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|
/* $OpenBSD: bwivar.h,v 1.22 2008/02/16 16:45:28 mglocker Exp $ */
/*
* Copyright (c) 2007 The DragonFly Project. All rights reserved.
*
* This code is derived from software contributed to The DragonFly Project
* by Sepherosa Ziehau <sepherosa@gmail.com>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name of The DragonFly Project nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific, prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $DragonFly: src/sys/dev/netif/bwi/if_bwivar.h,v 1.1 2007/09/08 06:15:54 sephe Exp $
*/
#ifndef _IF_BWIVAR_H
#define _IF_BWIVAR_H
#define BWI_ALIGN 0x1000
#define BWI_RING_ALIGN BWI_ALIGN
#define BWI_BUS_SPACE_MAXADDR 0x3fffffff
#define BWI_TX_NRING 6
#define BWI_TXRX_NRING 6
#define BWI_TX_NDESC 128
#define BWI_RX_NDESC 64
#define BWI_TXSTATS_NDESC 64
#define BWI_TX_NSPRDESC 2
#define BWI_TX_DATA_RING 1
/* XXX Onoe/Sample/AMRR probably need different configuration */
#define BWI_SHRETRY 7
#define BWI_LGRETRY 4
#define BWI_SHRETRY_FB 3
#define BWI_LGRETRY_FB 2
#define BWI_LED_EVENT_NONE -1
#define BWI_LED_EVENT_POLL 0
#define BWI_LED_EVENT_TX 1
#define BWI_LED_EVENT_RX 2
#define BWI_LED_SLOWDOWN(dur) (dur) = (((dur) * 3) / 2)
#define BWI_NOISE_FLOOR -95 /* TODO: noise floor calc */
#define CSR_READ_4(sc, reg) \
bus_space_read_4((sc)->sc_mem_bt, (sc)->sc_mem_bh, (reg))
#define CSR_READ_2(sc, reg) \
bus_space_read_2((sc)->sc_mem_bt, (sc)->sc_mem_bh, (reg))
#define CSR_WRITE_4(sc, reg, val) \
bus_space_write_4((sc)->sc_mem_bt, (sc)->sc_mem_bh, (reg), (val))
#define CSR_WRITE_2(sc, reg, val) \
bus_space_write_2((sc)->sc_mem_bt, (sc)->sc_mem_bh, (reg), (val))
#define CSR_SETBITS_4(sc, reg, bits) \
CSR_WRITE_4((sc), (reg), CSR_READ_4((sc), (reg)) | (bits))
#define CSR_SETBITS_2(sc, reg, bits) \
CSR_WRITE_2((sc), (reg), CSR_READ_2((sc), (reg)) | (bits))
#define CSR_FILT_SETBITS_4(sc, reg, filt, bits) \
CSR_WRITE_4((sc), (reg), (CSR_READ_4((sc), (reg)) & (filt)) | (bits))
#define CSR_FILT_SETBITS_2(sc, reg, filt, bits) \
CSR_WRITE_2((sc), (reg), (CSR_READ_2((sc), (reg)) & (filt)) | (bits))
#define CSR_CLRBITS_4(sc, reg, bits) \
CSR_WRITE_4((sc), (reg), CSR_READ_4((sc), (reg)) & ~(bits))
#define CSR_CLRBITS_2(sc, reg, bits) \
CSR_WRITE_2((sc), (reg), CSR_READ_2((sc), (reg)) & ~(bits))
struct bwi_desc32 {
/* Little endian */
uint32_t ctrl;
uint32_t addr; /* BWI_DESC32_A_ */
} __packed;
#define BWI_DESC32_A_FUNC_TXRX 0x1
#define BWI_DESC32_A_FUNC_MASK 0xc0000000
#define BWI_DESC32_A_ADDR_MASK 0x3fffffff
#define BWI_DESC32_C_BUFLEN_MASK 0x00001fff
#define BWI_DESC32_C_ADDRHI_MASK 0x00030000
#define BWI_DESC32_C_EOR (1 << 28)
#define BWI_DESC32_C_INTR (1 << 29)
#define BWI_DESC32_C_FRAME_END (1 << 30)
#define BWI_DESC32_C_FRAME_START (1 << 31)
struct bwi_desc64 {
/* Little endian */
uint32_t ctrl0;
uint32_t ctrl1;
uint32_t addr_lo;
uint32_t addr_hi;
} __packed;
struct bwi_rxbuf_hdr {
/* Little endian */
uint16_t rxh_buflen; /* exclude bwi_rxbuf_hdr */
uint8_t rxh_pad1[2];
uint16_t rxh_flags1;
uint8_t rxh_rssi;
uint8_t rxh_sq;
uint16_t rxh_phyinfo; /* BWI_RXH_PHYINFO_ */
uint16_t rxh_flags3;
uint16_t rxh_flags2; /* BWI_RXH_F2_ */
uint16_t rxh_tsf;
uint8_t rxh_pad3[14]; /* Padded to 30bytes */
} __packed;
#define BWI_RXH_F1_BCM2053_RSSI (1 << 14)
#define BWI_RXH_F1_OFDM (1 << 0)
#define BWI_RXH_F2_TYPE2FRAME (1 << 2)
#define BWI_RXH_F3_BCM2050_RSSI (1 << 10)
#define BWI_RXH_PHYINFO_LNAGAIN (3 << 14)
struct bwi_txbuf_hdr {
/* Little endian */
uint32_t txh_mac_ctrl; /* BWI_TXH_MAC_C_ */
uint8_t txh_fc[2];
uint16_t txh_unknown1;
uint16_t txh_phy_ctrl; /* BWI_TXH_PHY_C_ */
uint8_t txh_ivs[16];
uint8_t txh_addr1[IEEE80211_ADDR_LEN];
uint16_t txh_unknown2;
uint8_t txh_rts_fb_plcp[4];
uint16_t txh_rts_fb_duration;
uint8_t txh_fb_plcp[4];
uint16_t txh_fb_duration;
uint8_t txh_pad2[2];
uint16_t txh_id; /* BWI_TXH_ID_ */
uint16_t txh_unknown3;
uint8_t txh_rts_plcp[6];
uint8_t txh_rts_fc[2];
uint16_t txh_rts_duration;
uint8_t txh_rts_ra[IEEE80211_ADDR_LEN];
uint8_t txh_rts_ta[IEEE80211_ADDR_LEN];
uint8_t txh_pad3[2];
uint8_t txh_plcp[6];
} __packed;
#define BWI_TXH_ID_RING_MASK 0xe000
#define BWI_TXH_ID_IDX_MASK 0x1fff
#define BWI_TXH_PHY_C_OFDM (1 << 0)
#define BWI_TXH_PHY_C_SHPREAMBLE (1 << 4)
#define BWI_TXH_PHY_C_ANTMODE_MASK 0x0300
#define BWI_TXH_MAC_C_ACK (1 << 0)
#define BWI_TXH_MAC_C_FIRST_FRAG (1 << 3)
#define BWI_TXH_MAC_C_HWSEQ (1 << 4)
#define BWI_TXH_MAC_C_FB_OFDM (1 << 8)
struct bwi_txstats {
/* Little endian */
uint8_t txs_pad1[4];
uint16_t txs_id;
uint8_t txs_flags;
uint8_t txs_retry_cnt;
uint8_t txs_pad2[2];
uint16_t txs_seq;
uint16_t txs_unknown;
uint8_t txs_pad3[2]; /* Padded to 16bytes */
} __packed;
struct bwi_ring_data {
uint32_t rdata_txrx_ctrl;
bus_dma_segment_t rdata_seg;
bus_dmamap_t rdata_dmap;
bus_addr_t rdata_paddr;
void *rdata_desc;
};
struct bwi_txbuf {
struct mbuf *tb_mbuf;
bus_dmamap_t tb_dmap;
struct ieee80211_node *tb_ni;
int tb_rate_idx[2];
};
struct bwi_txbuf_data {
struct bwi_txbuf tbd_buf[BWI_TX_NDESC];
int tbd_used;
int tbd_idx;
};
struct bwi_rxbuf {
struct mbuf *rb_mbuf;
bus_addr_t rb_paddr;
bus_dmamap_t rb_dmap;
};
struct bwi_rxbuf_data {
struct bwi_rxbuf rbd_buf[BWI_RX_NDESC];
bus_dmamap_t rbd_tmp_dmap;
int rbd_idx;
};
struct bwi_txstats_data {
bus_dma_segment_t stats_ring_seg;
bus_dmamap_t stats_ring_dmap;
bus_addr_t stats_ring_paddr;
void *stats_ring;
bus_dma_segment_t stats_seg;
bus_dmamap_t stats_dmap;
bus_addr_t stats_paddr;
struct bwi_txstats *stats;
uint32_t stats_ctrl_base;
int stats_idx;
};
struct bwi_fwhdr {
/* Big endian */
uint8_t fw_type; /* BWI_FW_T_ */
uint8_t fw_gen; /* BWI_FW_GEN */
uint8_t fw_pad[2];
uint32_t fw_size;
#define fw_iv_cnt fw_size
} __packed;
#define BWI_FWHDR_SZ sizeof(struct bwi_fwhdr)
#define BWI_FW_VERSION3 3
#define BWI_FW_VERSION4 4
#define BWI_FW_VERSION3_REVMAX 0x128
#define BWI_FW_T_UCODE 'u'
#define BWI_FW_T_PCM 'p'
#define BWI_FW_T_IV 'i'
#define BWI_FW_GEN_1 1
#define BWI_FW_IV_OFS_MASK 0x7fff
#define BWI_FW_IV_IS_32BIT (1 << 15)
struct fwheader {
char filename[64];
int filesize;
int fileoffset;
};
struct bwi_fw_iv {
/* Big endian */
uint16_t iv_ofs;
union {
uint32_t val32;
uint16_t val16;
} iv_val;
} __packed;
struct bwi_led {
uint8_t l_flags; /* BWI_LED_F_ */
uint8_t l_act; /* BWI_LED_ACT_ */
uint8_t l_mask;
};
#define BWI_LED_F_ACTLOW 0x1
#define BWI_LED_F_BLINK 0x2
#define BWI_LED_F_POLLABLE 0x4
#define BWI_LED_F_SLOW 0x8
enum bwi_clock_mode {
BWI_CLOCK_MODE_SLOW,
BWI_CLOCK_MODE_FAST,
BWI_CLOCK_MODE_DYN
};
struct bwi_regwin {
uint32_t rw_flags; /* BWI_REGWIN_F_ */
uint16_t rw_type; /* BWI_REGWIN_T_ */
uint8_t rw_id;
uint8_t rw_rev;
};
#define BWI_REGWIN_F_EXIST 0x1
#define BWI_CREATE_REGWIN(rw, id, type, rev) \
do { \
(rw)->rw_flags = BWI_REGWIN_F_EXIST; \
(rw)->rw_type = (type); \
(rw)->rw_id = (id); \
(rw)->rw_rev = (rev); \
} while (0)
#define BWI_REGWIN_EXIST(rw) ((rw)->rw_flags & BWI_REGWIN_F_EXIST)
#define BWI_GPIO_REGWIN(sc) \
(BWI_REGWIN_EXIST(&(sc)->sc_com_regwin) ? \
&(sc)->sc_com_regwin : &(sc)->sc_bus_regwin)
struct bwi_mac;
struct bwi_phy {
enum ieee80211_phymode phy_mode;
int phy_rev;
int phy_version;
uint32_t phy_flags; /* BWI_PHY_F_ */
uint16_t phy_tbl_ctrl;
uint16_t phy_tbl_data_lo;
uint16_t phy_tbl_data_hi;
void (*phy_init)(struct bwi_mac *);
};
#define BWI_PHY_F_CALIBRATED 0x1
#define BWI_PHY_F_LINKED 0x2
#define BWI_CLEAR_PHY_FLAGS (BWI_PHY_F_CALIBRATED)
/* TX power control */
struct bwi_tpctl {
uint16_t bbp_atten; /* BBP attenuation: 4bits */
uint16_t rf_atten; /* RF attenuation */
uint16_t tp_ctrl1; /* ??: 3bits */
uint16_t tp_ctrl2; /* ??: 4bits */
};
#define BWI_RF_ATTEN_FACTOR 4
#define BWI_RF_ATTEN_MAX0 9
#define BWI_RF_ATTEN_MAX1 31
#define BWI_BBP_ATTEN_MAX 11
#define BWI_TPCTL1_MAX 7
struct bwi_rf_lo {
int8_t ctrl_lo;
int8_t ctrl_hi;
};
struct bwi_rf {
uint16_t rf_type; /* BWI_RF_T_ */
uint16_t rf_manu;
int rf_rev;
uint32_t rf_flags; /* BWI_RF_F_ */
#define BWI_RFLO_MAX 56
struct bwi_rf_lo rf_lo[BWI_RFLO_MAX];
uint8_t rf_lo_used[8];
#define BWI_INVALID_NRSSI -1000
int16_t rf_nrssi[2]; /* Narrow RSSI */
int32_t rf_nrssi_slope;
#define BWI_NRSSI_TBLSZ 64
int8_t rf_nrssi_table[BWI_NRSSI_TBLSZ];
uint16_t rf_lo_gain; /* loopback gain */
uint16_t rf_rx_gain; /* TRSW RX gain */
uint16_t rf_calib; /* RF calibration value */
uint rf_curchan; /* current channel */
uint16_t rf_ctrl_rd;
int rf_ctrl_adj;
void (*rf_off)(struct bwi_mac *);
void (*rf_on)(struct bwi_mac *);
void (*rf_set_nrssi_thr)(struct bwi_mac *);
void (*rf_calc_nrssi_slope)(struct bwi_mac *);
int (*rf_calc_rssi)
(struct bwi_mac *,
const struct bwi_rxbuf_hdr *);
void (*rf_lo_update)(struct bwi_mac *);
#define BWI_TSSI_MAX 64
int8_t rf_txpower_map0[BWI_TSSI_MAX];
/* Indexed by TSSI */
int rf_idle_tssi0;
int8_t rf_txpower_map[BWI_TSSI_MAX];
int rf_idle_tssi;
int rf_base_tssi;
int rf_txpower_max; /* dBm */
int rf_ant_mode; /* BWI_ANT_MODE_ */
};
#define BWI_RF_F_INITED 0x1
#define BWI_RF_F_ON 0x2
#define BWI_RF_CLEAR_FLAGS (BWI_RF_F_INITED)
#define BWI_ANT_MODE_0 0
#define BWI_ANT_MODE_1 1
#define BWI_ANT_MODE_UNKN 2
#define BWI_ANT_MODE_AUTO 3
struct fw_image;
struct bwi_mac {
struct bwi_regwin mac_regwin; /* MUST be first field */
#define mac_rw_flags mac_regwin.rw_flags
#define mac_type mac_regwin.rw_type
#define mac_id mac_regwin.rw_id
#define mac_rev mac_regwin.rw_rev
struct bwi_softc *mac_sc;
struct bwi_phy mac_phy; /* PHY I/F */
struct bwi_rf mac_rf; /* RF I/F */
struct bwi_tpctl mac_tpctl; /* TX power control */
uint32_t mac_flags; /* BWI_MAC_F_ */
uint8_t *mac_fw;
size_t mac_fw_size;
uint8_t *mac_ucode;
size_t mac_ucode_size;
uint8_t *mac_pcm;
size_t mac_pcm_size;
uint8_t *mac_iv;
size_t mac_iv_size;
uint8_t *mac_iv_ext;
size_t mac_iv_ext_size;
};
#define BWI_MAC_F_BSWAP 0x1
#define BWI_MAC_F_TPCTL_INITED 0x2
#define BWI_MAC_F_HAS_TXSTATS 0x4
#define BWI_MAC_F_INITED 0x8
#define BWI_MAC_F_ENABLED 0x10
#define BWI_MAC_F_LOCKED 0x20 /* for debug */
#define BWI_MAC_F_TPCTL_ERROR 0x40
#define BWI_CREATE_MAC(mac, sc, id, rev) \
do { \
BWI_CREATE_REGWIN(&(mac)->mac_regwin, \
(id), BWI_REGWIN_T_MAC, (rev)); \
(mac)->mac_sc = (sc); \
} while (0)
#define BWI_MAC_MAX 2
#define BWI_LED_MAX 4
enum bwi_bus_space {
BWI_BUS_SPACE_30BIT = 1,
BWI_BUS_SPACE_32BIT,
BWI_BUS_SPACE_64BIT
};
#define BWI_TX_RADIOTAP_PRESENT \
((1 << IEEE80211_RADIOTAP_FLAGS) | \
(1 << IEEE80211_RADIOTAP_RATE) | \
(1 << IEEE80211_RADIOTAP_CHANNEL))
struct bwi_tx_radiotap_hdr {
struct ieee80211_radiotap_header wt_ihdr;
uint8_t wt_flags;
uint8_t wt_rate;
uint16_t wt_chan_freq;
uint16_t wt_chan_flags;
};
#define BWI_RX_RADIOTAP_PRESENT \
((1 << IEEE80211_RADIOTAP_TSFT) | \
(1 << IEEE80211_RADIOTAP_FLAGS) | \
(1 << IEEE80211_RADIOTAP_RATE) | \
(1 << IEEE80211_RADIOTAP_CHANNEL) | \
(1 << IEEE80211_RADIOTAP_DBM_ANTSIGNAL) | \
(1 << IEEE80211_RADIOTAP_DBM_ANTNOISE))
struct bwi_rx_radiotap_hdr {
struct ieee80211_radiotap_header wr_ihdr;
uint64_t wr_tsf;
uint8_t wr_flags;
uint8_t wr_rate;
uint16_t wr_chan_freq;
uint16_t wr_chan_flags;
int8_t wr_antsignal;
int8_t wr_antnoise;
/* TODO: sq */
};
struct bwi_node {
struct ieee80211_node ni;
struct ieee80211_amrr_node amn;
};
struct bwi_softc {
struct device sc_dev;
struct ieee80211com sc_ic;
uint32_t sc_flags; /* BWI_F_ */
uint32_t sc_cap; /* BWI_CAP_ */
uint16_t sc_bbp_id; /* BWI_BBPID_ */
uint8_t sc_bbp_rev;
uint8_t sc_bbp_pkg;
uint8_t sc_pci_revid;
uint16_t sc_pci_did;
uint16_t sc_pci_subvid;
uint16_t sc_pci_subdid;
uint16_t sc_card_flags; /* BWI_CARD_F_ */
uint16_t sc_pwron_delay;
int sc_locale;
int sc_irq_rid;
struct resource *sc_irq_res;
void *sc_irq_handle;
int sc_mem_rid;
struct resource *sc_mem_res;
bus_dma_tag_t sc_dmat;
bus_space_tag_t sc_mem_bt;
bus_space_handle_t sc_mem_bh;
struct timeout sc_scan_ch;
struct timeout sc_calib_ch;
struct timeout sc_amrr_ch;
struct ieee80211_amrr sc_amrr;
struct bwi_regwin *sc_cur_regwin;
struct bwi_regwin sc_com_regwin;
struct bwi_regwin sc_bus_regwin;
int sc_nmac;
struct bwi_mac sc_mac[BWI_MAC_MAX];
int sc_rx_rate;
int sc_tx_rate;
int sc_led_blinking;
int sc_led_ticks;
struct bwi_led *sc_blink_led;
struct timeout sc_led_blink_next_ch;
struct timeout sc_led_blink_end_ch;
int sc_led_blink_offdur;
struct bwi_led sc_leds[BWI_LED_MAX];
enum bwi_bus_space sc_bus_space;
struct bwi_txbuf_data sc_tx_bdata[BWI_TX_NRING];
struct bwi_rxbuf_data sc_rx_bdata;
struct bwi_ring_data sc_tx_rdata[BWI_TX_NRING];
struct bwi_ring_data sc_rx_rdata;
struct bwi_txstats_data *sc_txstats;
int sc_tx_timer;
int (*sc_newstate)
(struct ieee80211com *,
enum ieee80211_state, int);
int (*sc_init_tx_ring)(struct bwi_softc *, int);
void (*sc_free_tx_ring)(struct bwi_softc *, int);
int (*sc_init_rx_ring)(struct bwi_softc *);
void (*sc_free_rx_ring)(struct bwi_softc *);
int (*sc_init_txstats)(struct bwi_softc *);
void (*sc_free_txstats)(struct bwi_softc *);
void (*sc_setup_rxdesc)
(struct bwi_softc *, int, bus_addr_t, int);
int (*sc_rxeof)(struct bwi_softc *);
void (*sc_setup_txdesc)
(struct bwi_softc *, struct bwi_ring_data *,
int, bus_addr_t, int);
void (*sc_start_tx)
(struct bwi_softc *, uint32_t, int);
void (*sc_txeof_status)(struct bwi_softc *);
int (*sc_enable)(struct bwi_softc *);
void (*sc_disable)(struct bwi_softc *);
void (*sc_conf_write)(void *, uint32_t, uint32_t);
uint32_t (*sc_conf_read)(void *, uint32_t);
/* Sysctl variables */
int sc_fw_version; /* BWI_FW_VERSION[34] */
int sc_dwell_time; /* milliseconds */
int sc_led_idle;
int sc_led_blink;
#if NBPFILTER > 0
caddr_t sc_drvbpf;
union {
struct bwi_rx_radiotap_hdr th;
uint8_t pad[64];
} sc_rxtapu;
#define sc_rxtap sc_rxtapu.th
int sc_rxtap_len;
union {
struct bwi_tx_radiotap_hdr th;
uint8_t pad[64];
} sc_txtapu;
#define sc_txtap sc_txtapu.th
int sc_txtap_len;
#endif
};
#define BWI_F_BUS_INITED 0x1
#define BWI_F_PROMISC 0x2
#define abs(a) __builtin_abs(a)
#define MOBJ_WRITE_2(mac, objid, ofs, val) \
bwi_memobj_write_2((mac), (objid), (ofs), (val))
#define MOBJ_WRITE_4(mac, objid, ofs, val) \
bwi_memobj_write_4((mac), (objid), (ofs), (val))
#define MOBJ_READ_2(mac, objid, ofs) \
bwi_memobj_read_2((mac), (objid), (ofs))
#define MOBJ_READ_4(mac, objid, ofs) \
bwi_memobj_read_4((mac), (objid), (ofs))
#define MOBJ_SETBITS_4(mac, objid, ofs, bits) \
MOBJ_WRITE_4((mac), (objid), (ofs), \
MOBJ_READ_4((mac), (objid), (ofs)) | (bits))
#define MOBJ_CLRBITS_4(mac, objid, ofs, bits) \
MOBJ_WRITE_4((mac), (objid), (ofs), \
MOBJ_READ_4((mac), (objid), (ofs)) & ~(bits))
#define MOBJ_FILT_SETBITS_2(mac, objid, ofs, filt, bits) \
MOBJ_WRITE_2((mac), (objid), (ofs), \
(MOBJ_READ_2((mac), (objid), (ofs)) & (filt)) | (bits))
#define TMPLT_WRITE_4(mac, ofs, val) bwi_tmplt_write_4((mac), (ofs), (val))
#define HFLAGS_WRITE(mac, flags) bwi_hostflags_write((mac), (flags))
#define HFLAGS_READ(mac) bwi_hostflags_read((mac))
#define HFLAGS_CLRBITS(mac, bits) \
HFLAGS_WRITE((mac), HFLAGS_READ((mac)) | (bits))
#define HFLAGS_SETBITS(mac, bits) \
HFLAGS_WRITE((mac), HFLAGS_READ((mac)) & ~(bits))
/* PHY */
struct bwi_gains {
int16_t tbl_gain1;
int16_t tbl_gain2;
int16_t phy_gain;
};
static __inline void
bwi_phy_init(struct bwi_mac *_mac)
{
_mac->mac_phy.phy_init(_mac);
}
#define PHY_WRITE(mac, ctrl, val) bwi_phy_write((mac), (ctrl), (val))
#define PHY_READ(mac, ctrl) bwi_phy_read((mac), (ctrl))
#define PHY_SETBITS(mac, ctrl, bits) \
PHY_WRITE((mac), (ctrl), PHY_READ((mac), (ctrl)) | (bits))
#define PHY_CLRBITS(mac, ctrl, bits) \
PHY_WRITE((mac), (ctrl), PHY_READ((mac), (ctrl)) & ~(bits))
#define PHY_FILT_SETBITS(mac, ctrl, filt, bits) \
PHY_WRITE((mac), (ctrl), (PHY_READ((mac), (ctrl)) & (filt)) | (bits))
static __inline void
bwi_rf_off(struct bwi_mac *_mac)
{
_mac->mac_rf.rf_off(_mac);
/* TODO: LED */
_mac->mac_rf.rf_flags &= ~BWI_RF_F_ON;
}
static __inline void
bwi_rf_on(struct bwi_mac *_mac)
{
if (_mac->mac_rf.rf_flags & BWI_RF_F_ON)
return;
_mac->mac_rf.rf_on(_mac);
/* TODO: LED */
_mac->mac_rf.rf_flags |= BWI_RF_F_ON;
}
static __inline void
bwi_rf_calc_nrssi_slope(struct bwi_mac *_mac)
{
_mac->mac_rf.rf_calc_nrssi_slope(_mac);
}
static __inline void
bwi_rf_set_nrssi_thr(struct bwi_mac *_mac)
{
_mac->mac_rf.rf_set_nrssi_thr(_mac);
}
static __inline int
bwi_rf_calc_rssi(struct bwi_mac *_mac, const struct bwi_rxbuf_hdr *_hdr)
{
return (_mac->mac_rf.rf_calc_rssi(_mac, _hdr));
}
static __inline void
bwi_rf_lo_update(struct bwi_mac *_mac)
{
return (_mac->mac_rf.rf_lo_update(_mac));
}
#define RF_WRITE(mac, ofs, val) bwi_rf_write((mac), (ofs), (val))
#define RF_READ(mac, ofs) bwi_rf_read((mac), (ofs))
#define RF_SETBITS(mac, ofs, bits) \
RF_WRITE((mac), (ofs), RF_READ((mac), (ofs)) | (bits))
#define RF_CLRBITS(mac, ofs, bits) \
RF_WRITE((mac), (ofs), RF_READ((mac), (ofs)) & ~(bits))
#define RF_FILT_SETBITS(mac, ofs, filt, bits) \
RF_WRITE((mac), (ofs), (RF_READ((mac), (ofs)) & (filt)) | (bits))
#endif /* !_IF_BWIVAR_H */
int bwi_intr(void *);
int bwi_attach(struct bwi_softc *);
int bwi_detach(void *);
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