 784 {                                                                       \
 785         "GBE_A:"#field, GBE_STATSA_MODULE,                              \
 786         FIELD_SIZEOF(struct gbe_hw_stats, field),                       \
 787         offsetof(struct gbe_hw_stats, field)                            \
 788 }
 789 
 790 #define GBE_STATSB_INFO(field)                                          \
 791 {                                                                       \
 792         "GBE_B:"#field, GBE_STATSB_MODULE,                              \
 793         FIELD_SIZEOF(struct gbe_hw_stats, field),                       \
 794         offsetof(struct gbe_hw_stats, field)                            \
 795 }
 796 
 797 #define GBE_STATSC_INFO(field)                                          \
 798 {                                                                       \
 799         "GBE_C:"#field, GBE_STATSC_MODULE,                              \
 800         FIELD_SIZEOF(struct gbe_hw_stats, field),                       \
 801         offsetof(struct gbe_hw_stats, field)                            \
 802 }
 803 
 804 #define GBE_STATSD_INFO(field)                                          \
 805 {                                                                       \
 806         "GBE_D:"#field, GBE_STATSD_MODULE,                              \
 807         FIELD_SIZEOF(struct gbe_hw_stats, field),                       \
 808         offsetof(struct gbe_hw_stats, field)                            \
 809 }
 810 
 811 static const struct netcp_ethtool_stat gbe13_et_stats[] = {
 812         /* GBE module A */
 813         GBE_STATSA_INFO(rx_good_frames),
 814         GBE_STATSA_INFO(rx_broadcast_frames),
 815         GBE_STATSA_INFO(rx_multicast_frames),
 816         GBE_STATSA_INFO(rx_pause_frames),
 817         GBE_STATSA_INFO(rx_crc_errors),
 818         GBE_STATSA_INFO(rx_align_code_errors),
 819         GBE_STATSA_INFO(rx_oversized_frames),
 820         GBE_STATSA_INFO(rx_jabber_frames),
 821         GBE_STATSA_INFO(rx_undersized_frames),
 822         GBE_STATSA_INFO(rx_fragments),
 823         GBE_STATSA_INFO(rx_bytes),
 824         GBE_STATSA_INFO(tx_good_frames),
 825         GBE_STATSA_INFO(tx_broadcast_frames),
 826         GBE_STATSA_INFO(tx_multicast_frames),
 827         GBE_STATSA_INFO(tx_pause_frames),
 828         GBE_STATSA_INFO(tx_deferred_frames),
 829         GBE_STATSA_INFO(tx_collision_frames),
 830         GBE_STATSA_INFO(tx_single_coll_frames),
 831         GBE_STATSA_INFO(tx_mult_coll_frames),
 832         GBE_STATSA_INFO(tx_excessive_collisions),
 833         GBE_STATSA_INFO(tx_late_collisions),
 834         GBE_STATSA_INFO(tx_underrun),
 835         GBE_STATSA_INFO(tx_carrier_sense_errors),
 836         GBE_STATSA_INFO(tx_bytes),
 837         GBE_STATSA_INFO(tx_64byte_frames),
 838         GBE_STATSA_INFO(tx_65_to_127byte_frames),
 839         GBE_STATSA_INFO(tx_128_to_255byte_frames),
 840         GBE_STATSA_INFO(tx_256_to_511byte_frames),
 841         GBE_STATSA_INFO(tx_512_to_1023byte_frames),
 842         GBE_STATSA_INFO(tx_1024byte_frames),
 843         GBE_STATSA_INFO(net_bytes),
 844         GBE_STATSA_INFO(rx_sof_overruns),
 845         GBE_STATSA_INFO(rx_mof_overruns),
 846         GBE_STATSA_INFO(rx_dma_overruns),
 847         /* GBE module B */
 848         GBE_STATSB_INFO(rx_good_frames),
 849         GBE_STATSB_INFO(rx_broadcast_frames),
 850         GBE_STATSB_INFO(rx_multicast_frames),
 851         GBE_STATSB_INFO(rx_pause_frames),
 852         GBE_STATSB_INFO(rx_crc_errors),
 853         GBE_STATSB_INFO(rx_align_code_errors),
 854         GBE_STATSB_INFO(rx_oversized_frames),
 855         GBE_STATSB_INFO(rx_jabber_frames),
 856         GBE_STATSB_INFO(rx_undersized_frames),
 857         GBE_STATSB_INFO(rx_fragments),
 858         GBE_STATSB_INFO(rx_bytes),
 859         GBE_STATSB_INFO(tx_good_frames),
 860         GBE_STATSB_INFO(tx_broadcast_frames),
 861         GBE_STATSB_INFO(tx_multicast_frames),
 862         GBE_STATSB_INFO(tx_pause_frames),
 863         GBE_STATSB_INFO(tx_deferred_frames),
 864         GBE_STATSB_INFO(tx_collision_frames),
 865         GBE_STATSB_INFO(tx_single_coll_frames),
 866         GBE_STATSB_INFO(tx_mult_coll_frames),
 867         GBE_STATSB_INFO(tx_excessive_collisions),
 868         GBE_STATSB_INFO(tx_late_collisions),
 869         GBE_STATSB_INFO(tx_underrun),
 870         GBE_STATSB_INFO(tx_carrier_sense_errors),
 871         GBE_STATSB_INFO(tx_bytes),
 872         GBE_STATSB_INFO(tx_64byte_frames),
 873         GBE_STATSB_INFO(tx_65_to_127byte_frames),
 874         GBE_STATSB_INFO(tx_128_to_255byte_frames),
 875         GBE_STATSB_INFO(tx_256_to_511byte_frames),
 876         GBE_STATSB_INFO(tx_512_to_1023byte_frames),
 877         GBE_STATSB_INFO(tx_1024byte_frames),
 878         GBE_STATSB_INFO(net_bytes),
 879         GBE_STATSB_INFO(rx_sof_overruns),
 880         GBE_STATSB_INFO(rx_mof_overruns),
 881         GBE_STATSB_INFO(rx_dma_overruns),
 882         /* GBE module C */
 883         GBE_STATSC_INFO(rx_good_frames),
 884         GBE_STATSC_INFO(rx_broadcast_frames),
 885         GBE_STATSC_INFO(rx_multicast_frames),
 886         GBE_STATSC_INFO(rx_pause_frames),
 887         GBE_STATSC_INFO(rx_crc_errors),
 888         GBE_STATSC_INFO(rx_align_code_errors),
 889         GBE_STATSC_INFO(rx_oversized_frames),
 890         GBE_STATSC_INFO(rx_jabber_frames),
 891         GBE_STATSC_INFO(rx_undersized_frames),
 892         GBE_STATSC_INFO(rx_fragments),
 893         GBE_STATSC_INFO(rx_bytes),
 894         GBE_STATSC_INFO(tx_good_frames),
 895         GBE_STATSC_INFO(tx_broadcast_frames),
 896         GBE_STATSC_INFO(tx_multicast_frames),
 897         GBE_STATSC_INFO(tx_pause_frames),
 898         GBE_STATSC_INFO(tx_deferred_frames),
 899         GBE_STATSC_INFO(tx_collision_frames),
 900         GBE_STATSC_INFO(tx_single_coll_frames),
 901         GBE_STATSC_INFO(tx_mult_coll_frames),
 902         GBE_STATSC_INFO(tx_excessive_collisions),
 903         GBE_STATSC_INFO(tx_late_collisions),
 904         GBE_STATSC_INFO(tx_underrun),
 905         GBE_STATSC_INFO(tx_carrier_sense_errors),
 906         GBE_STATSC_INFO(tx_bytes),
 907         GBE_STATSC_INFO(tx_64byte_frames),
 908         GBE_STATSC_INFO(tx_65_to_127byte_frames),
 909         GBE_STATSC_INFO(tx_128_to_255byte_frames),
 910         GBE_STATSC_INFO(tx_256_to_511byte_frames),
 911         GBE_STATSC_INFO(tx_512_to_1023byte_frames),
 912         GBE_STATSC_INFO(tx_1024byte_frames),
 913         GBE_STATSC_INFO(net_bytes),
 914         GBE_STATSC_INFO(rx_sof_overruns),
 915         GBE_STATSC_INFO(rx_mof_overruns),
 916         GBE_STATSC_INFO(rx_dma_overruns),
 917         /* GBE module D */
 918         GBE_STATSD_INFO(rx_good_frames),
 919         GBE_STATSD_INFO(rx_broadcast_frames),
 920         GBE_STATSD_INFO(rx_multicast_frames),
 921         GBE_STATSD_INFO(rx_pause_frames),
 922         GBE_STATSD_INFO(rx_crc_errors),
 923         GBE_STATSD_INFO(rx_align_code_errors),
 924         GBE_STATSD_INFO(rx_oversized_frames),
 925         GBE_STATSD_INFO(rx_jabber_frames),
 926         GBE_STATSD_INFO(rx_undersized_frames),
 927         GBE_STATSD_INFO(rx_fragments),
 928         GBE_STATSD_INFO(rx_bytes),
 929         GBE_STATSD_INFO(tx_good_frames),
 930         GBE_STATSD_INFO(tx_broadcast_frames),
 931         GBE_STATSD_INFO(tx_multicast_frames),
 932         GBE_STATSD_INFO(tx_pause_frames),
 933         GBE_STATSD_INFO(tx_deferred_frames),
 934         GBE_STATSD_INFO(tx_collision_frames),
 935         GBE_STATSD_INFO(tx_single_coll_frames),
 936         GBE_STATSD_INFO(tx_mult_coll_frames),
 937         GBE_STATSD_INFO(tx_excessive_collisions),
 938         GBE_STATSD_INFO(tx_late_collisions),
 939         GBE_STATSD_INFO(tx_underrun),
 940         GBE_STATSD_INFO(tx_carrier_sense_errors),
 941         GBE_STATSD_INFO(tx_bytes),
 942         GBE_STATSD_INFO(tx_64byte_frames),
 943         GBE_STATSD_INFO(tx_65_to_127byte_frames),
 944         GBE_STATSD_INFO(tx_128_to_255byte_frames),
 945         GBE_STATSD_INFO(tx_256_to_511byte_frames),
 946         GBE_STATSD_INFO(tx_512_to_1023byte_frames),
 947         GBE_STATSD_INFO(tx_1024byte_frames),
 948         GBE_STATSD_INFO(net_bytes),
 949         GBE_STATSD_INFO(rx_sof_overruns),
 950         GBE_STATSD_INFO(rx_mof_overruns),
 951         GBE_STATSD_INFO(rx_dma_overruns),
 952 };
 953 
 954 /* This is the size of entries in GBENU_STATS_HOST */
 955 #define GBENU_ET_STATS_HOST_SIZE        52
 956 
 957 #define GBENU_STATS_HOST(field)                                 \
 958 {                                                               \
 959         "GBE_HOST:"#field, GBENU_STATS0_MODULE,                 \
 960         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
 961         offsetof(struct gbenu_hw_stats, field)                  \
 962 }
 963 
 964 /* This is the size of entries in GBENU_STATS_PORT */
 965 #define GBENU_ET_STATS_PORT_SIZE        65
 966 
 967 #define GBENU_STATS_P1(field)                                   \
 968 {                                                               \
 969         "GBE_P1:"#field, GBENU_STATS1_MODULE,                   \
 970         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
 971         offsetof(struct gbenu_hw_stats, field)                  \
 972 }
 973 
 974 #define GBENU_STATS_P2(field)                                   \
 975 {                                                               \
 976         "GBE_P2:"#field, GBENU_STATS2_MODULE,                   \
 977         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
 978         offsetof(struct gbenu_hw_stats, field)                  \
 979 }
 980 
 981 #define GBENU_STATS_P3(field)                                   \
 982 {                                                               \
 983         "GBE_P3:"#field, GBENU_STATS3_MODULE,                   \
 984         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
 985         offsetof(struct gbenu_hw_stats, field)                  \
 986 }
 987 
 988 #define GBENU_STATS_P4(field)                                   \
 989 {                                                               \
 990         "GBE_P4:"#field, GBENU_STATS4_MODULE,                   \
 991         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
 992         offsetof(struct gbenu_hw_stats, field)                  \
 993 }
 994 
 995 #define GBENU_STATS_P5(field)                                   \
 996 {                                                               \
 997         "GBE_P5:"#field, GBENU_STATS5_MODULE,                   \
 998         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
 999         offsetof(struct gbenu_hw_stats, field)                  \
1000 }
1001 
1002 #define GBENU_STATS_P6(field)                                   \
1003 {                                                               \
1004         "GBE_P6:"#field, GBENU_STATS6_MODULE,                   \
1005         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
1006         offsetof(struct gbenu_hw_stats, field)                  \
1007 }
1008 
1009 #define GBENU_STATS_P7(field)                                   \
1010 {                                                               \
1011         "GBE_P7:"#field, GBENU_STATS7_MODULE,                   \
1012         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
1013         offsetof(struct gbenu_hw_stats, field)                  \
1014 }
1015 
1016 #define GBENU_STATS_P8(field)                                   \
1017 {                                                               \
1018         "GBE_P8:"#field, GBENU_STATS8_MODULE,                   \
1019         FIELD_SIZEOF(struct gbenu_hw_stats, field),             \
1020         offsetof(struct gbenu_hw_stats, field)                  \
1021 }
1022 
1023 static const struct netcp_ethtool_stat gbenu_et_stats[] = {
1024         /* GBENU Host Module */
1025         GBENU_STATS_HOST(rx_good_frames),
1026         GBENU_STATS_HOST(rx_broadcast_frames),
1027         GBENU_STATS_HOST(rx_multicast_frames),
1028         GBENU_STATS_HOST(rx_crc_errors),
1029         GBENU_STATS_HOST(rx_oversized_frames),
1030         GBENU_STATS_HOST(rx_undersized_frames),
1031         GBENU_STATS_HOST(ale_drop),
1032         GBENU_STATS_HOST(ale_overrun_drop),
1033         GBENU_STATS_HOST(rx_bytes),
1034         GBENU_STATS_HOST(tx_good_frames),
1035         GBENU_STATS_HOST(tx_broadcast_frames),
1036         GBENU_STATS_HOST(tx_multicast_frames),
1037         GBENU_STATS_HOST(tx_bytes),
1038         GBENU_STATS_HOST(tx_64B_frames),
1039         GBENU_STATS_HOST(tx_65_to_127B_frames),
1040         GBENU_STATS_HOST(tx_128_to_255B_frames),
1041         GBENU_STATS_HOST(tx_256_to_511B_frames),
1042         GBENU_STATS_HOST(tx_512_to_1023B_frames),
1043         GBENU_STATS_HOST(tx_1024B_frames),
1044         GBENU_STATS_HOST(net_bytes),
1045         GBENU_STATS_HOST(rx_bottom_fifo_drop),
1046         GBENU_STATS_HOST(rx_port_mask_drop),
1047         GBENU_STATS_HOST(rx_top_fifo_drop),
1048         GBENU_STATS_HOST(ale_rate_limit_drop),
1049         GBENU_STATS_HOST(ale_vid_ingress_drop),
1050         GBENU_STATS_HOST(ale_da_eq_sa_drop),
1051         GBENU_STATS_HOST(ale_unknown_ucast),
1052         GBENU_STATS_HOST(ale_unknown_ucast_bytes),
1053         GBENU_STATS_HOST(ale_unknown_mcast),
1054         GBENU_STATS_HOST(ale_unknown_mcast_bytes),
1055         GBENU_STATS_HOST(ale_unknown_bcast),
1056         GBENU_STATS_HOST(ale_unknown_bcast_bytes),
1057         GBENU_STATS_HOST(ale_pol_match),
1058         GBENU_STATS_HOST(ale_pol_match_red),
1059         GBENU_STATS_HOST(ale_pol_match_yellow),
1060         GBENU_STATS_HOST(tx_mem_protect_err),
1061         GBENU_STATS_HOST(tx_pri0_drop),
1062         GBENU_STATS_HOST(tx_pri1_drop),
1063         GBENU_STATS_HOST(tx_pri2_drop),
1064         GBENU_STATS_HOST(tx_pri3_drop),
1065         GBENU_STATS_HOST(tx_pri4_drop),
1066         GBENU_STATS_HOST(tx_pri5_drop),
1067         GBENU_STATS_HOST(tx_pri6_drop),
1068         GBENU_STATS_HOST(tx_pri7_drop),
1069         GBENU_STATS_HOST(tx_pri0_drop_bcnt),
1070         GBENU_STATS_HOST(tx_pri1_drop_bcnt),
1071         GBENU_STATS_HOST(tx_pri2_drop_bcnt),
1072         GBENU_STATS_HOST(tx_pri3_drop_bcnt),
1073         GBENU_STATS_HOST(tx_pri4_drop_bcnt),
1074         GBENU_STATS_HOST(tx_pri5_drop_bcnt),
1075         GBENU_STATS_HOST(tx_pri6_drop_bcnt),
1076         GBENU_STATS_HOST(tx_pri7_drop_bcnt),
1077         /* GBENU Module 1 */
1078         GBENU_STATS_P1(rx_good_frames),
1079         GBENU_STATS_P1(rx_broadcast_frames),
1080         GBENU_STATS_P1(rx_multicast_frames),
1081         GBENU_STATS_P1(rx_pause_frames),
1082         GBENU_STATS_P1(rx_crc_errors),
1083         GBENU_STATS_P1(rx_align_code_errors),
1084         GBENU_STATS_P1(rx_oversized_frames),
1085         GBENU_STATS_P1(rx_jabber_frames),
1086         GBENU_STATS_P1(rx_undersized_frames),
1087         GBENU_STATS_P1(rx_fragments),
1088         GBENU_STATS_P1(ale_drop),
1089         GBENU_STATS_P1(ale_overrun_drop),
1090         GBENU_STATS_P1(rx_bytes),
1091         GBENU_STATS_P1(tx_good_frames),
1092         GBENU_STATS_P1(tx_broadcast_frames),
1093         GBENU_STATS_P1(tx_multicast_frames),
1094         GBENU_STATS_P1(tx_pause_frames),
1095         GBENU_STATS_P1(tx_deferred_frames),
1096         GBENU_STATS_P1(tx_collision_frames),
1097         GBENU_STATS_P1(tx_single_coll_frames),
1098         GBENU_STATS_P1(tx_mult_coll_frames),
1099         GBENU_STATS_P1(tx_excessive_collisions),
1100         GBENU_STATS_P1(tx_late_collisions),
1101         GBENU_STATS_P1(rx_ipg_error),
1102         GBENU_STATS_P1(tx_carrier_sense_errors),
1103         GBENU_STATS_P1(tx_bytes),
1104         GBENU_STATS_P1(tx_64B_frames),
1105         GBENU_STATS_P1(tx_65_to_127B_frames),
1106         GBENU_STATS_P1(tx_128_to_255B_frames),
1107         GBENU_STATS_P1(tx_256_to_511B_frames),
1108         GBENU_STATS_P1(tx_512_to_1023B_frames),
1109         GBENU_STATS_P1(tx_1024B_frames),
1110         GBENU_STATS_P1(net_bytes),
1111         GBENU_STATS_P1(rx_bottom_fifo_drop),
1112         GBENU_STATS_P1(rx_port_mask_drop),
1113         GBENU_STATS_P1(rx_top_fifo_drop),
1114         GBENU_STATS_P1(ale_rate_limit_drop),
1115         GBENU_STATS_P1(ale_vid_ingress_drop),
1116         GBENU_STATS_P1(ale_da_eq_sa_drop),
1117         GBENU_STATS_P1(ale_unknown_ucast),
1118         GBENU_STATS_P1(ale_unknown_ucast_bytes),
1119         GBENU_STATS_P1(ale_unknown_mcast),
1120         GBENU_STATS_P1(ale_unknown_mcast_bytes),
1121         GBENU_STATS_P1(ale_unknown_bcast),
1122         GBENU_STATS_P1(ale_unknown_bcast_bytes),
1123         GBENU_STATS_P1(ale_pol_match),
1124         GBENU_STATS_P1(ale_pol_match_red),
1125         GBENU_STATS_P1(ale_pol_match_yellow),
1126         GBENU_STATS_P1(tx_mem_protect_err),
1127         GBENU_STATS_P1(tx_pri0_drop),
1128         GBENU_STATS_P1(tx_pri1_drop),
1129         GBENU_STATS_P1(tx_pri2_drop),
1130         GBENU_STATS_P1(tx_pri3_drop),
1131         GBENU_STATS_P1(tx_pri4_drop),
1132         GBENU_STATS_P1(tx_pri5_drop),
1133         GBENU_STATS_P1(tx_pri6_drop),
1134         GBENU_STATS_P1(tx_pri7_drop),
1135         GBENU_STATS_P1(tx_pri0_drop_bcnt),
1136         GBENU_STATS_P1(tx_pri1_drop_bcnt),
1137         GBENU_STATS_P1(tx_pri2_drop_bcnt),
1138         GBENU_STATS_P1(tx_pri3_drop_bcnt),
1139         GBENU_STATS_P1(tx_pri4_drop_bcnt),
1140         GBENU_STATS_P1(tx_pri5_drop_bcnt),
1141         GBENU_STATS_P1(tx_pri6_drop_bcnt),
1142         GBENU_STATS_P1(tx_pri7_drop_bcnt),
1143         /* GBENU Module 2 */
1144         GBENU_STATS_P2(rx_good_frames),
1145         GBENU_STATS_P2(rx_broadcast_frames),
1146         GBENU_STATS_P2(rx_multicast_frames),
1147         GBENU_STATS_P2(rx_pause_frames),
1148         GBENU_STATS_P2(rx_crc_errors),
1149         GBENU_STATS_P2(rx_align_code_errors),
1150         GBENU_STATS_P2(rx_oversized_frames),
1151         GBENU_STATS_P2(rx_jabber_frames),
1152         GBENU_STATS_P2(rx_undersized_frames),
1153         GBENU_STATS_P2(rx_fragments),
1154         GBENU_STATS_P2(ale_drop),
1155         GBENU_STATS_P2(ale_overrun_drop),
1156         GBENU_STATS_P2(rx_bytes),
1157         GBENU_STATS_P2(tx_good_frames),
1158         GBENU_STATS_P2(tx_broadcast_frames),
1159         GBENU_STATS_P2(tx_multicast_frames),
1160         GBENU_STATS_P2(tx_pause_frames),
1161         GBENU_STATS_P2(tx_deferred_frames),
1162         GBENU_STATS_P2(tx_collision_frames),
1163         GBENU_STATS_P2(tx_single_coll_frames),
1164         GBENU_STATS_P2(tx_mult_coll_frames),
1165         GBENU_STATS_P2(tx_excessive_collisions),
1166         GBENU_STATS_P2(tx_late_collisions),
1167         GBENU_STATS_P2(rx_ipg_error),
1168         GBENU_STATS_P2(tx_carrier_sense_errors),
1169         GBENU_STATS_P2(tx_bytes),
1170         GBENU_STATS_P2(tx_64B_frames),
1171         GBENU_STATS_P2(tx_65_to_127B_frames),
1172         GBENU_STATS_P2(tx_128_to_255B_frames),
1173         GBENU_STATS_P2(tx_256_to_511B_frames),
1174         GBENU_STATS_P2(tx_512_to_1023B_frames),
1175         GBENU_STATS_P2(tx_1024B_frames),
1176         GBENU_STATS_P2(net_bytes),
1177         GBENU_STATS_P2(rx_bottom_fifo_drop),
1178         GBENU_STATS_P2(rx_port_mask_drop),
1179         GBENU_STATS_P2(rx_top_fifo_drop),
1180         GBENU_STATS_P2(ale_rate_limit_drop),
1181         GBENU_STATS_P2(ale_vid_ingress_drop),
1182         GBENU_STATS_P2(ale_da_eq_sa_drop),
1183         GBENU_STATS_P2(ale_unknown_ucast),
1184         GBENU_STATS_P2(ale_unknown_ucast_bytes),
1185         GBENU_STATS_P2(ale_unknown_mcast),
1186         GBENU_STATS_P2(ale_unknown_mcast_bytes),
1187         GBENU_STATS_P2(ale_unknown_bcast),
1188         GBENU_STATS_P2(ale_unknown_bcast_bytes),
1189         GBENU_STATS_P2(ale_pol_match),
1190         GBENU_STATS_P2(ale_pol_match_red),
1191         GBENU_STATS_P2(ale_pol_match_yellow),
1192         GBENU_STATS_P2(tx_mem_protect_err),
1193         GBENU_STATS_P2(tx_pri0_drop),
1194         GBENU_STATS_P2(tx_pri1_drop),
1195         GBENU_STATS_P2(tx_pri2_drop),
1196         GBENU_STATS_P2(tx_pri3_drop),
1197         GBENU_STATS_P2(tx_pri4_drop),
1198         GBENU_STATS_P2(tx_pri5_drop),
1199         GBENU_STATS_P2(tx_pri6_drop),
1200         GBENU_STATS_P2(tx_pri7_drop),
1201         GBENU_STATS_P2(tx_pri0_drop_bcnt),
1202         GBENU_STATS_P2(tx_pri1_drop_bcnt),
1203         GBENU_STATS_P2(tx_pri2_drop_bcnt),
1204         GBENU_STATS_P2(tx_pri3_drop_bcnt),
1205         GBENU_STATS_P2(tx_pri4_drop_bcnt),
1206         GBENU_STATS_P2(tx_pri5_drop_bcnt),
1207         GBENU_STATS_P2(tx_pri6_drop_bcnt),
1208         GBENU_STATS_P2(tx_pri7_drop_bcnt),
1209         /* GBENU Module 3 */
1210         GBENU_STATS_P3(rx_good_frames),
1211         GBENU_STATS_P3(rx_broadcast_frames),
1212         GBENU_STATS_P3(rx_multicast_frames),
1213         GBENU_STATS_P3(rx_pause_frames),
1214         GBENU_STATS_P3(rx_crc_errors),
1215         GBENU_STATS_P3(rx_align_code_errors),
1216         GBENU_STATS_P3(rx_oversized_frames),
1217         GBENU_STATS_P3(rx_jabber_frames),
1218         GBENU_STATS_P3(rx_undersized_frames),
1219         GBENU_STATS_P3(rx_fragments),
1220         GBENU_STATS_P3(ale_drop),
1221         GBENU_STATS_P3(ale_overrun_drop),
1222         GBENU_STATS_P3(rx_bytes),
1223         GBENU_STATS_P3(tx_good_frames),
1224         GBENU_STATS_P3(tx_broadcast_frames),
1225         GBENU_STATS_P3(tx_multicast_frames),
1226         GBENU_STATS_P3(tx_pause_frames),
1227         GBENU_STATS_P3(tx_deferred_frames),
1228         GBENU_STATS_P3(tx_collision_frames),
1229         GBENU_STATS_P3(tx_single_coll_frames),
1230         GBENU_STATS_P3(tx_mult_coll_frames),
1231         GBENU_STATS_P3(tx_excessive_collisions),
1232         GBENU_STATS_P3(tx_late_collisions),
1233         GBENU_STATS_P3(rx_ipg_error),
1234         GBENU_STATS_P3(tx_carrier_sense_errors),
1235         GBENU_STATS_P3(tx_bytes),
1236         GBENU_STATS_P3(tx_64B_frames),
1237         GBENU_STATS_P3(tx_65_to_127B_frames),
1238         GBENU_STATS_P3(tx_128_to_255B_frames),
1239         GBENU_STATS_P3(tx_256_to_511B_frames),
1240         GBENU_STATS_P3(tx_512_to_1023B_frames),
1241         GBENU_STATS_P3(tx_1024B_frames),
1242         GBENU_STATS_P3(net_bytes),
1243         GBENU_STATS_P3(rx_bottom_fifo_drop),
1244         GBENU_STATS_P3(rx_port_mask_drop),
1245         GBENU_STATS_P3(rx_top_fifo_drop),
1246         GBENU_STATS_P3(ale_rate_limit_drop),
1247         GBENU_STATS_P3(ale_vid_ingress_drop),
1248         GBENU_STATS_P3(ale_da_eq_sa_drop),
1249         GBENU_STATS_P3(ale_unknown_ucast),
1250         GBENU_STATS_P3(ale_unknown_ucast_bytes),
1251         GBENU_STATS_P3(ale_unknown_mcast),
1252         GBENU_STATS_P3(ale_unknown_mcast_bytes),
1253         GBENU_STATS_P3(ale_unknown_bcast),
1254         GBENU_STATS_P3(ale_unknown_bcast_bytes),
1255         GBENU_STATS_P3(ale_pol_match),
1256         GBENU_STATS_P3(ale_pol_match_red),
1257         GBENU_STATS_P3(ale_pol_match_yellow),
1258         GBENU_STATS_P3(tx_mem_protect_err),
1259         GBENU_STATS_P3(tx_pri0_drop),
1260         GBENU_STATS_P3(tx_pri1_drop),
1261         GBENU_STATS_P3(tx_pri2_drop),
1262         GBENU_STATS_P3(tx_pri3_drop),
1263         GBENU_STATS_P3(tx_pri4_drop),
1264         GBENU_STATS_P3(tx_pri5_drop),
1265         GBENU_STATS_P3(tx_pri6_drop),
1266         GBENU_STATS_P3(tx_pri7_drop),
1267         GBENU_STATS_P3(tx_pri0_drop_bcnt),
1268         GBENU_STATS_P3(tx_pri1_drop_bcnt),
1269         GBENU_STATS_P3(tx_pri2_drop_bcnt),
1270         GBENU_STATS_P3(tx_pri3_drop_bcnt),
1271         GBENU_STATS_P3(tx_pri4_drop_bcnt),
1272         GBENU_STATS_P3(tx_pri5_drop_bcnt),
1273         GBENU_STATS_P3(tx_pri6_drop_bcnt),
1274         GBENU_STATS_P3(tx_pri7_drop_bcnt),
1275         /* GBENU Module 4 */
1276         GBENU_STATS_P4(rx_good_frames),
1277         GBENU_STATS_P4(rx_broadcast_frames),
1278         GBENU_STATS_P4(rx_multicast_frames),
1279         GBENU_STATS_P4(rx_pause_frames),
1280         GBENU_STATS_P4(rx_crc_errors),
1281         GBENU_STATS_P4(rx_align_code_errors),
1282         GBENU_STATS_P4(rx_oversized_frames),
1283         GBENU_STATS_P4(rx_jabber_frames),
1284         GBENU_STATS_P4(rx_undersized_frames),
1285         GBENU_STATS_P4(rx_fragments),
1286         GBENU_STATS_P4(ale_drop),
1287         GBENU_STATS_P4(ale_overrun_drop),
1288         GBENU_STATS_P4(rx_bytes),
1289         GBENU_STATS_P4(tx_good_frames),
1290         GBENU_STATS_P4(tx_broadcast_frames),
1291         GBENU_STATS_P4(tx_multicast_frames),
1292         GBENU_STATS_P4(tx_pause_frames),
1293         GBENU_STATS_P4(tx_deferred_frames),
1294         GBENU_STATS_P4(tx_collision_frames),
1295         GBENU_STATS_P4(tx_single_coll_frames),
1296         GBENU_STATS_P4(tx_mult_coll_frames),
1297         GBENU_STATS_P4(tx_excessive_collisions),
1298         GBENU_STATS_P4(tx_late_collisions),
1299         GBENU_STATS_P4(rx_ipg_error),
1300         GBENU_STATS_P4(tx_carrier_sense_errors),
1301         GBENU_STATS_P4(tx_bytes),
1302         GBENU_STATS_P4(tx_64B_frames),
1303         GBENU_STATS_P4(tx_65_to_127B_frames),
1304         GBENU_STATS_P4(tx_128_to_255B_frames),
1305         GBENU_STATS_P4(tx_256_to_511B_frames),
1306         GBENU_STATS_P4(tx_512_to_1023B_frames),
1307         GBENU_STATS_P4(tx_1024B_frames),
1308         GBENU_STATS_P4(net_bytes),
1309         GBENU_STATS_P4(rx_bottom_fifo_drop),
1310         GBENU_STATS_P4(rx_port_mask_drop),
1311         GBENU_STATS_P4(rx_top_fifo_drop),
1312         GBENU_STATS_P4(ale_rate_limit_drop),
1313         GBENU_STATS_P4(ale_vid_ingress_drop),
1314         GBENU_STATS_P4(ale_da_eq_sa_drop),
1315         GBENU_STATS_P4(ale_unknown_ucast),
1316         GBENU_STATS_P4(ale_unknown_ucast_bytes),
1317         GBENU_STATS_P4(ale_unknown_mcast),
1318         GBENU_STATS_P4(ale_unknown_mcast_bytes),
1319         GBENU_STATS_P4(ale_unknown_bcast),
1320         GBENU_STATS_P4(ale_unknown_bcast_bytes),
1321         GBENU_STATS_P4(ale_pol_match),
1322         GBENU_STATS_P4(ale_pol_match_red),
1323         GBENU_STATS_P4(ale_pol_match_yellow),
1324         GBENU_STATS_P4(tx_mem_protect_err),
1325         GBENU_STATS_P4(tx_pri0_drop),
1326         GBENU_STATS_P4(tx_pri1_drop),
1327         GBENU_STATS_P4(tx_pri2_drop),
1328         GBENU_STATS_P4(tx_pri3_drop),
1329         GBENU_STATS_P4(tx_pri4_drop),
1330         GBENU_STATS_P4(tx_pri5_drop),
1331         GBENU_STATS_P4(tx_pri6_drop),
1332         GBENU_STATS_P4(tx_pri7_drop),
1333         GBENU_STATS_P4(tx_pri0_drop_bcnt),
1334         GBENU_STATS_P4(tx_pri1_drop_bcnt),
1335         GBENU_STATS_P4(tx_pri2_drop_bcnt),
1336         GBENU_STATS_P4(tx_pri3_drop_bcnt),
1337         GBENU_STATS_P4(tx_pri4_drop_bcnt),
1338         GBENU_STATS_P4(tx_pri5_drop_bcnt),
1339         GBENU_STATS_P4(tx_pri6_drop_bcnt),
1340         GBENU_STATS_P4(tx_pri7_drop_bcnt),
1341         /* GBENU Module 5 */
1342         GBENU_STATS_P5(rx_good_frames),
1343         GBENU_STATS_P5(rx_broadcast_frames),
1344         GBENU_STATS_P5(rx_multicast_frames),
1345         GBENU_STATS_P5(rx_pause_frames),
1346         GBENU_STATS_P5(rx_crc_errors),
1347         GBENU_STATS_P5(rx_align_code_errors),
1348         GBENU_STATS_P5(rx_oversized_frames),
1349         GBENU_STATS_P5(rx_jabber_frames),
1350         GBENU_STATS_P5(rx_undersized_frames),
1351         GBENU_STATS_P5(rx_fragments),
1352         GBENU_STATS_P5(ale_drop),
1353         GBENU_STATS_P5(ale_overrun_drop),
1354         GBENU_STATS_P5(rx_bytes),
1355         GBENU_STATS_P5(tx_good_frames),
1356         GBENU_STATS_P5(tx_broadcast_frames),
1357         GBENU_STATS_P5(tx_multicast_frames),
1358         GBENU_STATS_P5(tx_pause_frames),
1359         GBENU_STATS_P5(tx_deferred_frames),
1360         GBENU_STATS_P5(tx_collision_frames),
1361         GBENU_STATS_P5(tx_single_coll_frames),
1362         GBENU_STATS_P5(tx_mult_coll_frames),
1363         GBENU_STATS_P5(tx_excessive_collisions),
1364         GBENU_STATS_P5(tx_late_collisions),
1365         GBENU_STATS_P5(rx_ipg_error),
1366         GBENU_STATS_P5(tx_carrier_sense_errors),
1367         GBENU_STATS_P5(tx_bytes),
1368         GBENU_STATS_P5(tx_64B_frames),
1369         GBENU_STATS_P5(tx_65_to_127B_frames),
1370         GBENU_STATS_P5(tx_128_to_255B_frames),
1371         GBENU_STATS_P5(tx_256_to_511B_frames),
1372         GBENU_STATS_P5(tx_512_to_1023B_frames),
1373         GBENU_STATS_P5(tx_1024B_frames),
1374         GBENU_STATS_P5(net_bytes),
1375         GBENU_STATS_P5(rx_bottom_fifo_drop),
1376         GBENU_STATS_P5(rx_port_mask_drop),
1377         GBENU_STATS_P5(rx_top_fifo_drop),
1378         GBENU_STATS_P5(ale_rate_limit_drop),
1379         GBENU_STATS_P5(ale_vid_ingress_drop),
1380         GBENU_STATS_P5(ale_da_eq_sa_drop),
1381         GBENU_STATS_P5(ale_unknown_ucast),
1382         GBENU_STATS_P5(ale_unknown_ucast_bytes),
1383         GBENU_STATS_P5(ale_unknown_mcast),
1384         GBENU_STATS_P5(ale_unknown_mcast_bytes),
1385         GBENU_STATS_P5(ale_unknown_bcast),
1386         GBENU_STATS_P5(ale_unknown_bcast_bytes),
1387         GBENU_STATS_P5(ale_pol_match),
1388         GBENU_STATS_P5(ale_pol_match_red),
1389         GBENU_STATS_P5(ale_pol_match_yellow),
1390         GBENU_STATS_P5(tx_mem_protect_err),
1391         GBENU_STATS_P5(tx_pri0_drop),
1392         GBENU_STATS_P5(tx_pri1_drop),
1393         GBENU_STATS_P5(tx_pri2_drop),
1394         GBENU_STATS_P5(tx_pri3_drop),
1395         GBENU_STATS_P5(tx_pri4_drop),
1396         GBENU_STATS_P5(tx_pri5_drop),
1397         GBENU_STATS_P5(tx_pri6_drop),
1398         GBENU_STATS_P5(tx_pri7_drop),
1399         GBENU_STATS_P5(tx_pri0_drop_bcnt),
1400         GBENU_STATS_P5(tx_pri1_drop_bcnt),
1401         GBENU_STATS_P5(tx_pri2_drop_bcnt),
1402         GBENU_STATS_P5(tx_pri3_drop_bcnt),
1403         GBENU_STATS_P5(tx_pri4_drop_bcnt),
1404         GBENU_STATS_P5(tx_pri5_drop_bcnt),
1405         GBENU_STATS_P5(tx_pri6_drop_bcnt),
1406         GBENU_STATS_P5(tx_pri7_drop_bcnt),
1407         /* GBENU Module 6 */
1408         GBENU_STATS_P6(rx_good_frames),
1409         GBENU_STATS_P6(rx_broadcast_frames),
1410         GBENU_STATS_P6(rx_multicast_frames),
1411         GBENU_STATS_P6(rx_pause_frames),
1412         GBENU_STATS_P6(rx_crc_errors),
1413         GBENU_STATS_P6(rx_align_code_errors),
1414         GBENU_STATS_P6(rx_oversized_frames),
1415         GBENU_STATS_P6(rx_jabber_frames),
1416         GBENU_STATS_P6(rx_undersized_frames),
1417         GBENU_STATS_P6(rx_fragments),
1418         GBENU_STATS_P6(ale_drop),
1419         GBENU_STATS_P6(ale_overrun_drop),
1420         GBENU_STATS_P6(rx_bytes),
1421         GBENU_STATS_P6(tx_good_frames),
1422         GBENU_STATS_P6(tx_broadcast_frames),
1423         GBENU_STATS_P6(tx_multicast_frames),
1424         GBENU_STATS_P6(tx_pause_frames),
1425         GBENU_STATS_P6(tx_deferred_frames),
1426         GBENU_STATS_P6(tx_collision_frames),
1427         GBENU_STATS_P6(tx_single_coll_frames),
1428         GBENU_STATS_P6(tx_mult_coll_frames),
1429         GBENU_STATS_P6(tx_excessive_collisions),
1430         GBENU_STATS_P6(tx_late_collisions),
1431         GBENU_STATS_P6(rx_ipg_error),
1432         GBENU_STATS_P6(tx_carrier_sense_errors),
1433         GBENU_STATS_P6(tx_bytes),
1434         GBENU_STATS_P6(tx_64B_frames),
1435         GBENU_STATS_P6(tx_65_to_127B_frames),
1436         GBENU_STATS_P6(tx_128_to_255B_frames),
1437         GBENU_STATS_P6(tx_256_to_511B_frames),
1438         GBENU_STATS_P6(tx_512_to_1023B_frames),
1439         GBENU_STATS_P6(tx_1024B_frames),
1440         GBENU_STATS_P6(net_bytes),
1441         GBENU_STATS_P6(rx_bottom_fifo_drop),
1442         GBENU_STATS_P6(rx_port_mask_drop),
1443         GBENU_STATS_P6(rx_top_fifo_drop),
1444         GBENU_STATS_P6(ale_rate_limit_drop),
1445         GBENU_STATS_P6(ale_vid_ingress_drop),
1446         GBENU_STATS_P6(ale_da_eq_sa_drop),
1447         GBENU_STATS_P6(ale_unknown_ucast),
1448         GBENU_STATS_P6(ale_unknown_ucast_bytes),
1449         GBENU_STATS_P6(ale_unknown_mcast),
1450         GBENU_STATS_P6(ale_unknown_mcast_bytes),
1451         GBENU_STATS_P6(ale_unknown_bcast),
1452         GBENU_STATS_P6(ale_unknown_bcast_bytes),
1453         GBENU_STATS_P6(ale_pol_match),
1454         GBENU_STATS_P6(ale_pol_match_red),
1455         GBENU_STATS_P6(ale_pol_match_yellow),
1456         GBENU_STATS_P6(tx_mem_protect_err),
1457         GBENU_STATS_P6(tx_pri0_drop),
1458         GBENU_STATS_P6(tx_pri1_drop),
1459         GBENU_STATS_P6(tx_pri2_drop),
1460         GBENU_STATS_P6(tx_pri3_drop),
1461         GBENU_STATS_P6(tx_pri4_drop),
1462         GBENU_STATS_P6(tx_pri5_drop),
1463         GBENU_STATS_P6(tx_pri6_drop),
1464         GBENU_STATS_P6(tx_pri7_drop),
1465         GBENU_STATS_P6(tx_pri0_drop_bcnt),
1466         GBENU_STATS_P6(tx_pri1_drop_bcnt),
1467         GBENU_STATS_P6(tx_pri2_drop_bcnt),
1468         GBENU_STATS_P6(tx_pri3_drop_bcnt),
1469         GBENU_STATS_P6(tx_pri4_drop_bcnt),
1470         GBENU_STATS_P6(tx_pri5_drop_bcnt),
1471         GBENU_STATS_P6(tx_pri6_drop_bcnt),
1472         GBENU_STATS_P6(tx_pri7_drop_bcnt),
1473         /* GBENU Module 7 */
1474         GBENU_STATS_P7(rx_good_frames),
1475         GBENU_STATS_P7(rx_broadcast_frames),
1476         GBENU_STATS_P7(rx_multicast_frames),
1477         GBENU_STATS_P7(rx_pause_frames),
1478         GBENU_STATS_P7(rx_crc_errors),
1479         GBENU_STATS_P7(rx_align_code_errors),
1480         GBENU_STATS_P7(rx_oversized_frames),
1481         GBENU_STATS_P7(rx_jabber_frames),
1482         GBENU_STATS_P7(rx_undersized_frames),
1483         GBENU_STATS_P7(rx_fragments),
1484         GBENU_STATS_P7(ale_drop),
1485         GBENU_STATS_P7(ale_overrun_drop),
1486         GBENU_STATS_P7(rx_bytes),
1487         GBENU_STATS_P7(tx_good_frames),
1488         GBENU_STATS_P7(tx_broadcast_frames),
1489         GBENU_STATS_P7(tx_multicast_frames),
1490         GBENU_STATS_P7(tx_pause_frames),
1491         GBENU_STATS_P7(tx_deferred_frames),
1492         GBENU_STATS_P7(tx_collision_frames),
1493         GBENU_STATS_P7(tx_single_coll_frames),
1494         GBENU_STATS_P7(tx_mult_coll_frames),
1495         GBENU_STATS_P7(tx_excessive_collisions),
1496         GBENU_STATS_P7(tx_late_collisions),
1497         GBENU_STATS_P7(rx_ipg_error),
1498         GBENU_STATS_P7(tx_carrier_sense_errors),
1499         GBENU_STATS_P7(tx_bytes),
1500         GBENU_STATS_P7(tx_64B_frames),
1501         GBENU_STATS_P7(tx_65_to_127B_frames),
1502         GBENU_STATS_P7(tx_128_to_255B_frames),
1503         GBENU_STATS_P7(tx_256_to_511B_frames),
1504         GBENU_STATS_P7(tx_512_to_1023B_frames),
1505         GBENU_STATS_P7(tx_1024B_frames),
1506         GBENU_STATS_P7(net_bytes),
1507         GBENU_STATS_P7(rx_bottom_fifo_drop),
1508         GBENU_STATS_P7(rx_port_mask_drop),
1509         GBENU_STATS_P7(rx_top_fifo_drop),
1510         GBENU_STATS_P7(ale_rate_limit_drop),
1511         GBENU_STATS_P7(ale_vid_ingress_drop),
1512         GBENU_STATS_P7(ale_da_eq_sa_drop),
1513         GBENU_STATS_P7(ale_unknown_ucast),
1514         GBENU_STATS_P7(ale_unknown_ucast_bytes),
1515         GBENU_STATS_P7(ale_unknown_mcast),
1516         GBENU_STATS_P7(ale_unknown_mcast_bytes),
1517         GBENU_STATS_P7(ale_unknown_bcast),
1518         GBENU_STATS_P7(ale_unknown_bcast_bytes),
1519         GBENU_STATS_P7(ale_pol_match),
1520         GBENU_STATS_P7(ale_pol_match_red),
1521         GBENU_STATS_P7(ale_pol_match_yellow),
1522         GBENU_STATS_P7(tx_mem_protect_err),
1523         GBENU_STATS_P7(tx_pri0_drop),
1524         GBENU_STATS_P7(tx_pri1_drop),
1525         GBENU_STATS_P7(tx_pri2_drop),
1526         GBENU_STATS_P7(tx_pri3_drop),
1527         GBENU_STATS_P7(tx_pri4_drop),
1528         GBENU_STATS_P7(tx_pri5_drop),
1529         GBENU_STATS_P7(tx_pri6_drop),
1530         GBENU_STATS_P7(tx_pri7_drop),
1531         GBENU_STATS_P7(tx_pri0_drop_bcnt),
1532         GBENU_STATS_P7(tx_pri1_drop_bcnt),
1533         GBENU_STATS_P7(tx_pri2_drop_bcnt),
1534         GBENU_STATS_P7(tx_pri3_drop_bcnt),
1535         GBENU_STATS_P7(tx_pri4_drop_bcnt),
1536         GBENU_STATS_P7(tx_pri5_drop_bcnt),
1537         GBENU_STATS_P7(tx_pri6_drop_bcnt),
1538         GBENU_STATS_P7(tx_pri7_drop_bcnt),
1539         /* GBENU Module 8 */
1540         GBENU_STATS_P8(rx_good_frames),
1541         GBENU_STATS_P8(rx_broadcast_frames),
1542         GBENU_STATS_P8(rx_multicast_frames),
1543         GBENU_STATS_P8(rx_pause_frames),
1544         GBENU_STATS_P8(rx_crc_errors),
1545         GBENU_STATS_P8(rx_align_code_errors),
1546         GBENU_STATS_P8(rx_oversized_frames),
1547         GBENU_STATS_P8(rx_jabber_frames),
1548         GBENU_STATS_P8(rx_undersized_frames),
1549         GBENU_STATS_P8(rx_fragments),
1550         GBENU_STATS_P8(ale_drop),
1551         GBENU_STATS_P8(ale_overrun_drop),
1552         GBENU_STATS_P8(rx_bytes),
1553         GBENU_STATS_P8(tx_good_frames),
1554         GBENU_STATS_P8(tx_broadcast_frames),
1555         GBENU_STATS_P8(tx_multicast_frames),
1556         GBENU_STATS_P8(tx_pause_frames),
1557         GBENU_STATS_P8(tx_deferred_frames),
1558         GBENU_STATS_P8(tx_collision_frames),
1559         GBENU_STATS_P8(tx_single_coll_frames),
1560         GBENU_STATS_P8(tx_mult_coll_frames),
1561         GBENU_STATS_P8(tx_excessive_collisions),
1562         GBENU_STATS_P8(tx_late_collisions),
1563         GBENU_STATS_P8(rx_ipg_error),
1564         GBENU_STATS_P8(tx_carrier_sense_errors),
1565         GBENU_STATS_P8(tx_bytes),
1566         GBENU_STATS_P8(tx_64B_frames),
1567         GBENU_STATS_P8(tx_65_to_127B_frames),
1568         GBENU_STATS_P8(tx_128_to_255B_frames),
1569         GBENU_STATS_P8(tx_256_to_511B_frames),
1570         GBENU_STATS_P8(tx_512_to_1023B_frames),
1571         GBENU_STATS_P8(tx_1024B_frames),
1572         GBENU_STATS_P8(net_bytes),
1573         GBENU_STATS_P8(rx_bottom_fifo_drop),
1574         GBENU_STATS_P8(rx_port_mask_drop),
1575         GBENU_STATS_P8(rx_top_fifo_drop),
1576         GBENU_STATS_P8(ale_rate_limit_drop),
1577         GBENU_STATS_P8(ale_vid_ingress_drop),
1578         GBENU_STATS_P8(ale_da_eq_sa_drop),
1579         GBENU_STATS_P8(ale_unknown_ucast),
1580         GBENU_STATS_P8(ale_unknown_ucast_bytes),
1581         GBENU_STATS_P8(ale_unknown_mcast),
1582         GBENU_STATS_P8(ale_unknown_mcast_bytes),
1583         GBENU_STATS_P8(ale_unknown_bcast),
1584         GBENU_STATS_P8(ale_unknown_bcast_bytes),
1585         GBENU_STATS_P8(ale_pol_match),
1586         GBENU_STATS_P8(ale_pol_match_red),
1587         GBENU_STATS_P8(ale_pol_match_yellow),
1588         GBENU_STATS_P8(tx_mem_protect_err),
1589         GBENU_STATS_P8(tx_pri0_drop),
1590         GBENU_STATS_P8(tx_pri1_drop),
1591         GBENU_STATS_P8(tx_pri2_drop),
1592         GBENU_STATS_P8(tx_pri3_drop),
1593         GBENU_STATS_P8(tx_pri4_drop),
1594         GBENU_STATS_P8(tx_pri5_drop),
1595         GBENU_STATS_P8(tx_pri6_drop),
1596         GBENU_STATS_P8(tx_pri7_drop),
1597         GBENU_STATS_P8(tx_pri0_drop_bcnt),
1598         GBENU_STATS_P8(tx_pri1_drop_bcnt),
1599         GBENU_STATS_P8(tx_pri2_drop_bcnt),
1600         GBENU_STATS_P8(tx_pri3_drop_bcnt),
1601         GBENU_STATS_P8(tx_pri4_drop_bcnt),
1602         GBENU_STATS_P8(tx_pri5_drop_bcnt),
1603         GBENU_STATS_P8(tx_pri6_drop_bcnt),
1604         GBENU_STATS_P8(tx_pri7_drop_bcnt),
1605 };
1606 
1607 #define XGBE_STATS0_INFO(field)                         \
1608 {                                                       \
1609         "GBE_0:"#field, XGBE_STATS0_MODULE,             \
1610         FIELD_SIZEOF(struct xgbe_hw_stats, field),      \
1611         offsetof(struct xgbe_hw_stats, field)           \
1612 }
1613 
1614 #define XGBE_STATS1_INFO(field)                         \
1615 {                                                       \
1616         "GBE_1:"#field, XGBE_STATS1_MODULE,             \
1617         FIELD_SIZEOF(struct xgbe_hw_stats, field),      \
1618         offsetof(struct xgbe_hw_stats, field)           \
1619 }
1620 
1621 #define XGBE_STATS2_INFO(field)                         \
1622 {                                                       \
1623         "GBE_2:"#field, XGBE_STATS2_MODULE,             \
1624         FIELD_SIZEOF(struct xgbe_hw_stats, field),      \
1625         offsetof(struct xgbe_hw_stats, field)           \
1626 }
1627 
1628 static const struct netcp_ethtool_stat xgbe10_et_stats[] = {
1629         /* GBE module 0 */
1630         XGBE_STATS0_INFO(rx_good_frames),
1631         XGBE_STATS0_INFO(rx_broadcast_frames),
1632         XGBE_STATS0_INFO(rx_multicast_frames),
1633         XGBE_STATS0_INFO(rx_oversized_frames),
1634         XGBE_STATS0_INFO(rx_undersized_frames),
1635         XGBE_STATS0_INFO(overrun_type4),
1636         XGBE_STATS0_INFO(overrun_type5),
1637         XGBE_STATS0_INFO(rx_bytes),
1638         XGBE_STATS0_INFO(tx_good_frames),
1639         XGBE_STATS0_INFO(tx_broadcast_frames),
1640         XGBE_STATS0_INFO(tx_multicast_frames),
1641         XGBE_STATS0_INFO(tx_bytes),
1642         XGBE_STATS0_INFO(tx_64byte_frames),
1643         XGBE_STATS0_INFO(tx_65_to_127byte_frames),
1644         XGBE_STATS0_INFO(tx_128_to_255byte_frames),
1645         XGBE_STATS0_INFO(tx_256_to_511byte_frames),
1646         XGBE_STATS0_INFO(tx_512_to_1023byte_frames),
1647         XGBE_STATS0_INFO(tx_1024byte_frames),
1648         XGBE_STATS0_INFO(net_bytes),
1649         XGBE_STATS0_INFO(rx_sof_overruns),
1650         XGBE_STATS0_INFO(rx_mof_overruns),
1651         XGBE_STATS0_INFO(rx_dma_overruns),
1652         /* XGBE module 1 */
1653         XGBE_STATS1_INFO(rx_good_frames),
1654         XGBE_STATS1_INFO(rx_broadcast_frames),
1655         XGBE_STATS1_INFO(rx_multicast_frames),
1656         XGBE_STATS1_INFO(rx_pause_frames),
1657         XGBE_STATS1_INFO(rx_crc_errors),
1658         XGBE_STATS1_INFO(rx_align_code_errors),
1659         XGBE_STATS1_INFO(rx_oversized_frames),
1660         XGBE_STATS1_INFO(rx_jabber_frames),
1661         XGBE_STATS1_INFO(rx_undersized_frames),
1662         XGBE_STATS1_INFO(rx_fragments),
1663         XGBE_STATS1_INFO(overrun_type4),
1664         XGBE_STATS1_INFO(overrun_type5),
1665         XGBE_STATS1_INFO(rx_bytes),
1666         XGBE_STATS1_INFO(tx_good_frames),
1667         XGBE_STATS1_INFO(tx_broadcast_frames),
1668         XGBE_STATS1_INFO(tx_multicast_frames),
1669         XGBE_STATS1_INFO(tx_pause_frames),
1670         XGBE_STATS1_INFO(tx_deferred_frames),
1671         XGBE_STATS1_INFO(tx_collision_frames),
1672         XGBE_STATS1_INFO(tx_single_coll_frames),
1673         XGBE_STATS1_INFO(tx_mult_coll_frames),
1674         XGBE_STATS1_INFO(tx_excessive_collisions),
1675         XGBE_STATS1_INFO(tx_late_collisions),
1676         XGBE_STATS1_INFO(tx_underrun),
1677         XGBE_STATS1_INFO(tx_carrier_sense_errors),
1678         XGBE_STATS1_INFO(tx_bytes),
1679         XGBE_STATS1_INFO(tx_64byte_frames),
1680         XGBE_STATS1_INFO(tx_65_to_127byte_frames),
1681         XGBE_STATS1_INFO(tx_128_to_255byte_frames),
1682         XGBE_STATS1_INFO(tx_256_to_511byte_frames),
1683         XGBE_STATS1_INFO(tx_512_to_1023byte_frames),
1684         XGBE_STATS1_INFO(tx_1024byte_frames),
1685         XGBE_STATS1_INFO(net_bytes),
1686         XGBE_STATS1_INFO(rx_sof_overruns),
1687         XGBE_STATS1_INFO(rx_mof_overruns),
1688         XGBE_STATS1_INFO(rx_dma_overruns),
1689         /* XGBE module 2 */
1690         XGBE_STATS2_INFO(rx_good_frames),
1691         XGBE_STATS2_INFO(rx_broadcast_frames),
1692         XGBE_STATS2_INFO(rx_multicast_frames),
1693         XGBE_STATS2_INFO(rx_pause_frames),
1694         XGBE_STATS2_INFO(rx_crc_errors),
1695         XGBE_STATS2_INFO(rx_align_code_errors),
1696         XGBE_STATS2_INFO(rx_oversized_frames),
1697         XGBE_STATS2_INFO(rx_jabber_frames),
1698         XGBE_STATS2_INFO(rx_undersized_frames),
1699         XGBE_STATS2_INFO(rx_fragments),
1700         XGBE_STATS2_INFO(overrun_type4),
1701         XGBE_STATS2_INFO(overrun_type5),
1702         XGBE_STATS2_INFO(rx_bytes),
1703         XGBE_STATS2_INFO(tx_good_frames),
1704         XGBE_STATS2_INFO(tx_broadcast_frames),
1705         XGBE_STATS2_INFO(tx_multicast_frames),
1706         XGBE_STATS2_INFO(tx_pause_frames),
1707         XGBE_STATS2_INFO(tx_deferred_frames),
1708         XGBE_STATS2_INFO(tx_collision_frames),
1709         XGBE_STATS2_INFO(tx_single_coll_frames),
1710         XGBE_STATS2_INFO(tx_mult_coll_frames),
1711         XGBE_STATS2_INFO(tx_excessive_collisions),
1712         XGBE_STATS2_INFO(tx_late_collisions),
1713         XGBE_STATS2_INFO(tx_underrun),
1714         XGBE_STATS2_INFO(tx_carrier_sense_errors),
1715         XGBE_STATS2_INFO(tx_bytes),
1716         XGBE_STATS2_INFO(tx_64byte_frames),
1717         XGBE_STATS2_INFO(tx_65_to_127byte_frames),
1718         XGBE_STATS2_INFO(tx_128_to_255byte_frames),
1719         XGBE_STATS2_INFO(tx_256_to_511byte_frames),
1720         XGBE_STATS2_INFO(tx_512_to_1023byte_frames),
1721         XGBE_STATS2_INFO(tx_1024byte_frames),
1722         XGBE_STATS2_INFO(net_bytes),
1723         XGBE_STATS2_INFO(rx_sof_overruns),
1724         XGBE_STATS2_INFO(rx_mof_overruns),
1725         XGBE_STATS2_INFO(rx_dma_overruns),
1726 };
1727 
1728 #define for_each_intf(i, priv) \
1729         list_for_each_entry((i), &(priv)->gbe_intf_head, gbe_intf_list)
1730 
1731 #define for_each_sec_slave(slave, priv) \
1732         list_for_each_entry((slave), &(priv)->secondary_slaves, slave_list)
1733 
1734 #define first_sec_slave(priv)                                   \
1735         list_first_entry(&priv->secondary_slaves, \
1736                         struct gbe_slave, slave_list)
1737 
1738 static void keystone_get_drvinfo(struct net_device *ndev,
1739                                  struct ethtool_drvinfo *info)
1740 {
1741         strncpy(info->driver, NETCP_DRIVER_NAME, sizeof(info->driver));
1742         strncpy(info->version, NETCP_DRIVER_VERSION, sizeof(info->version));
1743 }
1744 
1745 static u32 keystone_get_msglevel(struct net_device *ndev)
1746 {
1747         struct netcp_intf *netcp = netdev_priv(ndev);
1748 
1749         return netcp->msg_enable;
1750 }
1751 
1752 static void keystone_set_msglevel(struct net_device *ndev, u32 value)
1753 {
1754         struct netcp_intf *netcp = netdev_priv(ndev);
1755 
1756         netcp->msg_enable = value;
1757 }
1758 
1759 static struct gbe_intf *keystone_get_intf_data(struct netcp_intf *netcp)
1760 {
1761         struct gbe_intf *gbe_intf;
1762 
1763         gbe_intf = netcp_module_get_intf_data(&gbe_module, netcp);
1764         if (!gbe_intf)
1765                 gbe_intf = netcp_module_get_intf_data(&xgbe_module, netcp);
1766 
1767         return gbe_intf;
1768 }
1769 
1770 static void keystone_get_stat_strings(struct net_device *ndev,
1771                                       uint32_t stringset, uint8_t *data)
1772 {
1773         struct netcp_intf *netcp = netdev_priv(ndev);
1774         struct gbe_intf *gbe_intf;
1775         struct gbe_priv *gbe_dev;
1776         int i;
1777 
1778         gbe_intf = keystone_get_intf_data(netcp);
1779         if (!gbe_intf)
1780                 return;
1781         gbe_dev = gbe_intf->gbe_dev;
1782 
1783         switch (stringset) {
1784         case ETH_SS_STATS:
1785                 for (i = 0; i < gbe_dev->num_et_stats; i++) {
1786                         memcpy(data, gbe_dev->et_stats[i].desc,
1787                                ETH_GSTRING_LEN);
1788                         data += ETH_GSTRING_LEN;
1789                 }
1790                 break;
1791         case ETH_SS_TEST:
1792                 break;
1793         }
1794 }
1795 
1796 static int keystone_get_sset_count(struct net_device *ndev, int stringset)
1797 {
1798         struct netcp_intf *netcp = netdev_priv(ndev);
1799         struct gbe_intf *gbe_intf;
1800         struct gbe_priv *gbe_dev;
1801 
1802         gbe_intf = keystone_get_intf_data(netcp);
1803         if (!gbe_intf)
1804                 return -EINVAL;
1805         gbe_dev = gbe_intf->gbe_dev;
1806 
1807         switch (stringset) {
1808         case ETH_SS_TEST:
1809                 return 0;
1810         case ETH_SS_STATS:
1811                 return gbe_dev->num_et_stats;
1812         default:
1813                 return -EINVAL;
1814         }
1815 }
1816 
1817 static void gbe_reset_mod_stats(struct gbe_priv *gbe_dev, int stats_mod)
1818 {
1819         void __iomem *base = gbe_dev->hw_stats_regs[stats_mod];
1820         u32  __iomem *p_stats_entry;
1821         int i;
1822 
1823         for (i = 0; i < gbe_dev->num_et_stats; i++) {
1824                 if (gbe_dev->et_stats[i].type == stats_mod) {
1825                         p_stats_entry = base + gbe_dev->et_stats[i].offset;
1826                         gbe_dev->hw_stats[i] = 0;
1827                         gbe_dev->hw_stats_prev[i] = readl(p_stats_entry);
1828                 }
1829         }
1830 }
1831 
1832 static inline void gbe_update_hw_stats_entry(struct gbe_priv *gbe_dev,
1833                                              int et_stats_entry)
1834 {
1835         void __iomem *base = NULL;
1836         u32  __iomem *p_stats_entry;
1837         u32 curr, delta;
1838 
1839         /* The hw_stats_regs pointers are already
1840          * properly set to point to the right base:
1841          */
1842         base = gbe_dev->hw_stats_regs[gbe_dev->et_stats[et_stats_entry].type];
1843         p_stats_entry = base + gbe_dev->et_stats[et_stats_entry].offset;
1844         curr = readl(p_stats_entry);
1845         delta = curr - gbe_dev->hw_stats_prev[et_stats_entry];
1846         gbe_dev->hw_stats_prev[et_stats_entry] = curr;
1847         gbe_dev->hw_stats[et_stats_entry] += delta;
1848 }
1849 
1850 static void gbe_update_stats(struct gbe_priv *gbe_dev, uint64_t *data)
1851 {
1852         int i;
1853 
1854         for (i = 0; i < gbe_dev->num_et_stats; i++) {
1855                 gbe_update_hw_stats_entry(gbe_dev, i);
1856 
1857                 if (data)
1858                         data[i] = gbe_dev->hw_stats[i];
1859         }
1860 }
1861 
1862 static inline void gbe_stats_mod_visible_ver14(struct gbe_priv *gbe_dev,
1863                                                int stats_mod)
1864 {
1865         u32 val;
1866 
1867         val = readl(GBE_REG_ADDR(gbe_dev, switch_regs, stat_port_en));
1868 
1869         switch (stats_mod) {
1870         case GBE_STATSA_MODULE:
1871         case GBE_STATSB_MODULE:
1872                 val &= ~GBE_STATS_CD_SEL;
1873                 break;
1874         case GBE_STATSC_MODULE:
1875         case GBE_STATSD_MODULE:
1876                 val |= GBE_STATS_CD_SEL;
1877                 break;
1878         default:
1879                 return;
1880         }
1881 
1882         /* make the stat module visible */
1883         writel(val, GBE_REG_ADDR(gbe_dev, switch_regs, stat_port_en));
1884 }
1885 
1886 static void gbe_reset_mod_stats_ver14(struct gbe_priv *gbe_dev, int stats_mod)
1887 {
1888         gbe_stats_mod_visible_ver14(gbe_dev, stats_mod);
1889         gbe_reset_mod_stats(gbe_dev, stats_mod);
1890 }
1891 
1892 static void gbe_update_stats_ver14(struct gbe_priv *gbe_dev, uint64_t *data)
1893 {
1894         u32 half_num_et_stats = (gbe_dev->num_et_stats / 2);
1895         int et_entry, j, pair;
1896 
1897         for (pair = 0; pair < 2; pair++) {
1898                 gbe_stats_mod_visible_ver14(gbe_dev, (pair ?
1899                                                       GBE_STATSC_MODULE :
1900                                                       GBE_STATSA_MODULE));
1901 
1902                 for (j = 0; j < half_num_et_stats; j++) {
1903                         et_entry = pair * half_num_et_stats + j;
1904                         gbe_update_hw_stats_entry(gbe_dev, et_entry);
1905 
1906                         if (data)
1907                                 data[et_entry] = gbe_dev->hw_stats[et_entry];
1908                 }
1909         }
1910 }
1911 
1912 static void keystone_get_ethtool_stats(struct net_device *ndev,
1913                                        struct ethtool_stats *stats,
1914                                        uint64_t *data)
1915 {
1916         struct netcp_intf *netcp = netdev_priv(ndev);
1917         struct gbe_intf *gbe_intf;
1918         struct gbe_priv *gbe_dev;
1919 
1920         gbe_intf = keystone_get_intf_data(netcp);
1921         if (!gbe_intf)
1922                 return;
1923 
1924         gbe_dev = gbe_intf->gbe_dev;
1925         spin_lock_bh(&gbe_dev->hw_stats_lock);
1926         if (IS_SS_ID_VER_14(gbe_dev))
1927                 gbe_update_stats_ver14(gbe_dev, data);
1928         else
1929                 gbe_update_stats(gbe_dev, data);
1930         spin_unlock_bh(&gbe_dev->hw_stats_lock);
1931 }
1932 
1933 static int keystone_get_link_ksettings(struct net_device *ndev,
1934                                        struct ethtool_link_ksettings *cmd)
1935 {
1936         struct netcp_intf *netcp = netdev_priv(ndev);
1937         struct phy_device *phy = ndev->phydev;
1938         struct gbe_intf *gbe_intf;
1939 
1940         if (!phy)
1941                 return -EINVAL;
1942 
1943         gbe_intf = keystone_get_intf_data(netcp);
1944         if (!gbe_intf)
1945                 return -EINVAL;
1946 
1947         if (!gbe_intf->slave)
1948                 return -EINVAL;
1949 
1950         phy_ethtool_ksettings_get(phy, cmd);
1951         cmd->base.port = gbe_intf->slave->phy_port_t;
1952 
1953         return 0;
1954 }
1955 
1956 static int keystone_set_link_ksettings(struct net_device *ndev,
1957                                        const struct ethtool_link_ksettings *cmd)
1958 {
1959         struct netcp_intf *netcp = netdev_priv(ndev);
1960         struct phy_device *phy = ndev->phydev;
1961         struct gbe_intf *gbe_intf;
1962         u8 port = cmd->base.port;
1963         u32 advertising, supported;
1964         u32 features;
1965 
1966         ethtool_convert_link_mode_to_legacy_u32(&advertising,
1967                                                 cmd->link_modes.advertising);
1968         ethtool_convert_link_mode_to_legacy_u32(&supported,
1969                                                 cmd->link_modes.supported);
1970         features = advertising & supported;
1971 
1972         if (!phy)
1973                 return -EINVAL;
1974 
1975         gbe_intf = keystone_get_intf_data(netcp);
1976         if (!gbe_intf)
1977                 return -EINVAL;
1978 
1979         if (!gbe_intf->slave)
1980                 return -EINVAL;
1981 
1982         if (port != gbe_intf->slave->phy_port_t) {
1983                 if ((port == PORT_TP) && !(features & ADVERTISED_TP))
1984                         return -EINVAL;
1985 
1986                 if ((port == PORT_AUI) && !(features & ADVERTISED_AUI))
1987                         return -EINVAL;
1988 
1989                 if ((port == PORT_BNC) && !(features & ADVERTISED_BNC))
1990                         return -EINVAL;
1991 
1992                 if ((port == PORT_MII) && !(features & ADVERTISED_MII))
1993                         return -EINVAL;
1994 
1995                 if ((port == PORT_FIBRE) && !(features & ADVERTISED_FIBRE))
1996                         return -EINVAL;
1997         }
1998 
1999         gbe_intf->slave->phy_port_t = port;
2000         return phy_ethtool_ksettings_set(phy, cmd);
2001 }
2002 
2003 #if IS_ENABLED(CONFIG_TI_CPTS)
2004 static int keystone_get_ts_info(struct net_device *ndev,
2005                                 struct ethtool_ts_info *info)
2006 {
2007         struct netcp_intf *netcp = netdev_priv(ndev);
2008         struct gbe_intf *gbe_intf;
2009 
2010         gbe_intf = netcp_module_get_intf_data(&gbe_module, netcp);
2011         if (!gbe_intf || !gbe_intf->gbe_dev->cpts)
2012                 return -EINVAL;
2013 
2014         info->so_timestamping =
2015                 SOF_TIMESTAMPING_TX_HARDWARE |
2016                 SOF_TIMESTAMPING_TX_SOFTWARE |
2017                 SOF_TIMESTAMPING_RX_HARDWARE |
2018                 SOF_TIMESTAMPING_RX_SOFTWARE |
2019                 SOF_TIMESTAMPING_SOFTWARE |
2020                 SOF_TIMESTAMPING_RAW_HARDWARE;
2021         info->phc_index = gbe_intf->gbe_dev->cpts->phc_index;
2022         info->tx_types =
2023                 (1 << HWTSTAMP_TX_OFF) |
2024                 (1 << HWTSTAMP_TX_ON);
2025         info->rx_filters =
2026                 (1 << HWTSTAMP_FILTER_NONE) |
2027                 (1 << HWTSTAMP_FILTER_PTP_V1_L4_EVENT) |
2028                 (1 << HWTSTAMP_FILTER_PTP_V2_EVENT);
2029         return 0;
2030 }
2031 #else
2032 static int keystone_get_ts_info(struct net_device *ndev,
2033                                 struct ethtool_ts_info *info)
2034 {
2035         info->so_timestamping =
2036                 SOF_TIMESTAMPING_TX_SOFTWARE |
2037                 SOF_TIMESTAMPING_RX_SOFTWARE |
2038                 SOF_TIMESTAMPING_SOFTWARE;
2039         info->phc_index = -1;
2040         info->tx_types = 0;
2041         info->rx_filters = 0;
2042         return 0;
2043 }
2044 #endif /* CONFIG_TI_CPTS */
2045 
2046 static const struct ethtool_ops keystone_ethtool_ops = {
2047         .get_drvinfo            = keystone_get_drvinfo,
2048         .get_link               = ethtool_op_get_link,
2049         .get_msglevel           = keystone_get_msglevel,
2050         .set_msglevel           = keystone_set_msglevel,
2051         .get_strings            = keystone_get_stat_strings,
2052         .get_sset_count         = keystone_get_sset_count,
2053         .get_ethtool_stats      = keystone_get_ethtool_stats,
2054         .get_link_ksettings     = keystone_get_link_ksettings,
2055         .set_link_ksettings     = keystone_set_link_ksettings,
2056         .get_ts_info            = keystone_get_ts_info,
2057 };
2058 
2059 static void gbe_set_slave_mac(struct gbe_slave *slave,
2060                               struct gbe_intf *gbe_intf)
2061 {
2062         struct net_device *ndev = gbe_intf->ndev;
2063 
2064         writel(mac_hi(ndev->dev_addr), GBE_REG_ADDR(slave, port_regs, sa_hi));
2065         writel(mac_lo(ndev->dev_addr), GBE_REG_ADDR(slave, port_regs, sa_lo));
2066 }
2067 
2068 static int gbe_get_slave_port(struct gbe_priv *priv, u32 slave_num)
2069 {
2070         if (priv->host_port == 0)
2071                 return slave_num + 1;
2072 
2073         return slave_num;
2074 }
2075 
2076 static void netcp_ethss_link_state_action(struct gbe_priv *gbe_dev,
2077                                           struct net_device *ndev,
2078                                           struct gbe_slave *slave,
2079                                           int up)
2080 {
2081         struct phy_device *phy = slave->phy;
2082         u32 mac_control = 0;
2083 
2084         if (up) {
2085                 mac_control = slave->mac_control;
2086                 if (phy && (phy->speed == SPEED_1000)) {
2087                         mac_control |= MACSL_GIG_MODE;
2088                         mac_control &= ~MACSL_XGIG_MODE;
2089                 } else if (phy && (phy->speed == SPEED_10000)) {
2090                         mac_control |= MACSL_XGIG_MODE;
2091                         mac_control &= ~MACSL_GIG_MODE;
2092                 }
2093 
2094                 writel(mac_control, GBE_REG_ADDR(slave, emac_regs,
2095                                                  mac_control));
2096 
2097                 cpsw_ale_control_set(gbe_dev->ale, slave->port_num,
2098                                      ALE_PORT_STATE,
2099                                      ALE_PORT_STATE_FORWARD);
2100 
2101                 if (ndev && slave->open &&
2102                     ((slave->link_interface != SGMII_LINK_MAC_PHY) &&
2103                     (slave->link_interface != RGMII_LINK_MAC_PHY) &&
2104                     (slave->link_interface != XGMII_LINK_MAC_PHY)))
2105                         netif_carrier_on(ndev);
2106         } else {
2107                 writel(mac_control, GBE_REG_ADDR(slave, emac_regs,
2108                                                  mac_control));
2109                 cpsw_ale_control_set(gbe_dev->ale, slave->port_num,
2110                                      ALE_PORT_STATE,
2111                                      ALE_PORT_STATE_DISABLE);
2112                 if (ndev &&
2113                     ((slave->link_interface != SGMII_LINK_MAC_PHY) &&
2114                     (slave->link_interface != RGMII_LINK_MAC_PHY) &&
2115                     (slave->link_interface != XGMII_LINK_MAC_PHY)))
2116                         netif_carrier_off(ndev);
2117         }
2118 
2119         if (phy)
2120                 phy_print_status(phy);
2121 }
2122 
2123 static bool gbe_phy_link_status(struct gbe_slave *slave)
2124 {
2125          return !slave->phy || slave->phy->link;
2126 }
2127 
2128 #define RGMII_REG_STATUS_LINK   BIT(0)
2129 
2130 static void netcp_2u_rgmii_get_port_link(struct gbe_priv *gbe_dev, bool *status)
2131 {
2132         u32 val = 0;
2133 
2134         val = readl(GBE_REG_ADDR(gbe_dev, ss_regs, rgmii_status));
2135         *status = !!(val & RGMII_REG_STATUS_LINK);
2136 }
2137 
2138 static void netcp_ethss_update_link_state(struct gbe_priv *gbe_dev,
2139                                           struct gbe_slave *slave,
2140                                           struct net_device *ndev)
2141 {
2142         bool sw_link_state = true, phy_link_state;
2143         int sp = slave->slave_num, link_state;
2144 
2145         if (!slave->open)
2146                 return;
2147 
2148         if (SLAVE_LINK_IS_RGMII(slave))
2149                 netcp_2u_rgmii_get_port_link(gbe_dev,
2150                                              &sw_link_state);
2151         if (SLAVE_LINK_IS_SGMII(slave))
2152                 sw_link_state =
2153                 netcp_sgmii_get_port_link(SGMII_BASE(gbe_dev, sp), sp);
2154 
2155         phy_link_state = gbe_phy_link_status(slave);
2156         link_state = phy_link_state & sw_link_state;
2157 
2158         if (atomic_xchg(&slave->link_state, link_state) != link_state)
2159                 netcp_ethss_link_state_action(gbe_dev, ndev, slave,
2160                                               link_state);
2161 }
2162 
2163 static void xgbe_adjust_link(struct net_device *ndev)
2164 {
2165         struct netcp_intf *netcp = netdev_priv(ndev);
2166         struct gbe_intf *gbe_intf;
2167 
2168         gbe_intf = netcp_module_get_intf_data(&xgbe_module, netcp);
2169         if (!gbe_intf)
2170                 return;
2171 
2172         netcp_ethss_update_link_state(gbe_intf->gbe_dev, gbe_intf->slave,
2173                                       ndev);
2174 }
2175 
2176 static void gbe_adjust_link(struct net_device *ndev)
2177 {
2178         struct netcp_intf *netcp = netdev_priv(ndev);
2179         struct gbe_intf *gbe_intf;
2180 
2181         gbe_intf = netcp_module_get_intf_data(&gbe_module, netcp);
2182         if (!gbe_intf)
2183                 return;
2184 
2185         netcp_ethss_update_link_state(gbe_intf->gbe_dev, gbe_intf->slave,
2186                                       ndev);
2187 }
2188 
2189 static void gbe_adjust_link_sec_slaves(struct net_device *ndev)
2190 {
2191         struct gbe_priv *gbe_dev = netdev_priv(ndev);
2192         struct gbe_slave *slave;
2193 
2194         for_each_sec_slave(slave, gbe_dev)
2195                 netcp_ethss_update_link_state(gbe_dev, slave, NULL);
2196 }
2197 
2198 /* Reset EMAC
2199  * Soft reset is set and polled until clear, or until a timeout occurs
2200  */
2201 static int gbe_port_reset(struct gbe_slave *slave)
2202 {
2203         u32 i, v;
2204 
2205         /* Set the soft reset bit */
2206         writel(SOFT_RESET, GBE_REG_ADDR(slave, emac_regs, soft_reset));
2207 
2208         /* Wait for the bit to clear */
2209         for (i = 0; i < DEVICE_EMACSL_RESET_POLL_COUNT; i++) {
2210                 v = readl(GBE_REG_ADDR(slave, emac_regs, soft_reset));
2211                 if ((v & SOFT_RESET_MASK) != SOFT_RESET)
2212                         return 0;
2213         }
2214 
2215         /* Timeout on the reset */
2216         return GMACSL_RET_WARN_RESET_INCOMPLETE;
2217 }
2218 
2219 /* Configure EMAC */
2220 static void gbe_port_config(struct gbe_priv *gbe_dev, struct gbe_slave *slave,
2221                             int max_rx_len)
2222 {
2223         void __iomem *rx_maxlen_reg;
2224         u32 xgmii_mode;
2225 
2226         if (max_rx_len > NETCP_MAX_FRAME_SIZE)
2227                 max_rx_len = NETCP_MAX_FRAME_SIZE;
2228 
2229         /* Enable correct MII mode at SS level */
2230         if (IS_SS_ID_XGBE(gbe_dev) &&
2231             (slave->link_interface >= XGMII_LINK_MAC_PHY)) {
2232                 xgmii_mode = readl(GBE_REG_ADDR(gbe_dev, ss_regs, control));
2233                 xgmii_mode |= (1 << slave->slave_num);
2234                 writel(xgmii_mode, GBE_REG_ADDR(gbe_dev, ss_regs, control));
2235         }
2236 
2237         if (IS_SS_ID_MU(gbe_dev))
2238                 rx_maxlen_reg = GBE_REG_ADDR(slave, port_regs, rx_maxlen);
2239         else
2240                 rx_maxlen_reg = GBE_REG_ADDR(slave, emac_regs, rx_maxlen);
2241 
2242         writel(max_rx_len, rx_maxlen_reg);
2243         writel(slave->mac_control, GBE_REG_ADDR(slave, emac_regs, mac_control));
2244 }
2245 
2246 static void gbe_sgmii_rtreset(struct gbe_priv *priv,
2247                               struct gbe_slave *slave, bool set)
2248 {
2249         if (SLAVE_LINK_IS_XGMII(slave))
2250                 return;
2251 
2252         netcp_sgmii_rtreset(SGMII_BASE(priv, slave->slave_num),
2253                             slave->slave_num, set);
2254 }
2255 
2256 static void gbe_slave_stop(struct gbe_intf *intf)
2257 {
2258         struct gbe_priv *gbe_dev = intf->gbe_dev;
2259         struct gbe_slave *slave = intf->slave;
2260 
2261         if (!IS_SS_ID_2U(gbe_dev))
2262                 gbe_sgmii_rtreset(gbe_dev, slave, true);
2263         gbe_port_reset(slave);
2264         /* Disable forwarding */
2265         cpsw_ale_control_set(gbe_dev->ale, slave->port_num,
2266                              ALE_PORT_STATE, ALE_PORT_STATE_DISABLE);
2267         cpsw_ale_del_mcast(gbe_dev->ale, intf->ndev->broadcast,
2268                            1 << slave->port_num, 0, 0);
2269 
2270         if (!slave->phy)
2271                 return;
2272 
2273         phy_stop(slave->phy);
2274         phy_disconnect(slave->phy);
2275         slave->phy = NULL;
2276 }
2277 
2278 static void gbe_sgmii_config(struct gbe_priv *priv, struct gbe_slave *slave)
2279 {
2280         if (SLAVE_LINK_IS_XGMII(slave))
2281                 return;
2282 
2283         netcp_sgmii_reset(SGMII_BASE(priv, slave->slave_num), slave->slave_num);
2284         netcp_sgmii_config(SGMII_BASE(priv, slave->slave_num), slave->slave_num,
2285                            slave->link_interface);
2286 }
2287 
2288 static int gbe_slave_open(struct gbe_intf *gbe_intf)
2289 {
2290         struct gbe_priv *priv = gbe_intf->gbe_dev;
2291         struct gbe_slave *slave = gbe_intf->slave;
2292         phy_interface_t phy_mode;
2293         bool has_phy = false;
2294 
2295         void (*hndlr)(struct net_device *) = gbe_adjust_link;
2296 
2297         if (!IS_SS_ID_2U(priv))
2298                 gbe_sgmii_config(priv, slave);
2299         gbe_port_reset(slave);
2300         if (!IS_SS_ID_2U(priv))
2301                 gbe_sgmii_rtreset(priv, slave, false);
2302         gbe_port_config(priv, slave, priv->rx_packet_max);
2303         gbe_set_slave_mac(slave, gbe_intf);
2304         /* For NU & 2U switch, map the vlan priorities to zero
2305          * as we only configure to use priority 0
2306          */
2307         if (IS_SS_ID_MU(priv))
2308                 writel(HOST_TX_PRI_MAP_DEFAULT,
2309                        GBE_REG_ADDR(slave, port_regs, rx_pri_map));
2310 
2311         /* enable forwarding */
2312         cpsw_ale_control_set(priv->ale, slave->port_num,
2313                              ALE_PORT_STATE, ALE_PORT_STATE_FORWARD);
2314         cpsw_ale_add_mcast(priv->ale, gbe_intf->ndev->broadcast,
2315                            1 << slave->port_num, 0, 0, ALE_MCAST_FWD_2);
2316 
2317         if (slave->link_interface == SGMII_LINK_MAC_PHY) {
2318                 has_phy = true;
2319                 phy_mode = PHY_INTERFACE_MODE_SGMII;
2320                 slave->phy_port_t = PORT_MII;
2321         } else if (slave->link_interface == RGMII_LINK_MAC_PHY) {
2322                 has_phy = true;
2323                 phy_mode = of_get_phy_mode(slave->node);
2324                 /* if phy-mode is not present, default to
2325                  * PHY_INTERFACE_MODE_RGMII
2326                  */
2327                 if (phy_mode < 0)
2328                         phy_mode = PHY_INTERFACE_MODE_RGMII;
2329 
2330                 if (!phy_interface_mode_is_rgmii(phy_mode)) {
2331                         dev_err(priv->dev,
2332                                 "Unsupported phy mode %d\n", phy_mode);
2333                         return -EINVAL;
2334                 }
2335                 slave->phy_port_t = PORT_MII;
2336         } else if (slave->link_interface == XGMII_LINK_MAC_PHY) {
2337                 has_phy = true;
2338                 phy_mode = PHY_INTERFACE_MODE_NA;
2339                 slave->phy_port_t = PORT_FIBRE;
2340         }
2341 
2342         if (has_phy) {
2343                 if (IS_SS_ID_XGBE(priv))
2344                         hndlr = xgbe_adjust_link;
2345 
2346                 slave->phy = of_phy_connect(gbe_intf->ndev,
2347                                             slave->phy_node,
2348                                             hndlr, 0,
2349                                             phy_mode);
2350                 if (!slave->phy) {
2351                         dev_err(priv->dev, "phy not found on slave %d\n",
2352                                 slave->slave_num);
2353                         return -ENODEV;
2354                 }
2355                 dev_dbg(priv->dev, "phy found: id is: 0x%s\n",
2356                         phydev_name(slave->phy));
2357                 phy_start(slave->phy);
2358         }
2359         return 0;
2360 }
2361 
2362 static void gbe_init_host_port(struct gbe_priv *priv)
2363 {
2364         int bypass_en = 1;
2365 
2366         /* Host Tx Pri */
2367         if (IS_SS_ID_NU(priv) || IS_SS_ID_XGBE(priv))
2368                 writel(HOST_TX_PRI_MAP_DEFAULT,
2369                        GBE_REG_ADDR(priv, host_port_regs, tx_pri_map));
2370 
2371         /* Max length register */
2372         writel(NETCP_MAX_FRAME_SIZE, GBE_REG_ADDR(priv, host_port_regs,
2373                                                   rx_maxlen));
2374 
2375         cpsw_ale_start(priv->ale);
2376 
2377         if (priv->enable_ale)
2378                 bypass_en = 0;
2379 
2380         cpsw_ale_control_set(priv->ale, 0, ALE_BYPASS, bypass_en);
2381 
2382         cpsw_ale_control_set(priv->ale, 0, ALE_NO_PORT_VLAN, 1);
2383 
2384         cpsw_ale_control_set(priv->ale, priv->host_port,
2385                              ALE_PORT_STATE, ALE_PORT_STATE_FORWARD);
2386 
2387         cpsw_ale_control_set(priv->ale, 0,
2388                              ALE_PORT_UNKNOWN_VLAN_MEMBER,
2389                              GBE_PORT_MASK(priv->ale_ports));
2390 
2391         cpsw_ale_control_set(priv->ale, 0,
2392                              ALE_PORT_UNKNOWN_MCAST_FLOOD,
2393                              GBE_PORT_MASK(priv->ale_ports - 1));
2394 
2395         cpsw_ale_control_set(priv->ale, 0,
2396                              ALE_PORT_UNKNOWN_REG_MCAST_FLOOD,
2397                              GBE_PORT_MASK(priv->ale_ports));
2398 
2399         cpsw_ale_control_set(priv->ale, 0,
2400                              ALE_PORT_UNTAGGED_EGRESS,
2401                              GBE_PORT_MASK(priv->ale_ports));
2402 }
2403 
2404 static void gbe_add_mcast_addr(struct gbe_intf *gbe_intf, u8 *addr)
2405 {
2406         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2407         u16 vlan_id;
2408 
2409         cpsw_ale_add_mcast(gbe_dev->ale, addr,
2410                            GBE_PORT_MASK(gbe_dev->ale_ports), 0, 0,
2411                            ALE_MCAST_FWD_2);
2412         for_each_set_bit(vlan_id, gbe_intf->active_vlans, VLAN_N_VID) {
2413                 cpsw_ale_add_mcast(gbe_dev->ale, addr,
2414                                    GBE_PORT_MASK(gbe_dev->ale_ports),
2415                                    ALE_VLAN, vlan_id, ALE_MCAST_FWD_2);
2416         }
2417 }
2418 
2419 static void gbe_add_ucast_addr(struct gbe_intf *gbe_intf, u8 *addr)
2420 {
2421         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2422         u16 vlan_id;
2423 
2424         cpsw_ale_add_ucast(gbe_dev->ale, addr, gbe_dev->host_port, 0, 0);
2425 
2426         for_each_set_bit(vlan_id, gbe_intf->active_vlans, VLAN_N_VID)
2427                 cpsw_ale_add_ucast(gbe_dev->ale, addr, gbe_dev->host_port,
2428                                    ALE_VLAN, vlan_id);
2429 }
2430 
2431 static void gbe_del_mcast_addr(struct gbe_intf *gbe_intf, u8 *addr)
2432 {
2433         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2434         u16 vlan_id;
2435 
2436         cpsw_ale_del_mcast(gbe_dev->ale, addr, 0, 0, 0);
2437 
2438         for_each_set_bit(vlan_id, gbe_intf->active_vlans, VLAN_N_VID) {
2439                 cpsw_ale_del_mcast(gbe_dev->ale, addr, 0, ALE_VLAN, vlan_id);
2440         }
2441 }
2442 
2443 static void gbe_del_ucast_addr(struct gbe_intf *gbe_intf, u8 *addr)
2444 {
2445         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2446         u16 vlan_id;
2447 
2448         cpsw_ale_del_ucast(gbe_dev->ale, addr, gbe_dev->host_port, 0, 0);
2449 
2450         for_each_set_bit(vlan_id, gbe_intf->active_vlans, VLAN_N_VID) {
2451                 cpsw_ale_del_ucast(gbe_dev->ale, addr, gbe_dev->host_port,
2452                                    ALE_VLAN, vlan_id);
2453         }
2454 }
2455 
2456 static int gbe_add_addr(void *intf_priv, struct netcp_addr *naddr)
2457 {
2458         struct gbe_intf *gbe_intf = intf_priv;
2459         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2460 
2461         dev_dbg(gbe_dev->dev, "ethss adding address %pM, type %d\n",
2462                 naddr->addr, naddr->type);
2463 
2464         switch (naddr->type) {
2465         case ADDR_MCAST:
2466         case ADDR_BCAST:
2467                 gbe_add_mcast_addr(gbe_intf, naddr->addr);
2468                 break;
2469         case ADDR_UCAST:
2470         case ADDR_DEV:
2471                 gbe_add_ucast_addr(gbe_intf, naddr->addr);
2472                 break;
2473         case ADDR_ANY:
2474                 /* nothing to do for promiscuous */
2475         default:
2476                 break;
2477         }
2478 
2479         return 0;
2480 }
2481 
2482 static int gbe_del_addr(void *intf_priv, struct netcp_addr *naddr)
2483 {
2484         struct gbe_intf *gbe_intf = intf_priv;
2485         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2486 
2487         dev_dbg(gbe_dev->dev, "ethss deleting address %pM, type %d\n",
2488                 naddr->addr, naddr->type);
2489 
2490         switch (naddr->type) {
2491         case ADDR_MCAST:
2492         case ADDR_BCAST:
2493                 gbe_del_mcast_addr(gbe_intf, naddr->addr);
2494                 break;
2495         case ADDR_UCAST:
2496         case ADDR_DEV:
2497                 gbe_del_ucast_addr(gbe_intf, naddr->addr);
2498                 break;
2499         case ADDR_ANY:
2500                 /* nothing to do for promiscuous */
2501         default:
2502                 break;
2503         }
2504 
2505         return 0;
2506 }
2507 
2508 static int gbe_add_vid(void *intf_priv, int vid)
2509 {
2510         struct gbe_intf *gbe_intf = intf_priv;
2511         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2512 
2513         set_bit(vid, gbe_intf->active_vlans);
2514 
2515         cpsw_ale_add_vlan(gbe_dev->ale, vid,
2516                           GBE_PORT_MASK(gbe_dev->ale_ports),
2517                           GBE_MASK_NO_PORTS,
2518                           GBE_PORT_MASK(gbe_dev->ale_ports),
2519                           GBE_PORT_MASK(gbe_dev->ale_ports - 1));
2520 
2521         return 0;
2522 }
2523 
2524 static int gbe_del_vid(void *intf_priv, int vid)
2525 {
2526         struct gbe_intf *gbe_intf = intf_priv;
2527         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2528 
2529         cpsw_ale_del_vlan(gbe_dev->ale, vid, 0);
2530         clear_bit(vid, gbe_intf->active_vlans);
2531         return 0;
2532 }
2533 
2534 #if IS_ENABLED(CONFIG_TI_CPTS)
2535 #define HAS_PHY_TXTSTAMP(p) ((p)->drv && (p)->drv->txtstamp)
2536 #define HAS_PHY_RXTSTAMP(p) ((p)->drv && (p)->drv->rxtstamp)
2537 
2538 static void gbe_txtstamp(void *context, struct sk_buff *skb)
2539 {
2540         struct gbe_intf *gbe_intf = context;
2541         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2542 
2543         cpts_tx_timestamp(gbe_dev->cpts, skb);
2544 }
2545 
2546 static bool gbe_need_txtstamp(struct gbe_intf *gbe_intf,
2547                               const struct netcp_packet *p_info)
2548 {
2549         struct sk_buff *skb = p_info->skb;
2550 
2551         return cpts_can_timestamp(gbe_intf->gbe_dev->cpts, skb);
2552 }
2553 
2554 static int gbe_txtstamp_mark_pkt(struct gbe_intf *gbe_intf,
2555                                  struct netcp_packet *p_info)
2556 {
2557         struct phy_device *phydev = p_info->skb->dev->phydev;
2558         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2559 
2560         if (!(skb_shinfo(p_info->skb)->tx_flags & SKBTX_HW_TSTAMP) ||
2561             !gbe_dev->tx_ts_enabled)
2562                 return 0;
2563 
2564         /* If phy has the txtstamp api, assume it will do it.
2565          * We mark it here because skb_tx_timestamp() is called
2566          * after all the txhooks are called.
2567          */
2568         if (phydev && HAS_PHY_TXTSTAMP(phydev)) {
2569                 skb_shinfo(p_info->skb)->tx_flags |= SKBTX_IN_PROGRESS;
2570                 return 0;
2571         }
2572 
2573         if (gbe_need_txtstamp(gbe_intf, p_info)) {
2574                 p_info->txtstamp = gbe_txtstamp;
2575                 p_info->ts_context = (void *)gbe_intf;
2576                 skb_shinfo(p_info->skb)->tx_flags |= SKBTX_IN_PROGRESS;
2577         }
2578 
2579         return 0;
2580 }
2581 
2582 static int gbe_rxtstamp(struct gbe_intf *gbe_intf, struct netcp_packet *p_info)
2583 {
2584         struct phy_device *phydev = p_info->skb->dev->phydev;
2585         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2586 
2587         if (p_info->rxtstamp_complete)
2588                 return 0;
2589 
2590         if (phydev && HAS_PHY_RXTSTAMP(phydev)) {
2591                 p_info->rxtstamp_complete = true;
2592                 return 0;
2593         }
2594 
2595         if (gbe_dev->rx_ts_enabled)
2596                 cpts_rx_timestamp(gbe_dev->cpts, p_info->skb);
2597 
2598         p_info->rxtstamp_complete = true;
2599 
2600         return 0;
2601 }
2602 
2603 static int gbe_hwtstamp_get(struct gbe_intf *gbe_intf, struct ifreq *ifr)
2604 {
2605         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2606         struct cpts *cpts = gbe_dev->cpts;
2607         struct hwtstamp_config cfg;
2608 
2609         if (!cpts)
2610                 return -EOPNOTSUPP;
2611 
2612         cfg.flags = 0;
2613         cfg.tx_type = gbe_dev->tx_ts_enabled ? HWTSTAMP_TX_ON : HWTSTAMP_TX_OFF;
2614         cfg.rx_filter = gbe_dev->rx_ts_enabled;
2615 
2616         return copy_to_user(ifr->ifr_data, &cfg, sizeof(cfg)) ? -EFAULT : 0;
2617 }
2618 
2619 static void gbe_hwtstamp(struct gbe_intf *gbe_intf)
2620 {
2621         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2622         struct gbe_slave *slave = gbe_intf->slave;
2623         u32 ts_en, seq_id, ctl;
2624 
2625         if (!gbe_dev->rx_ts_enabled &&
2626             !gbe_dev->tx_ts_enabled) {
2627                 writel(0, GBE_REG_ADDR(slave, port_regs, ts_ctl));
2628                 return;
2629         }
2630 
2631         seq_id = (30 << TS_SEQ_ID_OFS_SHIFT) | ETH_P_1588;
2632         ts_en = EVENT_MSG_BITS << TS_MSG_TYPE_EN_SHIFT;
2633         ctl = ETH_P_1588 | TS_TTL_NONZERO |
2634                 (slave->ts_ctl.dst_port_map << TS_CTL_DST_PORT_SHIFT) |
2635                 (slave->ts_ctl.uni ?  TS_UNI_EN :
2636                         slave->ts_ctl.maddr_map << TS_CTL_MADDR_SHIFT);
2637 
2638         if (gbe_dev->tx_ts_enabled)
2639                 ts_en |= (TS_TX_ANX_ALL_EN | TS_TX_VLAN_LT1_EN);
2640 
2641         if (gbe_dev->rx_ts_enabled)
2642                 ts_en |= (TS_RX_ANX_ALL_EN | TS_RX_VLAN_LT1_EN);
2643 
2644         writel(ts_en,  GBE_REG_ADDR(slave, port_regs, ts_ctl));
2645         writel(seq_id, GBE_REG_ADDR(slave, port_regs, ts_seq_ltype));
2646         writel(ctl,    GBE_REG_ADDR(slave, port_regs, ts_ctl_ltype2));
2647 }
2648 
2649 static int gbe_hwtstamp_set(struct gbe_intf *gbe_intf, struct ifreq *ifr)
2650 {
2651         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2652         struct cpts *cpts = gbe_dev->cpts;
2653         struct hwtstamp_config cfg;
2654 
2655         if (!cpts)
2656                 return -EOPNOTSUPP;
2657 
2658         if (copy_from_user(&cfg, ifr->ifr_data, sizeof(cfg)))
2659                 return -EFAULT;
2660 
2661         /* reserved for future extensions */
2662         if (cfg.flags)
2663                 return -EINVAL;
2664 
2665         switch (cfg.tx_type) {
2666         case HWTSTAMP_TX_OFF:
2667                 gbe_dev->tx_ts_enabled = 0;
2668                 break;
2669         case HWTSTAMP_TX_ON:
2670                 gbe_dev->tx_ts_enabled = 1;
2671                 break;
2672         default:
2673                 return -ERANGE;
2674         }
2675 
2676         switch (cfg.rx_filter) {
2677         case HWTSTAMP_FILTER_NONE:
2678                 gbe_dev->rx_ts_enabled = HWTSTAMP_FILTER_NONE;
2679                 break;
2680         case HWTSTAMP_FILTER_PTP_V1_L4_EVENT:
2681         case HWTSTAMP_FILTER_PTP_V1_L4_SYNC:
2682         case HWTSTAMP_FILTER_PTP_V1_L4_DELAY_REQ:
2683                 gbe_dev->rx_ts_enabled = HWTSTAMP_FILTER_PTP_V1_L4_EVENT;
2684                 cfg.rx_filter = HWTSTAMP_FILTER_PTP_V1_L4_EVENT;
2685                 break;
2686         case HWTSTAMP_FILTER_PTP_V2_L4_EVENT:
2687         case HWTSTAMP_FILTER_PTP_V2_L4_SYNC:
2688         case HWTSTAMP_FILTER_PTP_V2_L4_DELAY_REQ:
2689         case HWTSTAMP_FILTER_PTP_V2_L2_EVENT:
2690         case HWTSTAMP_FILTER_PTP_V2_L2_SYNC:
2691         case HWTSTAMP_FILTER_PTP_V2_L2_DELAY_REQ:
2692         case HWTSTAMP_FILTER_PTP_V2_EVENT:
2693         case HWTSTAMP_FILTER_PTP_V2_SYNC:
2694         case HWTSTAMP_FILTER_PTP_V2_DELAY_REQ:
2695                 gbe_dev->rx_ts_enabled = HWTSTAMP_FILTER_PTP_V2_EVENT;
2696                 cfg.rx_filter = HWTSTAMP_FILTER_PTP_V2_EVENT;
2697                 break;
2698         default:
2699                 return -ERANGE;
2700         }
2701 
2702         gbe_hwtstamp(gbe_intf);
2703 
2704         return copy_to_user(ifr->ifr_data, &cfg, sizeof(cfg)) ? -EFAULT : 0;
2705 }
2706 
2707 static void gbe_register_cpts(struct gbe_priv *gbe_dev)
2708 {
2709         if (!gbe_dev->cpts)
2710                 return;
2711 
2712         if (gbe_dev->cpts_registered > 0)
2713                 goto done;
2714 
2715         if (cpts_register(gbe_dev->cpts)) {
2716                 dev_err(gbe_dev->dev, "error registering cpts device\n");
2717                 return;
2718         }
2719 
2720 done:
2721         ++gbe_dev->cpts_registered;
2722 }
2723 
2724 static void gbe_unregister_cpts(struct gbe_priv *gbe_dev)
2725 {
2726         if (!gbe_dev->cpts || (gbe_dev->cpts_registered <= 0))
2727                 return;
2728 
2729         if (--gbe_dev->cpts_registered)
2730                 return;
2731 
2732         cpts_unregister(gbe_dev->cpts);
2733 }
2734 #else
2735 static inline int gbe_txtstamp_mark_pkt(struct gbe_intf *gbe_intf,
2736                                         struct netcp_packet *p_info)
2737 {
2738         return 0;
2739 }
2740 
2741 static inline int gbe_rxtstamp(struct gbe_intf *gbe_intf,
2742                                struct netcp_packet *p_info)
2743 {
2744         return 0;
2745 }
2746 
2747 static inline int gbe_hwtstamp(struct gbe_intf *gbe_intf,
2748                                struct ifreq *ifr, int cmd)
2749 {
2750         return -EOPNOTSUPP;
2751 }
2752 
2753 static inline void gbe_register_cpts(struct gbe_priv *gbe_dev)
2754 {
2755 }
2756 
2757 static inline void gbe_unregister_cpts(struct gbe_priv *gbe_dev)
2758 {
2759 }
2760 
2761 static inline int gbe_hwtstamp_get(struct gbe_intf *gbe_intf, struct ifreq *req)
2762 {
2763         return -EOPNOTSUPP;
2764 }
2765 
2766 static inline int gbe_hwtstamp_set(struct gbe_intf *gbe_intf, struct ifreq *req)
2767 {
2768         return -EOPNOTSUPP;
2769 }
2770 #endif /* CONFIG_TI_CPTS */
2771 
2772 static int gbe_set_rx_mode(void *intf_priv, bool promisc)
2773 {
2774         struct gbe_intf *gbe_intf = intf_priv;
2775         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2776         struct cpsw_ale *ale = gbe_dev->ale;
2777         unsigned long timeout;
2778         int i, ret = -ETIMEDOUT;
2779 
2780         /* Disable(1)/Enable(0) Learn for all ports (host is port 0 and
2781          * slaves are port 1 and up
2782          */
2783         for (i = 0; i <= gbe_dev->num_slaves; i++) {
2784                 cpsw_ale_control_set(ale, i,
2785                                      ALE_PORT_NOLEARN, !!promisc);
2786                 cpsw_ale_control_set(ale, i,
2787                                      ALE_PORT_NO_SA_UPDATE, !!promisc);
2788         }
2789 
2790         if (!promisc) {
2791                 /* Don't Flood All Unicast Packets to Host port */
2792                 cpsw_ale_control_set(ale, 0, ALE_P0_UNI_FLOOD, 0);
2793                 dev_vdbg(gbe_dev->dev, "promiscuous mode disabled\n");
2794                 return 0;
2795         }
2796 
2797         timeout = jiffies + HZ;
2798 
2799         /* Clear All Untouched entries */
2800         cpsw_ale_control_set(ale, 0, ALE_AGEOUT, 1);
2801         do {
2802                 cpu_relax();
2803                 if (cpsw_ale_control_get(ale, 0, ALE_AGEOUT)) {
2804                         ret = 0;
2805                         break;
2806                 }
2807 
2808         } while (time_after(timeout, jiffies));
2809 
2810         /* Make sure it is not a false timeout */
2811         if (ret && !cpsw_ale_control_get(ale, 0, ALE_AGEOUT))
2812                 return ret;
2813 
2814         cpsw_ale_control_set(ale, 0, ALE_AGEOUT, 1);
2815 
2816         /* Clear all mcast from ALE */
2817         cpsw_ale_flush_multicast(ale,
2818                                  GBE_PORT_MASK(gbe_dev->ale_ports),
2819                                  -1);
2820 
2821         /* Flood All Unicast Packets to Host port */
2822         cpsw_ale_control_set(ale, 0, ALE_P0_UNI_FLOOD, 1);
2823         dev_vdbg(gbe_dev->dev, "promiscuous mode enabled\n");
2824         return ret;
2825 }
2826 
2827 static int gbe_ioctl(void *intf_priv, struct ifreq *req, int cmd)
2828 {
2829         struct gbe_intf *gbe_intf = intf_priv;
2830         struct phy_device *phy = gbe_intf->slave->phy;
2831 
2832         if (!phy || !phy->drv->hwtstamp) {
2833                 switch (cmd) {
2834                 case SIOCGHWTSTAMP:
2835                         return gbe_hwtstamp_get(gbe_intf, req);
2836                 case SIOCSHWTSTAMP:
2837                         return gbe_hwtstamp_set(gbe_intf, req);
2838                 }
2839         }
2840 
2841         if (phy)
2842                 return phy_mii_ioctl(phy, req, cmd);
2843 
2844         return -EOPNOTSUPP;
2845 }
2846 
2847 static void netcp_ethss_timer(struct timer_list *t)
2848 {
2849         struct gbe_priv *gbe_dev = from_timer(gbe_dev, t, timer);
2850         struct gbe_intf *gbe_intf;
2851         struct gbe_slave *slave;
2852 
2853         /* Check & update SGMII link state of interfaces */
2854         for_each_intf(gbe_intf, gbe_dev) {
2855                 if (!gbe_intf->slave->open)
2856                         continue;
2857                 netcp_ethss_update_link_state(gbe_dev, gbe_intf->slave,
2858                                               gbe_intf->ndev);
2859         }
2860 
2861         /* Check & update SGMII link state of secondary ports */
2862         for_each_sec_slave(slave, gbe_dev) {
2863                 netcp_ethss_update_link_state(gbe_dev, slave, NULL);
2864         }
2865 
2866         /* A timer runs as a BH, no need to block them */
2867         spin_lock(&gbe_dev->hw_stats_lock);
2868 
2869         if (IS_SS_ID_VER_14(gbe_dev))
2870                 gbe_update_stats_ver14(gbe_dev, NULL);
2871         else
2872                 gbe_update_stats(gbe_dev, NULL);
2873 
2874         spin_unlock(&gbe_dev->hw_stats_lock);
2875 
2876         gbe_dev->timer.expires  = jiffies + GBE_TIMER_INTERVAL;
2877         add_timer(&gbe_dev->timer);
2878 }
2879 
2880 static int gbe_txhook(int order, void *data, struct netcp_packet *p_info)
2881 {
2882         struct gbe_intf *gbe_intf = data;
2883 
2884         p_info->tx_pipe = &gbe_intf->tx_pipe;
2885 
2886         return gbe_txtstamp_mark_pkt(gbe_intf, p_info);
2887 }
2888 
2889 static int gbe_rxhook(int order, void *data, struct netcp_packet *p_info)
2890 {
2891         struct gbe_intf *gbe_intf = data;
2892 
2893         return gbe_rxtstamp(gbe_intf, p_info);
2894 }
2895 
2896 static int gbe_open(void *intf_priv, struct net_device *ndev)
2897 {
2898         struct gbe_intf *gbe_intf = intf_priv;
2899         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2900         struct netcp_intf *netcp = netdev_priv(ndev);
2901         struct gbe_slave *slave = gbe_intf->slave;
2902         int port_num = slave->port_num;
2903         u32 reg, val;
2904         int ret;
2905 
2906         reg = readl(GBE_REG_ADDR(gbe_dev, switch_regs, id_ver));
2907         dev_dbg(gbe_dev->dev, "initializing gbe version %d.%d (%d) GBE identification value 0x%x\n",
2908                 GBE_MAJOR_VERSION(reg), GBE_MINOR_VERSION(reg),
2909                 GBE_RTL_VERSION(reg), GBE_IDENT(reg));
2910 
2911         /* For 10G and on NetCP 1.5, use directed to port */
2912         if (IS_SS_ID_XGBE(gbe_dev) || IS_SS_ID_MU(gbe_dev))
2913                 gbe_intf->tx_pipe.flags = SWITCH_TO_PORT_IN_TAGINFO;
2914 
2915         if (gbe_dev->enable_ale)
2916                 gbe_intf->tx_pipe.switch_to_port = 0;
2917         else
2918                 gbe_intf->tx_pipe.switch_to_port = port_num;
2919 
2920         dev_dbg(gbe_dev->dev,
2921                 "opened TX channel %s: %p with to port %d, flags %d\n",
2922                 gbe_intf->tx_pipe.dma_chan_name,
2923                 gbe_intf->tx_pipe.dma_channel,
2924                 gbe_intf->tx_pipe.switch_to_port,
2925                 gbe_intf->tx_pipe.flags);
2926 
2927         gbe_slave_stop(gbe_intf);
2928 
2929         /* disable priority elevation and enable statistics on all ports */
2930         writel(0, GBE_REG_ADDR(gbe_dev, switch_regs, ptype));
2931 
2932         /* Control register */
2933         val = GBE_CTL_P0_ENABLE;
2934         if (IS_SS_ID_MU(gbe_dev)) {
2935                 val |= ETH_SW_CTL_P0_TX_CRC_REMOVE;
2936                 netcp->hw_cap = ETH_SW_CAN_REMOVE_ETH_FCS;
2937         }
2938         writel(val, GBE_REG_ADDR(gbe_dev, switch_regs, control));
2939 
2940         /* All statistics enabled and STAT AB visible by default */
2941         writel(gbe_dev->stats_en_mask, GBE_REG_ADDR(gbe_dev, switch_regs,
2942                                                     stat_port_en));
2943 
2944         ret = gbe_slave_open(gbe_intf);
2945         if (ret)
2946                 goto fail;
2947 
2948         netcp_register_txhook(netcp, GBE_TXHOOK_ORDER, gbe_txhook, gbe_intf);
2949         netcp_register_rxhook(netcp, GBE_RXHOOK_ORDER, gbe_rxhook, gbe_intf);
2950 
2951         slave->open = true;
2952         netcp_ethss_update_link_state(gbe_dev, slave, ndev);
2953 
2954         gbe_register_cpts(gbe_dev);
2955 
2956         return 0;
2957 
2958 fail:
2959         gbe_slave_stop(gbe_intf);
2960         return ret;
2961 }
2962 
2963 static int gbe_close(void *intf_priv, struct net_device *ndev)
2964 {
2965         struct gbe_intf *gbe_intf = intf_priv;
2966         struct netcp_intf *netcp = netdev_priv(ndev);
2967         struct gbe_priv *gbe_dev = gbe_intf->gbe_dev;
2968 
2969         gbe_unregister_cpts(gbe_dev);
2970 
2971         gbe_slave_stop(gbe_intf);
2972 
2973         netcp_unregister_rxhook(netcp, GBE_RXHOOK_ORDER, gbe_rxhook, gbe_intf);
2974         netcp_unregister_txhook(netcp, GBE_TXHOOK_ORDER, gbe_txhook, gbe_intf);
2975 
2976         gbe_intf->slave->open = false;
2977         atomic_set(&gbe_intf->slave->link_state, NETCP_LINK_STATE_INVALID);
2978         return 0;
2979 }
2980 
2981 #if IS_ENABLED(CONFIG_TI_CPTS)
2982 static void init_slave_ts_ctl(struct gbe_slave *slave)
2983 {
2984         slave->ts_ctl.uni = 1;
2985         slave->ts_ctl.dst_port_map =
2986                 (TS_CTL_DST_PORT >> TS_CTL_DST_PORT_SHIFT) & 0x3;
2987         slave->ts_ctl.maddr_map =
2988                 (TS_CTL_MADDR_ALL >> TS_CTL_MADDR_SHIFT) & 0x1f;
2989 }
2990 
2991 #else
2992 static void init_slave_ts_ctl(struct gbe_slave *slave)
2993 {
2994 }
2995 #endif /* CONFIG_TI_CPTS */
2996 
2997 static int init_slave(struct gbe_priv *gbe_dev, struct gbe_slave *slave,
2998                       struct device_node *node)
2999 {
3000         int port_reg_num;
3001         u32 port_reg_ofs, emac_reg_ofs;
3002         u32 port_reg_blk_sz, emac_reg_blk_sz;
3003 
3004         if (of_property_read_u32(node, "slave-port", &slave->slave_num)) {
3005                 dev_err(gbe_dev->dev, "missing slave-port parameter\n");
3006                 return -EINVAL;
3007         }
3008 
3009         if (of_property_read_u32(node, "link-interface",
3010                                  &slave->link_interface)) {
3011                 dev_warn(gbe_dev->dev,
3012                          "missing link-interface value defaulting to 1G mac-phy link\n");
3013                 slave->link_interface = SGMII_LINK_MAC_PHY;
3014         }
3015 
3016         slave->node = node;
3017         slave->open = false;
3018         if ((slave->link_interface == SGMII_LINK_MAC_PHY) ||
3019             (slave->link_interface == RGMII_LINK_MAC_PHY) ||
3020             (slave->link_interface == XGMII_LINK_MAC_PHY))
3021                 slave->phy_node = of_parse_phandle(node, "phy-handle", 0);
3022         slave->port_num = gbe_get_slave_port(gbe_dev, slave->slave_num);
3023 
3024         if (slave->link_interface >= XGMII_LINK_MAC_PHY)
3025                 slave->mac_control = GBE_DEF_10G_MAC_CONTROL;
3026         else
3027                 slave->mac_control = GBE_DEF_1G_MAC_CONTROL;
3028 
3029         /* Emac regs memmap are contiguous but port regs are not */
3030         port_reg_num = slave->slave_num;
3031         if (IS_SS_ID_VER_14(gbe_dev)) {
3032                 if (slave->slave_num > 1) {
3033                         port_reg_ofs = GBE13_SLAVE_PORT2_OFFSET;
3034                         port_reg_num -= 2;
3035                 } else {
3036                         port_reg_ofs = GBE13_SLAVE_PORT_OFFSET;
3037                 }
3038                 emac_reg_ofs = GBE13_EMAC_OFFSET;
3039                 port_reg_blk_sz = 0x30;
3040                 emac_reg_blk_sz = 0x40;
3041         } else if (IS_SS_ID_MU(gbe_dev)) {
3042                 port_reg_ofs = GBENU_SLAVE_PORT_OFFSET;
3043                 emac_reg_ofs = GBENU_EMAC_OFFSET;
3044                 port_reg_blk_sz = 0x1000;
3045                 emac_reg_blk_sz = 0x1000;
3046         } else if (IS_SS_ID_XGBE(gbe_dev)) {
3047                 port_reg_ofs = XGBE10_SLAVE_PORT_OFFSET;
3048                 emac_reg_ofs = XGBE10_EMAC_OFFSET;
3049                 port_reg_blk_sz = 0x30;
3050                 emac_reg_blk_sz = 0x40;
3051         } else {
3052                 dev_err(gbe_dev->dev, "unknown ethss(0x%x)\n",
3053                         gbe_dev->ss_version);
3054                 return -EINVAL;
3055         }
3056 
3057         slave->port_regs = gbe_dev->switch_regs + port_reg_ofs +
3058                                 (port_reg_blk_sz * port_reg_num);
3059         slave->emac_regs = gbe_dev->switch_regs + emac_reg_ofs +
3060                                 (emac_reg_blk_sz * slave->slave_num);
3061 
3062         if (IS_SS_ID_VER_14(gbe_dev)) {
3063                 /* Initialize  slave port register offsets */
3064                 GBE_SET_REG_OFS(slave, port_regs, port_vlan);
3065                 GBE_SET_REG_OFS(slave, port_regs, tx_pri_map);
3066                 GBE_SET_REG_OFS(slave, port_regs, sa_lo);
3067                 GBE_SET_REG_OFS(slave, port_regs, sa_hi);
3068                 GBE_SET_REG_OFS(slave, port_regs, ts_ctl);
3069                 GBE_SET_REG_OFS(slave, port_regs, ts_seq_ltype);
3070                 GBE_SET_REG_OFS(slave, port_regs, ts_vlan);
3071                 GBE_SET_REG_OFS(slave, port_regs, ts_ctl_ltype2);
3072                 GBE_SET_REG_OFS(slave, port_regs, ts_ctl2);
3073 
3074                 /* Initialize EMAC register offsets */
3075                 GBE_SET_REG_OFS(slave, emac_regs, mac_control);
3076                 GBE_SET_REG_OFS(slave, emac_regs, soft_reset);
3077                 GBE_SET_REG_OFS(slave, emac_regs, rx_maxlen);
3078 
3079         } else if (IS_SS_ID_MU(gbe_dev)) {
3080                 /* Initialize  slave port register offsets */
3081                 GBENU_SET_REG_OFS(slave, port_regs, port_vlan);
3082                 GBENU_SET_REG_OFS(slave, port_regs, tx_pri_map);
3083                 GBENU_SET_REG_OFS(slave, port_regs, rx_pri_map);
3084                 GBENU_SET_REG_OFS(slave, port_regs, sa_lo);
3085                 GBENU_SET_REG_OFS(slave, port_regs, sa_hi);
3086                 GBENU_SET_REG_OFS(slave, port_regs, ts_ctl);
3087                 GBENU_SET_REG_OFS(slave, port_regs, ts_seq_ltype);
3088                 GBENU_SET_REG_OFS(slave, port_regs, ts_vlan);
3089                 GBENU_SET_REG_OFS(slave, port_regs, ts_ctl_ltype2);
3090                 GBENU_SET_REG_OFS(slave, port_regs, ts_ctl2);
3091                 GBENU_SET_REG_OFS(slave, port_regs, rx_maxlen);
3092 
3093                 /* Initialize EMAC register offsets */
3094                 GBENU_SET_REG_OFS(slave, emac_regs, mac_control);
3095                 GBENU_SET_REG_OFS(slave, emac_regs, soft_reset);
3096 
3097         } else if (IS_SS_ID_XGBE(gbe_dev)) {
3098                 /* Initialize  slave port register offsets */
3099                 XGBE_SET_REG_OFS(slave, port_regs, port_vlan);
3100                 XGBE_SET_REG_OFS(slave, port_regs, tx_pri_map);
3101                 XGBE_SET_REG_OFS(slave, port_regs, sa_lo);
3102                 XGBE_SET_REG_OFS(slave, port_regs, sa_hi);
3103                 XGBE_SET_REG_OFS(slave, port_regs, ts_ctl);
3104                 XGBE_SET_REG_OFS(slave, port_regs, ts_seq_ltype);
3105                 XGBE_SET_REG_OFS(slave, port_regs, ts_vlan);
3106                 XGBE_SET_REG_OFS(slave, port_regs, ts_ctl_ltype2);
3107                 XGBE_SET_REG_OFS(slave, port_regs, ts_ctl2);
3108 
3109                 /* Initialize EMAC register offsets */
3110                 XGBE_SET_REG_OFS(slave, emac_regs, mac_control);
3111                 XGBE_SET_REG_OFS(slave, emac_regs, soft_reset);
3112                 XGBE_SET_REG_OFS(slave, emac_regs, rx_maxlen);
3113         }
3114 
3115         atomic_set(&slave->link_state, NETCP_LINK_STATE_INVALID);
3116 
3117         init_slave_ts_ctl(slave);
3118         return 0;
3119 }
3120 
3121 static void init_secondary_ports(struct gbe_priv *gbe_dev,
3122                                  struct device_node *node)
3123 {
3124         struct device *dev = gbe_dev->dev;
3125         phy_interface_t phy_mode;
3126         struct gbe_priv **priv;
3127         struct device_node *port;
3128         struct gbe_slave *slave;
3129         bool mac_phy_link = false;
3130 
3131         for_each_child_of_node(node, port) {
3132                 slave = devm_kzalloc(dev, sizeof(*slave), GFP_KERNEL);
3133                 if (!slave) {
3134                         dev_err(dev, "memory alloc failed for secondary port(%pOFn), skipping...\n",
3135                                 port);
3136                         continue;
3137                 }
3138 
3139                 if (init_slave(gbe_dev, slave, port)) {
3140                         dev_err(dev,
3141                                 "Failed to initialize secondary port(%pOFn), skipping...\n",
3142                                 port);
3143                         devm_kfree(dev, slave);
3144                         continue;
3145                 }
3146 
3147                 if (!IS_SS_ID_2U(gbe_dev))
3148                         gbe_sgmii_config(gbe_dev, slave);
3149                 gbe_port_reset(slave);
3150                 gbe_port_config(gbe_dev, slave, gbe_dev->rx_packet_max);
3151                 list_add_tail(&slave->slave_list, &gbe_dev->secondary_slaves);
3152                 gbe_dev->num_slaves++;
3153                 if ((slave->link_interface == SGMII_LINK_MAC_PHY) ||
3154                     (slave->link_interface == XGMII_LINK_MAC_PHY))
3155                         mac_phy_link = true;
3156 
3157                 slave->open = true;
3158                 if (gbe_dev->num_slaves >= gbe_dev->max_num_slaves) {
3159                         of_node_put(port);
3160                         break;
3161                 }
3162         }
3163 
3164         /* of_phy_connect() is needed only for MAC-PHY interface */
3165         if (!mac_phy_link)
3166                 return;
3167 
3168         /* Allocate dummy netdev device for attaching to phy device */
3169         gbe_dev->dummy_ndev = alloc_netdev(sizeof(gbe_dev), "dummy",
3170                                         NET_NAME_UNKNOWN, ether_setup);
3171         if (!gbe_dev->dummy_ndev) {
3172                 dev_err(dev,
3173                         "Failed to allocate dummy netdev for secondary ports, skipping phy_connect()...\n");
3174                 return;
3175         }
3176         priv = netdev_priv(gbe_dev->dummy_ndev);
3177         *priv = gbe_dev;
3178 
3179         if (slave->link_interface == SGMII_LINK_MAC_PHY) {
3180                 phy_mode = PHY_INTERFACE_MODE_SGMII;
3181                 slave->phy_port_t = PORT_MII;
3182         } else if (slave->link_interface == RGMII_LINK_MAC_PHY) {
3183                 phy_mode = PHY_INTERFACE_MODE_RGMII;
3184                 slave->phy_port_t = PORT_MII;
3185         } else {
3186                 phy_mode = PHY_INTERFACE_MODE_NA;
3187                 slave->phy_port_t = PORT_FIBRE;
3188         }
3189 
3190         for_each_sec_slave(slave, gbe_dev) {
3191                 if ((slave->link_interface != SGMII_LINK_MAC_PHY) &&
3192                     (slave->link_interface != RGMII_LINK_MAC_PHY) &&
3193                     (slave->link_interface != XGMII_LINK_MAC_PHY))
3194                         continue;
3195                 slave->phy =
3196                         of_phy_connect(gbe_dev->dummy_ndev,
3197                                        slave->phy_node,
3198                                        gbe_adjust_link_sec_slaves,
3199                                        0, phy_mode);
3200                 if (!slave->phy) {
3201                         dev_err(dev, "phy not found for slave %d\n",
3202                                 slave->slave_num);
3203                 } else {
3204                         dev_dbg(dev, "phy found: id is: 0x%s\n",
3205                                 phydev_name(slave->phy));
3206                         phy_start(slave->phy);
3207                 }
3208         }
3209 }
3210 
3211 static void free_secondary_ports(struct gbe_priv *gbe_dev)
3212 {
3213         struct gbe_slave *slave;
3214 
3215         while (!list_empty(&gbe_dev->secondary_slaves)) {
3216                 slave = first_sec_slave(gbe_dev);
3217 
3218                 if (slave->phy)
3219                         phy_disconnect(slave->phy);
3220                 list_del(&slave->slave_list);
3221         }
3222         if (gbe_dev->dummy_ndev)
3223                 free_netdev(gbe_dev->dummy_ndev);
3224 }
3225 
3226 static int set_xgbe_ethss10_priv(struct gbe_priv *gbe_dev,
3227                                  struct device_node *node)
3228 {
3229         struct resource res;
3230         void __iomem *regs;
3231         int ret, i;
3232 
3233         ret = of_address_to_resource(node, XGBE_SS_REG_INDEX, &res);
3234         if (ret) {
3235                 dev_err(gbe_dev->dev,
3236                         "Can't xlate xgbe of node(%pOFn) ss address at %d\n",
3237                         node, XGBE_SS_REG_INDEX);
3238                 return ret;
3239         }
3240 
3241         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3242         if (IS_ERR(regs)) {
3243                 dev_err(gbe_dev->dev, "Failed to map xgbe ss register base\n");
3244                 return PTR_ERR(regs);
3245         }
3246         gbe_dev->ss_regs = regs;
3247 
3248         ret = of_address_to_resource(node, XGBE_SM_REG_INDEX, &res);
3249         if (ret) {
3250                 dev_err(gbe_dev->dev,
3251                         "Can't xlate xgbe of node(%pOFn) sm address at %d\n",
3252                         node, XGBE_SM_REG_INDEX);
3253                 return ret;
3254         }
3255 
3256         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3257         if (IS_ERR(regs)) {
3258                 dev_err(gbe_dev->dev, "Failed to map xgbe sm register base\n");
3259                 return PTR_ERR(regs);
3260         }
3261         gbe_dev->switch_regs = regs;
3262 
3263         ret = of_address_to_resource(node, XGBE_SERDES_REG_INDEX, &res);
3264         if (ret) {
3265                 dev_err(gbe_dev->dev,
3266                         "Can't xlate xgbe serdes of node(%pOFn) address at %d\n",
3267                         node, XGBE_SERDES_REG_INDEX);
3268                 return ret;
3269         }
3270 
3271         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3272         if (IS_ERR(regs)) {
3273                 dev_err(gbe_dev->dev, "Failed to map xgbe serdes register base\n");
3274                 return PTR_ERR(regs);
3275         }
3276         gbe_dev->xgbe_serdes_regs = regs;
3277 
3278         gbe_dev->num_stats_mods = gbe_dev->max_num_ports;
3279         gbe_dev->et_stats = xgbe10_et_stats;
3280         gbe_dev->num_et_stats = ARRAY_SIZE(xgbe10_et_stats);
3281 
3282         gbe_dev->hw_stats = devm_kcalloc(gbe_dev->dev,
3283                                          gbe_dev->num_et_stats, sizeof(u64),
3284                                          GFP_KERNEL);
3285         if (!gbe_dev->hw_stats) {
3286                 dev_err(gbe_dev->dev, "hw_stats memory allocation failed\n");
3287                 return -ENOMEM;
3288         }
3289 
3290         gbe_dev->hw_stats_prev =
3291                 devm_kcalloc(gbe_dev->dev,
3292                              gbe_dev->num_et_stats, sizeof(u32),
3293                              GFP_KERNEL);
3294         if (!gbe_dev->hw_stats_prev) {
3295                 dev_err(gbe_dev->dev,
3296                         "hw_stats_prev memory allocation failed\n");
3297                 return -ENOMEM;
3298         }
3299 
3300         gbe_dev->ss_version = XGBE_SS_VERSION_10;
3301         gbe_dev->sgmii_port_regs = gbe_dev->ss_regs +
3302                                         XGBE10_SGMII_MODULE_OFFSET;
3303         gbe_dev->host_port_regs = gbe_dev->ss_regs + XGBE10_HOST_PORT_OFFSET;
3304 
3305         for (i = 0; i < gbe_dev->max_num_ports; i++)
3306                 gbe_dev->hw_stats_regs[i] = gbe_dev->switch_regs +
3307                         XGBE10_HW_STATS_OFFSET + (GBE_HW_STATS_REG_MAP_SZ * i);
3308 
3309         gbe_dev->ale_reg = gbe_dev->switch_regs + XGBE10_ALE_OFFSET;
3310         gbe_dev->cpts_reg = gbe_dev->switch_regs + XGBE10_CPTS_OFFSET;
3311         gbe_dev->ale_ports = gbe_dev->max_num_ports;
3312         gbe_dev->host_port = XGBE10_HOST_PORT_NUM;
3313         gbe_dev->ale_entries = XGBE10_NUM_ALE_ENTRIES;
3314         gbe_dev->stats_en_mask = (1 << (gbe_dev->max_num_ports)) - 1;
3315 
3316         /* Subsystem registers */
3317         XGBE_SET_REG_OFS(gbe_dev, ss_regs, id_ver);
3318         XGBE_SET_REG_OFS(gbe_dev, ss_regs, control);
3319 
3320         /* Switch module registers */
3321         XGBE_SET_REG_OFS(gbe_dev, switch_regs, id_ver);
3322         XGBE_SET_REG_OFS(gbe_dev, switch_regs, control);
3323         XGBE_SET_REG_OFS(gbe_dev, switch_regs, ptype);
3324         XGBE_SET_REG_OFS(gbe_dev, switch_regs, stat_port_en);
3325         XGBE_SET_REG_OFS(gbe_dev, switch_regs, flow_control);
3326 
3327         /* Host port registers */
3328         XGBE_SET_REG_OFS(gbe_dev, host_port_regs, port_vlan);
3329         XGBE_SET_REG_OFS(gbe_dev, host_port_regs, tx_pri_map);
3330         XGBE_SET_REG_OFS(gbe_dev, host_port_regs, rx_maxlen);
3331         return 0;
3332 }
3333 
3334 static int get_gbe_resource_version(struct gbe_priv *gbe_dev,
3335                                     struct device_node *node)
3336 {
3337         struct resource res;
3338         void __iomem *regs;
3339         int ret;
3340 
3341         ret = of_address_to_resource(node, GBE_SS_REG_INDEX, &res);
3342         if (ret) {
3343                 dev_err(gbe_dev->dev,
3344                         "Can't translate of node(%pOFn) of gbe ss address at %d\n",
3345                         node, GBE_SS_REG_INDEX);
3346                 return ret;
3347         }
3348 
3349         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3350         if (IS_ERR(regs)) {
3351                 dev_err(gbe_dev->dev, "Failed to map gbe register base\n");
3352                 return PTR_ERR(regs);
3353         }
3354         gbe_dev->ss_regs = regs;
3355         gbe_dev->ss_version = readl(gbe_dev->ss_regs);
3356         return 0;
3357 }
3358 
3359 static int set_gbe_ethss14_priv(struct gbe_priv *gbe_dev,
3360                                 struct device_node *node)
3361 {
3362         struct resource res;
3363         void __iomem *regs;
3364         int i, ret;
3365 
3366         ret = of_address_to_resource(node, GBE_SGMII34_REG_INDEX, &res);
3367         if (ret) {
3368                 dev_err(gbe_dev->dev,
3369                         "Can't translate of gbe node(%pOFn) address at index %d\n",
3370                         node, GBE_SGMII34_REG_INDEX);
3371                 return ret;
3372         }
3373 
3374         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3375         if (IS_ERR(regs)) {
3376                 dev_err(gbe_dev->dev,
3377                         "Failed to map gbe sgmii port34 register base\n");
3378                 return PTR_ERR(regs);
3379         }
3380         gbe_dev->sgmii_port34_regs = regs;
3381 
3382         ret = of_address_to_resource(node, GBE_SM_REG_INDEX, &res);
3383         if (ret) {
3384                 dev_err(gbe_dev->dev,
3385                         "Can't translate of gbe node(%pOFn) address at index %d\n",
3386                         node, GBE_SM_REG_INDEX);
3387                 return ret;
3388         }
3389 
3390         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3391         if (IS_ERR(regs)) {
3392                 dev_err(gbe_dev->dev,
3393                         "Failed to map gbe switch module register base\n");
3394                 return PTR_ERR(regs);
3395         }
3396         gbe_dev->switch_regs = regs;
3397 
3398         gbe_dev->num_stats_mods = gbe_dev->max_num_slaves;
3399         gbe_dev->et_stats = gbe13_et_stats;
3400         gbe_dev->num_et_stats = ARRAY_SIZE(gbe13_et_stats);
3401 
3402         gbe_dev->hw_stats = devm_kcalloc(gbe_dev->dev,
3403                                          gbe_dev->num_et_stats, sizeof(u64),
3404                                          GFP_KERNEL);
3405         if (!gbe_dev->hw_stats) {
3406                 dev_err(gbe_dev->dev, "hw_stats memory allocation failed\n");
3407                 return -ENOMEM;
3408         }
3409 
3410         gbe_dev->hw_stats_prev =
3411                 devm_kcalloc(gbe_dev->dev,
3412                              gbe_dev->num_et_stats, sizeof(u32),
3413                              GFP_KERNEL);
3414         if (!gbe_dev->hw_stats_prev) {
3415                 dev_err(gbe_dev->dev,
3416                         "hw_stats_prev memory allocation failed\n");
3417                 return -ENOMEM;
3418         }
3419 
3420         gbe_dev->sgmii_port_regs = gbe_dev->ss_regs + GBE13_SGMII_MODULE_OFFSET;
3421         gbe_dev->host_port_regs = gbe_dev->switch_regs + GBE13_HOST_PORT_OFFSET;
3422 
3423         /* K2HK has only 2 hw stats modules visible at a time, so
3424          * module 0 & 2 points to one base and
3425          * module 1 & 3 points to the other base
3426          */
3427         for (i = 0; i < gbe_dev->max_num_slaves; i++) {
3428                 gbe_dev->hw_stats_regs[i] =
3429                         gbe_dev->switch_regs + GBE13_HW_STATS_OFFSET +
3430                         (GBE_HW_STATS_REG_MAP_SZ * (i & 0x1));
3431         }
3432 
3433         gbe_dev->cpts_reg = gbe_dev->switch_regs + GBE13_CPTS_OFFSET;
3434         gbe_dev->ale_reg = gbe_dev->switch_regs + GBE13_ALE_OFFSET;
3435         gbe_dev->ale_ports = gbe_dev->max_num_ports;
3436         gbe_dev->host_port = GBE13_HOST_PORT_NUM;
3437         gbe_dev->ale_entries = GBE13_NUM_ALE_ENTRIES;
3438         gbe_dev->stats_en_mask = GBE13_REG_VAL_STAT_ENABLE_ALL;
3439 
3440         /* Subsystem registers */
3441         GBE_SET_REG_OFS(gbe_dev, ss_regs, id_ver);
3442 
3443         /* Switch module registers */
3444         GBE_SET_REG_OFS(gbe_dev, switch_regs, id_ver);
3445         GBE_SET_REG_OFS(gbe_dev, switch_regs, control);
3446         GBE_SET_REG_OFS(gbe_dev, switch_regs, soft_reset);
3447         GBE_SET_REG_OFS(gbe_dev, switch_regs, stat_port_en);
3448         GBE_SET_REG_OFS(gbe_dev, switch_regs, ptype);
3449         GBE_SET_REG_OFS(gbe_dev, switch_regs, flow_control);
3450 
3451         /* Host port registers */
3452         GBE_SET_REG_OFS(gbe_dev, host_port_regs, port_vlan);
3453         GBE_SET_REG_OFS(gbe_dev, host_port_regs, rx_maxlen);
3454         return 0;
3455 }
3456 
3457 static int set_gbenu_ethss_priv(struct gbe_priv *gbe_dev,
3458                                 struct device_node *node)
3459 {
3460         struct resource res;
3461         void __iomem *regs;
3462         int i, ret;
3463 
3464         gbe_dev->num_stats_mods = gbe_dev->max_num_ports;
3465         gbe_dev->et_stats = gbenu_et_stats;
3466 
3467         if (IS_SS_ID_MU(gbe_dev))
3468                 gbe_dev->num_et_stats = GBENU_ET_STATS_HOST_SIZE +
3469                         (gbe_dev->max_num_slaves * GBENU_ET_STATS_PORT_SIZE);
3470         else
3471                 gbe_dev->num_et_stats = GBENU_ET_STATS_HOST_SIZE +
3472                                         GBENU_ET_STATS_PORT_SIZE;
3473 
3474         gbe_dev->hw_stats = devm_kcalloc(gbe_dev->dev,
3475                                          gbe_dev->num_et_stats, sizeof(u64),
3476                                          GFP_KERNEL);
3477         if (!gbe_dev->hw_stats) {
3478                 dev_err(gbe_dev->dev, "hw_stats memory allocation failed\n");
3479                 return -ENOMEM;
3480         }
3481 
3482         gbe_dev->hw_stats_prev =
3483                 devm_kcalloc(gbe_dev->dev,
3484                              gbe_dev->num_et_stats, sizeof(u32),
3485                              GFP_KERNEL);
3486         if (!gbe_dev->hw_stats_prev) {
3487                 dev_err(gbe_dev->dev,
3488                         "hw_stats_prev memory allocation failed\n");
3489                 return -ENOMEM;
3490         }
3491 
3492         ret = of_address_to_resource(node, GBENU_SM_REG_INDEX, &res);
3493         if (ret) {
3494                 dev_err(gbe_dev->dev,
3495                         "Can't translate of gbenu node(%pOFn) addr at index %d\n",
3496                         node, GBENU_SM_REG_INDEX);
3497                 return ret;
3498         }
3499 
3500         regs = devm_ioremap_resource(gbe_dev->dev, &res);
3501         if (IS_ERR(regs)) {
3502                 dev_err(gbe_dev->dev,
3503                         "Failed to map gbenu switch module register base\n");
3504                 return PTR_ERR(regs);
3505         }
3506         gbe_dev->switch_regs = regs;
3507 
3508         if (!IS_SS_ID_2U(gbe_dev))
3509                 gbe_dev->sgmii_port_regs =
3510                        gbe_dev->ss_regs + GBENU_SGMII_MODULE_OFFSET;
3511 
3512         /* Although sgmii modules are mem mapped to one contiguous
3513          * region on GBENU devices, setting sgmii_port34_regs allows
3514          * consistent code when accessing sgmii api
3515          */
3516         gbe_dev->sgmii_port34_regs = gbe_dev->sgmii_port_regs +
3517                                      (2 * GBENU_SGMII_MODULE_SIZE);
3518 
3519         gbe_dev->host_port_regs = gbe_dev->switch_regs + GBENU_HOST_PORT_OFFSET;
3520 
3521         for (i = 0; i < (gbe_dev->max_num_ports); i++)
3522                 gbe_dev->hw_stats_regs[i] = gbe_dev->switch_regs +
3523                         GBENU_HW_STATS_OFFSET + (GBENU_HW_STATS_REG_MAP_SZ * i);
3524 
3525         gbe_dev->cpts_reg = gbe_dev->switch_regs + GBENU_CPTS_OFFSET;
3526         gbe_dev->ale_reg = gbe_dev->switch_regs + GBENU_ALE_OFFSET;
3527         gbe_dev->ale_ports = gbe_dev->max_num_ports;
3528         gbe_dev->host_port = GBENU_HOST_PORT_NUM;
3529         gbe_dev->stats_en_mask = (1 << (gbe_dev->max_num_ports)) - 1;
3530 
3531         /* Subsystem registers */
3532         GBENU_SET_REG_OFS(gbe_dev, ss_regs, id_ver);
3533         /* ok to set for MU, but used by 2U only */
3534         GBENU_SET_REG_OFS(gbe_dev, ss_regs, rgmii_status);
3535 
3536         /* Switch module registers */
3537         GBENU_SET_REG_OFS(gbe_dev, switch_regs, id_ver);
3538         GBENU_SET_REG_OFS(gbe_dev, switch_regs, control);
3539         GBENU_SET_REG_OFS(gbe_dev, switch_regs, stat_port_en);
3540         GBENU_SET_REG_OFS(gbe_dev, switch_regs, ptype);
3541 
3542         /* Host port registers */
3543         GBENU_SET_REG_OFS(gbe_dev, host_port_regs, port_vlan);
3544         GBENU_SET_REG_OFS(gbe_dev, host_port_regs, rx_maxlen);
3545 
3546         /* For NU only.  2U does not need tx_pri_map.
3547          * NU cppi port 0 tx pkt streaming interface has (n-1)*8 egress threads
3548          * while 2U has only 1 such thread
3549          */
3550         GBENU_SET_REG_OFS(gbe_dev, host_port_regs, tx_pri_map);
3551         return 0;
3552 }
3553 
3554 static int gbe_probe(struct netcp_device *netcp_device, struct device *dev,
3555                      struct device_node *node, void **inst_priv)
3556 {
3557         struct device_node *interfaces, *interface, *cpts_node;
3558         struct device_node *secondary_ports;
3559         struct cpsw_ale_params ale_params;
3560         struct gbe_priv *gbe_dev;
3561         u32 slave_num;
3562         int i, ret = 0;
3563 
3564         if (!node) {
3565                 dev_err(dev, "device tree info unavailable\n");
3566                 return -ENODEV;
3567         }
3568 
3569         gbe_dev = devm_kzalloc(dev, sizeof(struct gbe_priv), GFP_KERNEL);
3570         if (!gbe_dev)
3571                 return -ENOMEM;
3572 
3573         if (of_device_is_compatible(node, "ti,netcp-gbe-5") ||
3574             of_device_is_compatible(node, "ti,netcp-gbe")) {
3575                 gbe_dev->max_num_slaves = 4;
3576         } else if (of_device_is_compatible(node, "ti,netcp-gbe-9")) {
3577                 gbe_dev->max_num_slaves = 8;
3578         } else if (of_device_is_compatible(node, "ti,netcp-gbe-2")) {
3579                 gbe_dev->max_num_slaves = 1;
3580                 gbe_module.set_rx_mode = gbe_set_rx_mode;
3581         } else if (of_device_is_compatible(node, "ti,netcp-xgbe")) {
3582                 gbe_dev->max_num_slaves = 2;
3583         } else {
3584                 dev_err(dev, "device tree node for unknown device\n");
3585                 return -EINVAL;
3586         }
3587         gbe_dev->max_num_ports = gbe_dev->max_num_slaves + 1;
3588 
3589         gbe_dev->dev = dev;
3590         gbe_dev->netcp_device = netcp_device;
3591         gbe_dev->rx_packet_max = NETCP_MAX_FRAME_SIZE;
3592 
3593         /* init the hw stats lock */
3594         spin_lock_init(&gbe_dev->hw_stats_lock);
3595 
3596         if (of_find_property(node, "enable-ale", NULL)) {
3597                 gbe_dev->enable_ale = true;
3598                 dev_info(dev, "ALE enabled\n");
3599         } else {
3600                 gbe_dev->enable_ale = false;
3601                 dev_dbg(dev, "ALE bypass enabled*\n");
3602         }
3603 
3604         ret = of_property_read_u32(node, "tx-queue",
3605                                    &gbe_dev->tx_queue_id);
3606         if (ret < 0) {
3607                 dev_err(dev, "missing tx_queue parameter\n");
3608                 gbe_dev->tx_queue_id = GBE_TX_QUEUE;
3609         }
3610 
3611         ret = of_property_read_string(node, "tx-channel",
3612                                       &gbe_dev->dma_chan_name);
3613         if (ret < 0) {
3614                 dev_err(dev, "missing \"tx-channel\" parameter\n");
3615                 return -EINVAL;
3616         }
3617 
3618         if (of_node_name_eq(node, "gbe")) {
3619                 ret = get_gbe_resource_version(gbe_dev, node);
3620                 if (ret)
3621                         return ret;
3622 
3623                 dev_dbg(dev, "ss_version: 0x%08x\n", gbe_dev->ss_version);
3624 
3625                 if (IS_SS_ID_VER_14(gbe_dev))
3626                         ret = set_gbe_ethss14_priv(gbe_dev, node);
3627                 else if (IS_SS_ID_MU(gbe_dev))
3628                         ret = set_gbenu_ethss_priv(gbe_dev, node);
3629                 else
3630                         ret = -ENODEV;
3631 
3632         } else if (of_node_name_eq(node, "xgbe")) {
3633                 ret = set_xgbe_ethss10_priv(gbe_dev, node);
3634                 if (ret)
3635                         return ret;
3636                 ret = netcp_xgbe_serdes_init(gbe_dev->xgbe_serdes_regs,
3637                                              gbe_dev->ss_regs);
3638         } else {
3639                 dev_err(dev, "unknown GBE node(%pOFn)\n", node);
3640                 ret = -ENODEV;
3641         }
3642 
3643         if (ret)
3644                 return ret;
3645 
3646         interfaces = of_get_child_by_name(node, "interfaces");
3647         if (!interfaces)
3648                 dev_err(dev, "could not find interfaces\n");
3649 
3650         ret = netcp_txpipe_init(&gbe_dev->tx_pipe, netcp_device,
3651                                 gbe_dev->dma_chan_name, gbe_dev->tx_queue_id);
3652         if (ret) {
3653                 of_node_put(interfaces);
3654                 return ret;
3655         }
3656 
3657         ret = netcp_txpipe_open(&gbe_dev->tx_pipe);
3658         if (ret) {
3659                 of_node_put(interfaces);
3660                 return ret;
3661         }
3662 
3663         /* Create network interfaces */
3664         INIT_LIST_HEAD(&gbe_dev->gbe_intf_head);
3665         for_each_child_of_node(interfaces, interface) {
3666                 ret = of_property_read_u32(interface, "slave-port", &slave_num);
3667                 if (ret) {
3668                         dev_err(dev, "missing slave-port parameter, skipping interface configuration for %pOFn\n",
3669                                 interface);
3670                         continue;
3671                 }
3672                 gbe_dev->num_slaves++;
3673                 if (gbe_dev->num_slaves >= gbe_dev->max_num_slaves) {
3674                         of_node_put(interface);
3675                         break;
3676                 }
3677         }
3678         of_node_put(interfaces);
3679 
3680         if (!gbe_dev->num_slaves)
3681                 dev_warn(dev, "No network interface configured\n");
3682 
3683         /* Initialize Secondary slave ports */
3684         secondary_ports = of_get_child_by_name(node, "secondary-slave-ports");
3685         INIT_LIST_HEAD(&gbe_dev->secondary_slaves);
3686         if (secondary_ports && (gbe_dev->num_slaves <  gbe_dev->max_num_slaves))
3687                 init_secondary_ports(gbe_dev, secondary_ports);
3688         of_node_put(secondary_ports);
3689 
3690         if (!gbe_dev->num_slaves) {
3691                 dev_err(dev,
3692                         "No network interface or secondary ports configured\n");
3693                 ret = -ENODEV;
3694                 goto free_sec_ports;
3695         }
3696 
3697         memset(&ale_params, 0, sizeof(ale_params));
3698         ale_params.dev          = gbe_dev->dev;
3699         ale_params.ale_regs     = gbe_dev->ale_reg;
3700         ale_params.ale_ageout   = GBE_DEFAULT_ALE_AGEOUT;
3701         ale_params.ale_entries  = gbe_dev->ale_entries;
3702         ale_params.ale_ports    = gbe_dev->ale_ports;
3703         if (IS_SS_ID_MU(gbe_dev)) {
3704                 ale_params.major_ver_mask = 0x7;
3705                 ale_params.nu_switch_ale = true;
3706         }
3707         gbe_dev->ale = cpsw_ale_create(&ale_params);
3708         if (!gbe_dev->ale) {
3709                 dev_err(gbe_dev->dev, "error initializing ale engine\n");
3710                 ret = -ENODEV;
3711                 goto free_sec_ports;
3712         } else {
3713                 dev_dbg(gbe_dev->dev, "Created a gbe ale engine\n");
3714         }
3715 
3716         cpts_node = of_get_child_by_name(node, "cpts");
3717         if (!cpts_node)
3718                 cpts_node = of_node_get(node);
3719 
3720         gbe_dev->cpts = cpts_create(gbe_dev->dev, gbe_dev->cpts_reg, cpts_node);
3721         of_node_put(cpts_node);
3722         if (IS_ENABLED(CONFIG_TI_CPTS) && IS_ERR(gbe_dev->cpts)) {
3723                 ret = PTR_ERR(gbe_dev->cpts);
3724                 goto free_sec_ports;
3725         }
3726 
3727         /* initialize host port */
3728         gbe_init_host_port(gbe_dev);
3729 
3730         spin_lock_bh(&gbe_dev->hw_stats_lock);
3731         for (i = 0; i < gbe_dev->num_stats_mods; i++) {
3732                 if (IS_SS_ID_VER_14(gbe_dev))
3733                         gbe_reset_mod_stats_ver14(gbe_dev, i);
3734                 else
3735                         gbe_reset_mod_stats(gbe_dev, i);
3736         }
3737         spin_unlock_bh(&gbe_dev->hw_stats_lock);
3738 
3739         timer_setup(&gbe_dev->timer, netcp_ethss_timer, 0);
3740         gbe_dev->timer.expires   = jiffies + GBE_TIMER_INTERVAL;
3741         add_timer(&gbe_dev->timer);
3742         *inst_priv = gbe_dev;
3743         return 0;
3744 
3745 free_sec_ports:
3746         free_secondary_ports(gbe_dev);
3747         return ret;
3748 }
3749 
3750 static int gbe_attach(void *inst_priv, struct net_device *ndev,
3751                       struct device_node *node, void **intf_priv)
3752 {
3753         struct gbe_priv *gbe_dev = inst_priv;
3754         struct gbe_intf *gbe_intf;
3755         int ret;
3756 
3757         if (!node) {
3758                 dev_err(gbe_dev->dev, "interface node not available\n");
3759                 return -ENODEV;
3760         }
3761 
3762         gbe_intf = devm_kzalloc(gbe_dev->dev, sizeof(*gbe_intf), GFP_KERNEL);
3763         if (!gbe_intf)
3764                 return -ENOMEM;
3765 
3766         gbe_intf->ndev = ndev;
3767         gbe_intf->dev = gbe_dev->dev;
3768         gbe_intf->gbe_dev = gbe_dev;
3769 
3770         gbe_intf->slave = devm_kzalloc(gbe_dev->dev,
3771                                         sizeof(*gbe_intf->slave),
3772                                         GFP_KERNEL);
3773         if (!gbe_intf->slave) {
3774                 ret = -ENOMEM;
3775                 goto fail;
3776         }
3777 
3778         if (init_slave(gbe_dev, gbe_intf->slave, node)) {
3779                 ret = -ENODEV;
3780                 goto fail;
3781         }
3782 
3783         gbe_intf->tx_pipe = gbe_dev->tx_pipe;
3784         ndev->ethtool_ops = &keystone_ethtool_ops;
3785         list_add_tail(&gbe_intf->gbe_intf_list, &gbe_dev->gbe_intf_head);
3786         *intf_priv = gbe_intf;
3787         return 0;
3788 
3789 fail:
3790         if (gbe_intf->slave)
3791                 devm_kfree(gbe_dev->dev, gbe_intf->slave);
3792         if (gbe_intf)
3793                 devm_kfree(gbe_dev->dev, gbe_intf);
3794         return ret;
3795 }
3796 
3797 static int gbe_release(void *intf_priv)
3798 {
3799         struct gbe_intf *gbe_intf = intf_priv;
3800 
3801         gbe_intf->ndev->ethtool_ops = NULL;
3802         list_del(&gbe_intf->gbe_intf_list);
3803         devm_kfree(gbe_intf->dev, gbe_intf->slave);
3804         devm_kfree(gbe_intf->dev, gbe_intf);
3805         return 0;
3806 }
3807 
3808 static int gbe_remove(struct netcp_device *netcp_device, void *inst_priv)
3809 {
3810         struct gbe_priv *gbe_dev = inst_priv;
3811 
3812         del_timer_sync(&gbe_dev->timer);
3813         cpts_release(gbe_dev->cpts);
3814         cpsw_ale_stop(gbe_dev->ale);
3815         netcp_txpipe_close(&gbe_dev->tx_pipe);
3816         free_secondary_ports(gbe_dev);
3817 
3818         if (!list_empty(&gbe_dev->gbe_intf_head))
3819                 dev_alert(gbe_dev->dev,
3820                           "unreleased ethss interfaces present\n");
3821 
3822         return 0;
3823 }
3824 
3825 static struct netcp_module gbe_module = {
3826         .name           = GBE_MODULE_NAME,
3827         .owner          = THIS_MODULE,
3828         .primary        = true,
3829         .probe          = gbe_probe,
3830         .open           = gbe_open,
3831         .close          = gbe_close,
3832         .remove         = gbe_remove,
3833         .attach         = gbe_attach,
3834         .release        = gbe_release,
3835         .add_addr       = gbe_add_addr,
3836         .del_addr       = gbe_del_addr,
3837         .add_vid        = gbe_add_vid,
3838         .del_vid        = gbe_del_vid,
3839         .ioctl          = gbe_ioctl,
3840 };
3841 
3842 static struct netcp_module xgbe_module = {
3843         .name           = XGBE_MODULE_NAME,
3844         .owner          = THIS_MODULE,
3845         .primary        = true,
3846         .probe          = gbe_probe,
3847         .open           = gbe_open,
3848         .close          = gbe_close,
3849         .remove         = gbe_remove,
3850         .attach         = gbe_attach,
3851         .release        = gbe_release,
3852         .add_addr       = gbe_add_addr,
3853         .del_addr       = gbe_del_addr,
3854         .add_vid        = gbe_add_vid,
3855         .del_vid        = gbe_del_vid,
3856         .ioctl          = gbe_ioctl,
3857 };
3858 
3859 static int __init keystone_gbe_init(void)
3860 {
3861         int ret;
3862 
3863         ret = netcp_register_module(&gbe_module);
3864         if (ret)
3865                 return ret;
3866 
3867         ret = netcp_register_module(&xgbe_module);
3868         if (ret)
3869                 return ret;
3870 
3871         return 0;
3872 }
3873 module_init(keystone_gbe_init);
3874 
3875 static void __exit keystone_gbe_exit(void)
3876 {
3877         netcp_unregister_module(&gbe_module);
3878         netcp_unregister_module(&xgbe_module);
3879 }
3880 module_exit(keystone_gbe_exit);
3881 
3882 MODULE_LICENSE("GPL v2");
3883 MODULE_DESCRIPTION("TI NETCP ETHSS driver for Keystone SOCs");
3884 MODULE_AUTHOR("Sandeep Nair <sandeep_n@ti.com");