/* SPDX-License-Identifier: GPL-2.0 */ #ifndef __BCMASP_H #define __BCMASP_H #include #include #include #include #define ASP_INTR2_OFFSET 0x1000 #define ASP_INTR2_STATUS 0x0 #define ASP_INTR2_SET 0x4 #define ASP_INTR2_CLEAR 0x8 #define ASP_INTR2_MASK_STATUS 0xc #define ASP_INTR2_MASK_SET 0x10 #define ASP_INTR2_MASK_CLEAR 0x14 #define ASP_INTR2_RX_ECH(intr) BIT(intr) #define ASP_INTR2_TX_DESC(intr) BIT((intr) + 14) #define ASP_INTR2_UMC0_WAKE BIT(22) #define ASP_INTR2_UMC1_WAKE BIT(28) #define ASP_WAKEUP_INTR2_OFFSET 0x1200 #define ASP_WAKEUP_INTR2_STATUS 0x0 #define ASP_WAKEUP_INTR2_SET 0x4 #define ASP_WAKEUP_INTR2_CLEAR 0x8 #define ASP_WAKEUP_INTR2_MASK_STATUS 0xc #define ASP_WAKEUP_INTR2_MASK_SET 0x10 #define ASP_WAKEUP_INTR2_MASK_CLEAR 0x14 #define ASP_WAKEUP_INTR2_MPD_0 BIT(0) #define ASP_WAKEUP_INTR2_MPD_1 BIT(1) #define ASP_WAKEUP_INTR2_FILT_0 BIT(2) #define ASP_WAKEUP_INTR2_FILT_1 BIT(3) #define ASP_WAKEUP_INTR2_FW BIT(4) #define ASP_TX_ANALYTICS_OFFSET 0x4c000 #define ASP_TX_ANALYTICS_CTRL 0x0 #define ASP_RX_ANALYTICS_OFFSET 0x98000 #define ASP_RX_ANALYTICS_CTRL 0x0 #define ASP_RX_CTRL_OFFSET 0x9f000 #define ASP_RX_CTRL_UMAC_0_FRAME_COUNT 0x8 #define ASP_RX_CTRL_UMAC_1_FRAME_COUNT 0xc #define ASP_RX_CTRL_FB_0_FRAME_COUNT 0x14 #define ASP_RX_CTRL_FB_1_FRAME_COUNT 0x18 #define ASP_RX_CTRL_FB_8_FRAME_COUNT 0x1c /* asp2.1 diverges offsets here */ /* ASP2.0 */ #define ASP_RX_CTRL_FB_OUT_FRAME_COUNT 0x20 #define ASP_RX_CTRL_FB_FILT_OUT_FRAME_COUNT 0x24 #define ASP_RX_CTRL_FLUSH 0x28 #define ASP_CTRL_UMAC0_FLUSH_MASK (BIT(0) | BIT(12)) #define ASP_CTRL_UMAC1_FLUSH_MASK (BIT(1) | BIT(13)) #define ASP_CTRL_SPB_FLUSH_MASK (BIT(8) | BIT(20)) #define ASP_RX_CTRL_FB_RX_FIFO_DEPTH 0x30 /* ASP2.1 */ #define ASP_RX_CTRL_FB_9_FRAME_COUNT_2_1 0x20 #define ASP_RX_CTRL_FB_10_FRAME_COUNT_2_1 0x24 #define ASP_RX_CTRL_FB_OUT_FRAME_COUNT_2_1 0x28 #define ASP_RX_CTRL_FB_FILT_OUT_FRAME_COUNT_2_1 0x2c #define ASP_RX_CTRL_FLUSH_2_1 0x30 #define ASP_RX_CTRL_FB_RX_FIFO_DEPTH_2_1 0x38 #define ASP_RX_FILTER_OFFSET 0x80000 #define ASP_RX_FILTER_BLK_CTRL 0x0 #define ASP_RX_FILTER_OPUT_EN BIT(0) #define ASP_RX_FILTER_MDA_EN BIT(1) #define ASP_RX_FILTER_LNR_MD BIT(2) #define ASP_RX_FILTER_GEN_WK_EN BIT(3) #define ASP_RX_FILTER_GEN_WK_CLR BIT(4) #define ASP_RX_FILTER_NT_FLT_EN BIT(5) #define ASP_RX_FILTER_MDA_CFG(sel) (((sel) * 0x14) + 0x100) #define ASP_RX_FILTER_MDA_CFG_EN_SHIFT 8 #define ASP_RX_FILTER_MDA_CFG_UMC_SEL(sel) ((sel) > 1 ? BIT(17) : \ BIT((sel) + 9)) #define ASP_RX_FILTER_MDA_PAT_H(sel) (((sel) * 0x14) + 0x104) #define ASP_RX_FILTER_MDA_PAT_L(sel) (((sel) * 0x14) + 0x108) #define ASP_RX_FILTER_MDA_MSK_H(sel) (((sel) * 0x14) + 0x10c) #define ASP_RX_FILTER_MDA_MSK_L(sel) (((sel) * 0x14) + 0x110) #define ASP_RX_FILTER_MDA_CFG(sel) (((sel) * 0x14) + 0x100) #define ASP_RX_FILTER_MDA_PAT_H(sel) (((sel) * 0x14) + 0x104) #define ASP_RX_FILTER_MDA_PAT_L(sel) (((sel) * 0x14) + 0x108) #define ASP_RX_FILTER_MDA_MSK_H(sel) (((sel) * 0x14) + 0x10c) #define ASP_RX_FILTER_MDA_MSK_L(sel) (((sel) * 0x14) + 0x110) #define ASP_RX_FILTER_NET_CFG(sel) (((sel) * 0xa04) + 0x400) #define ASP_RX_FILTER_NET_CFG_CH(sel) ((sel) << 0) #define ASP_RX_FILTER_NET_CFG_EN BIT(9) #define ASP_RX_FILTER_NET_CFG_L2_EN BIT(10) #define ASP_RX_FILTER_NET_CFG_L3_EN BIT(11) #define ASP_RX_FILTER_NET_CFG_L4_EN BIT(12) #define ASP_RX_FILTER_NET_CFG_L3_FRM(sel) ((sel) << 13) #define ASP_RX_FILTER_NET_CFG_L4_FRM(sel) ((sel) << 15) #define ASP_RX_FILTER_NET_CFG_UMC(sel) BIT((sel) + 19) #define ASP_RX_FILTER_NET_CFG_DMA_EN BIT(27) #define ASP_RX_FILTER_NET_OFFSET_MAX 32 #define ASP_RX_FILTER_NET_PAT(sel, block, off) \ (((sel) * 0xa04) + ((block) * 0x200) + (off) + 0x600) #define ASP_RX_FILTER_NET_MASK(sel, block, off) \ (((sel) * 0xa04) + ((block) * 0x200) + (off) + 0x700) #define ASP_RX_FILTER_NET_OFFSET(sel) (((sel) * 0xa04) + 0xe00) #define ASP_RX_FILTER_NET_OFFSET_L2(val) ((val) << 0) #define ASP_RX_FILTER_NET_OFFSET_L3_0(val) ((val) << 8) #define ASP_RX_FILTER_NET_OFFSET_L3_1(val) ((val) << 16) #define ASP_RX_FILTER_NET_OFFSET_L4(val) ((val) << 24) enum asp_rx_net_filter_block { ASP_RX_FILTER_NET_L2 = 0, ASP_RX_FILTER_NET_L3_0, ASP_RX_FILTER_NET_L3_1, ASP_RX_FILTER_NET_L4, ASP_RX_FILTER_NET_BLOCK_MAX }; #define ASP_EDPKT_OFFSET 0x9c000 #define ASP_EDPKT_ENABLE 0x4 #define ASP_EDPKT_ENABLE_EN BIT(0) #define ASP_EDPKT_HDR_CFG 0xc #define ASP_EDPKT_HDR_SZ_SHIFT 2 #define ASP_EDPKT_HDR_SZ_32 0 #define ASP_EDPKT_HDR_SZ_64 1 #define ASP_EDPKT_HDR_SZ_96 2 #define ASP_EDPKT_HDR_SZ_128 3 #define ASP_EDPKT_BURST_BUF_PSCAL_TOUT 0x10 #define ASP_EDPKT_BURST_BUF_WRITE_TOUT 0x14 #define ASP_EDPKT_BURST_BUF_READ_TOUT 0x18 #define ASP_EDPKT_RX_TS_COUNTER 0x38 #define ASP_EDPKT_ENDI 0x48 #define ASP_EDPKT_ENDI_DESC_SHIFT 8 #define ASP_EDPKT_ENDI_NO_BT_SWP 0 #define ASP_EDPKT_ENDI_BT_SWP_WD 1 #define ASP_EDPKT_RX_PKT_CNT 0x138 #define ASP_EDPKT_HDR_EXTR_CNT 0x13c #define ASP_EDPKT_HDR_OUT_CNT 0x140 #define ASP_CTRL 0x101000 #define ASP_CTRL_ASP_SW_INIT 0x04 #define ASP_CTRL_ASP_SW_INIT_ACPUSS_CORE BIT(0) #define ASP_CTRL_ASP_SW_INIT_ASP_TX BIT(1) #define ASP_CTRL_ASP_SW_INIT_AS_RX BIT(2) #define ASP_CTRL_ASP_SW_INIT_ASP_RGMII_UMAC0 BIT(3) #define ASP_CTRL_ASP_SW_INIT_ASP_RGMII_UMAC1 BIT(4) #define ASP_CTRL_ASP_SW_INIT_ASP_XMEMIF BIT(5) #define ASP_CTRL_CLOCK_CTRL 0x04 #define ASP_CTRL_CLOCK_CTRL_ASP_TX_DISABLE BIT(0) #define ASP_CTRL_CLOCK_CTRL_ASP_RX_DISABLE BIT(1) #define ASP_CTRL_CLOCK_CTRL_ASP_RGMII_SHIFT 2 #define ASP_CTRL_CLOCK_CTRL_ASP_RGMII_MASK (0x7 << ASP_CTRL_CLOCK_CTRL_ASP_RGMII_SHIFT) #define ASP_CTRL_CLOCK_CTRL_ASP_RGMII_DIS(x) BIT(ASP_CTRL_CLOCK_CTRL_ASP_RGMII_SHIFT + (x)) #define ASP_CTRL_CLOCK_CTRL_ASP_ALL_DISABLE GENMASK(4, 0) #define ASP_CTRL_CORE_CLOCK_SELECT 0x08 #define ASP_CTRL_CORE_CLOCK_SELECT_MAIN BIT(0) #define ASP_CTRL_SCRATCH_0 0x0c struct bcmasp_tx_cb { struct sk_buff *skb; unsigned int bytes_sent; bool last; DEFINE_DMA_UNMAP_ADDR(dma_addr); DEFINE_DMA_UNMAP_LEN(dma_len); }; struct bcmasp_res { /* Per interface resources */ /* Port */ void __iomem *umac; void __iomem *umac2fb; void __iomem *rgmii; /* TX slowpath/configuration */ void __iomem *tx_spb_ctrl; void __iomem *tx_spb_top; void __iomem *tx_epkt_core; void __iomem *tx_pause_ctrl; }; #define DESC_ADDR(x) ((x) & GENMASK_ULL(39, 0)) #define DESC_FLAGS(x) ((x) & GENMASK_ULL(63, 40)) struct bcmasp_desc { u64 buf; #define DESC_CHKSUM BIT_ULL(40) #define DESC_CRC_ERR BIT_ULL(41) #define DESC_RX_SYM_ERR BIT_ULL(42) #define DESC_NO_OCT_ALN BIT_ULL(43) #define DESC_PKT_TRUC BIT_ULL(44) /* 39:0 (TX/RX) bits 0-39 of buf addr * 40 (RX) checksum * 41 (RX) crc_error * 42 (RX) rx_symbol_error * 43 (RX) non_octet_aligned * 44 (RX) pkt_truncated * 45 Reserved * 56:46 (RX) mac_filter_id * 60:57 (RX) rx_port_num (0-unicmac0, 1-unimac1) * 61 Reserved * 63:62 (TX) forward CRC, overwrite CRC */ u32 size; u32 flags; #define DESC_INT_EN BIT(0) #define DESC_SOF BIT(1) #define DESC_EOF BIT(2) #define DESC_EPKT_CMD BIT(3) #define DESC_SCRAM_ST BIT(8) #define DESC_SCRAM_END BIT(9) #define DESC_PCPP BIT(10) #define DESC_PPPP BIT(11) /* 0 (TX) tx_int_en * 1 (TX/RX) SOF * 2 (TX/RX) EOF * 3 (TX) epkt_command * 6:4 (TX) PA * 7 (TX) pause at desc end * 8 (TX) scram_start * 9 (TX) scram_end * 10 (TX) PCPP * 11 (TX) PPPP * 14:12 Reserved * 15 (TX) pid ch Valid * 19:16 (TX) data_pkt_type * 32:20 (TX) pid_channel (RX) nw_filter_id */ }; struct bcmasp_intf; struct bcmasp_intf_stats64 { /* Rx Stats */ u64_stats_t rx_packets; u64_stats_t rx_bytes; u64_stats_t rx_errors; u64_stats_t rx_dropped; u64_stats_t rx_crc_errs; u64_stats_t rx_sym_errs; /* Tx Stats*/ u64_stats_t tx_packets; u64_stats_t tx_bytes; struct u64_stats_sync syncp; }; struct bcmasp_mib_counters { u32 edpkt_ts; u32 edpkt_rx_pkt_cnt; u32 edpkt_hdr_ext_cnt; u32 edpkt_hdr_out_cnt; u32 umac_frm_cnt; u32 fb_frm_cnt; u32 fb_rx_fifo_depth; u32 fb_out_frm_cnt; u32 fb_filt_out_frm_cnt; u32 alloc_rx_skb_failed; u32 tx_dma_failed; u32 mc_filters_full_cnt; u32 uc_filters_full_cnt; u32 filters_combine_cnt; u32 promisc_filters_cnt; u32 tx_realloc_offload_failed; u32 tx_timeout_cnt; }; struct bcmasp_intf_ops { unsigned long (*rx_desc_read)(struct bcmasp_intf *intf); void (*rx_buffer_write)(struct bcmasp_intf *intf, dma_addr_t addr); void (*rx_desc_write)(struct bcmasp_intf *intf, dma_addr_t addr); unsigned long (*tx_read)(struct bcmasp_intf *intf); void (*tx_write)(struct bcmasp_intf *intf, dma_addr_t addr); }; struct bcmasp_priv; struct bcmasp_intf { struct list_head list; struct net_device *ndev; struct bcmasp_priv *parent; /* ASP Ch */ int channel; int port; const struct bcmasp_intf_ops *ops; /* Used for splitting shared resources */ int index; struct napi_struct tx_napi; /* TX ring, starts on a new cacheline boundary */ void __iomem *tx_spb_dma; int tx_spb_index; int tx_spb_clean_index; struct bcmasp_desc *tx_spb_cpu; dma_addr_t tx_spb_dma_addr; dma_addr_t tx_spb_dma_valid; dma_addr_t tx_spb_dma_read; struct bcmasp_tx_cb *tx_cbs; /* RX ring, starts on a new cacheline boundary */ void __iomem *rx_edpkt_cfg; void __iomem *rx_edpkt_dma; int rx_edpkt_index; int rx_buf_order; struct bcmasp_desc *rx_edpkt_cpu; dma_addr_t rx_edpkt_dma_addr; dma_addr_t rx_edpkt_dma_read; /* RX buffer prefetcher ring*/ void *rx_ring_cpu; dma_addr_t rx_ring_dma; dma_addr_t rx_ring_dma_valid; struct napi_struct rx_napi; struct bcmasp_res res; unsigned int crc_fwd; /* PHY device */ struct device_node *phy_dn; struct device_node *ndev_dn; phy_interface_t phy_interface; bool internal_phy; int old_pause; int old_link; int old_duplex; u32 msg_enable; /* Statistics */ struct bcmasp_intf_stats64 stats64; struct bcmasp_mib_counters mib; u32 wolopts; u8 sopass[SOPASS_MAX]; /* Used if per intf wol irq */ int wol_irq; unsigned int wol_irq_enabled:1; struct ethtool_eee eee; }; #define NUM_NET_FILTERS 32 struct bcmasp_net_filter { struct ethtool_rx_flow_spec fs; bool claimed; bool wake_filter; int port; unsigned int hw_index; }; #define NUM_MDA_FILTERS 32 struct bcmasp_mda_filter { /* Current owner of this filter */ int port; bool en; u8 addr[ETH_ALEN]; u8 mask[ETH_ALEN]; }; struct bcmasp_hw_info { u32 rx_ctrl_flush; u32 umac2fb; u32 rx_ctrl_fb_out_frame_count; u32 rx_ctrl_fb_filt_out_frame_count; u32 rx_ctrl_fb_rx_fifo_depth; }; struct bcmasp_plat_data { void (*init_wol)(struct bcmasp_priv *priv); void (*enable_wol)(struct bcmasp_intf *intf, bool en); void (*destroy_wol)(struct bcmasp_priv *priv); struct bcmasp_hw_info *hw_info; }; struct bcmasp_priv { struct platform_device *pdev; struct clk *clk; int irq; u32 irq_mask; /* Used if shared wol irq */ struct mutex wol_lock; int wol_irq; unsigned long wol_irq_enabled_mask; void (*init_wol)(struct bcmasp_priv *priv); void (*enable_wol)(struct bcmasp_intf *intf, bool en); void (*destroy_wol)(struct bcmasp_priv *priv); void __iomem *base; struct bcmasp_hw_info *hw_info; struct list_head intfs; struct bcmasp_mda_filter mda_filters[NUM_MDA_FILTERS]; /* MAC destination address filters lock */ spinlock_t mda_lock; /* Protects accesses to ASP_CTRL_CLOCK_CTRL */ spinlock_t clk_lock; struct bcmasp_net_filter net_filters[NUM_NET_FILTERS]; /* Network filter lock */ struct mutex net_lock; }; static inline unsigned long bcmasp_intf_rx_desc_read(struct bcmasp_intf *intf) { return intf->ops->rx_desc_read(intf); } static inline void bcmasp_intf_rx_buffer_write(struct bcmasp_intf *intf, dma_addr_t addr) { intf->ops->rx_buffer_write(intf, addr); } static inline void bcmasp_intf_rx_desc_write(struct bcmasp_intf *intf, dma_addr_t addr) { intf->ops->rx_desc_write(intf, addr); } static inline unsigned long bcmasp_intf_tx_read(struct bcmasp_intf *intf) { return intf->ops->tx_read(intf); } static inline void bcmasp_intf_tx_write(struct bcmasp_intf *intf, dma_addr_t addr) { intf->ops->tx_write(intf, addr); } #define __BCMASP_IO_MACRO(name, m) \ static inline u32 name##_rl(struct bcmasp_intf *intf, u32 off) \ { \ u32 reg = readl_relaxed(intf->m + off); \ return reg; \ } \ static inline void name##_wl(struct bcmasp_intf *intf, u32 val, u32 off)\ { \ writel_relaxed(val, intf->m + off); \ } #define BCMASP_IO_MACRO(name) __BCMASP_IO_MACRO(name, res.name) #define BCMASP_FP_IO_MACRO(name) __BCMASP_IO_MACRO(name, name) BCMASP_IO_MACRO(umac); BCMASP_IO_MACRO(umac2fb); BCMASP_IO_MACRO(rgmii); BCMASP_FP_IO_MACRO(tx_spb_dma); BCMASP_IO_MACRO(tx_spb_ctrl); BCMASP_IO_MACRO(tx_spb_top); BCMASP_IO_MACRO(tx_epkt_core); BCMASP_IO_MACRO(tx_pause_ctrl); BCMASP_FP_IO_MACRO(rx_edpkt_dma); BCMASP_FP_IO_MACRO(rx_edpkt_cfg); #define __BCMASP_FP_IO_MACRO_Q(name, m) \ static inline u64 name##_rq(struct bcmasp_intf *intf, u32 off) \ { \ u64 reg = readq_relaxed(intf->m + off); \ return reg; \ } \ static inline void name##_wq(struct bcmasp_intf *intf, u64 val, u32 off)\ { \ writeq_relaxed(val, intf->m + off); \ } #define BCMASP_FP_IO_MACRO_Q(name) __BCMASP_FP_IO_MACRO_Q(name, name) BCMASP_FP_IO_MACRO_Q(tx_spb_dma); BCMASP_FP_IO_MACRO_Q(rx_edpkt_dma); BCMASP_FP_IO_MACRO_Q(rx_edpkt_cfg); #define PKT_OFFLOAD_NOP (0 << 28) #define PKT_OFFLOAD_HDR_OP (1 << 28) #define PKT_OFFLOAD_HDR_WRBACK BIT(19) #define PKT_OFFLOAD_HDR_COUNT(x) ((x) << 16) #define PKT_OFFLOAD_HDR_SIZE_1(x) ((x) << 4) #define PKT_OFFLOAD_HDR_SIZE_2(x) (x) #define PKT_OFFLOAD_HDR2_SIZE_2(x) ((x) << 24) #define PKT_OFFLOAD_HDR2_SIZE_3(x) ((x) << 12) #define PKT_OFFLOAD_HDR2_SIZE_4(x) (x) #define PKT_OFFLOAD_EPKT_OP (2 << 28) #define PKT_OFFLOAD_EPKT_WRBACK BIT(23) #define PKT_OFFLOAD_EPKT_IP(x) ((x) << 21) #define PKT_OFFLOAD_EPKT_TP(x) ((x) << 19) #define PKT_OFFLOAD_EPKT_LEN(x) ((x) << 16) #define PKT_OFFLOAD_EPKT_CSUM_L3 BIT(15) #define PKT_OFFLOAD_EPKT_CSUM_L2 BIT(14) #define PKT_OFFLOAD_EPKT_ID(x) ((x) << 12) #define PKT_OFFLOAD_EPKT_SEQ(x) ((x) << 10) #define PKT_OFFLOAD_EPKT_TS(x) ((x) << 8) #define PKT_OFFLOAD_EPKT_BLOC(x) (x) #define PKT_OFFLOAD_END_OP (7 << 28) struct bcmasp_pkt_offload { __be32 nop; __be32 header; __be32 header2; __be32 epkt; __be32 end; }; #define BCMASP_CORE_IO_MACRO(name, offset) \ static inline u32 name##_core_rl(struct bcmasp_priv *priv, \ u32 off) \ { \ u32 reg = readl_relaxed(priv->base + (offset) + off); \ return reg; \ } \ static inline void name##_core_wl(struct bcmasp_priv *priv, \ u32 val, u32 off) \ { \ writel_relaxed(val, priv->base + (offset) + off); \ } BCMASP_CORE_IO_MACRO(intr2, ASP_INTR2_OFFSET); BCMASP_CORE_IO_MACRO(wakeup_intr2, ASP_WAKEUP_INTR2_OFFSET); BCMASP_CORE_IO_MACRO(tx_analytics, ASP_TX_ANALYTICS_OFFSET); BCMASP_CORE_IO_MACRO(rx_analytics, ASP_RX_ANALYTICS_OFFSET); BCMASP_CORE_IO_MACRO(rx_ctrl, ASP_RX_CTRL_OFFSET); BCMASP_CORE_IO_MACRO(rx_filter, ASP_RX_FILTER_OFFSET); BCMASP_CORE_IO_MACRO(rx_edpkt, ASP_EDPKT_OFFSET); BCMASP_CORE_IO_MACRO(ctrl, ASP_CTRL); struct bcmasp_intf *bcmasp_interface_create(struct bcmasp_priv *priv, struct device_node *ndev_dn, int i); void bcmasp_interface_destroy(struct bcmasp_intf *intf); void bcmasp_enable_tx_irq(struct bcmasp_intf *intf, int en); void bcmasp_enable_rx_irq(struct bcmasp_intf *intf, int en); void bcmasp_flush_rx_port(struct bcmasp_intf *intf); extern const struct ethtool_ops bcmasp_ethtool_ops; int bcmasp_interface_suspend(struct bcmasp_intf *intf); int bcmasp_interface_resume(struct bcmasp_intf *intf); void bcmasp_set_promisc(struct bcmasp_intf *intf, bool en); void bcmasp_set_allmulti(struct bcmasp_intf *intf, bool en); void bcmasp_set_broad(struct bcmasp_intf *intf, bool en); void bcmasp_set_oaddr(struct bcmasp_intf *intf, const unsigned char *addr, bool en); int bcmasp_set_en_mda_filter(struct bcmasp_intf *intf, unsigned char *addr, unsigned char *mask); void bcmasp_disable_all_filters(struct bcmasp_intf *intf); void bcmasp_core_clock_set_intf(struct bcmasp_intf *intf, bool en); struct bcmasp_net_filter *bcmasp_netfilt_get_init(struct bcmasp_intf *intf, u32 loc, bool wake_filter, bool init); bool bcmasp_netfilt_check_dup(struct bcmasp_intf *intf, struct ethtool_rx_flow_spec *fs); void bcmasp_netfilt_release(struct bcmasp_intf *intf, struct bcmasp_net_filter *nfilt); int bcmasp_netfilt_get_active(struct bcmasp_intf *intf); int bcmasp_netfilt_get_all_active(struct bcmasp_intf *intf, u32 *rule_locs, u32 *rule_cnt); void bcmasp_netfilt_suspend(struct bcmasp_intf *intf); void bcmasp_eee_enable_set(struct bcmasp_intf *intf, bool enable); #endif