Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Dimitris Michailidis | 978 | 99.59% | 4 | 66.67% |
Jakub Kiciński | 3 | 0.31% | 1 | 16.67% |
Thomas Gleixner | 1 | 0.10% | 1 | 16.67% |
Total | 982 | 6 |
/* SPDX-License-Identifier: (GPL-2.0-only OR BSD-3-Clause) */ #ifndef _FUNETH_TXRX_H #define _FUNETH_TXRX_H #include <linux/netdevice.h> #include <linux/u64_stats_sync.h> #include <net/xdp.h> /* Tx descriptor size */ #define FUNETH_SQE_SIZE 64U /* Size of device headers per Tx packet */ #define FUNETH_FUNOS_HDR_SZ (sizeof(struct fun_eth_tx_req)) /* Number of gather list entries per Tx descriptor */ #define FUNETH_GLE_PER_DESC (FUNETH_SQE_SIZE / sizeof(struct fun_dataop_gl)) /* Max gather list size in bytes for an sk_buff. */ #define FUNETH_MAX_GL_SZ ((MAX_SKB_FRAGS + 1) * sizeof(struct fun_dataop_gl)) #if IS_ENABLED(CONFIG_TLS_DEVICE) # define FUNETH_TLS_SZ sizeof(struct fun_eth_tls) #else # define FUNETH_TLS_SZ 0 #endif /* Max number of Tx descriptors for an sk_buff using a gather list. */ #define FUNETH_MAX_GL_DESC \ DIV_ROUND_UP((FUNETH_FUNOS_HDR_SZ + FUNETH_MAX_GL_SZ + FUNETH_TLS_SZ), \ FUNETH_SQE_SIZE) /* Max number of Tx descriptors for any packet. */ #define FUNETH_MAX_PKT_DESC FUNETH_MAX_GL_DESC /* Rx CQ descriptor size. */ #define FUNETH_CQE_SIZE 64U /* Offset of cqe_info within a CQE. */ #define FUNETH_CQE_INFO_OFFSET (FUNETH_CQE_SIZE - sizeof(struct fun_cqe_info)) /* Construct the IRQ portion of a CQ doorbell. The resulting value arms the * interrupt with the supplied time delay and packet count moderation settings. */ #define FUN_IRQ_CQ_DB(usec, pkts) \ (FUN_DB_IRQ_ARM_F | ((usec) << FUN_DB_INTCOAL_USEC_S) | \ ((pkts) << FUN_DB_INTCOAL_ENTRIES_S)) /* As above for SQ doorbells. */ #define FUN_IRQ_SQ_DB(usec, pkts) \ (FUN_DB_IRQ_ARM_F | \ ((usec) << FUN_DB_INTCOAL_USEC_S) | \ ((pkts) << FUN_DB_INTCOAL_ENTRIES_S)) /* Per packet tailroom. Present only for 1-frag packets. */ #define FUN_RX_TAILROOM SKB_DATA_ALIGN(sizeof(struct skb_shared_info)) /* Per packet headroom for XDP. Preferred over XDP_PACKET_HEADROOM to * accommodate two packets per buffer for 4K pages and 1500B MTUs. */ #define FUN_XDP_HEADROOM 192 /* Initialization state of a queue. */ enum { FUN_QSTATE_DESTROYED, /* what queue? */ FUN_QSTATE_INIT_SW, /* exists in SW, not on the device */ FUN_QSTATE_INIT_FULL, /* exists both in SW and on device */ }; /* Initialization state of an interrupt. */ enum { FUN_IRQ_INIT, /* initialized and in the XArray but inactive */ FUN_IRQ_REQUESTED, /* request_irq() done */ FUN_IRQ_ENABLED, /* processing enabled */ FUN_IRQ_DISABLED, /* processing disabled */ }; struct bpf_prog; struct funeth_txq_stats { /* per Tx queue SW counters */ u64 tx_pkts; /* # of Tx packets */ u64 tx_bytes; /* total bytes of Tx packets */ u64 tx_cso; /* # of packets with checksum offload */ u64 tx_tso; /* # of non-encapsulated TSO super-packets */ u64 tx_encap_tso; /* # of encapsulated TSO super-packets */ u64 tx_uso; /* # of non-encapsulated UDP LSO super-packets */ u64 tx_more; /* # of DBs elided due to xmit_more */ u64 tx_nstops; /* # of times the queue has stopped */ u64 tx_nrestarts; /* # of times the queue has restarted */ u64 tx_map_err; /* # of packets dropped due to DMA mapping errors */ u64 tx_xdp_full; /* # of XDP packets that could not be enqueued */ u64 tx_tls_pkts; /* # of Tx TLS packets offloaded to HW */ u64 tx_tls_bytes; /* Tx bytes of HW-handled TLS payload */ u64 tx_tls_fallback; /* attempted Tx TLS offloads punted to SW */ u64 tx_tls_drops; /* attempted Tx TLS offloads dropped */ }; struct funeth_tx_info { /* per Tx descriptor state */ union { struct sk_buff *skb; /* associated packet (sk_buff path) */ struct xdp_frame *xdpf; /* associated XDP frame (XDP path) */ }; }; struct funeth_txq { /* RO cacheline of frequently accessed data */ u32 mask; /* queue depth - 1 */ u32 hw_qid; /* device ID of the queue */ void *desc; /* base address of descriptor ring */ struct funeth_tx_info *info; struct device *dma_dev; /* device for DMA mappings */ volatile __be64 *hw_wb; /* HW write-back location */ u32 __iomem *db; /* SQ doorbell register address */ struct netdev_queue *ndq; dma_addr_t dma_addr; /* DMA address of descriptor ring */ /* producer R/W cacheline */ u16 qidx; /* queue index within net_device */ u16 ethid; u32 prod_cnt; /* producer counter */ struct funeth_txq_stats stats; /* shared R/W cacheline, primarily accessed by consumer */ u32 irq_db_val; /* value written to IRQ doorbell */ u32 cons_cnt; /* consumer (cleanup) counter */ struct net_device *netdev; struct fun_irq *irq; int numa_node; u8 init_state; /* queue initialization state */ struct u64_stats_sync syncp; }; struct funeth_rxq_stats { /* per Rx queue SW counters */ u64 rx_pkts; /* # of received packets, including SW drops */ u64 rx_bytes; /* total size of received packets */ u64 rx_cso; /* # of packets with checksum offload */ u64 rx_bufs; /* total # of Rx buffers provided to device */ u64 gro_pkts; /* # of GRO superpackets */ u64 gro_merged; /* # of pkts merged into existing GRO superpackets */ u64 rx_page_alloc; /* # of page allocations for Rx buffers */ u64 rx_budget; /* NAPI iterations that exhausted their budget */ u64 rx_mem_drops; /* # of packets dropped due to memory shortage */ u64 rx_map_err; /* # of page DMA mapping errors */ u64 xdp_drops; /* XDP_DROPped packets */ u64 xdp_tx; /* successful XDP transmits */ u64 xdp_redir; /* successful XDP redirects */ u64 xdp_err; /* packets dropped due to XDP errors */ }; struct funeth_rxbuf { /* per Rx buffer state */ struct page *page; /* associated page */ dma_addr_t dma_addr; /* DMA address of page start */ int pg_refs; /* page refs held by driver */ int node; /* page node, or -1 if it is PF_MEMALLOC */ }; struct funeth_rx_cache { /* cache of DMA-mapped previously used buffers */ struct funeth_rxbuf *bufs; /* base of Rx buffer state ring */ unsigned int prod_cnt; /* producer counter */ unsigned int cons_cnt; /* consumer counter */ unsigned int mask; /* depth - 1 */ }; /* An Rx queue consists of a CQ and an SQ used to provide Rx buffers. */ struct funeth_rxq { struct net_device *netdev; struct napi_struct *napi; struct device *dma_dev; /* device for DMA mappings */ void *cqes; /* base of CQ descriptor ring */ const void *next_cqe_info; /* fun_cqe_info of next CQE */ u32 __iomem *cq_db; /* CQ doorbell register address */ unsigned int cq_head; /* CQ head index */ unsigned int cq_mask; /* CQ depth - 1 */ u16 phase; /* CQ phase tag */ u16 qidx; /* queue index within net_device */ unsigned int irq_db_val; /* IRQ info for CQ doorbell */ struct fun_eprq_rqbuf *rqes; /* base of RQ descriptor ring */ struct funeth_rxbuf *bufs; /* base of Rx buffer state ring */ struct funeth_rxbuf *cur_buf; /* currently active buffer */ u32 __iomem *rq_db; /* RQ doorbell register address */ unsigned int rq_cons; /* RQ consumer counter */ unsigned int rq_mask; /* RQ depth - 1 */ unsigned int buf_offset; /* offset of next pkt in head buffer */ u8 xdp_flush; /* XDP flush types needed at NAPI end */ u8 init_state; /* queue initialization state */ u16 headroom; /* per packet headroom */ unsigned int rq_cons_db; /* value of rq_cons at last RQ db */ unsigned int rq_db_thres; /* # of new buffers needed to write RQ db */ struct funeth_rxbuf spare_buf; /* spare for next buffer replacement */ struct funeth_rx_cache cache; /* used buffer cache */ struct bpf_prog *xdp_prog; /* optional XDP BPF program */ struct funeth_rxq_stats stats; dma_addr_t cq_dma_addr; /* DMA address of CQE ring */ dma_addr_t rq_dma_addr; /* DMA address of RQE ring */ u16 irq_cnt; u32 hw_cqid; /* device ID of the queue's CQ */ u32 hw_sqid; /* device ID of the queue's SQ */ int numa_node; struct u64_stats_sync syncp; struct xdp_rxq_info xdp_rxq; }; #define FUN_QSTAT_INC(q, counter) \ do { \ u64_stats_update_begin(&(q)->syncp); \ (q)->stats.counter++; \ u64_stats_update_end(&(q)->syncp); \ } while (0) #define FUN_QSTAT_READ(q, seq, stats_copy) \ do { \ seq = u64_stats_fetch_begin(&(q)->syncp); \ stats_copy = (q)->stats; \ } while (u64_stats_fetch_retry(&(q)->syncp, (seq))) #define FUN_INT_NAME_LEN (IFNAMSIZ + 16) struct fun_irq { struct napi_struct napi; struct funeth_txq *txq; struct funeth_rxq *rxq; u8 state; u16 irq_idx; /* index of MSI-X interrupt */ int irq; /* Linux IRQ vector */ cpumask_t affinity_mask; /* IRQ affinity */ struct irq_affinity_notify aff_notify; char name[FUN_INT_NAME_LEN]; } ____cacheline_internodealigned_in_smp; /* Return the start address of the idx-th Tx descriptor. */ static inline void *fun_tx_desc_addr(const struct funeth_txq *q, unsigned int idx) { return q->desc + idx * FUNETH_SQE_SIZE; } static inline void fun_txq_wr_db(const struct funeth_txq *q) { unsigned int tail = q->prod_cnt & q->mask; writel(tail, q->db); } static inline int fun_irq_node(const struct fun_irq *p) { return cpu_to_mem(cpumask_first(&p->affinity_mask)); } int fun_rxq_napi_poll(struct napi_struct *napi, int budget); int fun_txq_napi_poll(struct napi_struct *napi, int budget); netdev_tx_t fun_start_xmit(struct sk_buff *skb, struct net_device *netdev); bool fun_xdp_tx(struct funeth_txq *q, struct xdp_frame *xdpf); int fun_xdp_xmit_frames(struct net_device *dev, int n, struct xdp_frame **frames, u32 flags); int funeth_txq_create(struct net_device *dev, unsigned int qidx, unsigned int ndesc, struct fun_irq *irq, int state, struct funeth_txq **qp); int fun_txq_create_dev(struct funeth_txq *q, struct fun_irq *irq); struct funeth_txq *funeth_txq_free(struct funeth_txq *q, int state); int funeth_rxq_create(struct net_device *dev, unsigned int qidx, unsigned int ncqe, unsigned int nrqe, struct fun_irq *irq, int state, struct funeth_rxq **qp); int fun_rxq_create_dev(struct funeth_rxq *q, struct fun_irq *irq); struct funeth_rxq *funeth_rxq_free(struct funeth_rxq *q, int state); int fun_rxq_set_bpf(struct funeth_rxq *q, struct bpf_prog *prog); #endif /* _FUNETH_TXRX_H */
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