478 lines
14 KiB
C
478 lines
14 KiB
C
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/* SPDX-License-Identifier: GPL-2.0-only */
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/* include/net/xdp.h
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*
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* Copyright (c) 2017 Jesper Dangaard Brouer, Red Hat Inc.
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*/
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#ifndef __LINUX_NET_XDP_H__
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#define __LINUX_NET_XDP_H__
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#include <linux/skbuff.h> /* skb_shared_info */
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#include <uapi/linux/netdev.h>
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#include <linux/bitfield.h>
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/**
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* DOC: XDP RX-queue information
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*
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* The XDP RX-queue info (xdp_rxq_info) is associated with the driver
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* level RX-ring queues. It is information that is specific to how
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* the driver have configured a given RX-ring queue.
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*
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* Each xdp_buff frame received in the driver carries a (pointer)
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* reference to this xdp_rxq_info structure. This provides the XDP
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* data-path read-access to RX-info for both kernel and bpf-side
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* (limited subset).
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*
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* For now, direct access is only safe while running in NAPI/softirq
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* context. Contents are read-mostly and must not be updated during
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* driver NAPI/softirq poll.
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*
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* The driver usage API is a register and unregister API.
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*
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* The struct is not directly tied to the XDP prog. A new XDP prog
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* can be attached as long as it doesn't change the underlying
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* RX-ring. If the RX-ring does change significantly, the NIC driver
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* naturally need to stop the RX-ring before purging and reallocating
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* memory. In that process the driver MUST call unregister (which
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* also applies for driver shutdown and unload). The register API is
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* also mandatory during RX-ring setup.
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*/
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enum xdp_mem_type {
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MEM_TYPE_PAGE_SHARED = 0, /* Split-page refcnt based model */
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MEM_TYPE_PAGE_ORDER0, /* Orig XDP full page model */
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MEM_TYPE_PAGE_POOL,
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MEM_TYPE_XSK_BUFF_POOL,
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MEM_TYPE_MAX,
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};
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typedef u32 xdp_features_t;
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/* XDP flags for ndo_xdp_xmit */
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#define XDP_XMIT_FLUSH (1U << 0) /* doorbell signal consumer */
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#define XDP_XMIT_FLAGS_MASK XDP_XMIT_FLUSH
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struct xdp_mem_info {
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u32 type; /* enum xdp_mem_type, but known size type */
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u32 id;
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};
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struct page_pool;
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struct xdp_rxq_info {
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struct net_device *dev;
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u32 queue_index;
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u32 reg_state;
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struct xdp_mem_info mem;
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unsigned int napi_id;
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u32 frag_size;
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} ____cacheline_aligned; /* perf critical, avoid false-sharing */
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struct xdp_txq_info {
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struct net_device *dev;
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};
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enum xdp_buff_flags {
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XDP_FLAGS_HAS_FRAGS = BIT(0), /* non-linear xdp buff */
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XDP_FLAGS_FRAGS_PF_MEMALLOC = BIT(1), /* xdp paged memory is under
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* pressure
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*/
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};
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struct xdp_buff {
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void *data;
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void *data_end;
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void *data_meta;
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void *data_hard_start;
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struct xdp_rxq_info *rxq;
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struct xdp_txq_info *txq;
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u32 frame_sz; /* frame size to deduce data_hard_end/reserved tailroom*/
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u32 flags; /* supported values defined in xdp_buff_flags */
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};
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static __always_inline bool xdp_buff_has_frags(struct xdp_buff *xdp)
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{
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return !!(xdp->flags & XDP_FLAGS_HAS_FRAGS);
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}
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static __always_inline void xdp_buff_set_frags_flag(struct xdp_buff *xdp)
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{
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xdp->flags |= XDP_FLAGS_HAS_FRAGS;
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}
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static __always_inline void xdp_buff_clear_frags_flag(struct xdp_buff *xdp)
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{
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xdp->flags &= ~XDP_FLAGS_HAS_FRAGS;
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}
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static __always_inline bool xdp_buff_is_frag_pfmemalloc(struct xdp_buff *xdp)
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{
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return !!(xdp->flags & XDP_FLAGS_FRAGS_PF_MEMALLOC);
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}
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static __always_inline void xdp_buff_set_frag_pfmemalloc(struct xdp_buff *xdp)
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{
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xdp->flags |= XDP_FLAGS_FRAGS_PF_MEMALLOC;
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}
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static __always_inline void
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xdp_init_buff(struct xdp_buff *xdp, u32 frame_sz, struct xdp_rxq_info *rxq)
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{
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xdp->frame_sz = frame_sz;
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xdp->rxq = rxq;
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xdp->flags = 0;
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}
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static __always_inline void
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xdp_prepare_buff(struct xdp_buff *xdp, unsigned char *hard_start,
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int headroom, int data_len, const bool meta_valid)
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{
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unsigned char *data = hard_start + headroom;
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xdp->data_hard_start = hard_start;
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xdp->data = data;
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xdp->data_end = data + data_len;
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xdp->data_meta = meta_valid ? data : data + 1;
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}
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/* Reserve memory area at end-of data area.
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*
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* This macro reserves tailroom in the XDP buffer by limiting the
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* XDP/BPF data access to data_hard_end. Notice same area (and size)
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* is used for XDP_PASS, when constructing the SKB via build_skb().
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*/
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#define xdp_data_hard_end(xdp) \
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((xdp)->data_hard_start + (xdp)->frame_sz - \
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SKB_DATA_ALIGN(sizeof(struct skb_shared_info)))
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static inline struct skb_shared_info *
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xdp_get_shared_info_from_buff(struct xdp_buff *xdp)
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{
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return (struct skb_shared_info *)xdp_data_hard_end(xdp);
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}
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static __always_inline unsigned int xdp_get_buff_len(struct xdp_buff *xdp)
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{
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unsigned int len = xdp->data_end - xdp->data;
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struct skb_shared_info *sinfo;
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if (likely(!xdp_buff_has_frags(xdp)))
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goto out;
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sinfo = xdp_get_shared_info_from_buff(xdp);
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len += sinfo->xdp_frags_size;
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out:
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return len;
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}
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struct xdp_frame {
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void *data;
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u16 len;
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u16 headroom;
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u32 metasize; /* uses lower 8-bits */
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/* Lifetime of xdp_rxq_info is limited to NAPI/enqueue time,
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* while mem info is valid on remote CPU.
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*/
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struct xdp_mem_info mem;
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struct net_device *dev_rx; /* used by cpumap */
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u32 frame_sz;
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u32 flags; /* supported values defined in xdp_buff_flags */
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};
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static __always_inline bool xdp_frame_has_frags(struct xdp_frame *frame)
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{
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return !!(frame->flags & XDP_FLAGS_HAS_FRAGS);
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}
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static __always_inline bool xdp_frame_is_frag_pfmemalloc(struct xdp_frame *frame)
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{
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return !!(frame->flags & XDP_FLAGS_FRAGS_PF_MEMALLOC);
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}
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#define XDP_BULK_QUEUE_SIZE 16
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struct xdp_frame_bulk {
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int count;
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void *xa;
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void *q[XDP_BULK_QUEUE_SIZE];
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};
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static __always_inline void xdp_frame_bulk_init(struct xdp_frame_bulk *bq)
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{
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/* bq->count will be zero'ed when bq->xa gets updated */
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bq->xa = NULL;
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}
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static inline struct skb_shared_info *
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xdp_get_shared_info_from_frame(struct xdp_frame *frame)
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{
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void *data_hard_start = frame->data - frame->headroom - sizeof(*frame);
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return (struct skb_shared_info *)(data_hard_start + frame->frame_sz -
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SKB_DATA_ALIGN(sizeof(struct skb_shared_info)));
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}
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struct xdp_cpumap_stats {
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unsigned int redirect;
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unsigned int pass;
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unsigned int drop;
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};
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/* Clear kernel pointers in xdp_frame */
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static inline void xdp_scrub_frame(struct xdp_frame *frame)
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{
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frame->data = NULL;
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frame->dev_rx = NULL;
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}
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static inline void
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xdp_update_skb_shared_info(struct sk_buff *skb, u8 nr_frags,
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unsigned int size, unsigned int truesize,
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bool pfmemalloc)
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{
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skb_shinfo(skb)->nr_frags = nr_frags;
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skb->len += size;
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skb->data_len += size;
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skb->truesize += truesize;
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skb->pfmemalloc |= pfmemalloc;
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}
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/* Avoids inlining WARN macro in fast-path */
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void xdp_warn(const char *msg, const char *func, const int line);
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#define XDP_WARN(msg) xdp_warn(msg, __func__, __LINE__)
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struct xdp_frame *xdp_convert_zc_to_xdp_frame(struct xdp_buff *xdp);
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struct sk_buff *__xdp_build_skb_from_frame(struct xdp_frame *xdpf,
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struct sk_buff *skb,
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struct net_device *dev);
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struct sk_buff *xdp_build_skb_from_frame(struct xdp_frame *xdpf,
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struct net_device *dev);
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int xdp_alloc_skb_bulk(void **skbs, int n_skb, gfp_t gfp);
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struct xdp_frame *xdpf_clone(struct xdp_frame *xdpf);
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static inline
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void xdp_convert_frame_to_buff(struct xdp_frame *frame, struct xdp_buff *xdp)
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{
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xdp->data_hard_start = frame->data - frame->headroom - sizeof(*frame);
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xdp->data = frame->data;
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xdp->data_end = frame->data + frame->len;
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xdp->data_meta = frame->data - frame->metasize;
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xdp->frame_sz = frame->frame_sz;
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xdp->flags = frame->flags;
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}
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static inline
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int xdp_update_frame_from_buff(struct xdp_buff *xdp,
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struct xdp_frame *xdp_frame)
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{
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int metasize, headroom;
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/* Assure headroom is available for storing info */
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headroom = xdp->data - xdp->data_hard_start;
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metasize = xdp->data - xdp->data_meta;
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metasize = metasize > 0 ? metasize : 0;
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if (unlikely((headroom - metasize) < sizeof(*xdp_frame)))
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return -ENOSPC;
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/* Catch if driver didn't reserve tailroom for skb_shared_info */
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if (unlikely(xdp->data_end > xdp_data_hard_end(xdp))) {
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XDP_WARN("Driver BUG: missing reserved tailroom");
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return -ENOSPC;
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}
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xdp_frame->data = xdp->data;
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xdp_frame->len = xdp->data_end - xdp->data;
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xdp_frame->headroom = headroom - sizeof(*xdp_frame);
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xdp_frame->metasize = metasize;
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xdp_frame->frame_sz = xdp->frame_sz;
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xdp_frame->flags = xdp->flags;
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return 0;
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}
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/* Convert xdp_buff to xdp_frame */
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static inline
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struct xdp_frame *xdp_convert_buff_to_frame(struct xdp_buff *xdp)
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{
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struct xdp_frame *xdp_frame;
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if (xdp->rxq->mem.type == MEM_TYPE_XSK_BUFF_POOL)
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return xdp_convert_zc_to_xdp_frame(xdp);
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/* Store info in top of packet */
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xdp_frame = xdp->data_hard_start;
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if (unlikely(xdp_update_frame_from_buff(xdp, xdp_frame) < 0))
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return NULL;
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/* rxq only valid until napi_schedule ends, convert to xdp_mem_info */
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xdp_frame->mem = xdp->rxq->mem;
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return xdp_frame;
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}
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void __xdp_return(void *data, struct xdp_mem_info *mem, bool napi_direct,
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struct xdp_buff *xdp);
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void xdp_return_frame(struct xdp_frame *xdpf);
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void xdp_return_frame_rx_napi(struct xdp_frame *xdpf);
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void xdp_return_buff(struct xdp_buff *xdp);
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void xdp_flush_frame_bulk(struct xdp_frame_bulk *bq);
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void xdp_return_frame_bulk(struct xdp_frame *xdpf,
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struct xdp_frame_bulk *bq);
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static __always_inline unsigned int xdp_get_frame_len(struct xdp_frame *xdpf)
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{
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struct skb_shared_info *sinfo;
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unsigned int len = xdpf->len;
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if (likely(!xdp_frame_has_frags(xdpf)))
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goto out;
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sinfo = xdp_get_shared_info_from_frame(xdpf);
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len += sinfo->xdp_frags_size;
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out:
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return len;
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}
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int __xdp_rxq_info_reg(struct xdp_rxq_info *xdp_rxq,
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struct net_device *dev, u32 queue_index,
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unsigned int napi_id, u32 frag_size);
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static inline int
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xdp_rxq_info_reg(struct xdp_rxq_info *xdp_rxq,
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struct net_device *dev, u32 queue_index,
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unsigned int napi_id)
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{
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return __xdp_rxq_info_reg(xdp_rxq, dev, queue_index, napi_id, 0);
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}
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void xdp_rxq_info_unreg(struct xdp_rxq_info *xdp_rxq);
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void xdp_rxq_info_unused(struct xdp_rxq_info *xdp_rxq);
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bool xdp_rxq_info_is_reg(struct xdp_rxq_info *xdp_rxq);
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int xdp_rxq_info_reg_mem_model(struct xdp_rxq_info *xdp_rxq,
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enum xdp_mem_type type, void *allocator);
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void xdp_rxq_info_unreg_mem_model(struct xdp_rxq_info *xdp_rxq);
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int xdp_reg_mem_model(struct xdp_mem_info *mem,
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enum xdp_mem_type type, void *allocator);
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void xdp_unreg_mem_model(struct xdp_mem_info *mem);
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/* Drivers not supporting XDP metadata can use this helper, which
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* rejects any room expansion for metadata as a result.
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*/
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static __always_inline void
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xdp_set_data_meta_invalid(struct xdp_buff *xdp)
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{
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xdp->data_meta = xdp->data + 1;
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}
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static __always_inline bool
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xdp_data_meta_unsupported(const struct xdp_buff *xdp)
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{
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return unlikely(xdp->data_meta > xdp->data);
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}
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static inline bool xdp_metalen_invalid(unsigned long metalen)
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{
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return (metalen & (sizeof(__u32) - 1)) || (metalen > 32);
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}
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struct xdp_attachment_info {
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struct bpf_prog *prog;
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u32 flags;
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};
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struct netdev_bpf;
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void xdp_attachment_setup(struct xdp_attachment_info *info,
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struct netdev_bpf *bpf);
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#define DEV_MAP_BULK_SIZE XDP_BULK_QUEUE_SIZE
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#define XDP_METADATA_KFUNC_xxx \
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XDP_METADATA_KFUNC(XDP_METADATA_KFUNC_RX_TIMESTAMP, \
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bpf_xdp_metadata_rx_timestamp) \
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XDP_METADATA_KFUNC(XDP_METADATA_KFUNC_RX_HASH, \
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bpf_xdp_metadata_rx_hash) \
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enum {
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#define XDP_METADATA_KFUNC(name, _) name,
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XDP_METADATA_KFUNC_xxx
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#undef XDP_METADATA_KFUNC
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MAX_XDP_METADATA_KFUNC,
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};
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enum xdp_rss_hash_type {
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/* First part: Individual bits for L3/L4 types */
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||
|
XDP_RSS_L3_IPV4 = BIT(0),
|
||
|
XDP_RSS_L3_IPV6 = BIT(1),
|
||
|
|
||
|
/* The fixed (L3) IPv4 and IPv6 headers can both be followed by
|
||
|
* variable/dynamic headers, IPv4 called Options and IPv6 called
|
||
|
* Extension Headers. HW RSS type can contain this info.
|
||
|
*/
|
||
|
XDP_RSS_L3_DYNHDR = BIT(2),
|
||
|
|
||
|
/* When RSS hash covers L4 then drivers MUST set XDP_RSS_L4 bit in
|
||
|
* addition to the protocol specific bit. This ease interaction with
|
||
|
* SKBs and avoids reserving a fixed mask for future L4 protocol bits.
|
||
|
*/
|
||
|
XDP_RSS_L4 = BIT(3), /* L4 based hash, proto can be unknown */
|
||
|
XDP_RSS_L4_TCP = BIT(4),
|
||
|
XDP_RSS_L4_UDP = BIT(5),
|
||
|
XDP_RSS_L4_SCTP = BIT(6),
|
||
|
XDP_RSS_L4_IPSEC = BIT(7), /* L4 based hash include IPSEC SPI */
|
||
|
|
||
|
/* Second part: RSS hash type combinations used for driver HW mapping */
|
||
|
XDP_RSS_TYPE_NONE = 0,
|
||
|
XDP_RSS_TYPE_L2 = XDP_RSS_TYPE_NONE,
|
||
|
|
||
|
XDP_RSS_TYPE_L3_IPV4 = XDP_RSS_L3_IPV4,
|
||
|
XDP_RSS_TYPE_L3_IPV6 = XDP_RSS_L3_IPV6,
|
||
|
XDP_RSS_TYPE_L3_IPV4_OPT = XDP_RSS_L3_IPV4 | XDP_RSS_L3_DYNHDR,
|
||
|
XDP_RSS_TYPE_L3_IPV6_EX = XDP_RSS_L3_IPV6 | XDP_RSS_L3_DYNHDR,
|
||
|
|
||
|
XDP_RSS_TYPE_L4_ANY = XDP_RSS_L4,
|
||
|
XDP_RSS_TYPE_L4_IPV4_TCP = XDP_RSS_L3_IPV4 | XDP_RSS_L4 | XDP_RSS_L4_TCP,
|
||
|
XDP_RSS_TYPE_L4_IPV4_UDP = XDP_RSS_L3_IPV4 | XDP_RSS_L4 | XDP_RSS_L4_UDP,
|
||
|
XDP_RSS_TYPE_L4_IPV4_SCTP = XDP_RSS_L3_IPV4 | XDP_RSS_L4 | XDP_RSS_L4_SCTP,
|
||
|
XDP_RSS_TYPE_L4_IPV4_IPSEC = XDP_RSS_L3_IPV4 | XDP_RSS_L4 | XDP_RSS_L4_IPSEC,
|
||
|
|
||
|
XDP_RSS_TYPE_L4_IPV6_TCP = XDP_RSS_L3_IPV6 | XDP_RSS_L4 | XDP_RSS_L4_TCP,
|
||
|
XDP_RSS_TYPE_L4_IPV6_UDP = XDP_RSS_L3_IPV6 | XDP_RSS_L4 | XDP_RSS_L4_UDP,
|
||
|
XDP_RSS_TYPE_L4_IPV6_SCTP = XDP_RSS_L3_IPV6 | XDP_RSS_L4 | XDP_RSS_L4_SCTP,
|
||
|
XDP_RSS_TYPE_L4_IPV6_IPSEC = XDP_RSS_L3_IPV6 | XDP_RSS_L4 | XDP_RSS_L4_IPSEC,
|
||
|
|
||
|
XDP_RSS_TYPE_L4_IPV6_TCP_EX = XDP_RSS_TYPE_L4_IPV6_TCP | XDP_RSS_L3_DYNHDR,
|
||
|
XDP_RSS_TYPE_L4_IPV6_UDP_EX = XDP_RSS_TYPE_L4_IPV6_UDP | XDP_RSS_L3_DYNHDR,
|
||
|
XDP_RSS_TYPE_L4_IPV6_SCTP_EX = XDP_RSS_TYPE_L4_IPV6_SCTP | XDP_RSS_L3_DYNHDR,
|
||
|
};
|
||
|
|
||
|
#ifdef CONFIG_NET
|
||
|
u32 bpf_xdp_metadata_kfunc_id(int id);
|
||
|
bool bpf_dev_bound_kfunc_id(u32 btf_id);
|
||
|
void xdp_set_features_flag(struct net_device *dev, xdp_features_t val);
|
||
|
void xdp_features_set_redirect_target(struct net_device *dev, bool support_sg);
|
||
|
void xdp_features_clear_redirect_target(struct net_device *dev);
|
||
|
#else
|
||
|
static inline u32 bpf_xdp_metadata_kfunc_id(int id) { return 0; }
|
||
|
static inline bool bpf_dev_bound_kfunc_id(u32 btf_id) { return false; }
|
||
|
|
||
|
static inline void
|
||
|
xdp_set_features_flag(struct net_device *dev, xdp_features_t val)
|
||
|
{
|
||
|
}
|
||
|
|
||
|
static inline void
|
||
|
xdp_features_set_redirect_target(struct net_device *dev, bool support_sg)
|
||
|
{
|
||
|
}
|
||
|
|
||
|
static inline void
|
||
|
xdp_features_clear_redirect_target(struct net_device *dev)
|
||
|
{
|
||
|
}
|
||
|
#endif
|
||
|
|
||
|
static inline void xdp_clear_features_flag(struct net_device *dev)
|
||
|
{
|
||
|
xdp_set_features_flag(dev, 0);
|
||
|
}
|
||
|
|
||
|
#endif /* __LINUX_NET_XDP_H__ */
|