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|
/* SPDX-License-Identifier: ISC */
/*
* Copyright (C) 2016 Felix Fietkau <nbd@nbd.name>
*/
#ifndef __MT76_H
#define __MT76_H
#include <linux/kernel.h>
#include <linux/io.h>
#include <linux/spinlock.h>
#include <linux/skbuff.h>
#include <linux/leds.h>
#include <linux/usb.h>
#include <linux/average.h>
#include <linux/soc/mediatek/mtk_wed.h>
#include <net/mac80211.h>
#include <net/page_pool/helpers.h>
#include "util.h"
#include "testmode.h"
#define MT_MCU_RING_SIZE 32
#define MT_RX_BUF_SIZE 2048
#define MT_SKB_HEAD_LEN 256
#define MT_MAX_NON_AQL_PKT 16
#define MT_TXQ_FREE_THR 32
#define MT76_TOKEN_FREE_THR 64
#define MT_QFLAG_WED_RING GENMASK(1, 0)
#define MT_QFLAG_WED_TYPE GENMASK(3, 2)
#define MT_QFLAG_WED BIT(4)
#define __MT_WED_Q(_type, _n) (MT_QFLAG_WED | \
FIELD_PREP(MT_QFLAG_WED_TYPE, _type) | \
FIELD_PREP(MT_QFLAG_WED_RING, _n))
#define MT_WED_Q_TX(_n) __MT_WED_Q(MT76_WED_Q_TX, _n)
#define MT_WED_Q_RX(_n) __MT_WED_Q(MT76_WED_Q_RX, _n)
#define MT_WED_Q_TXFREE __MT_WED_Q(MT76_WED_Q_TXFREE, 0)
struct mt76_dev;
struct mt76_phy;
struct mt76_wcid;
struct mt76s_intr;
struct mt76_reg_pair {
u32 reg;
u32 value;
};
enum mt76_bus_type {
MT76_BUS_MMIO,
MT76_BUS_USB,
MT76_BUS_SDIO,
};
enum mt76_wed_type {
MT76_WED_Q_TX,
MT76_WED_Q_TXFREE,
MT76_WED_Q_RX,
};
struct mt76_bus_ops {
u32 (*rr)(struct mt76_dev *dev, u32 offset);
void (*wr)(struct mt76_dev *dev, u32 offset, u32 val);
u32 (*rmw)(struct mt76_dev *dev, u32 offset, u32 mask, u32 val);
void (*write_copy)(struct mt76_dev *dev, u32 offset, const void *data,
int len);
void (*read_copy)(struct mt76_dev *dev, u32 offset, void *data,
int len);
int (*wr_rp)(struct mt76_dev *dev, u32 base,
const struct mt76_reg_pair *rp, int len);
int (*rd_rp)(struct mt76_dev *dev, u32 base,
struct mt76_reg_pair *rp, int len);
enum mt76_bus_type type;
};
#define mt76_is_usb(dev) ((dev)->bus->type == MT76_BUS_USB)
#define mt76_is_mmio(dev) ((dev)->bus->type == MT76_BUS_MMIO)
#define mt76_is_sdio(dev) ((dev)->bus->type == MT76_BUS_SDIO)
enum mt76_txq_id {
MT_TXQ_VO = IEEE80211_AC_VO,
MT_TXQ_VI = IEEE80211_AC_VI,
MT_TXQ_BE = IEEE80211_AC_BE,
MT_TXQ_BK = IEEE80211_AC_BK,
MT_TXQ_PSD,
MT_TXQ_BEACON,
MT_TXQ_CAB,
__MT_TXQ_MAX
};
enum mt76_mcuq_id {
MT_MCUQ_WM,
MT_MCUQ_WA,
MT_MCUQ_FWDL,
__MT_MCUQ_MAX
};
enum mt76_rxq_id {
MT_RXQ_MAIN,
MT_RXQ_MCU,
MT_RXQ_MCU_WA,
MT_RXQ_BAND1,
MT_RXQ_BAND1_WA,
MT_RXQ_MAIN_WA,
MT_RXQ_BAND2,
MT_RXQ_BAND2_WA,
__MT_RXQ_MAX
};
enum mt76_band_id {
MT_BAND0,
MT_BAND1,
MT_BAND2,
__MT_MAX_BAND
};
enum mt76_cipher_type {
MT_CIPHER_NONE,
MT_CIPHER_WEP40,
MT_CIPHER_TKIP,
MT_CIPHER_TKIP_NO_MIC,
MT_CIPHER_AES_CCMP,
MT_CIPHER_WEP104,
MT_CIPHER_BIP_CMAC_128,
MT_CIPHER_WEP128,
MT_CIPHER_WAPI,
MT_CIPHER_CCMP_CCX,
MT_CIPHER_CCMP_256,
MT_CIPHER_GCMP,
MT_CIPHER_GCMP_256,
};
enum mt76_dfs_state {
MT_DFS_STATE_UNKNOWN,
MT_DFS_STATE_DISABLED,
MT_DFS_STATE_CAC,
MT_DFS_STATE_ACTIVE,
};
struct mt76_queue_buf {
dma_addr_t addr;
u16 len;
bool skip_unmap;
};
struct mt76_tx_info {
struct mt76_queue_buf buf[32];
struct sk_buff *skb;
int nbuf;
u32 info;
};
struct mt76_queue_entry {
union {
void *buf;
struct sk_buff *skb;
};
union {
struct mt76_txwi_cache *txwi;
struct urb *urb;
int buf_sz;
};
u32 dma_addr[2];
u16 dma_len[2];
u16 wcid;
bool skip_buf0:1;
bool skip_buf1:1;
bool done:1;
};
struct mt76_queue_regs {
u32 desc_base;
u32 ring_size;
u32 cpu_idx;
u32 dma_idx;
} __packed __aligned(4);
struct mt76_queue {
struct mt76_queue_regs __iomem *regs;
spinlock_t lock;
spinlock_t cleanup_lock;
struct mt76_queue_entry *entry;
struct mt76_desc *desc;
u16 first;
u16 head;
u16 tail;
int ndesc;
int queued;
int buf_size;
bool stopped;
bool blocked;
u8 buf_offset;
u8 hw_idx;
u8 flags;
struct mtk_wed_device *wed;
u32 wed_regs;
dma_addr_t desc_dma;
struct sk_buff *rx_head;
struct page_pool *page_pool;
};
struct mt76_mcu_ops {
u32 headroom;
u32 tailroom;
int (*mcu_send_msg)(struct mt76_dev *dev, int cmd, const void *data,
int len, bool wait_resp);
int (*mcu_skb_send_msg)(struct mt76_dev *dev, struct sk_buff *skb,
int cmd, int *seq);
int (*mcu_parse_response)(struct mt76_dev *dev, int cmd,
struct sk_buff *skb, int seq);
u32 (*mcu_rr)(struct mt76_dev *dev, u32 offset);
void (*mcu_wr)(struct mt76_dev *dev, u32 offset, u32 val);
int (*mcu_wr_rp)(struct mt76_dev *dev, u32 base,
const struct mt76_reg_pair *rp, int len);
int (*mcu_rd_rp)(struct mt76_dev *dev, u32 base,
struct mt76_reg_pair *rp, int len);
int (*mcu_restart)(struct mt76_dev *dev);
};
struct mt76_queue_ops {
int (*init)(struct mt76_dev *dev,
int (*poll)(struct napi_struct *napi, int budget));
int (*alloc)(struct mt76_dev *dev, struct mt76_queue *q,
int idx, int n_desc, int bufsize,
u32 ring_base);
int (*tx_queue_skb)(struct mt76_dev *dev, struct mt76_queue *q,
enum mt76_txq_id qid, struct sk_buff *skb,
struct mt76_wcid *wcid, struct ieee80211_sta *sta);
int (*tx_queue_skb_raw)(struct mt76_dev *dev, struct mt76_queue *q,
struct sk_buff *skb, u32 tx_info);
void *(*dequeue)(struct mt76_dev *dev, struct mt76_queue *q, bool flush,
int *len, u32 *info, bool *more);
void (*rx_reset)(struct mt76_dev *dev, enum mt76_rxq_id qid);
void (*tx_cleanup)(struct mt76_dev *dev, struct mt76_queue *q,
bool flush);
void (*rx_cleanup)(struct mt76_dev *dev, struct mt76_queue *q);
void (*kick)(struct mt76_dev *dev, struct mt76_queue *q);
void (*reset_q)(struct mt76_dev *dev, struct mt76_queue *q);
};
enum mt76_phy_type {
MT_PHY_TYPE_CCK,
MT_PHY_TYPE_OFDM,
MT_PHY_TYPE_HT,
MT_PHY_TYPE_HT_GF,
MT_PHY_TYPE_VHT,
MT_PHY_TYPE_HE_SU = 8,
MT_PHY_TYPE_HE_EXT_SU,
MT_PHY_TYPE_HE_TB,
MT_PHY_TYPE_HE_MU,
MT_PHY_TYPE_EHT_SU = 13,
MT_PHY_TYPE_EHT_TRIG,
MT_PHY_TYPE_EHT_MU,
__MT_PHY_TYPE_MAX,
};
struct mt76_sta_stats {
u64 tx_mode[__MT_PHY_TYPE_MAX];
u64 tx_bw[5]; /* 20, 40, 80, 160, 320 */
u64 tx_nss[4]; /* 1, 2, 3, 4 */
u64 tx_mcs[16]; /* mcs idx */
u64 tx_bytes;
/* WED TX */
u32 tx_packets; /* unit: MSDU */
u32 tx_retries;
u32 tx_failed;
/* WED RX */
u64 rx_bytes;
u32 rx_packets;
u32 rx_errors;
u32 rx_drops;
};
enum mt76_wcid_flags {
MT_WCID_FLAG_CHECK_PS,
MT_WCID_FLAG_PS,
MT_WCID_FLAG_4ADDR,
MT_WCID_FLAG_HDR_TRANS,
};
#define MT76_N_WCIDS 1088
/* stored in ieee80211_tx_info::hw_queue */
#define MT_TX_HW_QUEUE_PHY GENMASK(3, 2)
DECLARE_EWMA(signal, 10, 8);
#define MT_WCID_TX_INFO_RATE GENMASK(15, 0)
#define MT_WCID_TX_INFO_NSS GENMASK(17, 16)
#define MT_WCID_TX_INFO_TXPWR_ADJ GENMASK(25, 18)
#define MT_WCID_TX_INFO_SET BIT(31)
struct mt76_wcid {
struct mt76_rx_tid __rcu *aggr[IEEE80211_NUM_TIDS];
atomic_t non_aql_packets;
unsigned long flags;
struct ewma_signal rssi;
int inactive_count;
struct rate_info rate;
unsigned long ampdu_state;
u16 idx;
u8 hw_key_idx;
u8 hw_key_idx2;
u8 sta:1;
u8 amsdu:1;
u8 phy_idx:2;
u8 rx_check_pn;
u8 rx_key_pn[IEEE80211_NUM_TIDS + 1][6];
u16 cipher;
u32 tx_info;
bool sw_iv;
struct list_head tx_list;
struct sk_buff_head tx_pending;
struct list_head list;
struct idr pktid;
struct mt76_sta_stats stats;
struct list_head poll_list;
};
struct mt76_txq {
u16 wcid;
u16 agg_ssn;
bool send_bar;
bool aggr;
};
struct mt76_txwi_cache {
struct list_head list;
dma_addr_t dma_addr;
union {
struct sk_buff *skb;
void *ptr;
};
};
struct mt76_rx_tid {
struct rcu_head rcu_head;
struct mt76_dev *dev;
spinlock_t lock;
struct delayed_work reorder_work;
u16 head;
u16 size;
u16 nframes;
u8 num;
u8 started:1, stopped:1, timer_pending:1;
struct sk_buff *reorder_buf[] __counted_by(size);
};
#define MT_TX_CB_DMA_DONE BIT(0)
#define MT_TX_CB_TXS_DONE BIT(1)
#define MT_TX_CB_TXS_FAILED BIT(2)
#define MT_PACKET_ID_MASK GENMASK(6, 0)
#define MT_PACKET_ID_NO_ACK 0
#define MT_PACKET_ID_NO_SKB 1
#define MT_PACKET_ID_WED 2
#define MT_PACKET_ID_FIRST 3
#define MT_PACKET_ID_HAS_RATE BIT(7)
/* This is timer for when to give up when waiting for TXS callback,
* with starting time being the time at which the DMA_DONE callback
* was seen (so, we know packet was processed then, it should not take
* long after that for firmware to send the TXS callback if it is going
* to do so.)
*/
#define MT_TX_STATUS_SKB_TIMEOUT (HZ / 4)
struct mt76_tx_cb {
unsigned long jiffies;
u16 wcid;
u8 pktid;
u8 flags;
};
enum {
MT76_STATE_INITIALIZED,
MT76_STATE_REGISTERED,
MT76_STATE_RUNNING,
MT76_STATE_MCU_RUNNING,
MT76_SCANNING,
MT76_HW_SCANNING,
MT76_HW_SCHED_SCANNING,
MT76_RESTART,
MT76_RESET,
MT76_MCU_RESET,
MT76_REMOVED,
MT76_READING_STATS,
MT76_STATE_POWER_OFF,
MT76_STATE_SUSPEND,
MT76_STATE_ROC,
MT76_STATE_PM,
MT76_STATE_WED_RESET,
};
struct mt76_hw_cap {
bool has_2ghz;
bool has_5ghz;
bool has_6ghz;
};
#define MT_DRV_TXWI_NO_FREE BIT(0)
#define MT_DRV_TX_ALIGNED4_SKBS BIT(1)
#define MT_DRV_SW_RX_AIRTIME BIT(2)
#define MT_DRV_RX_DMA_HDR BIT(3)
#define MT_DRV_HW_MGMT_TXQ BIT(4)
#define MT_DRV_AMSDU_OFFLOAD BIT(5)
struct mt76_driver_ops {
u32 drv_flags;
u32 survey_flags;
u16 txwi_size;
u16 token_size;
u8 mcs_rates;
void (*update_survey)(struct mt76_phy *phy);
int (*tx_prepare_skb)(struct mt76_dev *dev, void *txwi_ptr,
enum mt76_txq_id qid, struct mt76_wcid *wcid,
struct ieee80211_sta *sta,
struct mt76_tx_info *tx_info);
void (*tx_complete_skb)(struct mt76_dev *dev,
struct mt76_queue_entry *e);
bool (*tx_status_data)(struct mt76_dev *dev, u8 *update);
bool (*rx_check)(struct mt76_dev *dev, void *data, int len);
void (*rx_skb)(struct mt76_dev *dev, enum mt76_rxq_id q,
struct sk_buff *skb, u32 *info);
void (*rx_poll_complete)(struct mt76_dev *dev, enum mt76_rxq_id q);
void (*sta_ps)(struct mt76_dev *dev, struct ieee80211_sta *sta,
bool ps);
int (*sta_add)(struct mt76_dev *dev, struct ieee80211_vif *vif,
struct ieee80211_sta *sta);
void (*sta_assoc)(struct mt76_dev *dev, struct ieee80211_vif *vif,
struct ieee80211_sta *sta);
void (*sta_remove)(struct mt76_dev *dev, struct ieee80211_vif *vif,
struct ieee80211_sta *sta);
};
struct mt76_channel_state {
u64 cc_active;
u64 cc_busy;
u64 cc_rx;
u64 cc_bss_rx;
u64 cc_tx;
s8 noise;
};
struct mt76_sband {
struct ieee80211_supported_band sband;
struct mt76_channel_state *chan;
};
/* addr req mask */
#define MT_VEND_TYPE_EEPROM BIT(31)
#define MT_VEND_TYPE_CFG BIT(30)
#define MT_VEND_TYPE_MASK (MT_VEND_TYPE_EEPROM | MT_VEND_TYPE_CFG)
#define MT_VEND_ADDR(type, n) (MT_VEND_TYPE_##type | (n))
enum mt_vendor_req {
MT_VEND_DEV_MODE = 0x1,
MT_VEND_WRITE = 0x2,
MT_VEND_POWER_ON = 0x4,
MT_VEND_MULTI_WRITE = 0x6,
MT_VEND_MULTI_READ = 0x7,
MT_VEND_READ_EEPROM = 0x9,
MT_VEND_WRITE_FCE = 0x42,
MT_VEND_WRITE_CFG = 0x46,
MT_VEND_READ_CFG = 0x47,
MT_VEND_READ_EXT = 0x63,
MT_VEND_WRITE_EXT = 0x66,
MT_VEND_FEATURE_SET = 0x91,
};
enum mt76u_in_ep {
MT_EP_IN_PKT_RX,
MT_EP_IN_CMD_RESP,
__MT_EP_IN_MAX,
};
enum mt76u_out_ep {
MT_EP_OUT_INBAND_CMD,
MT_EP_OUT_AC_BE,
MT_EP_OUT_AC_BK,
MT_EP_OUT_AC_VI,
MT_EP_OUT_AC_VO,
MT_EP_OUT_HCCA,
__MT_EP_OUT_MAX,
};
struct mt76_mcu {
struct mutex mutex;
u32 msg_seq;
int timeout;
struct sk_buff_head res_q;
wait_queue_head_t wait;
};
#define MT_TX_SG_MAX_SIZE 8
#define MT_RX_SG_MAX_SIZE 4
#define MT_NUM_TX_ENTRIES 256
#define MT_NUM_RX_ENTRIES 128
#define MCU_RESP_URB_SIZE 1024
struct mt76_usb {
struct mutex usb_ctrl_mtx;
u8 *data;
u16 data_len;
struct mt76_worker status_worker;
struct mt76_worker rx_worker;
struct work_struct stat_work;
u8 out_ep[__MT_EP_OUT_MAX];
u8 in_ep[__MT_EP_IN_MAX];
bool sg_en;
struct mt76u_mcu {
u8 *data;
/* multiple reads */
struct mt76_reg_pair *rp;
int rp_len;
u32 base;
} mcu;
};
#define MT76S_XMIT_BUF_SZ 0x3fe00
#define MT76S_NUM_TX_ENTRIES 256
#define MT76S_NUM_RX_ENTRIES 512
struct mt76_sdio {
struct mt76_worker txrx_worker;
struct mt76_worker status_worker;
struct mt76_worker net_worker;
struct work_struct stat_work;
u8 *xmit_buf;
u32 xmit_buf_sz;
struct sdio_func *func;
void *intr_data;
u8 hw_ver;
wait_queue_head_t wait;
struct {
int pse_data_quota;
int ple_data_quota;
int pse_mcu_quota;
int pse_page_size;
int deficit;
} sched;
int (*parse_irq)(struct mt76_dev *dev, struct mt76s_intr *intr);
};
struct mt76_mmio {
void __iomem *regs;
spinlock_t irq_lock;
u32 irqmask;
struct mtk_wed_device wed;
struct completion wed_reset;
struct completion wed_reset_complete;
};
struct mt76_rx_status {
union {
struct mt76_wcid *wcid;
u16 wcid_idx;
};
u32 reorder_time;
u32 ampdu_ref;
u32 timestamp;
u8 iv[6];
u8 phy_idx:2;
u8 aggr:1;
u8 qos_ctl;
u16 seqno;
u16 freq;
u32 flag;
u8 enc_flags;
u8 encoding:3, bw:4;
union {
struct {
u8 he_ru:3;
u8 he_gi:2;
u8 he_dcm:1;
};
struct {
u8 ru:4;
u8 gi:2;
} eht;
};
u8 amsdu:1, first_amsdu:1, last_amsdu:1;
u8 rate_idx;
u8 nss:5, band:3;
s8 signal;
u8 chains;
s8 chain_signal[IEEE80211_MAX_CHAINS];
};
struct mt76_freq_range_power {
const struct cfg80211_sar_freq_ranges *range;
s8 power;
};
struct mt76_testmode_ops {
int (*set_state)(struct mt76_phy *phy, enum mt76_testmode_state state);
int (*set_params)(struct mt76_phy *phy, struct nlattr **tb,
enum mt76_testmode_state new_state);
int (*dump_stats)(struct mt76_phy *phy, struct sk_buff *msg);
};
struct mt76_testmode_data {
enum mt76_testmode_state state;
u32 param_set[DIV_ROUND_UP(NUM_MT76_TM_ATTRS, 32)];
struct sk_buff *tx_skb;
u32 tx_count;
u16 tx_mpdu_len;
u8 tx_rate_mode;
u8 tx_rate_idx;
u8 tx_rate_nss;
u8 tx_rate_sgi;
u8 tx_rate_ldpc;
u8 tx_rate_stbc;
u8 tx_ltf;
u8 tx_antenna_mask;
u8 tx_spe_idx;
u8 tx_duty_cycle;
u32 tx_time;
u32 tx_ipg;
u32 freq_offset;
u8 tx_power[4];
u8 tx_power_control;
u8 addr[3][ETH_ALEN];
u32 tx_pending;
u32 tx_queued;
u16 tx_queued_limit;
u32 tx_done;
struct {
u64 packets[__MT_RXQ_MAX];
u64 fcs_error[__MT_RXQ_MAX];
} rx_stats;
};
struct mt76_vif {
u8 idx;
u8 omac_idx;
u8 band_idx;
u8 wmm_idx;
u8 scan_seq_num;
u8 cipher;
u8 basic_rates_idx;
u8 mcast_rates_idx;
u8 beacon_rates_idx;
struct ieee80211_chanctx_conf *ctx;
};
struct mt76_phy {
struct ieee80211_hw *hw;
struct mt76_dev *dev;
void *priv;
unsigned long state;
u8 band_idx;
spinlock_t tx_lock;
struct list_head tx_list;
struct mt76_queue *q_tx[__MT_TXQ_MAX];
struct cfg80211_chan_def chandef;
struct ieee80211_channel *main_chan;
struct mt76_channel_state *chan_state;
enum mt76_dfs_state dfs_state;
ktime_t survey_time;
u32 aggr_stats[32];
struct mt76_hw_cap cap;
struct mt76_sband sband_2g;
struct mt76_sband sband_5g;
struct mt76_sband sband_6g;
u8 macaddr[ETH_ALEN];
int txpower_cur;
u8 antenna_mask;
u16 chainmask;
#ifdef CONFIG_NL80211_TESTMODE
struct mt76_testmode_data test;
#endif
struct delayed_work mac_work;
u8 mac_work_count;
struct {
struct sk_buff *head;
struct sk_buff **tail;
u16 seqno;
} rx_amsdu[__MT_RXQ_MAX];
struct mt76_freq_range_power *frp;
struct {
struct led_classdev cdev;
char name[32];
bool al;
u8 pin;
} leds;
};
struct mt76_dev {
struct mt76_phy phy; /* must be first */
struct mt76_phy *phys[__MT_MAX_BAND];
struct ieee80211_hw *hw;
spinlock_t wed_lock;
spinlock_t lock;
spinlock_t cc_lock;
u32 cur_cc_bss_rx;
struct mt76_rx_status rx_ampdu_status;
u32 rx_ampdu_len;
u32 rx_ampdu_ref;
struct mutex mutex;
const struct mt76_bus_ops *bus;
const struct mt76_driver_ops *drv;
const struct mt76_mcu_ops *mcu_ops;
struct device *dev;
struct device *dma_dev;
struct mt76_mcu mcu;
struct net_device napi_dev;
struct net_device tx_napi_dev;
spinlock_t rx_lock;
struct napi_struct napi[__MT_RXQ_MAX];
struct sk_buff_head rx_skb[__MT_RXQ_MAX];
struct tasklet_struct irq_tasklet;
struct list_head txwi_cache;
struct list_head rxwi_cache;
struct mt76_queue *q_mcu[__MT_MCUQ_MAX];
struct mt76_queue q_rx[__MT_RXQ_MAX];
const struct mt76_queue_ops *queue_ops;
int tx_dma_idx[4];
struct mt76_worker tx_worker;
struct napi_struct tx_napi;
spinlock_t token_lock;
struct idr token;
u16 wed_token_count;
u16 token_count;
u16 token_size;
spinlock_t rx_token_lock;
struct idr rx_token;
u16 rx_token_size;
wait_queue_head_t tx_wait;
/* spinclock used to protect wcid pktid linked list */
spinlock_t status_lock;
u32 wcid_mask[DIV_ROUND_UP(MT76_N_WCIDS, 32)];
u32 wcid_phy_mask[DIV_ROUND_UP(MT76_N_WCIDS, 32)];
u64 vif_mask;
struct mt76_wcid global_wcid;
struct mt76_wcid __rcu *wcid[MT76_N_WCIDS];
struct list_head wcid_list;
struct list_head sta_poll_list;
spinlock_t sta_poll_lock;
u32 rev;
struct tasklet_struct pre_tbtt_tasklet;
int beacon_int;
u8 beacon_mask;
struct debugfs_blob_wrapper eeprom;
struct debugfs_blob_wrapper otp;
char alpha2[3];
enum nl80211_dfs_regions region;
u32 debugfs_reg;
u8 csa_complete;
u32 rxfilter;
#ifdef CONFIG_NL80211_TESTMODE
const struct mt76_testmode_ops *test_ops;
struct {
const char *name;
u32 offset;
} test_mtd;
#endif
struct workqueue_struct *wq;
union {
struct mt76_mmio mmio;
struct mt76_usb usb;
struct mt76_sdio sdio;
};
};
/* per-phy stats. */
struct mt76_mib_stats {
u32 ack_fail_cnt;
u32 fcs_err_cnt;
u32 rts_cnt;
u32 rts_retries_cnt;
u32 ba_miss_cnt;
u32 tx_bf_cnt;
u32 tx_mu_bf_cnt;
u32 tx_mu_mpdu_cnt;
u32 tx_mu_acked_mpdu_cnt;
u32 tx_su_acked_mpdu_cnt;
u32 tx_bf_ibf_ppdu_cnt;
u32 tx_bf_ebf_ppdu_cnt;
u32 tx_bf_rx_fb_all_cnt;
u32 tx_bf_rx_fb_eht_cnt;
u32 tx_bf_rx_fb_he_cnt;
u32 tx_bf_rx_fb_vht_cnt;
u32 tx_bf_rx_fb_ht_cnt;
u32 tx_bf_rx_fb_bw; /* value of last sample, not cumulative */
u32 tx_bf_rx_fb_nc_cnt;
u32 tx_bf_rx_fb_nr_cnt;
u32 tx_bf_fb_cpl_cnt;
u32 tx_bf_fb_trig_cnt;
u32 tx_ampdu_cnt;
u32 tx_stop_q_empty_cnt;
u32 tx_mpdu_attempts_cnt;
u32 tx_mpdu_success_cnt;
u32 tx_pkt_ebf_cnt;
u32 tx_pkt_ibf_cnt;
u32 tx_rwp_fail_cnt;
u32 tx_rwp_need_cnt;
/* rx stats */
u32 rx_fifo_full_cnt;
u32 channel_idle_cnt;
u32 primary_cca_busy_time;
u32 secondary_cca_busy_time;
u32 primary_energy_detect_time;
u32 cck_mdrdy_time;
u32 ofdm_mdrdy_time;
u32 green_mdrdy_time;
u32 rx_vector_mismatch_cnt;
u32 rx_delimiter_fail_cnt;
u32 rx_mrdy_cnt;
u32 rx_len_mismatch_cnt;
u32 rx_mpdu_cnt;
u32 rx_ampdu_cnt;
u32 rx_ampdu_bytes_cnt;
u32 rx_ampdu_valid_subframe_cnt;
u32 rx_ampdu_valid_subframe_bytes_cnt;
u32 rx_pfdrop_cnt;
u32 rx_vec_queue_overflow_drop_cnt;
u32 rx_ba_cnt;
u32 tx_amsdu[8];
u32 tx_amsdu_cnt;
/* mcu_muru_stats */
u32 dl_cck_cnt;
u32 dl_ofdm_cnt;
u32 dl_htmix_cnt;
u32 dl_htgf_cnt;
u32 dl_vht_su_cnt;
u32 dl_vht_2mu_cnt;
u32 dl_vht_3mu_cnt;
u32 dl_vht_4mu_cnt;
u32 dl_he_su_cnt;
u32 dl_he_ext_su_cnt;
u32 dl_he_2ru_cnt;
u32 dl_he_2mu_cnt;
u32 dl_he_3ru_cnt;
u32 dl_he_3mu_cnt;
u32 dl_he_4ru_cnt;
u32 dl_he_4mu_cnt;
u32 dl_he_5to8ru_cnt;
u32 dl_he_9to16ru_cnt;
u32 dl_he_gtr16ru_cnt;
u32 ul_hetrig_su_cnt;
u32 ul_hetrig_2ru_cnt;
u32 ul_hetrig_3ru_cnt;
u32 ul_hetrig_4ru_cnt;
u32 ul_hetrig_5to8ru_cnt;
u32 ul_hetrig_9to16ru_cnt;
u32 ul_hetrig_gtr16ru_cnt;
u32 ul_hetrig_2mu_cnt;
u32 ul_hetrig_3mu_cnt;
u32 ul_hetrig_4mu_cnt;
};
struct mt76_power_limits {
s8 cck[4];
s8 ofdm[8];
s8 mcs[4][10];
s8 ru[7][12];
s8 eht[16][16];
};
struct mt76_ethtool_worker_info {
u64 *data;
int idx;
int initial_stat_idx;
int worker_stat_count;
int sta_count;
};
#define CCK_RATE(_idx, _rate) { \
.bitrate = _rate, \
.flags = IEEE80211_RATE_SHORT_PREAMBLE, \
.hw_value = (MT_PHY_TYPE_CCK << 8) | (_idx), \
.hw_value_short = (MT_PHY_TYPE_CCK << 8) | (4 + _idx), \
}
#define OFDM_RATE(_idx, _rate) { \
.bitrate = _rate, \
.hw_value = (MT_PHY_TYPE_OFDM << 8) | (_idx), \
.hw_value_short = (MT_PHY_TYPE_OFDM << 8) | (_idx), \
}
extern struct ieee80211_rate mt76_rates[12];
#define __mt76_rr(dev, ...) (dev)->bus->rr((dev), __VA_ARGS__)
#define __mt76_wr(dev, ...) (dev)->bus->wr((dev), __VA_ARGS__)
#define __mt76_rmw(dev, ...) (dev)->bus->rmw((dev), __VA_ARGS__)
#define __mt76_wr_copy(dev, ...) (dev)->bus->write_copy((dev), __VA_ARGS__)
#define __mt76_rr_copy(dev, ...) (dev)->bus->read_copy((dev), __VA_ARGS__)
#define __mt76_set(dev, offset, val) __mt76_rmw(dev, offset, 0, val)
#define __mt76_clear(dev, offset, val) __mt76_rmw(dev, offset, val, 0)
#define mt76_rr(dev, ...) (dev)->mt76.bus->rr(&((dev)->mt76), __VA_ARGS__)
#define mt76_wr(dev, ...) (dev)->mt76.bus->wr(&((dev)->mt76), __VA_ARGS__)
#define mt76_rmw(dev, ...) (dev)->mt76.bus->rmw(&((dev)->mt76), __VA_ARGS__)
#define mt76_wr_copy(dev, ...) (dev)->mt76.bus->write_copy(&((dev)->mt76), __VA_ARGS__)
#define mt76_rr_copy(dev, ...) (dev)->mt76.bus->read_copy(&((dev)->mt76), __VA_ARGS__)
#define mt76_wr_rp(dev, ...) (dev)->mt76.bus->wr_rp(&((dev)->mt76), __VA_ARGS__)
#define mt76_rd_rp(dev, ...) (dev)->mt76.bus->rd_rp(&((dev)->mt76), __VA_ARGS__)
#define mt76_mcu_restart(dev, ...) (dev)->mt76.mcu_ops->mcu_restart(&((dev)->mt76))
#define mt76_set(dev, offset, val) mt76_rmw(dev, offset, 0, val)
#define mt76_clear(dev, offset, val) mt76_rmw(dev, offset, val, 0)
#define mt76_get_field(_dev, _reg, _field) \
FIELD_GET(_field, mt76_rr(dev, _reg))
#define mt76_rmw_field(_dev, _reg, _field, _val) \
mt76_rmw(_dev, _reg, _field, FIELD_PREP(_field, _val))
#define __mt76_rmw_field(_dev, _reg, _field, _val) \
__mt76_rmw(_dev, _reg, _field, FIELD_PREP(_field, _val))
#define mt76_hw(dev) (dev)->mphy.hw
bool __mt76_poll(struct mt76_dev *dev, u32 offset, u32 mask, u32 val,
int timeout);
#define mt76_poll(dev, ...) __mt76_poll(&((dev)->mt76), __VA_ARGS__)
bool ____mt76_poll_msec(struct mt76_dev *dev, u32 offset, u32 mask, u32 val,
int timeout, int kick);
#define __mt76_poll_msec(...) ____mt76_poll_msec(__VA_ARGS__, 10)
#define mt76_poll_msec(dev, ...) ____mt76_poll_msec(&((dev)->mt76), __VA_ARGS__, 10)
#define mt76_poll_msec_tick(dev, ...) ____mt76_poll_msec(&((dev)->mt76), __VA_ARGS__)
void mt76_mmio_init(struct mt76_dev *dev, void __iomem *regs);
void mt76_pci_disable_aspm(struct pci_dev *pdev);
#ifdef CONFIG_NET_MEDIATEK_SOC_WED
int mt76_net_setup_tc(struct ieee80211_hw *hw, struct ieee80211_vif *vif,
struct net_device *netdev, enum tc_setup_type type,
void *type_data);
#endif /*CONFIG_NET_MEDIATEK_SOC_WED */
static inline u16 mt76_chip(struct mt76_dev *dev)
{
return dev->rev >> 16;
}
static inline u16 mt76_rev(struct mt76_dev *dev)
{
return dev->rev & 0xffff;
}
#ifdef CONFIG_NET_MEDIATEK_SOC_WED
u32 mt76_mmio_wed_init_rx_buf(struct mtk_wed_device *wed, int size);
void mt76_mmio_wed_release_rx_buf(struct mtk_wed_device *wed);
int mt76_mmio_wed_offload_enable(struct mtk_wed_device *wed);
void mt76_mmio_wed_offload_disable(struct mtk_wed_device *wed);
#endif /*CONFIG_NET_MEDIATEK_SOC_WED */
#define mt76xx_chip(dev) mt76_chip(&((dev)->mt76))
#define mt76xx_rev(dev) mt76_rev(&((dev)->mt76))
#define mt76_init_queues(dev, ...) (dev)->mt76.queue_ops->init(&((dev)->mt76), __VA_ARGS__)
#define mt76_queue_alloc(dev, ...) (dev)->mt76.queue_ops->alloc(&((dev)->mt76), __VA_ARGS__)
#define mt76_tx_queue_skb_raw(dev, ...) (dev)->mt76.queue_ops->tx_queue_skb_raw(&((dev)->mt76), __VA_ARGS__)
#define mt76_tx_queue_skb(dev, ...) (dev)->mt76.queue_ops->tx_queue_skb(&((dev)->mt76), __VA_ARGS__)
#define mt76_queue_rx_reset(dev, ...) (dev)->mt76.queue_ops->rx_reset(&((dev)->mt76), __VA_ARGS__)
#define mt76_queue_tx_cleanup(dev, ...) (dev)->mt76.queue_ops->tx_cleanup(&((dev)->mt76), __VA_ARGS__)
#define mt76_queue_rx_cleanup(dev, ...) (dev)->mt76.queue_ops->rx_cleanup(&((dev)->mt76), __VA_ARGS__)
#define mt76_queue_kick(dev, ...) (dev)->mt76.queue_ops->kick(&((dev)->mt76), __VA_ARGS__)
#define mt76_queue_reset(dev, ...) (dev)->mt76.queue_ops->reset_q(&((dev)->mt76), __VA_ARGS__)
#define mt76_for_each_q_rx(dev, i) \
for (i = 0; i < ARRAY_SIZE((dev)->q_rx); i++) \
if ((dev)->q_rx[i].ndesc)
struct mt76_dev *mt76_alloc_device(struct device *pdev, unsigned int size,
const struct ieee80211_ops *ops,
const struct mt76_driver_ops *drv_ops);
int mt76_register_device(struct mt76_dev *dev, bool vht,
struct ieee80211_rate *rates, int n_rates);
void mt76_unregister_device(struct mt76_dev *dev);
void mt76_free_device(struct mt76_dev *dev);
void mt76_unregister_phy(struct mt76_phy *phy);
struct mt76_phy *mt76_alloc_phy(struct mt76_dev *dev, unsigned int size,
const struct ieee80211_ops *ops,
u8 band_idx);
int mt76_register_phy(struct mt76_phy *phy, bool vht,
struct ieee80211_rate *rates, int n_rates);
struct dentry *mt76_register_debugfs_fops(struct mt76_phy *phy,
const struct file_operations *ops);
static inline struct dentry *mt76_register_debugfs(struct mt76_dev *dev)
{
return mt76_register_debugfs_fops(&dev->phy, NULL);
}
int mt76_queues_read(struct seq_file *s, void *data);
void mt76_seq_puts_array(struct seq_file *file, const char *str,
s8 *val, int len);
int mt76_eeprom_init(struct mt76_dev *dev, int len);
void mt76_eeprom_override(struct mt76_phy *phy);
int mt76_get_of_data_from_mtd(struct mt76_dev *dev, void *eep, int offset, int len);
int mt76_get_of_data_from_nvmem(struct mt76_dev *dev, void *eep,
const char *cell_name, int len);
struct mt76_queue *
mt76_init_queue(struct mt76_dev *dev, int qid, int idx, int n_desc,
int ring_base, void *wed, u32 flags);
u16 mt76_calculate_default_rate(struct mt76_phy *phy,
struct ieee80211_vif *vif, int rateidx);
static inline int mt76_init_tx_queue(struct mt76_phy *phy, int qid, int idx,
int n_desc, int ring_base, void *wed,
u32 flags)
{
struct mt76_queue *q;
q = mt76_init_queue(phy->dev, qid, idx, n_desc, ring_base, wed, flags);
if (IS_ERR(q))
return PTR_ERR(q);
phy->q_tx[qid] = q;
return 0;
}
static inline int mt76_init_mcu_queue(struct mt76_dev *dev, int qid, int idx,
int n_desc, int ring_base)
{
struct mt76_queue *q;
q = mt76_init_queue(dev, qid, idx, n_desc, ring_base, NULL, 0);
if (IS_ERR(q))
return PTR_ERR(q);
dev->q_mcu[qid] = q;
return 0;
}
static inline struct mt76_phy *
mt76_dev_phy(struct mt76_dev *dev, u8 phy_idx)
{
if ((phy_idx == MT_BAND1 && dev->phys[phy_idx]) ||
(phy_idx == MT_BAND2 && dev->phys[phy_idx]))
return dev->phys[phy_idx];
return &dev->phy;
}
static inline struct ieee80211_hw *
mt76_phy_hw(struct mt76_dev *dev, u8 phy_idx)
{
return mt76_dev_phy(dev, phy_idx)->hw;
}
static inline u8 *
mt76_get_txwi_ptr(struct mt76_dev *dev, struct mt76_txwi_cache *t)
{
return (u8 *)t - dev->drv->txwi_size;
}
/* increment with wrap-around */
static inline int mt76_incr(int val, int size)
{
return (val + 1) & (size - 1);
}
/* decrement with wrap-around */
static inline int mt76_decr(int val, int size)
{
return (val - 1) & (size - 1);
}
u8 mt76_ac_to_hwq(u8 ac);
static inline struct ieee80211_txq *
mtxq_to_txq(struct mt76_txq *mtxq)
{
void *ptr = mtxq;
return container_of(ptr, struct ieee80211_txq, drv_priv);
}
static inline struct ieee80211_sta *
wcid_to_sta(struct mt76_wcid *wcid)
{
void *ptr = wcid;
if (!wcid || !wcid->sta)
return NULL;
return container_of(ptr, struct ieee80211_sta, drv_priv);
}
static inline struct mt76_tx_cb *mt76_tx_skb_cb(struct sk_buff *skb)
{
BUILD_BUG_ON(sizeof(struct mt76_tx_cb) >
sizeof(IEEE80211_SKB_CB(skb)->status.status_driver_data));
return ((void *)IEEE80211_SKB_CB(skb)->status.status_driver_data);
}
static inline void *mt76_skb_get_hdr(struct sk_buff *skb)
{
struct mt76_rx_status mstat;
u8 *data = skb->data;
/* Alignment concerns */
BUILD_BUG_ON(sizeof(struct ieee80211_radiotap_he) % 4);
BUILD_BUG_ON(sizeof(struct ieee80211_radiotap_he_mu) % 4);
mstat = *((struct mt76_rx_status *)skb->cb);
if (mstat.flag & RX_FLAG_RADIOTAP_HE)
data += sizeof(struct ieee80211_radiotap_he);
if (mstat.flag & RX_FLAG_RADIOTAP_HE_MU)
data += sizeof(struct ieee80211_radiotap_he_mu);
return data;
}
static inline void mt76_insert_hdr_pad(struct sk_buff *skb)
{
int len = ieee80211_get_hdrlen_from_skb(skb);
if (len % 4 == 0)
return;
skb_push(skb, 2);
memmove(skb->data, skb->data + 2, len);
skb->data[len] = 0;
skb->data[len + 1] = 0;
}
static inline bool mt76_is_skb_pktid(u8 pktid)
{
if (pktid & MT_PACKET_ID_HAS_RATE)
return false;
return pktid >= MT_PACKET_ID_FIRST;
}
static inline u8 mt76_tx_power_nss_delta(u8 nss)
{
static const u8 nss_delta[4] = { 0, 6, 9, 12 };
u8 idx = nss - 1;
return (idx < ARRAY_SIZE(nss_delta)) ? nss_delta[idx] : 0;
}
static inline bool mt76_testmode_enabled(struct mt76_phy *phy)
{
#ifdef CONFIG_NL80211_TESTMODE
return phy->test.state != MT76_TM_STATE_OFF;
#else
return false;
#endif
}
static inline bool mt76_is_testmode_skb(struct mt76_dev *dev,
struct sk_buff *skb,
struct ieee80211_hw **hw)
{
#ifdef CONFIG_NL80211_TESTMODE
int i;
for (i = 0; i < ARRAY_SIZE(dev->phys); i++) {
struct mt76_phy *phy = dev->phys[i];
if (phy && skb == phy->test.tx_skb) {
*hw = dev->phys[i]->hw;
return true;
}
}
return false;
#else
return false;
#endif
}
void mt76_rx(struct mt76_dev *dev, enum mt76_rxq_id q, struct sk_buff *skb);
void mt76_tx(struct mt76_phy *dev, struct ieee80211_sta *sta,
struct mt76_wcid *wcid, struct sk_buff *skb);
void mt76_wake_tx_queue(struct ieee80211_hw *hw, struct ieee80211_txq *txq);
void mt76_stop_tx_queues(struct mt76_phy *phy, struct ieee80211_sta *sta,
bool send_bar);
void mt76_tx_check_agg_ssn(struct ieee80211_sta *sta, struct sk_buff *skb);
void mt76_txq_schedule(struct mt76_phy *phy, enum mt76_txq_id qid);
void mt76_txq_schedule_all(struct mt76_phy *phy);
void mt76_tx_worker_run(struct mt76_dev *dev);
void mt76_tx_worker(struct mt76_worker *w);
void mt76_release_buffered_frames(struct ieee80211_hw *hw,
struct ieee80211_sta *sta,
u16 tids, int nframes,
enum ieee80211_frame_release_type reason,
bool more_data);
bool mt76_has_tx_pending(struct mt76_phy *phy);
void mt76_set_channel(struct mt76_phy *phy);
void mt76_update_survey(struct mt76_phy *phy);
void mt76_update_survey_active_time(struct mt76_phy *phy, ktime_t time);
int mt76_get_survey(struct ieee80211_hw *hw, int idx,
struct survey_info *survey);
int mt76_rx_signal(u8 chain_mask, s8 *chain_signal);
void mt76_set_stream_caps(struct mt76_phy *phy, bool vht);
int mt76_rx_aggr_start(struct mt76_dev *dev, struct mt76_wcid *wcid, u8 tid,
u16 ssn, u16 size);
void mt76_rx_aggr_stop(struct mt76_dev *dev, struct mt76_wcid *wcid, u8 tid);
void mt76_wcid_key_setup(struct mt76_dev *dev, struct mt76_wcid *wcid,
struct ieee80211_key_conf *key);
void mt76_tx_status_lock(struct mt76_dev *dev, struct sk_buff_head *list)
__acquires(&dev->status_lock);
void mt76_tx_status_unlock(struct mt76_dev *dev, struct sk_buff_head *list)
__releases(&dev->status_lock);
int mt76_tx_status_skb_add(struct mt76_dev *dev, struct mt76_wcid *wcid,
struct sk_buff *skb);
struct sk_buff *mt76_tx_status_skb_get(struct mt76_dev *dev,
struct mt76_wcid *wcid, int pktid,
struct sk_buff_head *list);
void mt76_tx_status_skb_done(struct mt76_dev *dev, struct sk_buff *skb,
struct sk_buff_head *list);
void __mt76_tx_complete_skb(struct mt76_dev *dev, u16 wcid, struct sk_buff *skb,
struct list_head *free_list);
static inline void
mt76_tx_complete_skb(struct mt76_dev *dev, u16 wcid, struct sk_buff *skb)
{
__mt76_tx_complete_skb(dev, wcid, skb, NULL);
}
void mt76_tx_status_check(struct mt76_dev *dev, bool flush);
int mt76_sta_state(struct ieee80211_hw *hw, struct ieee80211_vif *vif,
struct ieee80211_sta *sta,
enum ieee80211_sta_state old_state,
enum ieee80211_sta_state new_state);
void __mt76_sta_remove(struct mt76_dev *dev, struct ieee80211_vif *vif,
struct ieee80211_sta *sta);
void mt76_sta_pre_rcu_remove(struct ieee80211_hw *hw, struct ieee80211_vif *vif,
struct ieee80211_sta *sta);
int mt76_get_min_avg_rssi(struct mt76_dev *dev, bool ext_phy);
int mt76_get_txpower(struct ieee80211_hw *hw, struct ieee80211_vif *vif,
int *dbm);
int mt76_init_sar_power(struct ieee80211_hw *hw,
const struct cfg80211_sar_specs *sar);
int mt76_get_sar_power(struct mt76_phy *phy,
struct ieee80211_channel *chan,
int power);
void mt76_csa_check(struct mt76_dev *dev);
void mt76_csa_finish(struct mt76_dev *dev);
int mt76_get_antenna(struct ieee80211_hw *hw, u32 *tx_ant, u32 *rx_ant);
int mt76_set_tim(struct ieee80211_hw *hw, struct ieee80211_sta *sta, bool set);
void mt76_insert_ccmp_hdr(struct sk_buff *skb, u8 key_id);
int mt76_get_rate(struct mt76_dev *dev,
struct ieee80211_supported_band *sband,
int idx, bool cck);
void mt76_sw_scan(struct ieee80211_hw *hw, struct ieee80211_vif *vif,
const u8 *mac);
void mt76_sw_scan_complete(struct ieee80211_hw *hw,
struct ieee80211_vif *vif);
enum mt76_dfs_state mt76_phy_dfs_state(struct mt76_phy *phy);
int mt76_testmode_cmd(struct ieee80211_hw *hw, struct ieee80211_vif *vif,
void *data, int len);
int mt76_testmode_dump(struct ieee80211_hw *hw, struct sk_buff *skb,
struct netlink_callback *cb, void *data, int len);
int mt76_testmode_set_state(struct mt76_phy *phy, enum mt76_testmode_state state);
int mt76_testmode_alloc_skb(struct mt76_phy *phy, u32 len);
static inline void mt76_testmode_reset(struct mt76_phy *phy, bool disable)
{
#ifdef CONFIG_NL80211_TESTMODE
enum mt76_testmode_state state = MT76_TM_STATE_IDLE;
if (disable || phy->test.state == MT76_TM_STATE_OFF)
state = MT76_TM_STATE_OFF;
mt76_testmode_set_state(phy, state);
#endif
}
/* internal */
static inline struct ieee80211_hw *
mt76_tx_status_get_hw(struct mt76_dev *dev, struct sk_buff *skb)
{
struct ieee80211_tx_info *info = IEEE80211_SKB_CB(skb);
u8 phy_idx = (info->hw_queue & MT_TX_HW_QUEUE_PHY) >> 2;
struct ieee80211_hw *hw = mt76_phy_hw(dev, phy_idx);
info->hw_queue &= ~MT_TX_HW_QUEUE_PHY;
return hw;
}
void mt76_put_txwi(struct mt76_dev *dev, struct mt76_txwi_cache *t);
void mt76_put_rxwi(struct mt76_dev *dev, struct mt76_txwi_cache *t);
struct mt76_txwi_cache *mt76_get_rxwi(struct mt76_dev *dev);
void mt76_free_pending_rxwi(struct mt76_dev *dev);
void mt76_rx_complete(struct mt76_dev *dev, struct sk_buff_head *frames,
struct napi_struct *napi);
void mt76_rx_poll_complete(struct mt76_dev *dev, enum mt76_rxq_id q,
struct napi_struct *napi);
void mt76_rx_aggr_reorder(struct sk_buff *skb, struct sk_buff_head *frames);
void mt76_testmode_tx_pending(struct mt76_phy *phy);
void mt76_queue_tx_complete(struct mt76_dev *dev, struct mt76_queue *q,
struct mt76_queue_entry *e);
/* usb */
static inline bool mt76u_urb_error(struct urb *urb)
{
return urb->status &&
urb->status != -ECONNRESET &&
urb->status != -ESHUTDOWN &&
urb->status != -ENOENT;
}
/* Map hardware queues to usb endpoints */
static inline u8 q2ep(u8 qid)
{
/* TODO: take management packets to queue 5 */
return qid + 1;
}
static inline int
mt76u_bulk_msg(struct mt76_dev *dev, void *data, int len, int *actual_len,
int timeout, int ep)
{
struct usb_interface *uintf = to_usb_interface(dev->dev);
struct usb_device *udev = interface_to_usbdev(uintf);
struct mt76_usb *usb = &dev->usb;
unsigned int pipe;
if (actual_len)
pipe = usb_rcvbulkpipe(udev, usb->in_ep[ep]);
else
pipe = usb_sndbulkpipe(udev, usb->out_ep[ep]);
return usb_bulk_msg(udev, pipe, data, len, actual_len, timeout);
}
void mt76_ethtool_page_pool_stats(struct mt76_dev *dev, u64 *data, int *index);
void mt76_ethtool_worker(struct mt76_ethtool_worker_info *wi,
struct mt76_sta_stats *stats, bool eht);
int mt76_skb_adjust_pad(struct sk_buff *skb, int pad);
int __mt76u_vendor_request(struct mt76_dev *dev, u8 req, u8 req_type,
u16 val, u16 offset, void *buf, size_t len);
int mt76u_vendor_request(struct mt76_dev *dev, u8 req,
u8 req_type, u16 val, u16 offset,
void *buf, size_t len);
void mt76u_single_wr(struct mt76_dev *dev, const u8 req,
const u16 offset, const u32 val);
void mt76u_read_copy(struct mt76_dev *dev, u32 offset,
void *data, int len);
u32 ___mt76u_rr(struct mt76_dev *dev, u8 req, u8 req_type, u32 addr);
void ___mt76u_wr(struct mt76_dev *dev, u8 req, u8 req_type,
u32 addr, u32 val);
int __mt76u_init(struct mt76_dev *dev, struct usb_interface *intf,
struct mt76_bus_ops *ops);
int mt76u_init(struct mt76_dev *dev, struct usb_interface *intf);
int mt76u_alloc_mcu_queue(struct mt76_dev *dev);
int mt76u_alloc_queues(struct mt76_dev *dev);
void mt76u_stop_tx(struct mt76_dev *dev);
void mt76u_stop_rx(struct mt76_dev *dev);
int mt76u_resume_rx(struct mt76_dev *dev);
void mt76u_queues_deinit(struct mt76_dev *dev);
int mt76s_init(struct mt76_dev *dev, struct sdio_func *func,
const struct mt76_bus_ops *bus_ops);
int mt76s_alloc_rx_queue(struct mt76_dev *dev, enum mt76_rxq_id qid);
int mt76s_alloc_tx(struct mt76_dev *dev);
void mt76s_deinit(struct mt76_dev *dev);
void mt76s_sdio_irq(struct sdio_func *func);
void mt76s_txrx_worker(struct mt76_sdio *sdio);
bool mt76s_txqs_empty(struct mt76_dev *dev);
int mt76s_hw_init(struct mt76_dev *dev, struct sdio_func *func,
int hw_ver);
u32 mt76s_rr(struct mt76_dev *dev, u32 offset);
void mt76s_wr(struct mt76_dev *dev, u32 offset, u32 val);
u32 mt76s_rmw(struct mt76_dev *dev, u32 offset, u32 mask, u32 val);
u32 mt76s_read_pcr(struct mt76_dev *dev);
void mt76s_write_copy(struct mt76_dev *dev, u32 offset,
const void *data, int len);
void mt76s_read_copy(struct mt76_dev *dev, u32 offset,
void *data, int len);
int mt76s_wr_rp(struct mt76_dev *dev, u32 base,
const struct mt76_reg_pair *data,
int len);
int mt76s_rd_rp(struct mt76_dev *dev, u32 base,
struct mt76_reg_pair *data, int len);
struct sk_buff *
__mt76_mcu_msg_alloc(struct mt76_dev *dev, const void *data,
int len, int data_len, gfp_t gfp);
static inline struct sk_buff *
mt76_mcu_msg_alloc(struct mt76_dev *dev, const void *data,
int data_len)
{
return __mt76_mcu_msg_alloc(dev, data, data_len, data_len, GFP_KERNEL);
}
void mt76_mcu_rx_event(struct mt76_dev *dev, struct sk_buff *skb);
struct sk_buff *mt76_mcu_get_response(struct mt76_dev *dev,
unsigned long expires);
int mt76_mcu_send_and_get_msg(struct mt76_dev *dev, int cmd, const void *data,
int len, bool wait_resp, struct sk_buff **ret);
int mt76_mcu_skb_send_and_get_msg(struct mt76_dev *dev, struct sk_buff *skb,
int cmd, bool wait_resp, struct sk_buff **ret);
int __mt76_mcu_send_firmware(struct mt76_dev *dev, int cmd, const void *data,
int len, int max_len);
static inline int
mt76_mcu_send_firmware(struct mt76_dev *dev, int cmd, const void *data,
int len)
{
int max_len = 4096 - dev->mcu_ops->headroom;
return __mt76_mcu_send_firmware(dev, cmd, data, len, max_len);
}
static inline int
mt76_mcu_send_msg(struct mt76_dev *dev, int cmd, const void *data, int len,
bool wait_resp)
{
return mt76_mcu_send_and_get_msg(dev, cmd, data, len, wait_resp, NULL);
}
static inline int
mt76_mcu_skb_send_msg(struct mt76_dev *dev, struct sk_buff *skb, int cmd,
bool wait_resp)
{
return mt76_mcu_skb_send_and_get_msg(dev, skb, cmd, wait_resp, NULL);
}
void mt76_set_irq_mask(struct mt76_dev *dev, u32 addr, u32 clear, u32 set);
struct device_node *
mt76_find_power_limits_node(struct mt76_dev *dev);
struct device_node *
mt76_find_channel_node(struct device_node *np, struct ieee80211_channel *chan);
s8 mt76_get_rate_power_limits(struct mt76_phy *phy,
struct ieee80211_channel *chan,
struct mt76_power_limits *dest,
s8 target_power);
static inline bool mt76_queue_is_wed_tx_free(struct mt76_queue *q)
{
return (q->flags & MT_QFLAG_WED) &&
FIELD_GET(MT_QFLAG_WED_TYPE, q->flags) == MT76_WED_Q_TXFREE;
}
static inline bool mt76_queue_is_wed_rx(struct mt76_queue *q)
{
return (q->flags & MT_QFLAG_WED) &&
FIELD_GET(MT_QFLAG_WED_TYPE, q->flags) == MT76_WED_Q_RX;
}
struct mt76_txwi_cache *
mt76_token_release(struct mt76_dev *dev, int token, bool *wake);
int mt76_token_consume(struct mt76_dev *dev, struct mt76_txwi_cache **ptxwi);
void __mt76_set_tx_blocked(struct mt76_dev *dev, bool blocked);
struct mt76_txwi_cache *mt76_rx_token_release(struct mt76_dev *dev, int token);
int mt76_rx_token_consume(struct mt76_dev *dev, void *ptr,
struct mt76_txwi_cache *r, dma_addr_t phys);
int mt76_create_page_pool(struct mt76_dev *dev, struct mt76_queue *q);
static inline void mt76_put_page_pool_buf(void *buf, bool allow_direct)
{
struct page *page = virt_to_head_page(buf);
page_pool_put_full_page(page->pp, page, allow_direct);
}
static inline void *
mt76_get_page_pool_buf(struct mt76_queue *q, u32 *offset, u32 size)
{
struct page *page;
page = page_pool_dev_alloc_frag(q->page_pool, offset, size);
if (!page)
return NULL;
return page_address(page) + *offset;
}
static inline void mt76_set_tx_blocked(struct mt76_dev *dev, bool blocked)
{
spin_lock_bh(&dev->token_lock);
__mt76_set_tx_blocked(dev, blocked);
spin_unlock_bh(&dev->token_lock);
}
static inline int
mt76_token_get(struct mt76_dev *dev, struct mt76_txwi_cache **ptxwi)
{
int token;
spin_lock_bh(&dev->token_lock);
token = idr_alloc(&dev->token, *ptxwi, 0, dev->token_size, GFP_ATOMIC);
spin_unlock_bh(&dev->token_lock);
return token;
}
static inline struct mt76_txwi_cache *
mt76_token_put(struct mt76_dev *dev, int token)
{
struct mt76_txwi_cache *txwi;
spin_lock_bh(&dev->token_lock);
txwi = idr_remove(&dev->token, token);
spin_unlock_bh(&dev->token_lock);
return txwi;
}
void mt76_wcid_init(struct mt76_wcid *wcid);
void mt76_wcid_cleanup(struct mt76_dev *dev, struct mt76_wcid *wcid);
#endif
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