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|
// SPDX-License-Identifier: (GPL-2.0 OR MIT)
/* Copyright 2017 Microsemi Corporation
* Copyright 2018-2019 NXP Semiconductors
*/
#include <linux/fsl/enetc_mdio.h>
#include <soc/mscc/ocelot_qsys.h>
#include <soc/mscc/ocelot_vcap.h>
#include <soc/mscc/ocelot_ptp.h>
#include <soc/mscc/ocelot_sys.h>
#include <soc/mscc/ocelot.h>
#include <linux/packing.h>
#include <net/pkt_sched.h>
#include <linux/iopoll.h>
#include <linux/mdio.h>
#include <linux/pci.h>
#include "felix.h"
#define VSC9959_VCAP_IS2_CNT 1024
#define VSC9959_VCAP_IS2_ENTRY_WIDTH 376
#define VSC9959_VCAP_PORT_CNT 6
#define VSC9959_TAS_GCL_ENTRY_MAX 63
static const u32 vsc9959_ana_regmap[] = {
REG(ANA_ADVLEARN, 0x0089a0),
REG(ANA_VLANMASK, 0x0089a4),
REG_RESERVED(ANA_PORT_B_DOMAIN),
REG(ANA_ANAGEFIL, 0x0089ac),
REG(ANA_ANEVENTS, 0x0089b0),
REG(ANA_STORMLIMIT_BURST, 0x0089b4),
REG(ANA_STORMLIMIT_CFG, 0x0089b8),
REG(ANA_ISOLATED_PORTS, 0x0089c8),
REG(ANA_COMMUNITY_PORTS, 0x0089cc),
REG(ANA_AUTOAGE, 0x0089d0),
REG(ANA_MACTOPTIONS, 0x0089d4),
REG(ANA_LEARNDISC, 0x0089d8),
REG(ANA_AGENCTRL, 0x0089dc),
REG(ANA_MIRRORPORTS, 0x0089e0),
REG(ANA_EMIRRORPORTS, 0x0089e4),
REG(ANA_FLOODING, 0x0089e8),
REG(ANA_FLOODING_IPMC, 0x008a08),
REG(ANA_SFLOW_CFG, 0x008a0c),
REG(ANA_PORT_MODE, 0x008a28),
REG(ANA_CUT_THRU_CFG, 0x008a48),
REG(ANA_PGID_PGID, 0x008400),
REG(ANA_TABLES_ANMOVED, 0x007f1c),
REG(ANA_TABLES_MACHDATA, 0x007f20),
REG(ANA_TABLES_MACLDATA, 0x007f24),
REG(ANA_TABLES_STREAMDATA, 0x007f28),
REG(ANA_TABLES_MACACCESS, 0x007f2c),
REG(ANA_TABLES_MACTINDX, 0x007f30),
REG(ANA_TABLES_VLANACCESS, 0x007f34),
REG(ANA_TABLES_VLANTIDX, 0x007f38),
REG(ANA_TABLES_ISDXACCESS, 0x007f3c),
REG(ANA_TABLES_ISDXTIDX, 0x007f40),
REG(ANA_TABLES_ENTRYLIM, 0x007f00),
REG(ANA_TABLES_PTP_ID_HIGH, 0x007f44),
REG(ANA_TABLES_PTP_ID_LOW, 0x007f48),
REG(ANA_TABLES_STREAMACCESS, 0x007f4c),
REG(ANA_TABLES_STREAMTIDX, 0x007f50),
REG(ANA_TABLES_SEQ_HISTORY, 0x007f54),
REG(ANA_TABLES_SEQ_MASK, 0x007f58),
REG(ANA_TABLES_SFID_MASK, 0x007f5c),
REG(ANA_TABLES_SFIDACCESS, 0x007f60),
REG(ANA_TABLES_SFIDTIDX, 0x007f64),
REG(ANA_MSTI_STATE, 0x008600),
REG(ANA_OAM_UPM_LM_CNT, 0x008000),
REG(ANA_SG_ACCESS_CTRL, 0x008a64),
REG(ANA_SG_CONFIG_REG_1, 0x007fb0),
REG(ANA_SG_CONFIG_REG_2, 0x007fb4),
REG(ANA_SG_CONFIG_REG_3, 0x007fb8),
REG(ANA_SG_CONFIG_REG_4, 0x007fbc),
REG(ANA_SG_CONFIG_REG_5, 0x007fc0),
REG(ANA_SG_GCL_GS_CONFIG, 0x007f80),
REG(ANA_SG_GCL_TI_CONFIG, 0x007f90),
REG(ANA_SG_STATUS_REG_1, 0x008980),
REG(ANA_SG_STATUS_REG_2, 0x008984),
REG(ANA_SG_STATUS_REG_3, 0x008988),
REG(ANA_PORT_VLAN_CFG, 0x007800),
REG(ANA_PORT_DROP_CFG, 0x007804),
REG(ANA_PORT_QOS_CFG, 0x007808),
REG(ANA_PORT_VCAP_CFG, 0x00780c),
REG(ANA_PORT_VCAP_S1_KEY_CFG, 0x007810),
REG(ANA_PORT_VCAP_S2_CFG, 0x00781c),
REG(ANA_PORT_PCP_DEI_MAP, 0x007820),
REG(ANA_PORT_CPU_FWD_CFG, 0x007860),
REG(ANA_PORT_CPU_FWD_BPDU_CFG, 0x007864),
REG(ANA_PORT_CPU_FWD_GARP_CFG, 0x007868),
REG(ANA_PORT_CPU_FWD_CCM_CFG, 0x00786c),
REG(ANA_PORT_PORT_CFG, 0x007870),
REG(ANA_PORT_POL_CFG, 0x007874),
REG(ANA_PORT_PTP_CFG, 0x007878),
REG(ANA_PORT_PTP_DLY1_CFG, 0x00787c),
REG(ANA_PORT_PTP_DLY2_CFG, 0x007880),
REG(ANA_PORT_SFID_CFG, 0x007884),
REG(ANA_PFC_PFC_CFG, 0x008800),
REG_RESERVED(ANA_PFC_PFC_TIMER),
REG_RESERVED(ANA_IPT_OAM_MEP_CFG),
REG_RESERVED(ANA_IPT_IPT),
REG_RESERVED(ANA_PPT_PPT),
REG_RESERVED(ANA_FID_MAP_FID_MAP),
REG(ANA_AGGR_CFG, 0x008a68),
REG(ANA_CPUQ_CFG, 0x008a6c),
REG_RESERVED(ANA_CPUQ_CFG2),
REG(ANA_CPUQ_8021_CFG, 0x008a74),
REG(ANA_DSCP_CFG, 0x008ab4),
REG(ANA_DSCP_REWR_CFG, 0x008bb4),
REG(ANA_VCAP_RNG_TYPE_CFG, 0x008bf4),
REG(ANA_VCAP_RNG_VAL_CFG, 0x008c14),
REG_RESERVED(ANA_VRAP_CFG),
REG_RESERVED(ANA_VRAP_HDR_DATA),
REG_RESERVED(ANA_VRAP_HDR_MASK),
REG(ANA_DISCARD_CFG, 0x008c40),
REG(ANA_FID_CFG, 0x008c44),
REG(ANA_POL_PIR_CFG, 0x004000),
REG(ANA_POL_CIR_CFG, 0x004004),
REG(ANA_POL_MODE_CFG, 0x004008),
REG(ANA_POL_PIR_STATE, 0x00400c),
REG(ANA_POL_CIR_STATE, 0x004010),
REG_RESERVED(ANA_POL_STATE),
REG(ANA_POL_FLOWC, 0x008c48),
REG(ANA_POL_HYST, 0x008cb4),
REG_RESERVED(ANA_POL_MISC_CFG),
};
static const u32 vsc9959_qs_regmap[] = {
REG(QS_XTR_GRP_CFG, 0x000000),
REG(QS_XTR_RD, 0x000008),
REG(QS_XTR_FRM_PRUNING, 0x000010),
REG(QS_XTR_FLUSH, 0x000018),
REG(QS_XTR_DATA_PRESENT, 0x00001c),
REG(QS_XTR_CFG, 0x000020),
REG(QS_INJ_GRP_CFG, 0x000024),
REG(QS_INJ_WR, 0x00002c),
REG(QS_INJ_CTRL, 0x000034),
REG(QS_INJ_STATUS, 0x00003c),
REG(QS_INJ_ERR, 0x000040),
REG_RESERVED(QS_INH_DBG),
};
static const u32 vsc9959_s2_regmap[] = {
REG(S2_CORE_UPDATE_CTRL, 0x000000),
REG(S2_CORE_MV_CFG, 0x000004),
REG(S2_CACHE_ENTRY_DAT, 0x000008),
REG(S2_CACHE_MASK_DAT, 0x000108),
REG(S2_CACHE_ACTION_DAT, 0x000208),
REG(S2_CACHE_CNT_DAT, 0x000308),
REG(S2_CACHE_TG_DAT, 0x000388),
};
static const u32 vsc9959_qsys_regmap[] = {
REG(QSYS_PORT_MODE, 0x00f460),
REG(QSYS_SWITCH_PORT_MODE, 0x00f480),
REG(QSYS_STAT_CNT_CFG, 0x00f49c),
REG(QSYS_EEE_CFG, 0x00f4a0),
REG(QSYS_EEE_THRES, 0x00f4b8),
REG(QSYS_IGR_NO_SHARING, 0x00f4bc),
REG(QSYS_EGR_NO_SHARING, 0x00f4c0),
REG(QSYS_SW_STATUS, 0x00f4c4),
REG(QSYS_EXT_CPU_CFG, 0x00f4e0),
REG_RESERVED(QSYS_PAD_CFG),
REG(QSYS_CPU_GROUP_MAP, 0x00f4e8),
REG_RESERVED(QSYS_QMAP),
REG_RESERVED(QSYS_ISDX_SGRP),
REG_RESERVED(QSYS_TIMED_FRAME_ENTRY),
REG(QSYS_TFRM_MISC, 0x00f50c),
REG(QSYS_TFRM_PORT_DLY, 0x00f510),
REG(QSYS_TFRM_TIMER_CFG_1, 0x00f514),
REG(QSYS_TFRM_TIMER_CFG_2, 0x00f518),
REG(QSYS_TFRM_TIMER_CFG_3, 0x00f51c),
REG(QSYS_TFRM_TIMER_CFG_4, 0x00f520),
REG(QSYS_TFRM_TIMER_CFG_5, 0x00f524),
REG(QSYS_TFRM_TIMER_CFG_6, 0x00f528),
REG(QSYS_TFRM_TIMER_CFG_7, 0x00f52c),
REG(QSYS_TFRM_TIMER_CFG_8, 0x00f530),
REG(QSYS_RED_PROFILE, 0x00f534),
REG(QSYS_RES_QOS_MODE, 0x00f574),
REG(QSYS_RES_CFG, 0x00c000),
REG(QSYS_RES_STAT, 0x00c004),
REG(QSYS_EGR_DROP_MODE, 0x00f578),
REG(QSYS_EQ_CTRL, 0x00f57c),
REG_RESERVED(QSYS_EVENTS_CORE),
REG(QSYS_QMAXSDU_CFG_0, 0x00f584),
REG(QSYS_QMAXSDU_CFG_1, 0x00f5a0),
REG(QSYS_QMAXSDU_CFG_2, 0x00f5bc),
REG(QSYS_QMAXSDU_CFG_3, 0x00f5d8),
REG(QSYS_QMAXSDU_CFG_4, 0x00f5f4),
REG(QSYS_QMAXSDU_CFG_5, 0x00f610),
REG(QSYS_QMAXSDU_CFG_6, 0x00f62c),
REG(QSYS_QMAXSDU_CFG_7, 0x00f648),
REG(QSYS_PREEMPTION_CFG, 0x00f664),
REG(QSYS_CIR_CFG, 0x000000),
REG(QSYS_EIR_CFG, 0x000004),
REG(QSYS_SE_CFG, 0x000008),
REG(QSYS_SE_DWRR_CFG, 0x00000c),
REG_RESERVED(QSYS_SE_CONNECT),
REG(QSYS_SE_DLB_SENSE, 0x000040),
REG(QSYS_CIR_STATE, 0x000044),
REG(QSYS_EIR_STATE, 0x000048),
REG_RESERVED(QSYS_SE_STATE),
REG(QSYS_HSCH_MISC_CFG, 0x00f67c),
REG(QSYS_TAG_CONFIG, 0x00f680),
REG(QSYS_TAS_PARAM_CFG_CTRL, 0x00f698),
REG(QSYS_PORT_MAX_SDU, 0x00f69c),
REG(QSYS_PARAM_CFG_REG_1, 0x00f440),
REG(QSYS_PARAM_CFG_REG_2, 0x00f444),
REG(QSYS_PARAM_CFG_REG_3, 0x00f448),
REG(QSYS_PARAM_CFG_REG_4, 0x00f44c),
REG(QSYS_PARAM_CFG_REG_5, 0x00f450),
REG(QSYS_GCL_CFG_REG_1, 0x00f454),
REG(QSYS_GCL_CFG_REG_2, 0x00f458),
REG(QSYS_PARAM_STATUS_REG_1, 0x00f400),
REG(QSYS_PARAM_STATUS_REG_2, 0x00f404),
REG(QSYS_PARAM_STATUS_REG_3, 0x00f408),
REG(QSYS_PARAM_STATUS_REG_4, 0x00f40c),
REG(QSYS_PARAM_STATUS_REG_5, 0x00f410),
REG(QSYS_PARAM_STATUS_REG_6, 0x00f414),
REG(QSYS_PARAM_STATUS_REG_7, 0x00f418),
REG(QSYS_PARAM_STATUS_REG_8, 0x00f41c),
REG(QSYS_PARAM_STATUS_REG_9, 0x00f420),
REG(QSYS_GCL_STATUS_REG_1, 0x00f424),
REG(QSYS_GCL_STATUS_REG_2, 0x00f428),
};
static const u32 vsc9959_rew_regmap[] = {
REG(REW_PORT_VLAN_CFG, 0x000000),
REG(REW_TAG_CFG, 0x000004),
REG(REW_PORT_CFG, 0x000008),
REG(REW_DSCP_CFG, 0x00000c),
REG(REW_PCP_DEI_QOS_MAP_CFG, 0x000010),
REG(REW_PTP_CFG, 0x000050),
REG(REW_PTP_DLY1_CFG, 0x000054),
REG(REW_RED_TAG_CFG, 0x000058),
REG(REW_DSCP_REMAP_DP1_CFG, 0x000410),
REG(REW_DSCP_REMAP_CFG, 0x000510),
REG_RESERVED(REW_STAT_CFG),
REG_RESERVED(REW_REW_STICKY),
REG_RESERVED(REW_PPT),
};
static const u32 vsc9959_sys_regmap[] = {
REG(SYS_COUNT_RX_OCTETS, 0x000000),
REG(SYS_COUNT_RX_MULTICAST, 0x000008),
REG(SYS_COUNT_RX_SHORTS, 0x000010),
REG(SYS_COUNT_RX_FRAGMENTS, 0x000014),
REG(SYS_COUNT_RX_JABBERS, 0x000018),
REG(SYS_COUNT_RX_64, 0x000024),
REG(SYS_COUNT_RX_65_127, 0x000028),
REG(SYS_COUNT_RX_128_255, 0x00002c),
REG(SYS_COUNT_RX_256_1023, 0x000030),
REG(SYS_COUNT_RX_1024_1526, 0x000034),
REG(SYS_COUNT_RX_1527_MAX, 0x000038),
REG(SYS_COUNT_RX_LONGS, 0x000044),
REG(SYS_COUNT_TX_OCTETS, 0x000200),
REG(SYS_COUNT_TX_COLLISION, 0x000210),
REG(SYS_COUNT_TX_DROPS, 0x000214),
REG(SYS_COUNT_TX_64, 0x00021c),
REG(SYS_COUNT_TX_65_127, 0x000220),
REG(SYS_COUNT_TX_128_511, 0x000224),
REG(SYS_COUNT_TX_512_1023, 0x000228),
REG(SYS_COUNT_TX_1024_1526, 0x00022c),
REG(SYS_COUNT_TX_1527_MAX, 0x000230),
REG(SYS_COUNT_TX_AGING, 0x000278),
REG(SYS_RESET_CFG, 0x000e00),
REG(SYS_SR_ETYPE_CFG, 0x000e04),
REG(SYS_VLAN_ETYPE_CFG, 0x000e08),
REG(SYS_PORT_MODE, 0x000e0c),
REG(SYS_FRONT_PORT_MODE, 0x000e2c),
REG(SYS_FRM_AGING, 0x000e44),
REG(SYS_STAT_CFG, 0x000e48),
REG(SYS_SW_STATUS, 0x000e4c),
REG_RESERVED(SYS_MISC_CFG),
REG(SYS_REW_MAC_HIGH_CFG, 0x000e6c),
REG(SYS_REW_MAC_LOW_CFG, 0x000e84),
REG(SYS_TIMESTAMP_OFFSET, 0x000e9c),
REG(SYS_PAUSE_CFG, 0x000ea0),
REG(SYS_PAUSE_TOT_CFG, 0x000ebc),
REG(SYS_ATOP, 0x000ec0),
REG(SYS_ATOP_TOT_CFG, 0x000edc),
REG(SYS_MAC_FC_CFG, 0x000ee0),
REG(SYS_MMGT, 0x000ef8),
REG_RESERVED(SYS_MMGT_FAST),
REG_RESERVED(SYS_EVENTS_DIF),
REG_RESERVED(SYS_EVENTS_CORE),
REG_RESERVED(SYS_CNT),
REG(SYS_PTP_STATUS, 0x000f14),
REG(SYS_PTP_TXSTAMP, 0x000f18),
REG(SYS_PTP_NXT, 0x000f1c),
REG(SYS_PTP_CFG, 0x000f20),
REG(SYS_RAM_INIT, 0x000f24),
REG_RESERVED(SYS_CM_ADDR),
REG_RESERVED(SYS_CM_DATA_WR),
REG_RESERVED(SYS_CM_DATA_RD),
REG_RESERVED(SYS_CM_OP),
REG_RESERVED(SYS_CM_DATA),
};
static const u32 vsc9959_ptp_regmap[] = {
REG(PTP_PIN_CFG, 0x000000),
REG(PTP_PIN_TOD_SEC_MSB, 0x000004),
REG(PTP_PIN_TOD_SEC_LSB, 0x000008),
REG(PTP_PIN_TOD_NSEC, 0x00000c),
REG(PTP_PIN_WF_HIGH_PERIOD, 0x000014),
REG(PTP_PIN_WF_LOW_PERIOD, 0x000018),
REG(PTP_CFG_MISC, 0x0000a0),
REG(PTP_CLK_CFG_ADJ_CFG, 0x0000a4),
REG(PTP_CLK_CFG_ADJ_FREQ, 0x0000a8),
};
static const u32 vsc9959_gcb_regmap[] = {
REG(GCB_SOFT_RST, 0x000004),
};
static const u32 vsc9959_dev_gmii_regmap[] = {
REG(DEV_CLOCK_CFG, 0x0),
REG(DEV_PORT_MISC, 0x4),
REG(DEV_EVENTS, 0x8),
REG(DEV_EEE_CFG, 0xc),
REG(DEV_RX_PATH_DELAY, 0x10),
REG(DEV_TX_PATH_DELAY, 0x14),
REG(DEV_PTP_PREDICT_CFG, 0x18),
REG(DEV_MAC_ENA_CFG, 0x1c),
REG(DEV_MAC_MODE_CFG, 0x20),
REG(DEV_MAC_MAXLEN_CFG, 0x24),
REG(DEV_MAC_TAGS_CFG, 0x28),
REG(DEV_MAC_ADV_CHK_CFG, 0x2c),
REG(DEV_MAC_IFG_CFG, 0x30),
REG(DEV_MAC_HDX_CFG, 0x34),
REG(DEV_MAC_DBG_CFG, 0x38),
REG(DEV_MAC_FC_MAC_LOW_CFG, 0x3c),
REG(DEV_MAC_FC_MAC_HIGH_CFG, 0x40),
REG(DEV_MAC_STICKY, 0x44),
REG_RESERVED(PCS1G_CFG),
REG_RESERVED(PCS1G_MODE_CFG),
REG_RESERVED(PCS1G_SD_CFG),
REG_RESERVED(PCS1G_ANEG_CFG),
REG_RESERVED(PCS1G_ANEG_NP_CFG),
REG_RESERVED(PCS1G_LB_CFG),
REG_RESERVED(PCS1G_DBG_CFG),
REG_RESERVED(PCS1G_CDET_CFG),
REG_RESERVED(PCS1G_ANEG_STATUS),
REG_RESERVED(PCS1G_ANEG_NP_STATUS),
REG_RESERVED(PCS1G_LINK_STATUS),
REG_RESERVED(PCS1G_LINK_DOWN_CNT),
REG_RESERVED(PCS1G_STICKY),
REG_RESERVED(PCS1G_DEBUG_STATUS),
REG_RESERVED(PCS1G_LPI_CFG),
REG_RESERVED(PCS1G_LPI_WAKE_ERROR_CNT),
REG_RESERVED(PCS1G_LPI_STATUS),
REG_RESERVED(PCS1G_TSTPAT_MODE_CFG),
REG_RESERVED(PCS1G_TSTPAT_STATUS),
REG_RESERVED(DEV_PCS_FX100_CFG),
REG_RESERVED(DEV_PCS_FX100_STATUS),
};
static const u32 *vsc9959_regmap[TARGET_MAX] = {
[ANA] = vsc9959_ana_regmap,
[QS] = vsc9959_qs_regmap,
[QSYS] = vsc9959_qsys_regmap,
[REW] = vsc9959_rew_regmap,
[SYS] = vsc9959_sys_regmap,
[S2] = vsc9959_s2_regmap,
[PTP] = vsc9959_ptp_regmap,
[GCB] = vsc9959_gcb_regmap,
[DEV_GMII] = vsc9959_dev_gmii_regmap,
};
/* Addresses are relative to the PCI device's base address */
static const struct resource vsc9959_target_io_res[TARGET_MAX] = {
[ANA] = {
.start = 0x0280000,
.end = 0x028ffff,
.name = "ana",
},
[QS] = {
.start = 0x0080000,
.end = 0x00800ff,
.name = "qs",
},
[QSYS] = {
.start = 0x0200000,
.end = 0x021ffff,
.name = "qsys",
},
[REW] = {
.start = 0x0030000,
.end = 0x003ffff,
.name = "rew",
},
[SYS] = {
.start = 0x0010000,
.end = 0x001ffff,
.name = "sys",
},
[S2] = {
.start = 0x0060000,
.end = 0x00603ff,
.name = "s2",
},
[PTP] = {
.start = 0x0090000,
.end = 0x00900cb,
.name = "ptp",
},
[GCB] = {
.start = 0x0070000,
.end = 0x00701ff,
.name = "devcpu_gcb",
},
};
static const struct resource vsc9959_port_io_res[] = {
{
.start = 0x0100000,
.end = 0x010ffff,
.name = "port0",
},
{
.start = 0x0110000,
.end = 0x011ffff,
.name = "port1",
},
{
.start = 0x0120000,
.end = 0x012ffff,
.name = "port2",
},
{
.start = 0x0130000,
.end = 0x013ffff,
.name = "port3",
},
{
.start = 0x0140000,
.end = 0x014ffff,
.name = "port4",
},
{
.start = 0x0150000,
.end = 0x015ffff,
.name = "port5",
},
};
/* Port MAC 0 Internal MDIO bus through which the SerDes acting as an
* SGMII/QSGMII MAC PCS can be found.
*/
static const struct resource vsc9959_imdio_res = {
.start = 0x8030,
.end = 0x8040,
.name = "imdio",
};
static const struct reg_field vsc9959_regfields[REGFIELD_MAX] = {
[ANA_ADVLEARN_VLAN_CHK] = REG_FIELD(ANA_ADVLEARN, 6, 6),
[ANA_ADVLEARN_LEARN_MIRROR] = REG_FIELD(ANA_ADVLEARN, 0, 5),
[ANA_ANEVENTS_FLOOD_DISCARD] = REG_FIELD(ANA_ANEVENTS, 30, 30),
[ANA_ANEVENTS_AUTOAGE] = REG_FIELD(ANA_ANEVENTS, 26, 26),
[ANA_ANEVENTS_STORM_DROP] = REG_FIELD(ANA_ANEVENTS, 24, 24),
[ANA_ANEVENTS_LEARN_DROP] = REG_FIELD(ANA_ANEVENTS, 23, 23),
[ANA_ANEVENTS_AGED_ENTRY] = REG_FIELD(ANA_ANEVENTS, 22, 22),
[ANA_ANEVENTS_CPU_LEARN_FAILED] = REG_FIELD(ANA_ANEVENTS, 21, 21),
[ANA_ANEVENTS_AUTO_LEARN_FAILED] = REG_FIELD(ANA_ANEVENTS, 20, 20),
[ANA_ANEVENTS_LEARN_REMOVE] = REG_FIELD(ANA_ANEVENTS, 19, 19),
[ANA_ANEVENTS_AUTO_LEARNED] = REG_FIELD(ANA_ANEVENTS, 18, 18),
[ANA_ANEVENTS_AUTO_MOVED] = REG_FIELD(ANA_ANEVENTS, 17, 17),
[ANA_ANEVENTS_CLASSIFIED_DROP] = REG_FIELD(ANA_ANEVENTS, 15, 15),
[ANA_ANEVENTS_CLASSIFIED_COPY] = REG_FIELD(ANA_ANEVENTS, 14, 14),
[ANA_ANEVENTS_VLAN_DISCARD] = REG_FIELD(ANA_ANEVENTS, 13, 13),
[ANA_ANEVENTS_FWD_DISCARD] = REG_FIELD(ANA_ANEVENTS, 12, 12),
[ANA_ANEVENTS_MULTICAST_FLOOD] = REG_FIELD(ANA_ANEVENTS, 11, 11),
[ANA_ANEVENTS_UNICAST_FLOOD] = REG_FIELD(ANA_ANEVENTS, 10, 10),
[ANA_ANEVENTS_DEST_KNOWN] = REG_FIELD(ANA_ANEVENTS, 9, 9),
[ANA_ANEVENTS_BUCKET3_MATCH] = REG_FIELD(ANA_ANEVENTS, 8, 8),
[ANA_ANEVENTS_BUCKET2_MATCH] = REG_FIELD(ANA_ANEVENTS, 7, 7),
[ANA_ANEVENTS_BUCKET1_MATCH] = REG_FIELD(ANA_ANEVENTS, 6, 6),
[ANA_ANEVENTS_BUCKET0_MATCH] = REG_FIELD(ANA_ANEVENTS, 5, 5),
[ANA_ANEVENTS_CPU_OPERATION] = REG_FIELD(ANA_ANEVENTS, 4, 4),
[ANA_ANEVENTS_DMAC_LOOKUP] = REG_FIELD(ANA_ANEVENTS, 3, 3),
[ANA_ANEVENTS_SMAC_LOOKUP] = REG_FIELD(ANA_ANEVENTS, 2, 2),
[ANA_ANEVENTS_SEQ_GEN_ERR_0] = REG_FIELD(ANA_ANEVENTS, 1, 1),
[ANA_ANEVENTS_SEQ_GEN_ERR_1] = REG_FIELD(ANA_ANEVENTS, 0, 0),
[ANA_TABLES_MACACCESS_B_DOM] = REG_FIELD(ANA_TABLES_MACACCESS, 16, 16),
[ANA_TABLES_MACTINDX_BUCKET] = REG_FIELD(ANA_TABLES_MACTINDX, 11, 12),
[ANA_TABLES_MACTINDX_M_INDEX] = REG_FIELD(ANA_TABLES_MACTINDX, 0, 10),
[SYS_RESET_CFG_CORE_ENA] = REG_FIELD(SYS_RESET_CFG, 0, 0),
[GCB_SOFT_RST_SWC_RST] = REG_FIELD(GCB_SOFT_RST, 0, 0),
/* Replicated per number of ports (7), register size 4 per port */
[QSYS_SWITCH_PORT_MODE_PORT_ENA] = REG_FIELD_ID(QSYS_SWITCH_PORT_MODE, 14, 14, 7, 4),
[QSYS_SWITCH_PORT_MODE_SCH_NEXT_CFG] = REG_FIELD_ID(QSYS_SWITCH_PORT_MODE, 11, 13, 7, 4),
[QSYS_SWITCH_PORT_MODE_YEL_RSRVD] = REG_FIELD_ID(QSYS_SWITCH_PORT_MODE, 10, 10, 7, 4),
[QSYS_SWITCH_PORT_MODE_INGRESS_DROP_MODE] = REG_FIELD_ID(QSYS_SWITCH_PORT_MODE, 9, 9, 7, 4),
[QSYS_SWITCH_PORT_MODE_TX_PFC_ENA] = REG_FIELD_ID(QSYS_SWITCH_PORT_MODE, 1, 8, 7, 4),
[QSYS_SWITCH_PORT_MODE_TX_PFC_MODE] = REG_FIELD_ID(QSYS_SWITCH_PORT_MODE, 0, 0, 7, 4),
[SYS_PORT_MODE_DATA_WO_TS] = REG_FIELD_ID(SYS_PORT_MODE, 5, 6, 7, 4),
[SYS_PORT_MODE_INCL_INJ_HDR] = REG_FIELD_ID(SYS_PORT_MODE, 3, 4, 7, 4),
[SYS_PORT_MODE_INCL_XTR_HDR] = REG_FIELD_ID(SYS_PORT_MODE, 1, 2, 7, 4),
[SYS_PORT_MODE_INCL_HDR_ERR] = REG_FIELD_ID(SYS_PORT_MODE, 0, 0, 7, 4),
[SYS_PAUSE_CFG_PAUSE_START] = REG_FIELD_ID(SYS_PAUSE_CFG, 10, 18, 7, 4),
[SYS_PAUSE_CFG_PAUSE_STOP] = REG_FIELD_ID(SYS_PAUSE_CFG, 1, 9, 7, 4),
[SYS_PAUSE_CFG_PAUSE_ENA] = REG_FIELD_ID(SYS_PAUSE_CFG, 0, 1, 7, 4),
};
static const struct ocelot_stat_layout vsc9959_stats_layout[] = {
{ .offset = 0x00, .name = "rx_octets", },
{ .offset = 0x01, .name = "rx_unicast", },
{ .offset = 0x02, .name = "rx_multicast", },
{ .offset = 0x03, .name = "rx_broadcast", },
{ .offset = 0x04, .name = "rx_shorts", },
{ .offset = 0x05, .name = "rx_fragments", },
{ .offset = 0x06, .name = "rx_jabbers", },
{ .offset = 0x07, .name = "rx_crc_align_errs", },
{ .offset = 0x08, .name = "rx_sym_errs", },
{ .offset = 0x09, .name = "rx_frames_below_65_octets", },
{ .offset = 0x0A, .name = "rx_frames_65_to_127_octets", },
{ .offset = 0x0B, .name = "rx_frames_128_to_255_octets", },
{ .offset = 0x0C, .name = "rx_frames_256_to_511_octets", },
{ .offset = 0x0D, .name = "rx_frames_512_to_1023_octets", },
{ .offset = 0x0E, .name = "rx_frames_1024_to_1526_octets", },
{ .offset = 0x0F, .name = "rx_frames_over_1526_octets", },
{ .offset = 0x10, .name = "rx_pause", },
{ .offset = 0x11, .name = "rx_control", },
{ .offset = 0x12, .name = "rx_longs", },
{ .offset = 0x13, .name = "rx_classified_drops", },
{ .offset = 0x14, .name = "rx_red_prio_0", },
{ .offset = 0x15, .name = "rx_red_prio_1", },
{ .offset = 0x16, .name = "rx_red_prio_2", },
{ .offset = 0x17, .name = "rx_red_prio_3", },
{ .offset = 0x18, .name = "rx_red_prio_4", },
{ .offset = 0x19, .name = "rx_red_prio_5", },
{ .offset = 0x1A, .name = "rx_red_prio_6", },
{ .offset = 0x1B, .name = "rx_red_prio_7", },
{ .offset = 0x1C, .name = "rx_yellow_prio_0", },
{ .offset = 0x1D, .name = "rx_yellow_prio_1", },
{ .offset = 0x1E, .name = "rx_yellow_prio_2", },
{ .offset = 0x1F, .name = "rx_yellow_prio_3", },
{ .offset = 0x20, .name = "rx_yellow_prio_4", },
{ .offset = 0x21, .name = "rx_yellow_prio_5", },
{ .offset = 0x22, .name = "rx_yellow_prio_6", },
{ .offset = 0x23, .name = "rx_yellow_prio_7", },
{ .offset = 0x24, .name = "rx_green_prio_0", },
{ .offset = 0x25, .name = "rx_green_prio_1", },
{ .offset = 0x26, .name = "rx_green_prio_2", },
{ .offset = 0x27, .name = "rx_green_prio_3", },
{ .offset = 0x28, .name = "rx_green_prio_4", },
{ .offset = 0x29, .name = "rx_green_prio_5", },
{ .offset = 0x2A, .name = "rx_green_prio_6", },
{ .offset = 0x2B, .name = "rx_green_prio_7", },
{ .offset = 0x80, .name = "tx_octets", },
{ .offset = 0x81, .name = "tx_unicast", },
{ .offset = 0x82, .name = "tx_multicast", },
{ .offset = 0x83, .name = "tx_broadcast", },
{ .offset = 0x84, .name = "tx_collision", },
{ .offset = 0x85, .name = "tx_drops", },
{ .offset = 0x86, .name = "tx_pause", },
{ .offset = 0x87, .name = "tx_frames_below_65_octets", },
{ .offset = 0x88, .name = "tx_frames_65_to_127_octets", },
{ .offset = 0x89, .name = "tx_frames_128_255_octets", },
{ .offset = 0x8B, .name = "tx_frames_256_511_octets", },
{ .offset = 0x8C, .name = "tx_frames_1024_1526_octets", },
{ .offset = 0x8D, .name = "tx_frames_over_1526_octets", },
{ .offset = 0x8E, .name = "tx_yellow_prio_0", },
{ .offset = 0x8F, .name = "tx_yellow_prio_1", },
{ .offset = 0x90, .name = "tx_yellow_prio_2", },
{ .offset = 0x91, .name = "tx_yellow_prio_3", },
{ .offset = 0x92, .name = "tx_yellow_prio_4", },
{ .offset = 0x93, .name = "tx_yellow_prio_5", },
{ .offset = 0x94, .name = "tx_yellow_prio_6", },
{ .offset = 0x95, .name = "tx_yellow_prio_7", },
{ .offset = 0x96, .name = "tx_green_prio_0", },
{ .offset = 0x97, .name = "tx_green_prio_1", },
{ .offset = 0x98, .name = "tx_green_prio_2", },
{ .offset = 0x99, .name = "tx_green_prio_3", },
{ .offset = 0x9A, .name = "tx_green_prio_4", },
{ .offset = 0x9B, .name = "tx_green_prio_5", },
{ .offset = 0x9C, .name = "tx_green_prio_6", },
{ .offset = 0x9D, .name = "tx_green_prio_7", },
{ .offset = 0x9E, .name = "tx_aged", },
{ .offset = 0x100, .name = "drop_local", },
{ .offset = 0x101, .name = "drop_tail", },
{ .offset = 0x102, .name = "drop_yellow_prio_0", },
{ .offset = 0x103, .name = "drop_yellow_prio_1", },
{ .offset = 0x104, .name = "drop_yellow_prio_2", },
{ .offset = 0x105, .name = "drop_yellow_prio_3", },
{ .offset = 0x106, .name = "drop_yellow_prio_4", },
{ .offset = 0x107, .name = "drop_yellow_prio_5", },
{ .offset = 0x108, .name = "drop_yellow_prio_6", },
{ .offset = 0x109, .name = "drop_yellow_prio_7", },
{ .offset = 0x10A, .name = "drop_green_prio_0", },
{ .offset = 0x10B, .name = "drop_green_prio_1", },
{ .offset = 0x10C, .name = "drop_green_prio_2", },
{ .offset = 0x10D, .name = "drop_green_prio_3", },
{ .offset = 0x10E, .name = "drop_green_prio_4", },
{ .offset = 0x10F, .name = "drop_green_prio_5", },
{ .offset = 0x110, .name = "drop_green_prio_6", },
{ .offset = 0x111, .name = "drop_green_prio_7", },
};
static struct vcap_field vsc9959_vcap_is2_keys[] = {
/* Common: 41 bits */
[VCAP_IS2_TYPE] = { 0, 4},
[VCAP_IS2_HK_FIRST] = { 4, 1},
[VCAP_IS2_HK_PAG] = { 5, 8},
[VCAP_IS2_HK_IGR_PORT_MASK] = { 13, 7},
[VCAP_IS2_HK_RSV2] = { 20, 1},
[VCAP_IS2_HK_HOST_MATCH] = { 21, 1},
[VCAP_IS2_HK_L2_MC] = { 22, 1},
[VCAP_IS2_HK_L2_BC] = { 23, 1},
[VCAP_IS2_HK_VLAN_TAGGED] = { 24, 1},
[VCAP_IS2_HK_VID] = { 25, 12},
[VCAP_IS2_HK_DEI] = { 37, 1},
[VCAP_IS2_HK_PCP] = { 38, 3},
/* MAC_ETYPE / MAC_LLC / MAC_SNAP / OAM common */
[VCAP_IS2_HK_L2_DMAC] = { 41, 48},
[VCAP_IS2_HK_L2_SMAC] = { 89, 48},
/* MAC_ETYPE (TYPE=000) */
[VCAP_IS2_HK_MAC_ETYPE_ETYPE] = {137, 16},
[VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD0] = {153, 16},
[VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD1] = {169, 8},
[VCAP_IS2_HK_MAC_ETYPE_L2_PAYLOAD2] = {177, 3},
/* MAC_LLC (TYPE=001) */
[VCAP_IS2_HK_MAC_LLC_L2_LLC] = {137, 40},
/* MAC_SNAP (TYPE=010) */
[VCAP_IS2_HK_MAC_SNAP_L2_SNAP] = {137, 40},
/* MAC_ARP (TYPE=011) */
[VCAP_IS2_HK_MAC_ARP_SMAC] = { 41, 48},
[VCAP_IS2_HK_MAC_ARP_ADDR_SPACE_OK] = { 89, 1},
[VCAP_IS2_HK_MAC_ARP_PROTO_SPACE_OK] = { 90, 1},
[VCAP_IS2_HK_MAC_ARP_LEN_OK] = { 91, 1},
[VCAP_IS2_HK_MAC_ARP_TARGET_MATCH] = { 92, 1},
[VCAP_IS2_HK_MAC_ARP_SENDER_MATCH] = { 93, 1},
[VCAP_IS2_HK_MAC_ARP_OPCODE_UNKNOWN] = { 94, 1},
[VCAP_IS2_HK_MAC_ARP_OPCODE] = { 95, 2},
[VCAP_IS2_HK_MAC_ARP_L3_IP4_DIP] = { 97, 32},
[VCAP_IS2_HK_MAC_ARP_L3_IP4_SIP] = {129, 32},
[VCAP_IS2_HK_MAC_ARP_DIP_EQ_SIP] = {161, 1},
/* IP4_TCP_UDP / IP4_OTHER common */
[VCAP_IS2_HK_IP4] = { 41, 1},
[VCAP_IS2_HK_L3_FRAGMENT] = { 42, 1},
[VCAP_IS2_HK_L3_FRAG_OFS_GT0] = { 43, 1},
[VCAP_IS2_HK_L3_OPTIONS] = { 44, 1},
[VCAP_IS2_HK_IP4_L3_TTL_GT0] = { 45, 1},
[VCAP_IS2_HK_L3_TOS] = { 46, 8},
[VCAP_IS2_HK_L3_IP4_DIP] = { 54, 32},
[VCAP_IS2_HK_L3_IP4_SIP] = { 86, 32},
[VCAP_IS2_HK_DIP_EQ_SIP] = {118, 1},
/* IP4_TCP_UDP (TYPE=100) */
[VCAP_IS2_HK_TCP] = {119, 1},
[VCAP_IS2_HK_L4_DPORT] = {120, 16},
[VCAP_IS2_HK_L4_SPORT] = {136, 16},
[VCAP_IS2_HK_L4_RNG] = {152, 8},
[VCAP_IS2_HK_L4_SPORT_EQ_DPORT] = {160, 1},
[VCAP_IS2_HK_L4_SEQUENCE_EQ0] = {161, 1},
[VCAP_IS2_HK_L4_FIN] = {162, 1},
[VCAP_IS2_HK_L4_SYN] = {163, 1},
[VCAP_IS2_HK_L4_RST] = {164, 1},
[VCAP_IS2_HK_L4_PSH] = {165, 1},
[VCAP_IS2_HK_L4_ACK] = {166, 1},
[VCAP_IS2_HK_L4_URG] = {167, 1},
[VCAP_IS2_HK_L4_1588_DOM] = {168, 8},
[VCAP_IS2_HK_L4_1588_VER] = {176, 4},
/* IP4_OTHER (TYPE=101) */
[VCAP_IS2_HK_IP4_L3_PROTO] = {119, 8},
[VCAP_IS2_HK_L3_PAYLOAD] = {127, 56},
/* IP6_STD (TYPE=110) */
[VCAP_IS2_HK_IP6_L3_TTL_GT0] = { 41, 1},
[VCAP_IS2_HK_L3_IP6_SIP] = { 42, 128},
[VCAP_IS2_HK_IP6_L3_PROTO] = {170, 8},
/* OAM (TYPE=111) */
[VCAP_IS2_HK_OAM_MEL_FLAGS] = {137, 7},
[VCAP_IS2_HK_OAM_VER] = {144, 5},
[VCAP_IS2_HK_OAM_OPCODE] = {149, 8},
[VCAP_IS2_HK_OAM_FLAGS] = {157, 8},
[VCAP_IS2_HK_OAM_MEPID] = {165, 16},
[VCAP_IS2_HK_OAM_CCM_CNTS_EQ0] = {181, 1},
[VCAP_IS2_HK_OAM_IS_Y1731] = {182, 1},
};
static struct vcap_field vsc9959_vcap_is2_actions[] = {
[VCAP_IS2_ACT_HIT_ME_ONCE] = { 0, 1},
[VCAP_IS2_ACT_CPU_COPY_ENA] = { 1, 1},
[VCAP_IS2_ACT_CPU_QU_NUM] = { 2, 3},
[VCAP_IS2_ACT_MASK_MODE] = { 5, 2},
[VCAP_IS2_ACT_MIRROR_ENA] = { 7, 1},
[VCAP_IS2_ACT_LRN_DIS] = { 8, 1},
[VCAP_IS2_ACT_POLICE_ENA] = { 9, 1},
[VCAP_IS2_ACT_POLICE_IDX] = { 10, 9},
[VCAP_IS2_ACT_POLICE_VCAP_ONLY] = { 19, 1},
[VCAP_IS2_ACT_PORT_MASK] = { 20, 6},
[VCAP_IS2_ACT_REW_OP] = { 26, 9},
[VCAP_IS2_ACT_SMAC_REPLACE_ENA] = { 35, 1},
[VCAP_IS2_ACT_RSV] = { 36, 2},
[VCAP_IS2_ACT_ACL_ID] = { 38, 6},
[VCAP_IS2_ACT_HIT_CNT] = { 44, 32},
};
static const struct vcap_props vsc9959_vcap_props[] = {
[VCAP_IS2] = {
.tg_width = 2,
.sw_count = 4,
.entry_count = VSC9959_VCAP_IS2_CNT,
.entry_width = VSC9959_VCAP_IS2_ENTRY_WIDTH,
.action_count = VSC9959_VCAP_IS2_CNT +
VSC9959_VCAP_PORT_CNT + 2,
.action_width = 89,
.action_type_width = 1,
.action_table = {
[IS2_ACTION_TYPE_NORMAL] = {
.width = 44,
.count = 2
},
[IS2_ACTION_TYPE_SMAC_SIP] = {
.width = 6,
.count = 4
},
},
.counter_words = 4,
.counter_width = 32,
},
};
#define VSC9959_INIT_TIMEOUT 50000
#define VSC9959_GCB_RST_SLEEP 100
#define VSC9959_SYS_RAMINIT_SLEEP 80
static int vsc9959_gcb_soft_rst_status(struct ocelot *ocelot)
{
int val;
regmap_field_read(ocelot->regfields[GCB_SOFT_RST_SWC_RST], &val);
return val;
}
static int vsc9959_sys_ram_init_status(struct ocelot *ocelot)
{
return ocelot_read(ocelot, SYS_RAM_INIT);
}
static int vsc9959_reset(struct ocelot *ocelot)
{
int val, err;
/* soft-reset the switch core */
regmap_field_write(ocelot->regfields[GCB_SOFT_RST_SWC_RST], 1);
err = readx_poll_timeout(vsc9959_gcb_soft_rst_status, ocelot, val, !val,
VSC9959_GCB_RST_SLEEP, VSC9959_INIT_TIMEOUT);
if (err) {
dev_err(ocelot->dev, "timeout: switch core reset\n");
return err;
}
/* initialize switch mem ~40us */
ocelot_write(ocelot, SYS_RAM_INIT_RAM_INIT, SYS_RAM_INIT);
err = readx_poll_timeout(vsc9959_sys_ram_init_status, ocelot, val, !val,
VSC9959_SYS_RAMINIT_SLEEP,
VSC9959_INIT_TIMEOUT);
if (err) {
dev_err(ocelot->dev, "timeout: switch sram init\n");
return err;
}
/* enable switch core */
regmap_field_write(ocelot->regfields[SYS_RESET_CFG_CORE_ENA], 1);
return 0;
}
/* We enable SGMII AN only when the PHY has managed = "in-band-status" in the
* device tree. If we are in MLO_AN_PHY mode, we program directly state->speed
* into the PCS, which is retrieved out-of-band over MDIO. This also has the
* benefit of working with SGMII fixed-links, like downstream switches, where
* both link partners attempt to operate as AN slaves and therefore AN never
* completes. But it also has the disadvantage that some PHY chips don't pass
* traffic if SGMII AN is enabled but not completed (acknowledged by us), so
* setting MLO_AN_INBAND is actually required for those.
*/
static void vsc9959_pcs_config_sgmii(struct phy_device *pcs,
unsigned int link_an_mode,
const struct phylink_link_state *state)
{
int bmsr, bmcr;
/* Some PHYs like VSC8234 don't like it when AN restarts on
* their system side and they restart line side AN too, going
* into an endless link up/down loop. Don't restart PCS AN if
* link is up already.
* We do check that AN is enabled just in case this is the 1st
* call, PCS detects a carrier but AN is disabled from power on
* or by boot loader.
*/
bmcr = phy_read(pcs, MII_BMCR);
if (bmcr < 0)
return;
bmsr = phy_read(pcs, MII_BMSR);
if (bmsr < 0)
return;
if ((bmcr & BMCR_ANENABLE) && (bmsr & BMSR_LSTATUS))
return;
/* SGMII spec requires tx_config_Reg[15:0] to be exactly 0x4001
* for the MAC PCS in order to acknowledge the AN.
*/
phy_write(pcs, MII_ADVERTISE, ADVERTISE_SGMII |
ADVERTISE_LPACK);
phy_write(pcs, ENETC_PCS_IF_MODE,
ENETC_PCS_IF_MODE_SGMII_EN |
ENETC_PCS_IF_MODE_USE_SGMII_AN);
/* Adjust link timer for SGMII */
phy_write(pcs, ENETC_PCS_LINK_TIMER1,
ENETC_PCS_LINK_TIMER1_VAL);
phy_write(pcs, ENETC_PCS_LINK_TIMER2,
ENETC_PCS_LINK_TIMER2_VAL);
phy_set_bits(pcs, MII_BMCR, BMCR_ANENABLE);
}
static void vsc9959_pcs_config_usxgmii(struct phy_device *pcs,
unsigned int link_an_mode,
const struct phylink_link_state *state)
{
/* Configure device ability for the USXGMII Replicator */
phy_write_mmd(pcs, MDIO_MMD_VEND2, MII_ADVERTISE,
MDIO_USXGMII_2500FULL |
MDIO_USXGMII_LINK |
ADVERTISE_SGMII |
ADVERTISE_LPACK);
}
void vsc9959_pcs_config(struct ocelot *ocelot, int port,
unsigned int link_an_mode,
const struct phylink_link_state *state)
{
struct felix *felix = ocelot_to_felix(ocelot);
struct phy_device *pcs = felix->pcs[port];
if (!pcs)
return;
/* The PCS does not implement the BMSR register fully, so capability
* detection via genphy_read_abilities does not work. Since we can get
* the PHY config word from the LPA register though, there is still
* value in using the generic phy_resolve_aneg_linkmode function. So
* populate the supported and advertising link modes manually here.
*/
linkmode_set_bit_array(phy_basic_ports_array,
ARRAY_SIZE(phy_basic_ports_array),
pcs->supported);
linkmode_set_bit(ETHTOOL_LINK_MODE_10baseT_Half_BIT, pcs->supported);
linkmode_set_bit(ETHTOOL_LINK_MODE_10baseT_Full_BIT, pcs->supported);
linkmode_set_bit(ETHTOOL_LINK_MODE_100baseT_Half_BIT, pcs->supported);
linkmode_set_bit(ETHTOOL_LINK_MODE_100baseT_Full_BIT, pcs->supported);
linkmode_set_bit(ETHTOOL_LINK_MODE_1000baseT_Half_BIT, pcs->supported);
linkmode_set_bit(ETHTOOL_LINK_MODE_1000baseT_Full_BIT, pcs->supported);
if (pcs->interface == PHY_INTERFACE_MODE_2500BASEX ||
pcs->interface == PHY_INTERFACE_MODE_USXGMII)
linkmode_set_bit(ETHTOOL_LINK_MODE_2500baseX_Full_BIT,
pcs->supported);
if (pcs->interface != PHY_INTERFACE_MODE_2500BASEX)
linkmode_set_bit(ETHTOOL_LINK_MODE_Autoneg_BIT,
pcs->supported);
phy_advertise_supported(pcs);
if (!phylink_autoneg_inband(link_an_mode))
return;
switch (pcs->interface) {
case PHY_INTERFACE_MODE_SGMII:
case PHY_INTERFACE_MODE_QSGMII:
vsc9959_pcs_config_sgmii(pcs, link_an_mode, state);
break;
case PHY_INTERFACE_MODE_2500BASEX:
phydev_err(pcs, "AN not supported on 3.125GHz SerDes lane\n");
break;
case PHY_INTERFACE_MODE_USXGMII:
vsc9959_pcs_config_usxgmii(pcs, link_an_mode, state);
break;
default:
dev_err(ocelot->dev, "Unsupported link mode %s\n",
phy_modes(pcs->interface));
}
}
static void vsc9959_pcs_link_up_sgmii(struct phy_device *pcs,
unsigned int link_an_mode,
int speed, int duplex)
{
u16 if_mode = ENETC_PCS_IF_MODE_SGMII_EN;
switch (speed) {
case SPEED_1000:
if_mode |= ENETC_PCS_IF_MODE_SGMII_SPEED(ENETC_PCS_SPEED_1000);
break;
case SPEED_100:
if_mode |= ENETC_PCS_IF_MODE_SGMII_SPEED(ENETC_PCS_SPEED_100);
break;
case SPEED_10:
if_mode |= ENETC_PCS_IF_MODE_SGMII_SPEED(ENETC_PCS_SPEED_10);
break;
default:
phydev_err(pcs, "Invalid PCS speed %d\n", speed);
return;
}
if (duplex == DUPLEX_HALF)
if_mode |= ENETC_PCS_IF_MODE_DUPLEX_HALF;
phy_write(pcs, ENETC_PCS_IF_MODE, if_mode);
phy_clear_bits(pcs, MII_BMCR, BMCR_ANENABLE);
}
/* 2500Base-X is SerDes protocol 7 on Felix and 6 on ENETC. It is a SerDes lane
* clocked at 3.125 GHz which encodes symbols with 8b/10b and does not have
* auto-negotiation of any link parameters. Electrically it is compatible with
* a single lane of XAUI.
* The hardware reference manual wants to call this mode SGMII, but it isn't
* really, since the fundamental features of SGMII:
* - Downgrading the link speed by duplicating symbols
* - Auto-negotiation
* are not there.
* The speed is configured at 1000 in the IF_MODE and BMCR MDIO registers
* because the clock frequency is actually given by a PLL configured in the
* Reset Configuration Word (RCW).
* Since there is no difference between fixed speed SGMII w/o AN and 802.3z w/o
* AN, we call this PHY interface type 2500Base-X. In case a PHY negotiates a
* lower link speed on line side, the system-side interface remains fixed at
* 2500 Mbps and we do rate adaptation through pause frames.
*/
static void vsc9959_pcs_link_up_2500basex(struct phy_device *pcs,
unsigned int link_an_mode,
int speed, int duplex)
{
u16 if_mode = ENETC_PCS_IF_MODE_SGMII_SPEED(ENETC_PCS_SPEED_2500) |
ENETC_PCS_IF_MODE_SGMII_EN;
if (duplex == DUPLEX_HALF)
if_mode |= ENETC_PCS_IF_MODE_DUPLEX_HALF;
phy_write(pcs, ENETC_PCS_IF_MODE, if_mode);
phy_clear_bits(pcs, MII_BMCR, BMCR_ANENABLE);
}
void vsc9959_pcs_link_up(struct ocelot *ocelot, int port,
unsigned int link_an_mode,
phy_interface_t interface,
int speed, int duplex)
{
struct felix *felix = ocelot_to_felix(ocelot);
struct phy_device *pcs = felix->pcs[port];
if (!pcs)
return;
if (phylink_autoneg_inband(link_an_mode))
return;
switch (interface) {
case PHY_INTERFACE_MODE_SGMII:
case PHY_INTERFACE_MODE_QSGMII:
vsc9959_pcs_link_up_sgmii(pcs, link_an_mode, speed, duplex);
break;
case PHY_INTERFACE_MODE_2500BASEX:
vsc9959_pcs_link_up_2500basex(pcs, link_an_mode, speed,
duplex);
break;
case PHY_INTERFACE_MODE_USXGMII:
phydev_err(pcs, "USXGMII only supports in-band AN for now\n");
break;
default:
dev_err(ocelot->dev, "Unsupported link mode %s\n",
phy_modes(pcs->interface));
}
}
static void vsc9959_pcs_link_state_resolve(struct phy_device *pcs,
struct phylink_link_state *state)
{
state->an_complete = pcs->autoneg_complete;
state->an_enabled = pcs->autoneg;
state->link = pcs->link;
state->duplex = pcs->duplex;
state->speed = pcs->speed;
/* SGMII AN does not negotiate flow control, but that's ok,
* since phylink already knows that, and does:
* link_state.pause |= pl->phy_state.pause;
*/
state->pause = MLO_PAUSE_NONE;
phydev_dbg(pcs,
"mode=%s/%s/%s adv=%*pb lpa=%*pb link=%u an_enabled=%u an_complete=%u\n",
phy_modes(pcs->interface),
phy_speed_to_str(pcs->speed),
phy_duplex_to_str(pcs->duplex),
__ETHTOOL_LINK_MODE_MASK_NBITS, pcs->advertising,
__ETHTOOL_LINK_MODE_MASK_NBITS, pcs->lp_advertising,
pcs->link, pcs->autoneg, pcs->autoneg_complete);
}
static void vsc9959_pcs_link_state_sgmii(struct phy_device *pcs,
struct phylink_link_state *state)
{
int err;
err = genphy_update_link(pcs);
if (err < 0)
return;
if (pcs->autoneg_complete) {
u16 lpa = phy_read(pcs, MII_LPA);
mii_lpa_to_linkmode_lpa_sgmii(pcs->lp_advertising, lpa);
phy_resolve_aneg_linkmode(pcs);
}
}
static void vsc9959_pcs_link_state_2500basex(struct phy_device *pcs,
struct phylink_link_state *state)
{
int err;
err = genphy_update_link(pcs);
if (err < 0)
return;
pcs->speed = SPEED_2500;
pcs->asym_pause = true;
pcs->pause = true;
}
static void vsc9959_pcs_link_state_usxgmii(struct phy_device *pcs,
struct phylink_link_state *state)
{
int status, lpa;
status = phy_read_mmd(pcs, MDIO_MMD_VEND2, MII_BMSR);
if (status < 0)
return;
pcs->autoneg = true;
pcs->autoneg_complete = !!(status & BMSR_ANEGCOMPLETE);
pcs->link = !!(status & BMSR_LSTATUS);
if (!pcs->link || !pcs->autoneg_complete)
return;
lpa = phy_read_mmd(pcs, MDIO_MMD_VEND2, MII_LPA);
if (lpa < 0)
return;
switch (lpa & MDIO_USXGMII_SPD_MASK) {
case MDIO_USXGMII_10:
pcs->speed = SPEED_10;
break;
case MDIO_USXGMII_100:
pcs->speed = SPEED_100;
break;
case MDIO_USXGMII_1000:
pcs->speed = SPEED_1000;
break;
case MDIO_USXGMII_2500:
pcs->speed = SPEED_2500;
break;
default:
break;
}
if (lpa & MDIO_USXGMII_FULL_DUPLEX)
pcs->duplex = DUPLEX_FULL;
else
pcs->duplex = DUPLEX_HALF;
}
void vsc9959_pcs_link_state(struct ocelot *ocelot, int port,
struct phylink_link_state *state)
{
struct felix *felix = ocelot_to_felix(ocelot);
struct phy_device *pcs = felix->pcs[port];
if (!pcs)
return;
pcs->speed = SPEED_UNKNOWN;
pcs->duplex = DUPLEX_UNKNOWN;
pcs->pause = 0;
pcs->asym_pause = 0;
switch (pcs->interface) {
case PHY_INTERFACE_MODE_SGMII:
case PHY_INTERFACE_MODE_QSGMII:
vsc9959_pcs_link_state_sgmii(pcs, state);
break;
case PHY_INTERFACE_MODE_2500BASEX:
vsc9959_pcs_link_state_2500basex(pcs, state);
break;
case PHY_INTERFACE_MODE_USXGMII:
vsc9959_pcs_link_state_usxgmii(pcs, state);
break;
default:
return;
}
vsc9959_pcs_link_state_resolve(pcs, state);
}
static void vsc9959_phylink_validate(struct ocelot *ocelot, int port,
unsigned long *supported,
struct phylink_link_state *state)
{
struct ocelot_port *ocelot_port = ocelot->ports[port];
__ETHTOOL_DECLARE_LINK_MODE_MASK(mask) = { 0, };
if (state->interface != PHY_INTERFACE_MODE_NA &&
state->interface != ocelot_port->phy_mode) {
bitmap_zero(supported, __ETHTOOL_LINK_MODE_MASK_NBITS);
return;
}
phylink_set_port_modes(mask);
phylink_set(mask, Autoneg);
phylink_set(mask, Pause);
phylink_set(mask, Asym_Pause);
phylink_set(mask, 10baseT_Half);
phylink_set(mask, 10baseT_Full);
phylink_set(mask, 100baseT_Half);
phylink_set(mask, 100baseT_Full);
phylink_set(mask, 1000baseT_Half);
phylink_set(mask, 1000baseT_Full);
if (state->interface == PHY_INTERFACE_MODE_INTERNAL ||
state->interface == PHY_INTERFACE_MODE_2500BASEX ||
state->interface == PHY_INTERFACE_MODE_USXGMII) {
phylink_set(mask, 2500baseT_Full);
phylink_set(mask, 2500baseX_Full);
}
bitmap_and(supported, supported, mask,
__ETHTOOL_LINK_MODE_MASK_NBITS);
bitmap_and(state->advertising, state->advertising, mask,
__ETHTOOL_LINK_MODE_MASK_NBITS);
}
static int vsc9959_prevalidate_phy_mode(struct ocelot *ocelot, int port,
phy_interface_t phy_mode)
{
switch (phy_mode) {
case PHY_INTERFACE_MODE_INTERNAL:
if (port != 4 && port != 5)
return -ENOTSUPP;
return 0;
case PHY_INTERFACE_MODE_SGMII:
case PHY_INTERFACE_MODE_QSGMII:
case PHY_INTERFACE_MODE_USXGMII:
case PHY_INTERFACE_MODE_2500BASEX:
/* Not supported on internal to-CPU ports */
if (port == 4 || port == 5)
return -ENOTSUPP;
return 0;
default:
return -ENOTSUPP;
}
}
/* Watermark encode
* Bit 8: Unit; 0:1, 1:16
* Bit 7-0: Value to be multiplied with unit
*/
static u16 vsc9959_wm_enc(u16 value)
{
WARN_ON(value >= 16 * BIT(8));
if (value >= BIT(8))
return BIT(8) | (value / 16);
return value;
}
static const struct ocelot_ops vsc9959_ops = {
.reset = vsc9959_reset,
.wm_enc = vsc9959_wm_enc,
};
static int vsc9959_mdio_bus_alloc(struct ocelot *ocelot)
{
struct felix *felix = ocelot_to_felix(ocelot);
struct enetc_mdio_priv *mdio_priv;
struct device *dev = ocelot->dev;
void __iomem *imdio_regs;
struct resource res;
struct enetc_hw *hw;
struct mii_bus *bus;
int port;
int rc;
felix->pcs = devm_kcalloc(dev, felix->info->num_ports,
sizeof(struct phy_device *),
GFP_KERNEL);
if (!felix->pcs) {
dev_err(dev, "failed to allocate array for PCS PHYs\n");
return -ENOMEM;
}
memcpy(&res, felix->info->imdio_res, sizeof(res));
res.flags = IORESOURCE_MEM;
res.start += felix->imdio_base;
res.end += felix->imdio_base;
imdio_regs = devm_ioremap_resource(dev, &res);
if (IS_ERR(imdio_regs)) {
dev_err(dev, "failed to map internal MDIO registers\n");
return PTR_ERR(imdio_regs);
}
hw = enetc_hw_alloc(dev, imdio_regs);
if (IS_ERR(hw)) {
dev_err(dev, "failed to allocate ENETC HW structure\n");
return PTR_ERR(hw);
}
bus = devm_mdiobus_alloc_size(dev, sizeof(*mdio_priv));
if (!bus)
return -ENOMEM;
bus->name = "VSC9959 internal MDIO bus";
bus->read = enetc_mdio_read;
bus->write = enetc_mdio_write;
bus->parent = dev;
mdio_priv = bus->priv;
mdio_priv->hw = hw;
/* This gets added to imdio_regs, which already maps addresses
* starting with the proper offset.
*/
mdio_priv->mdio_base = 0;
snprintf(bus->id, MII_BUS_ID_SIZE, "%s-imdio", dev_name(dev));
/* Needed in order to initialize the bus mutex lock */
rc = mdiobus_register(bus);
if (rc < 0) {
dev_err(dev, "failed to register MDIO bus\n");
return rc;
}
felix->imdio = bus;
for (port = 0; port < felix->info->num_ports; port++) {
struct ocelot_port *ocelot_port = ocelot->ports[port];
struct phy_device *pcs;
bool is_c45 = false;
if (ocelot_port->phy_mode == PHY_INTERFACE_MODE_USXGMII)
is_c45 = true;
pcs = get_phy_device(felix->imdio, port, is_c45);
if (IS_ERR(pcs))
continue;
pcs->interface = ocelot_port->phy_mode;
felix->pcs[port] = pcs;
dev_info(dev, "Found PCS at internal MDIO address %d\n", port);
}
return 0;
}
void vsc9959_mdio_bus_free(struct ocelot *ocelot)
{
struct felix *felix = ocelot_to_felix(ocelot);
int port;
for (port = 0; port < ocelot->num_phys_ports; port++) {
struct phy_device *pcs = felix->pcs[port];
if (!pcs)
continue;
put_device(&pcs->mdio.dev);
}
mdiobus_unregister(felix->imdio);
}
static void vsc9959_sched_speed_set(struct ocelot *ocelot, int port,
u32 speed)
{
u8 tas_speed;
switch (speed) {
case SPEED_10:
tas_speed = OCELOT_SPEED_10;
break;
case SPEED_100:
tas_speed = OCELOT_SPEED_100;
break;
case SPEED_1000:
tas_speed = OCELOT_SPEED_1000;
break;
case SPEED_2500:
tas_speed = OCELOT_SPEED_2500;
break;
default:
tas_speed = OCELOT_SPEED_1000;
break;
}
ocelot_rmw_rix(ocelot,
QSYS_TAG_CONFIG_LINK_SPEED(tas_speed),
QSYS_TAG_CONFIG_LINK_SPEED_M,
QSYS_TAG_CONFIG, port);
}
static void vsc9959_new_base_time(struct ocelot *ocelot, ktime_t base_time,
u64 cycle_time,
struct timespec64 *new_base_ts)
{
struct timespec64 ts;
ktime_t new_base_time;
ktime_t current_time;
ocelot_ptp_gettime64(&ocelot->ptp_info, &ts);
current_time = timespec64_to_ktime(ts);
new_base_time = base_time;
if (base_time < current_time) {
u64 nr_of_cycles = current_time - base_time;
do_div(nr_of_cycles, cycle_time);
new_base_time += cycle_time * (nr_of_cycles + 1);
}
*new_base_ts = ktime_to_timespec64(new_base_time);
}
static u32 vsc9959_tas_read_cfg_status(struct ocelot *ocelot)
{
return ocelot_read(ocelot, QSYS_TAS_PARAM_CFG_CTRL);
}
static void vsc9959_tas_gcl_set(struct ocelot *ocelot, const u32 gcl_ix,
struct tc_taprio_sched_entry *entry)
{
ocelot_write(ocelot,
QSYS_GCL_CFG_REG_1_GCL_ENTRY_NUM(gcl_ix) |
QSYS_GCL_CFG_REG_1_GATE_STATE(entry->gate_mask),
QSYS_GCL_CFG_REG_1);
ocelot_write(ocelot, entry->interval, QSYS_GCL_CFG_REG_2);
}
static int vsc9959_qos_port_tas_set(struct ocelot *ocelot, int port,
struct tc_taprio_qopt_offload *taprio)
{
struct timespec64 base_ts;
int ret, i;
u32 val;
if (!taprio->enable) {
ocelot_rmw_rix(ocelot,
QSYS_TAG_CONFIG_INIT_GATE_STATE(0xFF),
QSYS_TAG_CONFIG_ENABLE |
QSYS_TAG_CONFIG_INIT_GATE_STATE_M,
QSYS_TAG_CONFIG, port);
return 0;
}
if (taprio->cycle_time > NSEC_PER_SEC ||
taprio->cycle_time_extension >= NSEC_PER_SEC)
return -EINVAL;
if (taprio->num_entries > VSC9959_TAS_GCL_ENTRY_MAX)
return -ERANGE;
ocelot_rmw(ocelot, QSYS_TAS_PARAM_CFG_CTRL_PORT_NUM(port) |
QSYS_TAS_PARAM_CFG_CTRL_ALWAYS_GUARD_BAND_SCH_Q,
QSYS_TAS_PARAM_CFG_CTRL_PORT_NUM_M |
QSYS_TAS_PARAM_CFG_CTRL_ALWAYS_GUARD_BAND_SCH_Q,
QSYS_TAS_PARAM_CFG_CTRL);
/* Hardware errata - Admin config could not be overwritten if
* config is pending, need reset the TAS module
*/
val = ocelot_read(ocelot, QSYS_PARAM_STATUS_REG_8);
if (val & QSYS_PARAM_STATUS_REG_8_CONFIG_PENDING)
return -EBUSY;
ocelot_rmw_rix(ocelot,
QSYS_TAG_CONFIG_ENABLE |
QSYS_TAG_CONFIG_INIT_GATE_STATE(0xFF) |
QSYS_TAG_CONFIG_SCH_TRAFFIC_QUEUES(0xFF),
QSYS_TAG_CONFIG_ENABLE |
QSYS_TAG_CONFIG_INIT_GATE_STATE_M |
QSYS_TAG_CONFIG_SCH_TRAFFIC_QUEUES_M,
QSYS_TAG_CONFIG, port);
vsc9959_new_base_time(ocelot, taprio->base_time,
taprio->cycle_time, &base_ts);
ocelot_write(ocelot, base_ts.tv_nsec, QSYS_PARAM_CFG_REG_1);
ocelot_write(ocelot, lower_32_bits(base_ts.tv_sec), QSYS_PARAM_CFG_REG_2);
val = upper_32_bits(base_ts.tv_sec);
ocelot_write(ocelot,
QSYS_PARAM_CFG_REG_3_BASE_TIME_SEC_MSB(val) |
QSYS_PARAM_CFG_REG_3_LIST_LENGTH(taprio->num_entries),
QSYS_PARAM_CFG_REG_3);
ocelot_write(ocelot, taprio->cycle_time, QSYS_PARAM_CFG_REG_4);
ocelot_write(ocelot, taprio->cycle_time_extension, QSYS_PARAM_CFG_REG_5);
for (i = 0; i < taprio->num_entries; i++)
vsc9959_tas_gcl_set(ocelot, i, &taprio->entries[i]);
ocelot_rmw(ocelot, QSYS_TAS_PARAM_CFG_CTRL_CONFIG_CHANGE,
QSYS_TAS_PARAM_CFG_CTRL_CONFIG_CHANGE,
QSYS_TAS_PARAM_CFG_CTRL);
ret = readx_poll_timeout(vsc9959_tas_read_cfg_status, ocelot, val,
!(val & QSYS_TAS_PARAM_CFG_CTRL_CONFIG_CHANGE),
10, 100000);
return ret;
}
static int vsc9959_qos_port_cbs_set(struct dsa_switch *ds, int port,
struct tc_cbs_qopt_offload *cbs_qopt)
{
struct ocelot *ocelot = ds->priv;
int port_ix = port * 8 + cbs_qopt->queue;
u32 rate, burst;
if (cbs_qopt->queue >= ds->num_tx_queues)
return -EINVAL;
if (!cbs_qopt->enable) {
ocelot_write_gix(ocelot, QSYS_CIR_CFG_CIR_RATE(0) |
QSYS_CIR_CFG_CIR_BURST(0),
QSYS_CIR_CFG, port_ix);
ocelot_rmw_gix(ocelot, 0, QSYS_SE_CFG_SE_AVB_ENA,
QSYS_SE_CFG, port_ix);
return 0;
}
/* Rate unit is 100 kbps */
rate = DIV_ROUND_UP(cbs_qopt->idleslope, 100);
/* Avoid using zero rate */
rate = clamp_t(u32, rate, 1, GENMASK(14, 0));
/* Burst unit is 4kB */
burst = DIV_ROUND_UP(cbs_qopt->hicredit, 4096);
/* Avoid using zero burst size */
burst = clamp_t(u32, burst, 1, GENMASK(5, 0));
ocelot_write_gix(ocelot,
QSYS_CIR_CFG_CIR_RATE(rate) |
QSYS_CIR_CFG_CIR_BURST(burst),
QSYS_CIR_CFG,
port_ix);
ocelot_rmw_gix(ocelot,
QSYS_SE_CFG_SE_FRM_MODE(0) |
QSYS_SE_CFG_SE_AVB_ENA,
QSYS_SE_CFG_SE_AVB_ENA |
QSYS_SE_CFG_SE_FRM_MODE_M,
QSYS_SE_CFG,
port_ix);
return 0;
}
static int vsc9959_port_setup_tc(struct dsa_switch *ds, int port,
enum tc_setup_type type,
void *type_data)
{
struct ocelot *ocelot = ds->priv;
switch (type) {
case TC_SETUP_QDISC_TAPRIO:
return vsc9959_qos_port_tas_set(ocelot, port, type_data);
case TC_SETUP_QDISC_CBS:
return vsc9959_qos_port_cbs_set(ds, port, type_data);
default:
return -EOPNOTSUPP;
}
}
static void vsc9959_xmit_template_populate(struct ocelot *ocelot, int port)
{
struct ocelot_port *ocelot_port = ocelot->ports[port];
u8 *template = ocelot_port->xmit_template;
u64 bypass, dest, src;
/* Set the source port as the CPU port module and not the
* NPI port
*/
src = ocelot->num_phys_ports;
dest = BIT(port);
bypass = true;
packing(template, &bypass, 127, 127, OCELOT_TAG_LEN, PACK, 0);
packing(template, &dest, 68, 56, OCELOT_TAG_LEN, PACK, 0);
packing(template, &src, 46, 43, OCELOT_TAG_LEN, PACK, 0);
}
static const struct felix_info felix_info_vsc9959 = {
.target_io_res = vsc9959_target_io_res,
.port_io_res = vsc9959_port_io_res,
.imdio_res = &vsc9959_imdio_res,
.regfields = vsc9959_regfields,
.map = vsc9959_regmap,
.ops = &vsc9959_ops,
.stats_layout = vsc9959_stats_layout,
.num_stats = ARRAY_SIZE(vsc9959_stats_layout),
.vcap_is2_keys = vsc9959_vcap_is2_keys,
.vcap_is2_actions = vsc9959_vcap_is2_actions,
.vcap = vsc9959_vcap_props,
.shared_queue_sz = 128 * 1024,
.num_mact_rows = 2048,
.num_ports = 6,
.num_tx_queues = FELIX_NUM_TC,
.switch_pci_bar = 4,
.imdio_pci_bar = 0,
.mdio_bus_alloc = vsc9959_mdio_bus_alloc,
.mdio_bus_free = vsc9959_mdio_bus_free,
.pcs_config = vsc9959_pcs_config,
.pcs_link_up = vsc9959_pcs_link_up,
.pcs_link_state = vsc9959_pcs_link_state,
.phylink_validate = vsc9959_phylink_validate,
.prevalidate_phy_mode = vsc9959_prevalidate_phy_mode,
.port_setup_tc = vsc9959_port_setup_tc,
.port_sched_speed_set = vsc9959_sched_speed_set,
.xmit_template_populate = vsc9959_xmit_template_populate,
};
static irqreturn_t felix_irq_handler(int irq, void *data)
{
struct ocelot *ocelot = (struct ocelot *)data;
/* The INTB interrupt is used for both PTP TX timestamp interrupt
* and preemption status change interrupt on each port.
*
* - Get txtstamp if have
* - TODO: handle preemption. Without handling it, driver may get
* interrupt storm.
*/
ocelot_get_txtstamp(ocelot);
return IRQ_HANDLED;
}
static int felix_pci_probe(struct pci_dev *pdev,
const struct pci_device_id *id)
{
struct dsa_switch *ds;
struct ocelot *ocelot;
struct felix *felix;
int err;
if (pdev->dev.of_node && !of_device_is_available(pdev->dev.of_node)) {
dev_info(&pdev->dev, "device is disabled, skipping\n");
return -ENODEV;
}
err = pci_enable_device(pdev);
if (err) {
dev_err(&pdev->dev, "device enable failed\n");
goto err_pci_enable;
}
/* set up for high or low dma */
err = dma_set_mask_and_coherent(&pdev->dev, DMA_BIT_MASK(64));
if (err) {
err = dma_set_mask_and_coherent(&pdev->dev, DMA_BIT_MASK(32));
if (err) {
dev_err(&pdev->dev,
"DMA configuration failed: 0x%x\n", err);
goto err_dma;
}
}
felix = kzalloc(sizeof(struct felix), GFP_KERNEL);
if (!felix) {
err = -ENOMEM;
dev_err(&pdev->dev, "Failed to allocate driver memory\n");
goto err_alloc_felix;
}
pci_set_drvdata(pdev, felix);
ocelot = &felix->ocelot;
ocelot->dev = &pdev->dev;
ocelot->num_flooding_pgids = FELIX_NUM_TC;
felix->info = &felix_info_vsc9959;
felix->switch_base = pci_resource_start(pdev,
felix->info->switch_pci_bar);
felix->imdio_base = pci_resource_start(pdev,
felix->info->imdio_pci_bar);
pci_set_master(pdev);
err = devm_request_threaded_irq(&pdev->dev, pdev->irq, NULL,
&felix_irq_handler, IRQF_ONESHOT,
"felix-intb", ocelot);
if (err) {
dev_err(&pdev->dev, "Failed to request irq\n");
goto err_alloc_irq;
}
ocelot->ptp = 1;
ds = kzalloc(sizeof(struct dsa_switch), GFP_KERNEL);
if (!ds) {
err = -ENOMEM;
dev_err(&pdev->dev, "Failed to allocate DSA switch\n");
goto err_alloc_ds;
}
ds->dev = &pdev->dev;
ds->num_ports = felix->info->num_ports;
ds->num_tx_queues = felix->info->num_tx_queues;
ds->ops = &felix_switch_ops;
ds->priv = ocelot;
felix->ds = ds;
err = dsa_register_switch(ds);
if (err) {
dev_err(&pdev->dev, "Failed to register DSA switch: %d\n", err);
goto err_register_ds;
}
return 0;
err_register_ds:
kfree(ds);
err_alloc_ds:
err_alloc_irq:
err_alloc_felix:
kfree(felix);
err_dma:
pci_disable_device(pdev);
err_pci_enable:
return err;
}
static void felix_pci_remove(struct pci_dev *pdev)
{
struct felix *felix;
felix = pci_get_drvdata(pdev);
dsa_unregister_switch(felix->ds);
kfree(felix->ds);
kfree(felix);
pci_disable_device(pdev);
}
static struct pci_device_id felix_ids[] = {
{
/* NXP LS1028A */
PCI_DEVICE(PCI_VENDOR_ID_FREESCALE, 0xEEF0),
},
{ 0, }
};
MODULE_DEVICE_TABLE(pci, felix_ids);
struct pci_driver felix_vsc9959_pci_driver = {
.name = "mscc_felix",
.id_table = felix_ids,
.probe = felix_pci_probe,
.remove = felix_pci_remove,
};
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