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|
/* SPDX-License-Identifier: (GPL-2.0 OR MIT)
* Google virtual Ethernet (gve) driver
*
* Copyright (C) 2015-2021 Google, Inc.
*/
#ifndef _GVE_H_
#define _GVE_H_
#include <linux/dma-mapping.h>
#include <linux/netdevice.h>
#include <linux/pci.h>
#include <linux/u64_stats_sync.h>
#include "gve_desc.h"
#include "gve_desc_dqo.h"
#ifndef PCI_VENDOR_ID_GOOGLE
#define PCI_VENDOR_ID_GOOGLE 0x1ae0
#endif
#define PCI_DEV_ID_GVNIC 0x0042
#define GVE_REGISTER_BAR 0
#define GVE_DOORBELL_BAR 2
/* Driver can alloc up to 2 segments for the header and 2 for the payload. */
#define GVE_TX_MAX_IOVEC 4
/* 1 for management, 1 for rx, 1 for tx */
#define GVE_MIN_MSIX 3
/* Numbers of gve tx/rx stats in stats report. */
#define GVE_TX_STATS_REPORT_NUM 6
#define GVE_RX_STATS_REPORT_NUM 2
/* Interval to schedule a stats report update, 20000ms. */
#define GVE_STATS_REPORT_TIMER_PERIOD 20000
/* Numbers of NIC tx/rx stats in stats report. */
#define NIC_TX_STATS_REPORT_NUM 0
#define NIC_RX_STATS_REPORT_NUM 4
#define GVE_DATA_SLOT_ADDR_PAGE_MASK (~(PAGE_SIZE - 1))
/* PTYPEs are always 10 bits. */
#define GVE_NUM_PTYPES 1024
#define GVE_RX_BUFFER_SIZE_DQO 2048
#define GVE_XDP_ACTIONS 5
#define GVE_TX_MAX_HEADER_SIZE 182
/* Each slot in the desc ring has a 1:1 mapping to a slot in the data ring */
struct gve_rx_desc_queue {
struct gve_rx_desc *desc_ring; /* the descriptor ring */
dma_addr_t bus; /* the bus for the desc_ring */
u8 seqno; /* the next expected seqno for this desc*/
};
/* The page info for a single slot in the RX data queue */
struct gve_rx_slot_page_info {
struct page *page;
void *page_address;
u32 page_offset; /* offset to write to in page */
int pagecnt_bias; /* expected pagecnt if only the driver has a ref */
u16 pad; /* adjustment for rx padding */
u8 can_flip; /* tracks if the networking stack is using the page */
};
/* A list of pages registered with the device during setup and used by a queue
* as buffers
*/
struct gve_queue_page_list {
u32 id; /* unique id */
u32 num_entries;
struct page **pages; /* list of num_entries pages */
dma_addr_t *page_buses; /* the dma addrs of the pages */
};
/* Each slot in the data ring has a 1:1 mapping to a slot in the desc ring */
struct gve_rx_data_queue {
union gve_rx_data_slot *data_ring; /* read by NIC */
dma_addr_t data_bus; /* dma mapping of the slots */
struct gve_rx_slot_page_info *page_info; /* page info of the buffers */
struct gve_queue_page_list *qpl; /* qpl assigned to this queue */
u8 raw_addressing; /* use raw_addressing? */
};
struct gve_priv;
/* RX buffer queue for posting buffers to HW.
* Each RX (completion) queue has a corresponding buffer queue.
*/
struct gve_rx_buf_queue_dqo {
struct gve_rx_desc_dqo *desc_ring;
dma_addr_t bus;
u32 head; /* Pointer to start cleaning buffers at. */
u32 tail; /* Last posted buffer index + 1 */
u32 mask; /* Mask for indices to the size of the ring */
};
/* RX completion queue to receive packets from HW. */
struct gve_rx_compl_queue_dqo {
struct gve_rx_compl_desc_dqo *desc_ring;
dma_addr_t bus;
/* Number of slots which did not have a buffer posted yet. We should not
* post more buffers than the queue size to avoid HW overrunning the
* queue.
*/
int num_free_slots;
/* HW uses a "generation bit" to notify SW of new descriptors. When a
* descriptor's generation bit is different from the current generation,
* that descriptor is ready to be consumed by SW.
*/
u8 cur_gen_bit;
/* Pointer into desc_ring where the next completion descriptor will be
* received.
*/
u32 head;
u32 mask; /* Mask for indices to the size of the ring */
};
/* Stores state for tracking buffers posted to HW */
struct gve_rx_buf_state_dqo {
/* The page posted to HW. */
struct gve_rx_slot_page_info page_info;
/* The DMA address corresponding to `page_info`. */
dma_addr_t addr;
/* Last offset into the page when it only had a single reference, at
* which point every other offset is free to be reused.
*/
u32 last_single_ref_offset;
/* Linked list index to next element in the list, or -1 if none */
s16 next;
};
/* `head` and `tail` are indices into an array, or -1 if empty. */
struct gve_index_list {
s16 head;
s16 tail;
};
/* A single received packet split across multiple buffers may be
* reconstructed using the information in this structure.
*/
struct gve_rx_ctx {
/* head and tail of skb chain for the current packet or NULL if none */
struct sk_buff *skb_head;
struct sk_buff *skb_tail;
u32 total_size;
u8 frag_cnt;
bool drop_pkt;
};
struct gve_rx_cnts {
u32 ok_pkt_bytes;
u16 ok_pkt_cnt;
u16 total_pkt_cnt;
u16 cont_pkt_cnt;
u16 desc_err_pkt_cnt;
};
/* Contains datapath state used to represent an RX queue. */
struct gve_rx_ring {
struct gve_priv *gve;
union {
/* GQI fields */
struct {
struct gve_rx_desc_queue desc;
struct gve_rx_data_queue data;
/* threshold for posting new buffs and descs */
u32 db_threshold;
u16 packet_buffer_size;
u32 qpl_copy_pool_mask;
u32 qpl_copy_pool_head;
struct gve_rx_slot_page_info *qpl_copy_pool;
};
/* DQO fields. */
struct {
struct gve_rx_buf_queue_dqo bufq;
struct gve_rx_compl_queue_dqo complq;
struct gve_rx_buf_state_dqo *buf_states;
u16 num_buf_states;
/* Linked list of gve_rx_buf_state_dqo. Index into
* buf_states, or -1 if empty.
*/
s16 free_buf_states;
/* Linked list of gve_rx_buf_state_dqo. Indexes into
* buf_states, or -1 if empty.
*
* This list contains buf_states which are pointing to
* valid buffers.
*
* We use a FIFO here in order to increase the
* probability that buffers can be reused by increasing
* the time between usages.
*/
struct gve_index_list recycled_buf_states;
/* Linked list of gve_rx_buf_state_dqo. Indexes into
* buf_states, or -1 if empty.
*
* This list contains buf_states which have buffers
* which cannot be reused yet.
*/
struct gve_index_list used_buf_states;
} dqo;
};
u64 rbytes; /* free-running bytes received */
u64 rpackets; /* free-running packets received */
u32 cnt; /* free-running total number of completed packets */
u32 fill_cnt; /* free-running total number of descs and buffs posted */
u32 mask; /* masks the cnt and fill_cnt to the size of the ring */
u64 rx_copybreak_pkt; /* free-running count of copybreak packets */
u64 rx_copied_pkt; /* free-running total number of copied packets */
u64 rx_skb_alloc_fail; /* free-running count of skb alloc fails */
u64 rx_buf_alloc_fail; /* free-running count of buffer alloc fails */
u64 rx_desc_err_dropped_pkt; /* free-running count of packets dropped by descriptor error */
u64 rx_cont_packet_cnt; /* free-running multi-fragment packets received */
u64 rx_frag_flip_cnt; /* free-running count of rx segments where page_flip was used */
u64 rx_frag_copy_cnt; /* free-running count of rx segments copied */
u64 rx_frag_alloc_cnt; /* free-running count of rx page allocations */
u64 xdp_tx_errors;
u64 xdp_redirect_errors;
u64 xdp_actions[GVE_XDP_ACTIONS];
u32 q_num; /* queue index */
u32 ntfy_id; /* notification block index */
struct gve_queue_resources *q_resources; /* head and tail pointer idx */
dma_addr_t q_resources_bus; /* dma address for the queue resources */
struct u64_stats_sync statss; /* sync stats for 32bit archs */
struct gve_rx_ctx ctx; /* Info for packet currently being processed in this ring. */
/* XDP stuff */
struct xdp_rxq_info xdp_rxq;
};
/* A TX desc ring entry */
union gve_tx_desc {
struct gve_tx_pkt_desc pkt; /* first desc for a packet */
struct gve_tx_mtd_desc mtd; /* optional metadata descriptor */
struct gve_tx_seg_desc seg; /* subsequent descs for a packet */
};
/* Tracks the memory in the fifo occupied by a segment of a packet */
struct gve_tx_iovec {
u32 iov_offset; /* offset into this segment */
u32 iov_len; /* length */
u32 iov_padding; /* padding associated with this segment */
};
/* Tracks the memory in the fifo occupied by the skb. Mapped 1:1 to a desc
* ring entry but only used for a pkt_desc not a seg_desc
*/
struct gve_tx_buffer_state {
struct sk_buff *skb; /* skb for this pkt */
struct {
u16 size; /* size of xmitted xdp pkt */
} xdp;
union {
struct gve_tx_iovec iov[GVE_TX_MAX_IOVEC]; /* segments of this pkt */
struct {
DEFINE_DMA_UNMAP_ADDR(dma);
DEFINE_DMA_UNMAP_LEN(len);
};
};
};
/* A TX buffer - each queue has one */
struct gve_tx_fifo {
void *base; /* address of base of FIFO */
u32 size; /* total size */
atomic_t available; /* how much space is still available */
u32 head; /* offset to write at */
struct gve_queue_page_list *qpl; /* QPL mapped into this FIFO */
};
/* TX descriptor for DQO format */
union gve_tx_desc_dqo {
struct gve_tx_pkt_desc_dqo pkt;
struct gve_tx_tso_context_desc_dqo tso_ctx;
struct gve_tx_general_context_desc_dqo general_ctx;
};
enum gve_packet_state {
/* Packet is in free list, available to be allocated.
* This should always be zero since state is not explicitly initialized.
*/
GVE_PACKET_STATE_UNALLOCATED,
/* Packet is expecting a regular data completion or miss completion */
GVE_PACKET_STATE_PENDING_DATA_COMPL,
/* Packet has received a miss completion and is expecting a
* re-injection completion.
*/
GVE_PACKET_STATE_PENDING_REINJECT_COMPL,
/* No valid completion received within the specified timeout. */
GVE_PACKET_STATE_TIMED_OUT_COMPL,
};
struct gve_tx_pending_packet_dqo {
struct sk_buff *skb; /* skb for this packet */
/* 0th element corresponds to the linear portion of `skb`, should be
* unmapped with `dma_unmap_single`.
*
* All others correspond to `skb`'s frags and should be unmapped with
* `dma_unmap_page`.
*/
DEFINE_DMA_UNMAP_ADDR(dma[MAX_SKB_FRAGS + 1]);
DEFINE_DMA_UNMAP_LEN(len[MAX_SKB_FRAGS + 1]);
u16 num_bufs;
/* Linked list index to next element in the list, or -1 if none */
s16 next;
/* Linked list index to prev element in the list, or -1 if none.
* Used for tracking either outstanding miss completions or prematurely
* freed packets.
*/
s16 prev;
/* Identifies the current state of the packet as defined in
* `enum gve_packet_state`.
*/
u8 state;
/* If packet is an outstanding miss completion, then the packet is
* freed if the corresponding re-injection completion is not received
* before kernel jiffies exceeds timeout_jiffies.
*/
unsigned long timeout_jiffies;
};
/* Contains datapath state used to represent a TX queue. */
struct gve_tx_ring {
/* Cacheline 0 -- Accessed & dirtied during transmit */
union {
/* GQI fields */
struct {
struct gve_tx_fifo tx_fifo;
u32 req; /* driver tracked head pointer */
u32 done; /* driver tracked tail pointer */
};
/* DQO fields. */
struct {
/* Linked list of gve_tx_pending_packet_dqo. Index into
* pending_packets, or -1 if empty.
*
* This is a consumer list owned by the TX path. When it
* runs out, the producer list is stolen from the
* completion handling path
* (dqo_compl.free_pending_packets).
*/
s16 free_pending_packets;
/* Cached value of `dqo_compl.hw_tx_head` */
u32 head;
u32 tail; /* Last posted buffer index + 1 */
/* Index of the last descriptor with "report event" bit
* set.
*/
u32 last_re_idx;
} dqo_tx;
};
/* Cacheline 1 -- Accessed & dirtied during gve_clean_tx_done */
union {
/* GQI fields */
struct {
/* Spinlock for when cleanup in progress */
spinlock_t clean_lock;
};
/* DQO fields. */
struct {
u32 head; /* Last read on compl_desc */
/* Tracks the current gen bit of compl_q */
u8 cur_gen_bit;
/* Linked list of gve_tx_pending_packet_dqo. Index into
* pending_packets, or -1 if empty.
*
* This is the producer list, owned by the completion
* handling path. When the consumer list
* (dqo_tx.free_pending_packets) is runs out, this list
* will be stolen.
*/
atomic_t free_pending_packets;
/* Last TX ring index fetched by HW */
atomic_t hw_tx_head;
/* List to track pending packets which received a miss
* completion but not a corresponding reinjection.
*/
struct gve_index_list miss_completions;
/* List to track pending packets that were completed
* before receiving a valid completion because they
* reached a specified timeout.
*/
struct gve_index_list timed_out_completions;
} dqo_compl;
} ____cacheline_aligned;
u64 pkt_done; /* free-running - total packets completed */
u64 bytes_done; /* free-running - total bytes completed */
u64 dropped_pkt; /* free-running - total packets dropped */
u64 dma_mapping_error; /* count of dma mapping errors */
/* Cacheline 2 -- Read-mostly fields */
union {
/* GQI fields */
struct {
union gve_tx_desc *desc;
/* Maps 1:1 to a desc */
struct gve_tx_buffer_state *info;
};
/* DQO fields. */
struct {
union gve_tx_desc_dqo *tx_ring;
struct gve_tx_compl_desc *compl_ring;
struct gve_tx_pending_packet_dqo *pending_packets;
s16 num_pending_packets;
u32 complq_mask; /* complq size is complq_mask + 1 */
} dqo;
} ____cacheline_aligned;
struct netdev_queue *netdev_txq;
struct gve_queue_resources *q_resources; /* head and tail pointer idx */
struct device *dev;
u32 mask; /* masks req and done down to queue size */
u8 raw_addressing; /* use raw_addressing? */
/* Slow-path fields */
u32 q_num ____cacheline_aligned; /* queue idx */
u32 stop_queue; /* count of queue stops */
u32 wake_queue; /* count of queue wakes */
u32 queue_timeout; /* count of queue timeouts */
u32 ntfy_id; /* notification block index */
u32 last_kick_msec; /* Last time the queue was kicked */
dma_addr_t bus; /* dma address of the descr ring */
dma_addr_t q_resources_bus; /* dma address of the queue resources */
dma_addr_t complq_bus_dqo; /* dma address of the dqo.compl_ring */
struct u64_stats_sync statss; /* sync stats for 32bit archs */
} ____cacheline_aligned;
/* Wraps the info for one irq including the napi struct and the queues
* associated with that irq.
*/
struct gve_notify_block {
__be32 *irq_db_index; /* pointer to idx into Bar2 */
char name[IFNAMSIZ + 16]; /* name registered with the kernel */
struct napi_struct napi; /* kernel napi struct for this block */
struct gve_priv *priv;
struct gve_tx_ring *tx; /* tx rings on this block */
struct gve_rx_ring *rx; /* rx rings on this block */
};
/* Tracks allowed and current queue settings */
struct gve_queue_config {
u16 max_queues;
u16 num_queues; /* current */
};
/* Tracks the available and used qpl IDs */
struct gve_qpl_config {
u32 qpl_map_size; /* map memory size */
unsigned long *qpl_id_map; /* bitmap of used qpl ids */
};
struct gve_options_dqo_rda {
u16 tx_comp_ring_entries; /* number of tx_comp descriptors */
u16 rx_buff_ring_entries; /* number of rx_buff descriptors */
};
struct gve_irq_db {
__be32 index;
} ____cacheline_aligned;
struct gve_ptype {
u8 l3_type; /* `gve_l3_type` in gve_adminq.h */
u8 l4_type; /* `gve_l4_type` in gve_adminq.h */
};
struct gve_ptype_lut {
struct gve_ptype ptypes[GVE_NUM_PTYPES];
};
/* GVE_QUEUE_FORMAT_UNSPECIFIED must be zero since 0 is the default value
* when the entire configure_device_resources command is zeroed out and the
* queue_format is not specified.
*/
enum gve_queue_format {
GVE_QUEUE_FORMAT_UNSPECIFIED = 0x0,
GVE_GQI_RDA_FORMAT = 0x1,
GVE_GQI_QPL_FORMAT = 0x2,
GVE_DQO_RDA_FORMAT = 0x3,
};
struct gve_priv {
struct net_device *dev;
struct gve_tx_ring *tx; /* array of tx_cfg.num_queues */
struct gve_rx_ring *rx; /* array of rx_cfg.num_queues */
struct gve_queue_page_list *qpls; /* array of num qpls */
struct gve_notify_block *ntfy_blocks; /* array of num_ntfy_blks */
struct gve_irq_db *irq_db_indices; /* array of num_ntfy_blks */
dma_addr_t irq_db_indices_bus;
struct msix_entry *msix_vectors; /* array of num_ntfy_blks + 1 */
char mgmt_msix_name[IFNAMSIZ + 16];
u32 mgmt_msix_idx;
__be32 *counter_array; /* array of num_event_counters */
dma_addr_t counter_array_bus;
u16 num_event_counters;
u16 tx_desc_cnt; /* num desc per ring */
u16 rx_desc_cnt; /* num desc per ring */
u16 tx_pages_per_qpl; /* tx buffer length */
u16 rx_data_slot_cnt; /* rx buffer length */
u64 max_registered_pages;
u64 num_registered_pages; /* num pages registered with NIC */
struct bpf_prog *xdp_prog; /* XDP BPF program */
u32 rx_copybreak; /* copy packets smaller than this */
u16 default_num_queues; /* default num queues to set up */
u16 num_xdp_queues;
struct gve_queue_config tx_cfg;
struct gve_queue_config rx_cfg;
struct gve_qpl_config qpl_cfg; /* map used QPL ids */
u32 num_ntfy_blks; /* spilt between TX and RX so must be even */
struct gve_registers __iomem *reg_bar0; /* see gve_register.h */
__be32 __iomem *db_bar2; /* "array" of doorbells */
u32 msg_enable; /* level for netif* netdev print macros */
struct pci_dev *pdev;
/* metrics */
u32 tx_timeo_cnt;
/* Admin queue - see gve_adminq.h*/
union gve_adminq_command *adminq;
dma_addr_t adminq_bus_addr;
u32 adminq_mask; /* masks prod_cnt to adminq size */
u32 adminq_prod_cnt; /* free-running count of AQ cmds executed */
u32 adminq_cmd_fail; /* free-running count of AQ cmds failed */
u32 adminq_timeouts; /* free-running count of AQ cmds timeouts */
/* free-running count of per AQ cmd executed */
u32 adminq_describe_device_cnt;
u32 adminq_cfg_device_resources_cnt;
u32 adminq_register_page_list_cnt;
u32 adminq_unregister_page_list_cnt;
u32 adminq_create_tx_queue_cnt;
u32 adminq_create_rx_queue_cnt;
u32 adminq_destroy_tx_queue_cnt;
u32 adminq_destroy_rx_queue_cnt;
u32 adminq_dcfg_device_resources_cnt;
u32 adminq_set_driver_parameter_cnt;
u32 adminq_report_stats_cnt;
u32 adminq_report_link_speed_cnt;
u32 adminq_get_ptype_map_cnt;
u32 adminq_verify_driver_compatibility_cnt;
/* Global stats */
u32 interface_up_cnt; /* count of times interface turned up since last reset */
u32 interface_down_cnt; /* count of times interface turned down since last reset */
u32 reset_cnt; /* count of reset */
u32 page_alloc_fail; /* count of page alloc fails */
u32 dma_mapping_error; /* count of dma mapping errors */
u32 stats_report_trigger_cnt; /* count of device-requested stats-reports since last reset */
u32 suspend_cnt; /* count of times suspended */
u32 resume_cnt; /* count of times resumed */
struct workqueue_struct *gve_wq;
struct work_struct service_task;
struct work_struct stats_report_task;
unsigned long service_task_flags;
unsigned long state_flags;
struct gve_stats_report *stats_report;
u64 stats_report_len;
dma_addr_t stats_report_bus; /* dma address for the stats report */
unsigned long ethtool_flags;
unsigned long stats_report_timer_period;
struct timer_list stats_report_timer;
/* Gvnic device link speed from hypervisor. */
u64 link_speed;
bool up_before_suspend; /* True if dev was up before suspend */
struct gve_options_dqo_rda options_dqo_rda;
struct gve_ptype_lut *ptype_lut_dqo;
/* Must be a power of two. */
int data_buffer_size_dqo;
enum gve_queue_format queue_format;
/* Interrupt coalescing settings */
u32 tx_coalesce_usecs;
u32 rx_coalesce_usecs;
};
enum gve_service_task_flags_bit {
GVE_PRIV_FLAGS_DO_RESET = 1,
GVE_PRIV_FLAGS_RESET_IN_PROGRESS = 2,
GVE_PRIV_FLAGS_PROBE_IN_PROGRESS = 3,
GVE_PRIV_FLAGS_DO_REPORT_STATS = 4,
};
enum gve_state_flags_bit {
GVE_PRIV_FLAGS_ADMIN_QUEUE_OK = 1,
GVE_PRIV_FLAGS_DEVICE_RESOURCES_OK = 2,
GVE_PRIV_FLAGS_DEVICE_RINGS_OK = 3,
GVE_PRIV_FLAGS_NAPI_ENABLED = 4,
};
enum gve_ethtool_flags_bit {
GVE_PRIV_FLAGS_REPORT_STATS = 0,
};
static inline bool gve_get_do_reset(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_DO_RESET, &priv->service_task_flags);
}
static inline void gve_set_do_reset(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_DO_RESET, &priv->service_task_flags);
}
static inline void gve_clear_do_reset(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_DO_RESET, &priv->service_task_flags);
}
static inline bool gve_get_reset_in_progress(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_RESET_IN_PROGRESS,
&priv->service_task_flags);
}
static inline void gve_set_reset_in_progress(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_RESET_IN_PROGRESS, &priv->service_task_flags);
}
static inline void gve_clear_reset_in_progress(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_RESET_IN_PROGRESS, &priv->service_task_flags);
}
static inline bool gve_get_probe_in_progress(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_PROBE_IN_PROGRESS,
&priv->service_task_flags);
}
static inline void gve_set_probe_in_progress(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_PROBE_IN_PROGRESS, &priv->service_task_flags);
}
static inline void gve_clear_probe_in_progress(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_PROBE_IN_PROGRESS, &priv->service_task_flags);
}
static inline bool gve_get_do_report_stats(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_DO_REPORT_STATS,
&priv->service_task_flags);
}
static inline void gve_set_do_report_stats(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_DO_REPORT_STATS, &priv->service_task_flags);
}
static inline void gve_clear_do_report_stats(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_DO_REPORT_STATS, &priv->service_task_flags);
}
static inline bool gve_get_admin_queue_ok(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_ADMIN_QUEUE_OK, &priv->state_flags);
}
static inline void gve_set_admin_queue_ok(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_ADMIN_QUEUE_OK, &priv->state_flags);
}
static inline void gve_clear_admin_queue_ok(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_ADMIN_QUEUE_OK, &priv->state_flags);
}
static inline bool gve_get_device_resources_ok(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_DEVICE_RESOURCES_OK, &priv->state_flags);
}
static inline void gve_set_device_resources_ok(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_DEVICE_RESOURCES_OK, &priv->state_flags);
}
static inline void gve_clear_device_resources_ok(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_DEVICE_RESOURCES_OK, &priv->state_flags);
}
static inline bool gve_get_device_rings_ok(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_DEVICE_RINGS_OK, &priv->state_flags);
}
static inline void gve_set_device_rings_ok(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_DEVICE_RINGS_OK, &priv->state_flags);
}
static inline void gve_clear_device_rings_ok(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_DEVICE_RINGS_OK, &priv->state_flags);
}
static inline bool gve_get_napi_enabled(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_NAPI_ENABLED, &priv->state_flags);
}
static inline void gve_set_napi_enabled(struct gve_priv *priv)
{
set_bit(GVE_PRIV_FLAGS_NAPI_ENABLED, &priv->state_flags);
}
static inline void gve_clear_napi_enabled(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_NAPI_ENABLED, &priv->state_flags);
}
static inline bool gve_get_report_stats(struct gve_priv *priv)
{
return test_bit(GVE_PRIV_FLAGS_REPORT_STATS, &priv->ethtool_flags);
}
static inline void gve_clear_report_stats(struct gve_priv *priv)
{
clear_bit(GVE_PRIV_FLAGS_REPORT_STATS, &priv->ethtool_flags);
}
/* Returns the address of the ntfy_blocks irq doorbell
*/
static inline __be32 __iomem *gve_irq_doorbell(struct gve_priv *priv,
struct gve_notify_block *block)
{
return &priv->db_bar2[be32_to_cpu(*block->irq_db_index)];
}
/* Returns the index into ntfy_blocks of the given tx ring's block
*/
static inline u32 gve_tx_idx_to_ntfy(struct gve_priv *priv, u32 queue_idx)
{
return queue_idx;
}
/* Returns the index into ntfy_blocks of the given rx ring's block
*/
static inline u32 gve_rx_idx_to_ntfy(struct gve_priv *priv, u32 queue_idx)
{
return (priv->num_ntfy_blks / 2) + queue_idx;
}
/* Returns the number of tx queue page lists
*/
static inline u32 gve_num_tx_qpls(struct gve_priv *priv)
{
if (priv->queue_format != GVE_GQI_QPL_FORMAT)
return 0;
return priv->tx_cfg.num_queues + priv->num_xdp_queues;
}
/* Returns the number of XDP tx queue page lists
*/
static inline u32 gve_num_xdp_qpls(struct gve_priv *priv)
{
if (priv->queue_format != GVE_GQI_QPL_FORMAT)
return 0;
return priv->num_xdp_queues;
}
/* Returns the number of rx queue page lists
*/
static inline u32 gve_num_rx_qpls(struct gve_priv *priv)
{
if (priv->queue_format != GVE_GQI_QPL_FORMAT)
return 0;
return priv->rx_cfg.num_queues;
}
static inline u32 gve_tx_qpl_id(struct gve_priv *priv, int tx_qid)
{
return tx_qid;
}
static inline u32 gve_rx_qpl_id(struct gve_priv *priv, int rx_qid)
{
return priv->tx_cfg.max_queues + rx_qid;
}
static inline u32 gve_tx_start_qpl_id(struct gve_priv *priv)
{
return gve_tx_qpl_id(priv, 0);
}
static inline u32 gve_rx_start_qpl_id(struct gve_priv *priv)
{
return gve_rx_qpl_id(priv, 0);
}
/* Returns a pointer to the next available tx qpl in the list of qpls
*/
static inline
struct gve_queue_page_list *gve_assign_tx_qpl(struct gve_priv *priv, int tx_qid)
{
int id = gve_tx_qpl_id(priv, tx_qid);
/* QPL already in use */
if (test_bit(id, priv->qpl_cfg.qpl_id_map))
return NULL;
set_bit(id, priv->qpl_cfg.qpl_id_map);
return &priv->qpls[id];
}
/* Returns a pointer to the next available rx qpl in the list of qpls
*/
static inline
struct gve_queue_page_list *gve_assign_rx_qpl(struct gve_priv *priv, int rx_qid)
{
int id = gve_rx_qpl_id(priv, rx_qid);
/* QPL already in use */
if (test_bit(id, priv->qpl_cfg.qpl_id_map))
return NULL;
set_bit(id, priv->qpl_cfg.qpl_id_map);
return &priv->qpls[id];
}
/* Unassigns the qpl with the given id
*/
static inline void gve_unassign_qpl(struct gve_priv *priv, int id)
{
clear_bit(id, priv->qpl_cfg.qpl_id_map);
}
/* Returns the correct dma direction for tx and rx qpls
*/
static inline enum dma_data_direction gve_qpl_dma_dir(struct gve_priv *priv,
int id)
{
if (id < gve_rx_start_qpl_id(priv))
return DMA_TO_DEVICE;
else
return DMA_FROM_DEVICE;
}
static inline bool gve_is_gqi(struct gve_priv *priv)
{
return priv->queue_format == GVE_GQI_RDA_FORMAT ||
priv->queue_format == GVE_GQI_QPL_FORMAT;
}
static inline u32 gve_num_tx_queues(struct gve_priv *priv)
{
return priv->tx_cfg.num_queues + priv->num_xdp_queues;
}
static inline u32 gve_xdp_tx_queue_id(struct gve_priv *priv, u32 queue_id)
{
return priv->tx_cfg.num_queues + queue_id;
}
static inline u32 gve_xdp_tx_start_queue_id(struct gve_priv *priv)
{
return gve_xdp_tx_queue_id(priv, 0);
}
/* buffers */
int gve_alloc_page(struct gve_priv *priv, struct device *dev,
struct page **page, dma_addr_t *dma,
enum dma_data_direction, gfp_t gfp_flags);
void gve_free_page(struct device *dev, struct page *page, dma_addr_t dma,
enum dma_data_direction);
/* tx handling */
netdev_tx_t gve_tx(struct sk_buff *skb, struct net_device *dev);
int gve_xdp_xmit_one(struct gve_priv *priv, struct gve_tx_ring *tx,
void *data, int len);
void gve_xdp_tx_flush(struct gve_priv *priv, u32 xdp_qid);
bool gve_tx_poll(struct gve_notify_block *block, int budget);
bool gve_xdp_poll(struct gve_notify_block *block, int budget);
int gve_tx_alloc_rings(struct gve_priv *priv, int start_id, int num_rings);
void gve_tx_free_rings_gqi(struct gve_priv *priv, int start_id, int num_rings);
u32 gve_tx_load_event_counter(struct gve_priv *priv,
struct gve_tx_ring *tx);
bool gve_tx_clean_pending(struct gve_priv *priv, struct gve_tx_ring *tx);
/* rx handling */
void gve_rx_write_doorbell(struct gve_priv *priv, struct gve_rx_ring *rx);
int gve_rx_poll(struct gve_notify_block *block, int budget);
bool gve_rx_work_pending(struct gve_rx_ring *rx);
int gve_rx_alloc_rings(struct gve_priv *priv);
void gve_rx_free_rings_gqi(struct gve_priv *priv);
/* Reset */
void gve_schedule_reset(struct gve_priv *priv);
int gve_reset(struct gve_priv *priv, bool attempt_teardown);
int gve_adjust_queues(struct gve_priv *priv,
struct gve_queue_config new_rx_config,
struct gve_queue_config new_tx_config);
/* report stats handling */
void gve_handle_report_stats(struct gve_priv *priv);
/* exported by ethtool.c */
extern const struct ethtool_ops gve_ethtool_ops;
/* needed by ethtool */
extern const char gve_version_str[];
#endif /* _GVE_H_ */
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