[mirror_ubuntu-zesty-kernel.git] / drivers / net / ethernet / hisilicon / hns / hns_dsaf_main.h

/*
 * Copyright (c) 2014-2015 Hisilicon Limited.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 */

#ifndef __HNS_DSAF_MAIN_H
#define __HNS_DSAF_MAIN_H
#include "hnae.h"

#include "hns_dsaf_reg.h"
#include "hns_dsaf_mac.h"

struct hns_mac_cb;

#define DSAF_DRV_NAME "hns_dsaf"
#define DSAF_MOD_VERSION "v1.0"
#define DSAF_DEVICE_NAME "dsaf"

#define HNS_DSAF_DEBUG_NW_REG_OFFSET 0x100000

#define DSAF_BASE_INNER_PORT_NUM 127/* mac tbl qid*/

#define DSAF_MAX_CHIP_NUM 2  /*max 2 chips */

#define DSAF_DEFAUTL_QUEUE_NUM_PER_PPE 22

#define HNS_DSAF_MAX_DESC_CNT 1024
#define HNS_DSAF_MIN_DESC_CNT 16

#define DSAF_INVALID_ENTRY_IDX 0xffff

#define DSAF_CFG_READ_CNT   30

#define DSAF_DUMP_REGS_NUM 504
#define DSAF_STATIC_NUM 28
#define DSAF_V2_STATIC_NUM      44
#define DSAF_PRIO_NR    8
#define DSAF_REG_PER_ZONE       3

#define DSAF_ROCE_CREDIT_CHN    8
#define DSAF_ROCE_CHAN_MODE     3

enum dsaf_roce_port_mode {
        DSAF_ROCE_6PORT_MODE,
        DSAF_ROCE_4PORT_MODE,
        DSAF_ROCE_2PORT_MODE,
        DSAF_ROCE_CHAN_MODE_NUM,
};

enum dsaf_roce_port_num {
        DSAF_ROCE_PORT_0,
        DSAF_ROCE_PORT_1,
        DSAF_ROCE_PORT_2,
        DSAF_ROCE_PORT_3,
        DSAF_ROCE_PORT_4,
        DSAF_ROCE_PORT_5,
};

enum dsaf_roce_qos_sl {
        DSAF_ROCE_SL_0,
        DSAF_ROCE_SL_1,
        DSAF_ROCE_SL_2,
        DSAF_ROCE_SL_3,
};

#define DSAF_STATS_READ(p, offset) (*((u64 *)((u8 *)(p) + (offset))))
#define HNS_DSAF_IS_DEBUG(dev) (dev->dsaf_mode == DSAF_MODE_DISABLE_SP)

enum hal_dsaf_mode {
        HRD_DSAF_NO_DSAF_MODE   = 0x0,
        HRD_DSAF_MODE           = 0x1,
};

enum hal_dsaf_tc_mode {
        HRD_DSAF_4TC_MODE               = 0X0,
        HRD_DSAF_8TC_MODE               = 0X1,
};

struct dsaf_vm_def_vlan {
        u32 vm_def_vlan_id;
        u32 vm_def_vlan_cfi;
        u32 vm_def_vlan_pri;
};

struct dsaf_tbl_tcam_data {
        u32 tbl_tcam_data_high;
        u32 tbl_tcam_data_low;
};

#define DSAF_PORT_MSK_NUM \
        ((DSAF_TOTAL_QUEUE_NUM + DSAF_SERVICE_NW_NUM - 1) / 32 + 1)
struct dsaf_tbl_tcam_mcast_cfg {
        u8 tbl_mcast_old_en;
        u8 tbl_mcast_item_vld;
        u32 tbl_mcast_port_msk[DSAF_PORT_MSK_NUM];
};

struct dsaf_tbl_tcam_ucast_cfg {
        u32 tbl_ucast_old_en;
        u32 tbl_ucast_item_vld;
        u32 tbl_ucast_mac_discard;
        u32 tbl_ucast_dvc;
        u32 tbl_ucast_out_port;
};

struct dsaf_tbl_line_cfg {
        u32 tbl_line_mac_discard;
        u32 tbl_line_dvc;
        u32 tbl_line_out_port;
};

enum dsaf_port_rate_mode {
        DSAF_PORT_RATE_1000 = 0,
        DSAF_PORT_RATE_2500,
        DSAF_PORT_RATE_10000
};

enum dsaf_stp_port_type {
        DSAF_STP_PORT_TYPE_DISCARD = 0,
        DSAF_STP_PORT_TYPE_BLOCK = 1,
        DSAF_STP_PORT_TYPE_LISTEN = 2,
        DSAF_STP_PORT_TYPE_LEARN = 3,
        DSAF_STP_PORT_TYPE_FORWARD = 4
};

enum dsaf_sw_port_type {
        DSAF_SW_PORT_TYPE_NON_VLAN = 0,
        DSAF_SW_PORT_TYPE_ACCESS = 1,
        DSAF_SW_PORT_TYPE_TRUNK = 2,
};

#define DSAF_SUB_BASE_SIZE                        (0x10000)

/* dsaf mode define */
enum dsaf_mode {
        DSAF_MODE_INVALID = 0,  /**< Invalid dsaf mode */
        DSAF_MODE_ENABLE_FIX,   /**< en DSAF-mode, fixed to queue*/
        DSAF_MODE_ENABLE_0VM,   /**< en DSAF-mode, support 0 VM */
        DSAF_MODE_ENABLE_8VM,   /**< en DSAF-mode, support 8 VM */
        DSAF_MODE_ENABLE_16VM,  /**< en DSAF-mode, support 16 VM */
        DSAF_MODE_ENABLE_32VM,  /**< en DSAF-mode, support 32 VM */
        DSAF_MODE_ENABLE_128VM, /**< en DSAF-mode, support 128 VM */
        DSAF_MODE_ENABLE,               /**< before is enable DSAF mode*/
        DSAF_MODE_DISABLE_SP,   /* <non-dsaf, single port mode */
        DSAF_MODE_DISABLE_FIX,  /**< non-dasf, fixed to queue*/
        DSAF_MODE_DISABLE_2PORT_8VM,    /**< non-dasf, 2port 8VM */
        DSAF_MODE_DISABLE_2PORT_16VM,   /**< non-dasf, 2port 16VM */
        DSAF_MODE_DISABLE_2PORT_64VM,   /**< non-dasf, 2port 64VM */
        DSAF_MODE_DISABLE_6PORT_0VM,    /**< non-dasf, 6port 0VM */
        DSAF_MODE_DISABLE_6PORT_2VM,    /**< non-dasf, 6port 2VM */
        DSAF_MODE_DISABLE_6PORT_4VM,    /**< non-dasf, 6port 4VM */
        DSAF_MODE_DISABLE_6PORT_16VM,   /**< non-dasf, 6port 16VM */
        DSAF_MODE_MAX           /**< the last one, use as the num */
};

#define DSAF_DEST_PORT_NUM 256  /* DSAF max port num */
#define DSAF_WORD_BIT_CNT 32  /* the num bit of word */

/*mac entry, mc or uc entry*/
struct dsaf_drv_mac_single_dest_entry {
        /* mac addr, match the entry*/
        u8 addr[ETH_ALEN];
        u16 in_vlan_id; /* value of VlanId */

        /* the vld input port num, dsaf-mode fix 0, */
        /*      non-dasf is the entry whitch port vld*/
        u8 in_port_num;

        u8 port_num; /*output port num*/
        u8 rsv[6];
};

/*only mc entry*/
struct dsaf_drv_mac_multi_dest_entry {
        /* mac addr, match the entry*/
        u8 addr[ETH_ALEN];
        u16 in_vlan_id;
        /* this mac addr output port,*/
        /*      bit0-bit5 means Port0-Port5(1bit is vld)**/
        u32 port_mask[DSAF_DEST_PORT_NUM / DSAF_WORD_BIT_CNT];

        /* the vld input port num, dsaf-mode fix 0,*/
        /*      non-dasf is the entry whitch port vld*/
        u8 in_port_num;
        u8 rsv[7];
};

struct dsaf_hw_stats {
        u64 pad_drop;
        u64 man_pkts;
        u64 rx_pkts;
        u64 rx_pkt_id;
        u64 rx_pause_frame;
        u64 release_buf_num;
        u64 sbm_drop;
        u64 crc_false;
        u64 bp_drop;
        u64 rslt_drop;
        u64 local_addr_false;
        u64 vlan_drop;
        u64 stp_drop;
        u64 rx_pfc[DSAF_PRIO_NR];
        u64 tx_pfc[DSAF_PRIO_NR];
        u64 tx_pkts;
};

struct hnae_vf_cb {
        u8 port_index;
        struct hns_mac_cb *mac_cb;
        struct dsaf_device *dsaf_dev;
        struct hnae_handle  ae_handle; /* must be the last number */
};

struct dsaf_int_xge_src {
        u32    xid_xge_ecc_err_int_src;
        u32    xid_xge_fsm_timout_int_src;
        u32    sbm_xge_lnk_fsm_timout_int_src;
        u32    sbm_xge_lnk_ecc_2bit_int_src;
        u32    sbm_xge_mib_req_failed_int_src;
        u32    sbm_xge_mib_req_fsm_timout_int_src;
        u32    sbm_xge_mib_rels_fsm_timout_int_src;
        u32    sbm_xge_sram_ecc_2bit_int_src;
        u32    sbm_xge_mib_buf_sum_err_int_src;
        u32    sbm_xge_mib_req_extra_int_src;
        u32    sbm_xge_mib_rels_extra_int_src;
        u32    voq_xge_start_to_over_0_int_src;
        u32    voq_xge_start_to_over_1_int_src;
        u32    voq_xge_ecc_err_int_src;
};

struct dsaf_int_ppe_src {
        u32    xid_ppe_fsm_timout_int_src;
        u32    sbm_ppe_lnk_fsm_timout_int_src;
        u32    sbm_ppe_lnk_ecc_2bit_int_src;
        u32    sbm_ppe_mib_req_failed_int_src;
        u32    sbm_ppe_mib_req_fsm_timout_int_src;
        u32    sbm_ppe_mib_rels_fsm_timout_int_src;
        u32    sbm_ppe_sram_ecc_2bit_int_src;
        u32    sbm_ppe_mib_buf_sum_err_int_src;
        u32    sbm_ppe_mib_req_extra_int_src;
        u32    sbm_ppe_mib_rels_extra_int_src;
        u32    voq_ppe_start_to_over_0_int_src;
        u32    voq_ppe_ecc_err_int_src;
        u32    xod_ppe_fifo_rd_empty_int_src;
        u32    xod_ppe_fifo_wr_full_int_src;
};

struct dsaf_int_rocee_src {
        u32    xid_rocee_fsm_timout_int_src;
        u32    sbm_rocee_lnk_fsm_timout_int_src;
        u32    sbm_rocee_lnk_ecc_2bit_int_src;
        u32    sbm_rocee_mib_req_failed_int_src;
        u32    sbm_rocee_mib_req_fsm_timout_int_src;
        u32    sbm_rocee_mib_rels_fsm_timout_int_src;
        u32    sbm_rocee_sram_ecc_2bit_int_src;
        u32    sbm_rocee_mib_buf_sum_err_int_src;
        u32    sbm_rocee_mib_req_extra_int_src;
        u32    sbm_rocee_mib_rels_extra_int_src;
        u32    voq_rocee_start_to_over_0_int_src;
        u32    voq_rocee_ecc_err_int_src;
};

struct dsaf_int_tbl_src {
        u32    tbl_da0_mis_src;
        u32    tbl_da1_mis_src;
        u32    tbl_da2_mis_src;
        u32    tbl_da3_mis_src;
        u32    tbl_da4_mis_src;
        u32    tbl_da5_mis_src;
        u32    tbl_da6_mis_src;
        u32    tbl_da7_mis_src;
        u32    tbl_sa_mis_src;
        u32    tbl_old_sech_end_src;
        u32    lram_ecc_err1_src;
        u32    lram_ecc_err2_src;
        u32    tram_ecc_err1_src;
        u32    tram_ecc_err2_src;
        u32    tbl_ucast_bcast_xge0_src;
        u32    tbl_ucast_bcast_xge1_src;
        u32    tbl_ucast_bcast_xge2_src;
        u32    tbl_ucast_bcast_xge3_src;
        u32    tbl_ucast_bcast_xge4_src;
        u32    tbl_ucast_bcast_xge5_src;
        u32    tbl_ucast_bcast_ppe_src;
        u32    tbl_ucast_bcast_rocee_src;
};

struct dsaf_int_stat {
        struct dsaf_int_xge_src dsaf_int_xge_stat[DSAF_COMM_CHN];
        struct dsaf_int_ppe_src dsaf_int_ppe_stat[DSAF_COMM_CHN];
        struct dsaf_int_rocee_src dsaf_int_rocee_stat[DSAF_COMM_CHN];
        struct dsaf_int_tbl_src dsaf_int_tbl_stat[1];

};

struct dsaf_misc_op {
        void (*cpld_set_led)(struct hns_mac_cb *mac_cb, int link_status,
                             u16 speed, int data);
        void (*cpld_reset_led)(struct hns_mac_cb *mac_cb);
        int (*cpld_set_led_id)(struct hns_mac_cb *mac_cb,
                               enum hnae_led_state status);
        /* reset series function, it will be reset if the dereset is 0 */
        void (*dsaf_reset)(struct dsaf_device *dsaf_dev, bool dereset);
        void (*xge_srst)(struct dsaf_device *dsaf_dev, u32 port, bool dereset);
        void (*ge_srst)(struct dsaf_device *dsaf_dev, u32 port, bool dereset);
        void (*ppe_srst)(struct dsaf_device *dsaf_dev, u32 port, bool dereset);
        void (*ppe_comm_srst)(struct dsaf_device *dsaf_dev, bool dereset);
        void (*hns_dsaf_srst_chns)(struct dsaf_device *dsaf_dev, u32 msk,
                                   bool dereset);
        void (*hns_dsaf_roce_srst)(struct dsaf_device *dsaf_dev, bool dereset);

        phy_interface_t (*get_phy_if)(struct hns_mac_cb *mac_cb);
        int (*get_sfp_prsnt)(struct hns_mac_cb *mac_cb, int *sfp_prsnt);

        int (*cfg_serdes_loopback)(struct hns_mac_cb *mac_cb, bool en);
};

/* Dsaf device struct define ,and mac ->  dsaf */
struct dsaf_device {
        struct device *dev;
        struct hnae_ae_dev ae_dev;

        u8 __iomem *sc_base;
        u8 __iomem *sds_base;
        u8 __iomem *ppe_base;
        u8 __iomem *io_base;
        struct regmap *sub_ctrl;
        phys_addr_t ppe_paddr;

        u32 desc_num; /*  desc num per queue*/
        u32 buf_size; /*  ring buffer size */
        u32 reset_offset; /* reset field offset in sub sysctrl */
        int buf_size_type; /* ring buffer size-type */
        enum dsaf_mode dsaf_mode;        /* dsaf mode  */
        enum hal_dsaf_mode dsaf_en;
        enum hal_dsaf_tc_mode dsaf_tc_mode;
        u32 dsaf_ver;
        u16 tcam_max_num;       /* max TCAM entry for user except promisc */

        struct ppe_common_cb *ppe_common[DSAF_COMM_DEV_NUM];
        struct rcb_common_cb *rcb_common[DSAF_COMM_DEV_NUM];
        struct hns_mac_cb *mac_cb[DSAF_MAX_PORT_NUM];
        struct dsaf_misc_op *misc_op;

        struct dsaf_hw_stats hw_stats[DSAF_NODE_NUM];
        struct dsaf_int_stat int_stat;
        /* make sure tcam table config spinlock */
        spinlock_t tcam_lock;
};

static inline void *hns_dsaf_dev_priv(const struct dsaf_device *dsaf_dev)
{
        return (void *)((u8 *)dsaf_dev + sizeof(*dsaf_dev));
}

#define DSAF_TBL_TCAM_KEY_PORT_S 0
#define DSAF_TBL_TCAM_KEY_PORT_M (((1ULL << 4) - 1) << 0)
#define DSAF_TBL_TCAM_KEY_VLAN_S 4
#define DSAF_TBL_TCAM_KEY_VLAN_M (((1ULL << 12) - 1) << 4)

struct dsaf_drv_tbl_tcam_key {
        union {
                struct {
                        u8 mac_3;
                        u8 mac_2;
                        u8 mac_1;
                        u8 mac_0;
                } bits;

                u32 val;
        } high;
        union {
                struct {
                        u16 port_vlan;
                        u8 mac_5;
                        u8 mac_4;
                } bits;

                u32 val;
        } low;
};

struct dsaf_drv_soft_mac_tbl {
        struct dsaf_drv_tbl_tcam_key tcam_key;
        u16 index; /*the entry's index in tcam tab*/
};

struct dsaf_drv_priv {
        /* soft tab Mac key, for hardware tab*/
        struct dsaf_drv_soft_mac_tbl *soft_mac_tbl;
};

static inline void hns_dsaf_tbl_tcam_addr_cfg(struct dsaf_device *dsaf_dev,
                                              u32 tab_tcam_addr)
{
        dsaf_set_dev_field(dsaf_dev, DSAF_TBL_TCAM_ADDR_0_REG,
                           DSAF_TBL_TCAM_ADDR_M, DSAF_TBL_TCAM_ADDR_S,
                           tab_tcam_addr);
}

static inline void hns_dsaf_tbl_tcam_load_pul(struct dsaf_device *dsaf_dev)
{
        u32 o_tbl_pul;

        o_tbl_pul = dsaf_read_dev(dsaf_dev, DSAF_TBL_PUL_0_REG);
        dsaf_set_bit(o_tbl_pul, DSAF_TBL_PUL_TCAM_LOAD_S, 1);
        dsaf_write_dev(dsaf_dev, DSAF_TBL_PUL_0_REG, o_tbl_pul);
        dsaf_set_bit(o_tbl_pul, DSAF_TBL_PUL_TCAM_LOAD_S, 0);
        dsaf_write_dev(dsaf_dev, DSAF_TBL_PUL_0_REG, o_tbl_pul);
}

static inline void hns_dsaf_tbl_line_addr_cfg(struct dsaf_device *dsaf_dev,
                                              u32 tab_line_addr)
{
        dsaf_set_dev_field(dsaf_dev, DSAF_TBL_LINE_ADDR_0_REG,
                           DSAF_TBL_LINE_ADDR_M, DSAF_TBL_LINE_ADDR_S,
                           tab_line_addr);
}

static inline struct hnae_vf_cb *hns_ae_get_vf_cb(
        struct hnae_handle *handle)
{
        return container_of(handle, struct hnae_vf_cb, ae_handle);
}

int hns_dsaf_set_mac_uc_entry(struct dsaf_device *dsaf_dev,
                              struct dsaf_drv_mac_single_dest_entry *mac_entry);
int hns_dsaf_set_mac_mc_entry(struct dsaf_device *dsaf_dev,
                              struct dsaf_drv_mac_multi_dest_entry *mac_entry);
int hns_dsaf_add_mac_mc_port(struct dsaf_device *dsaf_dev,
                             struct dsaf_drv_mac_single_dest_entry *mac_entry);
int hns_dsaf_del_mac_entry(struct dsaf_device *dsaf_dev, u16 vlan_id,
                           u8 in_port_num, u8 *addr);
int hns_dsaf_del_mac_mc_port(struct dsaf_device *dsaf_dev,
                             struct dsaf_drv_mac_single_dest_entry *mac_entry);
int hns_dsaf_get_mac_uc_entry(struct dsaf_device *dsaf_dev,
                              struct dsaf_drv_mac_single_dest_entry *mac_entry);
int hns_dsaf_get_mac_mc_entry(struct dsaf_device *dsaf_dev,
                              struct dsaf_drv_mac_multi_dest_entry *mac_entry);
int hns_dsaf_get_mac_entry_by_index(
        struct dsaf_device *dsaf_dev,
        u16 entry_index,
        struct dsaf_drv_mac_multi_dest_entry *mac_entry);

void hns_dsaf_fix_mac_mode(struct hns_mac_cb *mac_cb);

int hns_dsaf_ae_init(struct dsaf_device *dsaf_dev);
void hns_dsaf_ae_uninit(struct dsaf_device *dsaf_dev);

void hns_dsaf_update_stats(struct dsaf_device *dsaf_dev, u32 inode_num);

int hns_dsaf_get_sset_count(struct dsaf_device *dsaf_dev, int stringset);
void hns_dsaf_get_stats(struct dsaf_device *ddev, u64 *data, int port);
void hns_dsaf_get_strings(int stringset, u8 *data, int port,
                          struct dsaf_device *dsaf_dev);

void hns_dsaf_get_regs(struct dsaf_device *ddev, u32 port, void *data);
int hns_dsaf_get_regs_count(void);
void hns_dsaf_set_promisc_mode(struct dsaf_device *dsaf_dev, u32 en);
void hns_dsaf_set_promisc_tcam(struct dsaf_device *dsaf_dev,
                               u32 port, bool enable);

void hns_dsaf_get_rx_mac_pause_en(struct dsaf_device *dsaf_dev, int mac_id,
                                  u32 *en);
int hns_dsaf_set_rx_mac_pause_en(struct dsaf_device *dsaf_dev, int mac_id,
                                 u32 en);
int hns_dsaf_rm_mac_addr(
        struct dsaf_device *dsaf_dev,
        struct dsaf_drv_mac_single_dest_entry *mac_entry);

int hns_dsaf_clr_mac_mc_port(struct dsaf_device *dsaf_dev,
                             u8 mac_id, u8 port_num);


#endif /* __HNS_DSAF_MAIN_H__ */