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8022 8023 8024 8025 8026 8027 8028 8029 8030 8031 8032 8033 8034 8035 8036 8037 8038 8039 8040 8041 8042 8043 8044 8045 8046 8047 8048 8049 8050 8051 8052 8053 8054 8055 8056 8057 8058 8059 8060 8061 8062 8063 8064 8065 8066 8067 8068 8069 8070 8071 8072 | /* * Copyright (c) 2010 Broadcom Corporation * Copyright (c) 2013 Hauke Mehrtens <hauke@hauke-m.de> * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/pci_ids.h> #include <linux/if_ether.h> #include <net/cfg80211.h> #include <net/mac80211.h> #include <brcm_hw_ids.h> #include <aiutils.h> #include <chipcommon.h> #include "rate.h" #include "scb.h" #include "phy/phy_hal.h" #include "channel.h" #include "antsel.h" #include "stf.h" #include "ampdu.h" #include "mac80211_if.h" #include "ucode_loader.h" #include "main.h" #include "soc.h" #include "dma.h" #include "debug.h" #include "brcms_trace_events.h" /* watchdog timer, in unit of ms */ #define TIMER_INTERVAL_WATCHDOG 1000 /* radio monitor timer, in unit of ms */ #define TIMER_INTERVAL_RADIOCHK 800 /* beacon interval, in unit of 1024TU */ #define BEACON_INTERVAL_DEFAULT 100 /* n-mode support capability */ /* 2x2 includes both 1x1 & 2x2 devices * reserved #define 2 for future when we want to separate 1x1 & 2x2 and * control it independently */ #define WL_11N_2x2 1 #define WL_11N_3x3 3 #define WL_11N_4x4 4 #define EDCF_ACI_MASK 0x60 #define EDCF_ACI_SHIFT 5 #define EDCF_ECWMIN_MASK 0x0f #define EDCF_ECWMAX_SHIFT 4 #define EDCF_AIFSN_MASK 0x0f #define EDCF_AIFSN_MAX 15 #define EDCF_ECWMAX_MASK 0xf0 #define EDCF_AC_BE_TXOP_STA 0x0000 #define EDCF_AC_BK_TXOP_STA 0x0000 #define EDCF_AC_VO_ACI_STA 0x62 #define EDCF_AC_VO_ECW_STA 0x32 #define EDCF_AC_VI_ACI_STA 0x42 #define EDCF_AC_VI_ECW_STA 0x43 #define EDCF_AC_BK_ECW_STA 0xA4 #define EDCF_AC_VI_TXOP_STA 0x005e #define EDCF_AC_VO_TXOP_STA 0x002f #define EDCF_AC_BE_ACI_STA 0x03 #define EDCF_AC_BE_ECW_STA 0xA4 #define EDCF_AC_BK_ACI_STA 0x27 #define EDCF_AC_VO_TXOP_AP 0x002f #define EDCF_TXOP2USEC(txop) ((txop) << 5) #define EDCF_ECW2CW(exp) ((1 << (exp)) - 1) #define APHY_SYMBOL_TIME 4 #define APHY_PREAMBLE_TIME 16 #define APHY_SIGNAL_TIME 4 #define APHY_SIFS_TIME 16 #define APHY_SERVICE_NBITS 16 #define APHY_TAIL_NBITS 6 #define BPHY_SIFS_TIME 10 #define BPHY_PLCP_SHORT_TIME 96 #define PREN_PREAMBLE 24 #define PREN_MM_EXT 12 #define PREN_PREAMBLE_EXT 4 #define DOT11_MAC_HDR_LEN 24 #define DOT11_ACK_LEN 10 #define DOT11_BA_LEN 4 #define DOT11_OFDM_SIGNAL_EXTENSION 6 #define DOT11_MIN_FRAG_LEN 256 #define DOT11_RTS_LEN 16 #define DOT11_CTS_LEN 10 #define DOT11_BA_BITMAP_LEN 128 #define DOT11_MAXNUMFRAGS 16 #define DOT11_MAX_FRAG_LEN 2346 #define BPHY_PLCP_TIME 192 #define RIFS_11N_TIME 2 /* length of the BCN template area */ #define BCN_TMPL_LEN 512 /* brcms_bss_info flag bit values */ #define BRCMS_BSS_HT 0x0020 /* BSS is HT (MIMO) capable */ /* chip rx buffer offset */ #define BRCMS_HWRXOFF 38 /* rfdisable delay timer 500 ms, runs of ALP clock */ #define RFDISABLE_DEFAULT 10000000 #define BRCMS_TEMPSENSE_PERIOD 10 /* 10 second timeout */ /* synthpu_dly times in us */ #define SYNTHPU_DLY_APHY_US 3700 #define SYNTHPU_DLY_BPHY_US 1050 #define SYNTHPU_DLY_NPHY_US 2048 #define SYNTHPU_DLY_LPPHY_US 300 #define ANTCNT 10 /* vanilla M_MAX_ANTCNT val */ /* Per-AC retry limit register definitions; uses defs.h bitfield macros */ #define EDCF_SHORT_S 0 #define EDCF_SFB_S 4 #define EDCF_LONG_S 8 #define EDCF_LFB_S 12 #define EDCF_SHORT_M BITFIELD_MASK(4) #define EDCF_SFB_M BITFIELD_MASK(4) #define EDCF_LONG_M BITFIELD_MASK(4) #define EDCF_LFB_M BITFIELD_MASK(4) #define RETRY_SHORT_DEF 7 /* Default Short retry Limit */ #define RETRY_SHORT_MAX 255 /* Maximum Short retry Limit */ #define RETRY_LONG_DEF 4 /* Default Long retry count */ #define RETRY_SHORT_FB 3 /* Short count for fb rate */ #define RETRY_LONG_FB 2 /* Long count for fb rate */ #define APHY_CWMIN 15 #define PHY_CWMAX 1023 #define EDCF_AIFSN_MIN 1 #define FRAGNUM_MASK 0xF #define APHY_SLOT_TIME 9 #define BPHY_SLOT_TIME 20 #define WL_SPURAVOID_OFF 0 #define WL_SPURAVOID_ON1 1 #define WL_SPURAVOID_ON2 2 /* invalid core flags, use the saved coreflags */ #define BRCMS_USE_COREFLAGS 0xffffffff /* values for PLCPHdr_override */ #define BRCMS_PLCP_AUTO -1 #define BRCMS_PLCP_SHORT 0 #define BRCMS_PLCP_LONG 1 /* values for g_protection_override and n_protection_override */ #define BRCMS_PROTECTION_AUTO -1 #define BRCMS_PROTECTION_OFF 0 #define BRCMS_PROTECTION_ON 1 #define BRCMS_PROTECTION_MMHDR_ONLY 2 #define BRCMS_PROTECTION_CTS_ONLY 3 /* values for g_protection_control and n_protection_control */ #define BRCMS_PROTECTION_CTL_OFF 0 #define BRCMS_PROTECTION_CTL_LOCAL 1 #define BRCMS_PROTECTION_CTL_OVERLAP 2 /* values for n_protection */ #define BRCMS_N_PROTECTION_OFF 0 #define BRCMS_N_PROTECTION_OPTIONAL 1 #define BRCMS_N_PROTECTION_20IN40 2 #define BRCMS_N_PROTECTION_MIXEDMODE 3 /* values for band specific 40MHz capabilities */ #define BRCMS_N_BW_20ALL 0 #define BRCMS_N_BW_40ALL 1 #define BRCMS_N_BW_20IN2G_40IN5G 2 /* bitflags for SGI support (sgi_rx iovar) */ #define BRCMS_N_SGI_20 0x01 #define BRCMS_N_SGI_40 0x02 /* defines used by the nrate iovar */ /* MSC in use,indicates b0-6 holds an mcs */ #define NRATE_MCS_INUSE 0x00000080 /* rate/mcs value */ #define NRATE_RATE_MASK 0x0000007f /* stf mode mask: siso, cdd, stbc, sdm */ #define NRATE_STF_MASK 0x0000ff00 /* stf mode shift */ #define NRATE_STF_SHIFT 8 /* bit indicate to override mcs only */ #define NRATE_OVERRIDE_MCS_ONLY 0x40000000 #define NRATE_SGI_MASK 0x00800000 /* sgi mode */ #define NRATE_SGI_SHIFT 23 /* sgi mode */ #define NRATE_LDPC_CODING 0x00400000 /* adv coding in use */ #define NRATE_LDPC_SHIFT 22 /* ldpc shift */ #define NRATE_STF_SISO 0 /* stf mode SISO */ #define NRATE_STF_CDD 1 /* stf mode CDD */ #define NRATE_STF_STBC 2 /* stf mode STBC */ #define NRATE_STF_SDM 3 /* stf mode SDM */ #define MAX_DMA_SEGS 4 /* # of entries in Tx FIFO */ #define NTXD 64 /* Max # of entries in Rx FIFO based on 4kb page size */ #define NRXD 256 /* Amount of headroom to leave in Tx FIFO */ #define TX_HEADROOM 4 /* try to keep this # rbufs posted to the chip */ #define NRXBUFPOST 32 /* max # frames to process in brcms_c_recv() */ #define RXBND 8 /* max # tx status to process in wlc_txstatus() */ #define TXSBND 8 /* brcmu_format_flags() bit description structure */ struct brcms_c_bit_desc { u32 bit; const char *name; }; /* * The following table lists the buffer memory allocated to xmt fifos in HW. * the size is in units of 256bytes(one block), total size is HW dependent * ucode has default fifo partition, sw can overwrite if necessary * * This is documented in twiki under the topic UcodeTxFifo. Please ensure * the twiki is updated before making changes. */ /* Starting corerev for the fifo size table */ #define XMTFIFOTBL_STARTREV 17 struct d11init { __le16 addr; __le16 size; __le32 value; }; struct edcf_acparam { u8 ACI; u8 ECW; u16 TXOP; } __packed; /* debug/trace */ uint brcm_msg_level; /* TX FIFO number to WME/802.1E Access Category */ static const u8 wme_fifo2ac[] = { IEEE80211_AC_BK, IEEE80211_AC_BE, IEEE80211_AC_VI, IEEE80211_AC_VO, IEEE80211_AC_BE, IEEE80211_AC_BE }; /* ieee80211 Access Category to TX FIFO number */ static const u8 wme_ac2fifo[] = { TX_AC_VO_FIFO, TX_AC_VI_FIFO, TX_AC_BE_FIFO, TX_AC_BK_FIFO }; static const u16 xmtfifo_sz[][NFIFO] = { /* corerev 17: 5120, 49152, 49152, 5376, 4352, 1280 */ {20, 192, 192, 21, 17, 5}, /* corerev 18: */ {0, 0, 0, 0, 0, 0}, /* corerev 19: */ {0, 0, 0, 0, 0, 0}, /* corerev 20: 5120, 49152, 49152, 5376, 4352, 1280 */ {20, 192, 192, 21, 17, 5}, /* corerev 21: 2304, 14848, 5632, 3584, 3584, 1280 */ {9, 58, 22, 14, 14, 5}, /* corerev 22: 5120, 49152, 49152, 5376, 4352, 1280 */ {20, 192, 192, 21, 17, 5}, /* corerev 23: 5120, 49152, 49152, 5376, 4352, 1280 */ {20, 192, 192, 21, 17, 5}, /* corerev 24: 2304, 14848, 5632, 3584, 3584, 1280 */ {9, 58, 22, 14, 14, 5}, /* corerev 25: */ {0, 0, 0, 0, 0, 0}, /* corerev 26: */ {0, 0, 0, 0, 0, 0}, /* corerev 27: */ {0, 0, 0, 0, 0, 0}, /* corerev 28: 2304, 14848, 5632, 3584, 3584, 1280 */ {9, 58, 22, 14, 14, 5}, }; #ifdef DEBUG static const char * const fifo_names[] = { "AC_BK", "AC_BE", "AC_VI", "AC_VO", "BCMC", "ATIM" }; #else static const char fifo_names[6][1]; #endif #ifdef DEBUG /* pointer to most recently allocated wl/wlc */ static struct brcms_c_info *wlc_info_dbg = (struct brcms_c_info *) (NULL); #endif /* Mapping of ieee80211 AC numbers to tx fifos */ static const u8 ac_to_fifo_mapping[IEEE80211_NUM_ACS] = { [IEEE80211_AC_VO] = TX_AC_VO_FIFO, [IEEE80211_AC_VI] = TX_AC_VI_FIFO, [IEEE80211_AC_BE] = TX_AC_BE_FIFO, [IEEE80211_AC_BK] = TX_AC_BK_FIFO, }; /* Mapping of tx fifos to ieee80211 AC numbers */ static const u8 fifo_to_ac_mapping[IEEE80211_NUM_ACS] = { [TX_AC_BK_FIFO] = IEEE80211_AC_BK, [TX_AC_BE_FIFO] = IEEE80211_AC_BE, [TX_AC_VI_FIFO] = IEEE80211_AC_VI, [TX_AC_VO_FIFO] = IEEE80211_AC_VO, }; static u8 brcms_ac_to_fifo(u8 ac) { if (ac >= ARRAY_SIZE(ac_to_fifo_mapping)) return TX_AC_BE_FIFO; return ac_to_fifo_mapping[ac]; } static u8 brcms_fifo_to_ac(u8 fifo) { if (fifo >= ARRAY_SIZE(fifo_to_ac_mapping)) return IEEE80211_AC_BE; return fifo_to_ac_mapping[fifo]; } /* Find basic rate for a given rate */ static u8 brcms_basic_rate(struct brcms_c_info *wlc, u32 rspec) { if (is_mcs_rate(rspec)) return wlc->band->basic_rate[mcs_table[rspec & RSPEC_RATE_MASK] .leg_ofdm]; return wlc->band->basic_rate[rspec & RSPEC_RATE_MASK]; } static u16 frametype(u32 rspec, u8 mimoframe) { if (is_mcs_rate(rspec)) return mimoframe; return is_cck_rate(rspec) ? FT_CCK : FT_OFDM; } /* currently the best mechanism for determining SIFS is the band in use */ static u16 get_sifs(struct brcms_band *band) { return band->bandtype == BRCM_BAND_5G ? APHY_SIFS_TIME : BPHY_SIFS_TIME; } /* * Detect Card removed. * Even checking an sbconfig register read will not false trigger when the core * is in reset it breaks CF address mechanism. Accessing gphy phyversion will * cause SB error if aphy is in reset on 4306B0-DB. Need a simple accessible * reg with fixed 0/1 pattern (some platforms return all 0). * If clocks are present, call the sb routine which will figure out if the * device is removed. */ static bool brcms_deviceremoved(struct brcms_c_info *wlc) { u32 macctrl; if (!wlc->hw->clk) return ai_deviceremoved(wlc->hw->sih); macctrl = bcma_read32(wlc->hw->d11core, D11REGOFFS(maccontrol)); return (macctrl & (MCTL_PSM_JMP_0 | MCTL_IHR_EN)) != MCTL_IHR_EN; } /* sum the individual fifo tx pending packet counts */ static int brcms_txpktpendtot(struct brcms_c_info *wlc) { int i; int pending = 0; for (i = 0; i < ARRAY_SIZE(wlc->hw->di); i++) if (wlc->hw->di[i]) pending += dma_txpending(wlc->hw->di[i]); return pending; } static bool brcms_is_mband_unlocked(struct brcms_c_info *wlc) { return wlc->pub->_nbands > 1 && !wlc->bandlocked; } static int brcms_chspec_bw(u16 chanspec) { if (CHSPEC_IS40(chanspec)) return BRCMS_40_MHZ; if (CHSPEC_IS20(chanspec)) return BRCMS_20_MHZ; return BRCMS_10_MHZ; } static void brcms_c_bsscfg_mfree(struct brcms_bss_cfg *cfg) { if (cfg == NULL) return; kfree(cfg->current_bss); kfree(cfg); } static void brcms_c_detach_mfree(struct brcms_c_info *wlc) { if (wlc == NULL) return; brcms_c_bsscfg_mfree(wlc->bsscfg); kfree(wlc->pub); kfree(wlc->modulecb); kfree(wlc->default_bss); kfree(wlc->protection); kfree(wlc->stf); kfree(wlc->bandstate[0]); if (wlc->corestate) kfree(wlc->corestate->macstat_snapshot); kfree(wlc->corestate); if (wlc->hw) kfree(wlc->hw->bandstate[0]); kfree(wlc->hw); if (wlc->beacon) dev_kfree_skb_any(wlc->beacon); if (wlc->probe_resp) dev_kfree_skb_any(wlc->probe_resp); kfree(wlc); } static struct brcms_bss_cfg *brcms_c_bsscfg_malloc(uint unit) { struct brcms_bss_cfg *cfg; cfg = kzalloc(sizeof(struct brcms_bss_cfg), GFP_ATOMIC); if (cfg == NULL) goto fail; cfg->current_bss = kzalloc(sizeof(struct brcms_bss_info), GFP_ATOMIC); if (cfg->current_bss == NULL) goto fail; return cfg; fail: brcms_c_bsscfg_mfree(cfg); return NULL; } static struct brcms_c_info * brcms_c_attach_malloc(uint unit, uint *err, uint devid) { struct brcms_c_info *wlc; wlc = kzalloc(sizeof(struct brcms_c_info), GFP_ATOMIC); if (wlc == NULL) { *err = 1002; goto fail; } /* allocate struct brcms_c_pub state structure */ wlc->pub = kzalloc(sizeof(struct brcms_pub), GFP_ATOMIC); if (wlc->pub == NULL) { *err = 1003; goto fail; } wlc->pub->wlc = wlc; /* allocate struct brcms_hardware state structure */ wlc->hw = kzalloc(sizeof(struct brcms_hardware), GFP_ATOMIC); if (wlc->hw == NULL) { *err = 1005; goto fail; } wlc->hw->wlc = wlc; wlc->hw->bandstate[0] = kcalloc(MAXBANDS, sizeof(struct brcms_hw_band), GFP_ATOMIC); if (wlc->hw->bandstate[0] == NULL) { *err = 1006; goto fail; } else { int i; for (i = 1; i < MAXBANDS; i++) wlc->hw->bandstate[i] = (struct brcms_hw_band *) ((unsigned long)wlc->hw->bandstate[0] + (sizeof(struct brcms_hw_band) * i)); } wlc->modulecb = kcalloc(BRCMS_MAXMODULES, sizeof(struct modulecb), GFP_ATOMIC); if (wlc->modulecb == NULL) { *err = 1009; goto fail; } wlc->default_bss = kzalloc(sizeof(struct brcms_bss_info), GFP_ATOMIC); if (wlc->default_bss == NULL) { *err = 1010; goto fail; } wlc->bsscfg = brcms_c_bsscfg_malloc(unit); if (wlc->bsscfg == NULL) { *err = 1011; goto fail; } wlc->protection = kzalloc(sizeof(struct brcms_protection), GFP_ATOMIC); if (wlc->protection == NULL) { *err = 1016; goto fail; } wlc->stf = kzalloc(sizeof(struct brcms_stf), GFP_ATOMIC); if (wlc->stf == NULL) { *err = 1017; goto fail; } wlc->bandstate[0] = kcalloc(MAXBANDS, sizeof(struct brcms_band), GFP_ATOMIC); if (wlc->bandstate[0] == NULL) { *err = 1025; goto fail; } else { int i; for (i = 1; i < MAXBANDS; i++) wlc->bandstate[i] = (struct brcms_band *) ((unsigned long)wlc->bandstate[0] + (sizeof(struct brcms_band)*i)); } wlc->corestate = kzalloc(sizeof(struct brcms_core), GFP_ATOMIC); if (wlc->corestate == NULL) { *err = 1026; goto fail; } wlc->corestate->macstat_snapshot = kzalloc(sizeof(struct macstat), GFP_ATOMIC); if (wlc->corestate->macstat_snapshot == NULL) { *err = 1027; goto fail; } return wlc; fail: brcms_c_detach_mfree(wlc); return NULL; } /* * Update the slot timing for standard 11b/g (20us slots) * or shortslot 11g (9us slots) * The PSM needs to be suspended for this call. */ static void brcms_b_update_slot_timing(struct brcms_hardware *wlc_hw, bool shortslot) { struct bcma_device *core = wlc_hw->d11core; if (shortslot) { /* 11g short slot: 11a timing */ bcma_write16(core, D11REGOFFS(ifs_slot), 0x0207); brcms_b_write_shm(wlc_hw, M_DOT11_SLOT, APHY_SLOT_TIME); } else { /* 11g long slot: 11b timing */ bcma_write16(core, D11REGOFFS(ifs_slot), 0x0212); brcms_b_write_shm(wlc_hw, M_DOT11_SLOT, BPHY_SLOT_TIME); } } /* * calculate frame duration of a given rate and length, return * time in usec unit */ static uint brcms_c_calc_frame_time(struct brcms_c_info *wlc, u32 ratespec, u8 preamble_type, uint mac_len) { uint nsyms, dur = 0, Ndps, kNdps; uint rate = rspec2rate(ratespec); if (rate == 0) { brcms_err(wlc->hw->d11core, "wl%d: WAR: using rate of 1 mbps\n", wlc->pub->unit); rate = BRCM_RATE_1M; } if (is_mcs_rate(ratespec)) { uint mcs = ratespec & RSPEC_RATE_MASK; int tot_streams = mcs_2_txstreams(mcs) + rspec_stc(ratespec); dur = PREN_PREAMBLE + (tot_streams * PREN_PREAMBLE_EXT); if (preamble_type == BRCMS_MM_PREAMBLE) dur += PREN_MM_EXT; /* 1000Ndbps = kbps * 4 */ kNdps = mcs_2_rate(mcs, rspec_is40mhz(ratespec), rspec_issgi(ratespec)) * 4; if (rspec_stc(ratespec) == 0) nsyms = CEIL((APHY_SERVICE_NBITS + 8 * mac_len + APHY_TAIL_NBITS) * 1000, kNdps); else /* STBC needs to have even number of symbols */ nsyms = 2 * CEIL((APHY_SERVICE_NBITS + 8 * mac_len + APHY_TAIL_NBITS) * 1000, 2 * kNdps); dur += APHY_SYMBOL_TIME * nsyms; if (wlc->band->bandtype == BRCM_BAND_2G) dur += DOT11_OFDM_SIGNAL_EXTENSION; } else if (is_ofdm_rate(rate)) { dur = APHY_PREAMBLE_TIME; dur += APHY_SIGNAL_TIME; /* Ndbps = Mbps * 4 = rate(500Kbps) * 2 */ Ndps = rate * 2; /* NSyms = CEILING((SERVICE + 8*NBytes + TAIL) / Ndbps) */ nsyms = CEIL((APHY_SERVICE_NBITS + 8 * mac_len + APHY_TAIL_NBITS), Ndps); dur += APHY_SYMBOL_TIME * nsyms; if (wlc->band->bandtype == BRCM_BAND_2G) dur += DOT11_OFDM_SIGNAL_EXTENSION; } else { /* * calc # bits * 2 so factor of 2 in rate (1/2 mbps) * will divide out */ mac_len = mac_len * 8 * 2; /* calc ceiling of bits/rate = microseconds of air time */ dur = (mac_len + rate - 1) / rate; if (preamble_type & BRCMS_SHORT_PREAMBLE) dur += BPHY_PLCP_SHORT_TIME; else dur += BPHY_PLCP_TIME; } return dur; } static void brcms_c_write_inits(struct brcms_hardware *wlc_hw, const struct d11init *inits) { struct bcma_device *core = wlc_hw->d11core; int i; uint offset; u16 size; u32 value; brcms_dbg_info(wlc_hw->d11core, "wl%d\n", wlc_hw->unit); for (i = 0; inits[i].addr != cpu_to_le16(0xffff); i++) { size = le16_to_cpu(inits[i].size); offset = le16_to_cpu(inits[i].addr); value = le32_to_cpu(inits[i].value); if (size == 2) bcma_write16(core, offset, value); else if (size == 4) bcma_write32(core, offset, value); else break; } } static void brcms_c_write_mhf(struct brcms_hardware *wlc_hw, u16 *mhfs) { u8 idx; static const u16 addr[] = { M_HOST_FLAGS1, M_HOST_FLAGS2, M_HOST_FLAGS3, M_HOST_FLAGS4, M_HOST_FLAGS5 }; for (idx = 0; idx < MHFMAX; idx++) brcms_b_write_shm(wlc_hw, addr[idx], mhfs[idx]); } static void brcms_c_ucode_bsinit(struct brcms_hardware *wlc_hw) { struct brcms_ucode *ucode = &wlc_hw->wlc->wl->ucode; /* init microcode host flags */ brcms_c_write_mhf(wlc_hw, wlc_hw->band->mhfs); /* do band-specific ucode IHR, SHM, and SCR inits */ if (D11REV_IS(wlc_hw->corerev, 17) || D11REV_IS(wlc_hw->corerev, 23)) { if (BRCMS_ISNPHY(wlc_hw->band)) brcms_c_write_inits(wlc_hw, ucode->d11n0bsinitvals16); else brcms_err(wlc_hw->d11core, "%s: wl%d: unsupported phy in corerev %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } else { if (D11REV_IS(wlc_hw->corerev, 24)) { if (BRCMS_ISLCNPHY(wlc_hw->band)) brcms_c_write_inits(wlc_hw, ucode->d11lcn0bsinitvals24); else brcms_err(wlc_hw->d11core, "%s: wl%d: unsupported phy in core rev %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } else { brcms_err(wlc_hw->d11core, "%s: wl%d: unsupported corerev %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } } } static void brcms_b_core_ioctl(struct brcms_hardware *wlc_hw, u32 m, u32 v) { struct bcma_device *core = wlc_hw->d11core; u32 ioctl = bcma_aread32(core, BCMA_IOCTL) & ~m; bcma_awrite32(core, BCMA_IOCTL, ioctl | v); } static void brcms_b_core_phy_clk(struct brcms_hardware *wlc_hw, bool clk) { brcms_dbg_info(wlc_hw->d11core, "wl%d: clk %d\n", wlc_hw->unit, clk); wlc_hw->phyclk = clk; if (OFF == clk) { /* clear gmode bit, put phy into reset */ brcms_b_core_ioctl(wlc_hw, (SICF_PRST | SICF_FGC | SICF_GMODE), (SICF_PRST | SICF_FGC)); udelay(1); brcms_b_core_ioctl(wlc_hw, (SICF_PRST | SICF_FGC), SICF_PRST); udelay(1); } else { /* take phy out of reset */ brcms_b_core_ioctl(wlc_hw, (SICF_PRST | SICF_FGC), SICF_FGC); udelay(1); brcms_b_core_ioctl(wlc_hw, SICF_FGC, 0); udelay(1); } } /* low-level band switch utility routine */ static void brcms_c_setxband(struct brcms_hardware *wlc_hw, uint bandunit) { brcms_dbg_mac80211(wlc_hw->d11core, "wl%d: bandunit %d\n", wlc_hw->unit, bandunit); wlc_hw->band = wlc_hw->bandstate[bandunit]; /* * BMAC_NOTE: * until we eliminate need for wlc->band refs in low level code */ wlc_hw->wlc->band = wlc_hw->wlc->bandstate[bandunit]; /* set gmode core flag */ if (wlc_hw->sbclk && !wlc_hw->noreset) { u32 gmode = 0; if (bandunit == 0) gmode = SICF_GMODE; brcms_b_core_ioctl(wlc_hw, SICF_GMODE, gmode); } } /* switch to new band but leave it inactive */ static u32 brcms_c_setband_inact(struct brcms_c_info *wlc, uint bandunit) { struct brcms_hardware *wlc_hw = wlc->hw; u32 macintmask; u32 macctrl; brcms_dbg_mac80211(wlc_hw->d11core, "wl%d\n", wlc_hw->unit); macctrl = bcma_read32(wlc_hw->d11core, D11REGOFFS(maccontrol)); WARN_ON((macctrl & MCTL_EN_MAC) != 0); /* disable interrupts */ macintmask = brcms_intrsoff(wlc->wl); /* radio off */ wlc_phy_switch_radio(wlc_hw->band->pi, OFF); brcms_b_core_phy_clk(wlc_hw, OFF); brcms_c_setxband(wlc_hw, bandunit); return macintmask; } /* process an individual struct tx_status */ static bool brcms_c_dotxstatus(struct brcms_c_info *wlc, struct tx_status *txs) { struct sk_buff *p = NULL; uint queue = NFIFO; struct dma_pub *dma = NULL; struct d11txh *txh = NULL; struct scb *scb = NULL; int tx_frame_count; uint supr_status; bool lastframe; struct ieee80211_hdr *h; struct ieee80211_tx_info *tx_info; struct ieee80211_tx_rate *txrate; int i; bool fatal = true; trace_brcms_txstatus(&wlc->hw->d11core->dev, txs->framelen, txs->frameid, txs->status, txs->lasttxtime, txs->sequence, txs->phyerr, txs->ackphyrxsh); /* discard intermediate indications for ucode with one legitimate case: * e.g. if "useRTS" is set. ucode did a successful rts/cts exchange, * but the subsequent tx of DATA failed. so it will start rts/cts * from the beginning (resetting the rts transmission count) */ if (!(txs->status & TX_STATUS_AMPDU) && (txs->status & TX_STATUS_INTERMEDIATE)) { brcms_dbg_tx(wlc->hw->d11core, "INTERMEDIATE but not AMPDU\n"); fatal = false; goto out; } queue = txs->frameid & TXFID_QUEUE_MASK; if (queue >= NFIFO) { brcms_err(wlc->hw->d11core, "queue %u >= NFIFO\n", queue); goto out; } dma = wlc->hw->di[queue]; p = dma_getnexttxp(wlc->hw->di[queue], DMA_RANGE_TRANSMITTED); if (p == NULL) { brcms_err(wlc->hw->d11core, "dma_getnexttxp returned null!\n"); goto out; } txh = (struct d11txh *) (p->data); if (txs->phyerr) brcms_dbg_tx(wlc->hw->d11core, "phyerr 0x%x, rate 0x%x\n", txs->phyerr, txh->MainRates); if (txs->frameid != le16_to_cpu(txh->TxFrameID)) { brcms_err(wlc->hw->d11core, "frameid != txh->TxFrameID\n"); goto out; } tx_info = IEEE80211_SKB_CB(p); h = (struct ieee80211_hdr *)((u8 *) (txh + 1) + D11_PHY_HDR_LEN); if (tx_info->rate_driver_data[0]) scb = &wlc->pri_scb; if (tx_info->flags & IEEE80211_TX_CTL_AMPDU) { brcms_c_ampdu_dotxstatus(wlc->ampdu, scb, p, txs); fatal = false; goto out; } /* * brcms_c_ampdu_dotxstatus() will trace tx descriptors for AMPDU * frames; this traces them for the rest. */ trace_brcms_txdesc(&wlc->hw->d11core->dev, txh, sizeof(*txh)); supr_status = txs->status & TX_STATUS_SUPR_MASK; if (supr_status == TX_STATUS_SUPR_BADCH) { unsigned xfts = le16_to_cpu(txh->XtraFrameTypes); brcms_dbg_tx(wlc->hw->d11core, "Pkt tx suppressed, dest chan %u, current %d\n", (xfts >> XFTS_CHANNEL_SHIFT) & 0xff, CHSPEC_CHANNEL(wlc->default_bss->chanspec)); } tx_frame_count = (txs->status & TX_STATUS_FRM_RTX_MASK) >> TX_STATUS_FRM_RTX_SHIFT; lastframe = !ieee80211_has_morefrags(h->frame_control); if (!lastframe) { brcms_err(wlc->hw->d11core, "Not last frame!\n"); } else { /* * Set information to be consumed by Minstrel ht. * * The "fallback limit" is the number of tx attempts a given * MPDU is sent at the "primary" rate. Tx attempts beyond that * limit are sent at the "secondary" rate. * A 'short frame' does not exceed RTS treshold. */ u16 sfbl, /* Short Frame Rate Fallback Limit */ lfbl, /* Long Frame Rate Fallback Limit */ fbl; if (queue < IEEE80211_NUM_ACS) { sfbl = GFIELD(wlc->wme_retries[wme_fifo2ac[queue]], EDCF_SFB); lfbl = GFIELD(wlc->wme_retries[wme_fifo2ac[queue]], EDCF_LFB); } else { sfbl = wlc->SFBL; lfbl = wlc->LFBL; } txrate = tx_info->status.rates; if (txrate[0].flags & IEEE80211_TX_RC_USE_RTS_CTS) fbl = lfbl; else fbl = sfbl; ieee80211_tx_info_clear_status(tx_info); if ((tx_frame_count > fbl) && (txrate[1].idx >= 0)) { /* * rate selection requested a fallback rate * and we used it */ txrate[0].count = fbl; txrate[1].count = tx_frame_count - fbl; } else { /* * rate selection did not request fallback rate, or * we didn't need it */ txrate[0].count = tx_frame_count; /* * rc80211_minstrel.c:minstrel_tx_status() expects * unused rates to be marked with idx = -1 */ txrate[1].idx = -1; txrate[1].count = 0; } /* clear the rest of the rates */ for (i = 2; i < IEEE80211_TX_MAX_RATES; i++) { txrate[i].idx = -1; txrate[i].count = 0; } if (txs->status & TX_STATUS_ACK_RCV) tx_info->flags |= IEEE80211_TX_STAT_ACK; } if (lastframe) { /* remove PLCP & Broadcom tx descriptor header */ skb_pull(p, D11_PHY_HDR_LEN); skb_pull(p, D11_TXH_LEN); ieee80211_tx_status_irqsafe(wlc->pub->ieee_hw, p); } else { brcms_err(wlc->hw->d11core, "%s: Not last frame => not calling tx_status\n", __func__); } fatal = false; out: if (fatal) { if (txh) trace_brcms_txdesc(&wlc->hw->d11core->dev, txh, sizeof(*txh)); brcmu_pkt_buf_free_skb(p); } if (dma && queue < NFIFO) { u16 ac_queue = brcms_fifo_to_ac(queue); if (dma->txavail > TX_HEADROOM && queue < TX_BCMC_FIFO && ieee80211_queue_stopped(wlc->pub->ieee_hw, ac_queue)) ieee80211_wake_queue(wlc->pub->ieee_hw, ac_queue); dma_kick_tx(dma); } return fatal; } /* process tx completion events in BMAC * Return true if more tx status need to be processed. false otherwise. */ static bool brcms_b_txstatus(struct brcms_hardware *wlc_hw, bool bound, bool *fatal) { struct bcma_device *core; struct tx_status txstatus, *txs; u32 s1, s2; uint n = 0; /* * Param 'max_tx_num' indicates max. # tx status to process before * break out. */ uint max_tx_num = bound ? TXSBND : -1; txs = &txstatus; core = wlc_hw->d11core; *fatal = false; while (n < max_tx_num) { s1 = bcma_read32(core, D11REGOFFS(frmtxstatus)); if (s1 == 0xffffffff) { brcms_err(core, "wl%d: %s: dead chip\n", wlc_hw->unit, __func__); *fatal = true; return false; } /* only process when valid */ if (!(s1 & TXS_V)) break; s2 = bcma_read32(core, D11REGOFFS(frmtxstatus2)); txs->status = s1 & TXS_STATUS_MASK; txs->frameid = (s1 & TXS_FID_MASK) >> TXS_FID_SHIFT; txs->sequence = s2 & TXS_SEQ_MASK; txs->phyerr = (s2 & TXS_PTX_MASK) >> TXS_PTX_SHIFT; txs->lasttxtime = 0; *fatal = brcms_c_dotxstatus(wlc_hw->wlc, txs); if (*fatal) return false; n++; } return n >= max_tx_num; } static void brcms_c_tbtt(struct brcms_c_info *wlc) { if (wlc->bsscfg->type == BRCMS_TYPE_ADHOC) /* * DirFrmQ is now valid...defer setting until end * of ATIM window */ wlc->qvalid |= MCMD_DIRFRMQVAL; } /* set initial host flags value */ static void brcms_c_mhfdef(struct brcms_c_info *wlc, u16 *mhfs, u16 mhf2_init) { struct brcms_hardware *wlc_hw = wlc->hw; memset(mhfs, 0, MHFMAX * sizeof(u16)); mhfs[MHF2] |= mhf2_init; /* prohibit use of slowclock on multifunction boards */ if (wlc_hw->boardflags & BFL_NOPLLDOWN) mhfs[MHF1] |= MHF1_FORCEFASTCLK; if (BRCMS_ISNPHY(wlc_hw->band) && NREV_LT(wlc_hw->band->phyrev, 2)) { mhfs[MHF2] |= MHF2_NPHY40MHZ_WAR; mhfs[MHF1] |= MHF1_IQSWAP_WAR; } } static uint dmareg(uint direction, uint fifonum) { if (direction == DMA_TX) return offsetof(struct d11regs, fifo64regs[fifonum].dmaxmt); return offsetof(struct d11regs, fifo64regs[fifonum].dmarcv); } static bool brcms_b_attach_dmapio(struct brcms_c_info *wlc, uint j, bool wme) { uint i; char name[8]; /* * ucode host flag 2 needed for pio mode, independent of band and fifo */ u16 pio_mhf2 = 0; struct brcms_hardware *wlc_hw = wlc->hw; uint unit = wlc_hw->unit; /* name and offsets for dma_attach */ snprintf(name, sizeof(name), "wl%d", unit); if (wlc_hw->di[0] == NULL) { /* Init FIFOs */ int dma_attach_err = 0; /* * FIFO 0 * TX: TX_AC_BK_FIFO (TX AC Background data packets) * RX: RX_FIFO (RX data packets) */ wlc_hw->di[0] = dma_attach(name, wlc, (wme ? dmareg(DMA_TX, 0) : 0), dmareg(DMA_RX, 0), (wme ? NTXD : 0), NRXD, RXBUFSZ, -1, NRXBUFPOST, BRCMS_HWRXOFF); dma_attach_err |= (NULL == wlc_hw->di[0]); /* * FIFO 1 * TX: TX_AC_BE_FIFO (TX AC Best-Effort data packets) * (legacy) TX_DATA_FIFO (TX data packets) * RX: UNUSED */ wlc_hw->di[1] = dma_attach(name, wlc, dmareg(DMA_TX, 1), 0, NTXD, 0, 0, -1, 0, 0); dma_attach_err |= (NULL == wlc_hw->di[1]); /* * FIFO 2 * TX: TX_AC_VI_FIFO (TX AC Video data packets) * RX: UNUSED */ wlc_hw->di[2] = dma_attach(name, wlc, dmareg(DMA_TX, 2), 0, NTXD, 0, 0, -1, 0, 0); dma_attach_err |= (NULL == wlc_hw->di[2]); /* * FIFO 3 * TX: TX_AC_VO_FIFO (TX AC Voice data packets) * (legacy) TX_CTL_FIFO (TX control & mgmt packets) */ wlc_hw->di[3] = dma_attach(name, wlc, dmareg(DMA_TX, 3), 0, NTXD, 0, 0, -1, 0, 0); dma_attach_err |= (NULL == wlc_hw->di[3]); /* Cleaner to leave this as if with AP defined */ if (dma_attach_err) { brcms_err(wlc_hw->d11core, "wl%d: wlc_attach: dma_attach failed\n", unit); return false; } /* get pointer to dma engine tx flow control variable */ for (i = 0; i < NFIFO; i++) if (wlc_hw->di[i]) wlc_hw->txavail[i] = (uint *) dma_getvar(wlc_hw->di[i], "&txavail"); } /* initial ucode host flags */ brcms_c_mhfdef(wlc, wlc_hw->band->mhfs, pio_mhf2); return true; } static void brcms_b_detach_dmapio(struct brcms_hardware *wlc_hw) { uint j; for (j = 0; j < NFIFO; j++) { if (wlc_hw->di[j]) { dma_detach(wlc_hw->di[j]); wlc_hw->di[j] = NULL; } } } /* * Initialize brcms_c_info default values ... * may get overrides later in this function * BMAC_NOTES, move low out and resolve the dangling ones */ static void brcms_b_info_init(struct brcms_hardware *wlc_hw) { struct brcms_c_info *wlc = wlc_hw->wlc; /* set default sw macintmask value */ wlc->defmacintmask = DEF_MACINTMASK; /* various 802.11g modes */ wlc_hw->shortslot = false; wlc_hw->SFBL = RETRY_SHORT_FB; wlc_hw->LFBL = RETRY_LONG_FB; /* default mac retry limits */ wlc_hw->SRL = RETRY_SHORT_DEF; wlc_hw->LRL = RETRY_LONG_DEF; wlc_hw->chanspec = ch20mhz_chspec(1); } static void brcms_b_wait_for_wake(struct brcms_hardware *wlc_hw) { /* delay before first read of ucode state */ udelay(40); /* wait until ucode is no longer asleep */ SPINWAIT((brcms_b_read_shm(wlc_hw, M_UCODE_DBGST) == DBGST_ASLEEP), wlc_hw->wlc->fastpwrup_dly); } /* control chip clock to save power, enable dynamic clock or force fast clock */ static void brcms_b_clkctl_clk(struct brcms_hardware *wlc_hw, enum bcma_clkmode mode) { if (ai_get_cccaps(wlc_hw->sih) & CC_CAP_PMU) { /* new chips with PMU, CCS_FORCEHT will distribute the HT clock * on backplane, but mac core will still run on ALP(not HT) when * it enters powersave mode, which means the FCA bit may not be * set. Should wakeup mac if driver wants it to run on HT. */ if (wlc_hw->clk) { if (mode == BCMA_CLKMODE_FAST) { bcma_set32(wlc_hw->d11core, D11REGOFFS(clk_ctl_st), CCS_FORCEHT); udelay(64); SPINWAIT( ((bcma_read32(wlc_hw->d11core, D11REGOFFS(clk_ctl_st)) & CCS_HTAVAIL) == 0), PMU_MAX_TRANSITION_DLY); WARN_ON(!(bcma_read32(wlc_hw->d11core, D11REGOFFS(clk_ctl_st)) & CCS_HTAVAIL)); } else { if ((ai_get_pmurev(wlc_hw->sih) == 0) && (bcma_read32(wlc_hw->d11core, D11REGOFFS(clk_ctl_st)) & (CCS_FORCEHT | CCS_HTAREQ))) SPINWAIT( ((bcma_read32(wlc_hw->d11core, offsetof(struct d11regs, clk_ctl_st)) & CCS_HTAVAIL) == 0), PMU_MAX_TRANSITION_DLY); bcma_mask32(wlc_hw->d11core, D11REGOFFS(clk_ctl_st), ~CCS_FORCEHT); } } wlc_hw->forcefastclk = (mode == BCMA_CLKMODE_FAST); } else { /* old chips w/o PMU, force HT through cc, * then use FCA to verify mac is running fast clock */ wlc_hw->forcefastclk = ai_clkctl_cc(wlc_hw->sih, mode); /* check fast clock is available (if core is not in reset) */ if (wlc_hw->forcefastclk && wlc_hw->clk) WARN_ON(!(bcma_aread32(wlc_hw->d11core, BCMA_IOST) & SISF_FCLKA)); /* * keep the ucode wake bit on if forcefastclk is on since we * do not want ucode to put us back to slow clock when it dozes * for PM mode. Code below matches the wake override bit with * current forcefastclk state. Only setting bit in wake_override * instead of waking ucode immediately since old code had this * behavior. Older code set wlc->forcefastclk but only had the * wake happen if the wakup_ucode work (protected by an up * check) was executed just below. */ if (wlc_hw->forcefastclk) mboolset(wlc_hw->wake_override, BRCMS_WAKE_OVERRIDE_FORCEFAST); else mboolclr(wlc_hw->wake_override, BRCMS_WAKE_OVERRIDE_FORCEFAST); } } /* set or clear ucode host flag bits * it has an optimization for no-change write * it only writes through shared memory when the core has clock; * pre-CLK changes should use wlc_write_mhf to get around the optimization * * * bands values are: BRCM_BAND_AUTO <--- Current band only * BRCM_BAND_5G <--- 5G band only * BRCM_BAND_2G <--- 2G band only * BRCM_BAND_ALL <--- All bands */ void brcms_b_mhf(struct brcms_hardware *wlc_hw, u8 idx, u16 mask, u16 val, int bands) { u16 save; u16 addr[MHFMAX] = { M_HOST_FLAGS1, M_HOST_FLAGS2, M_HOST_FLAGS3, M_HOST_FLAGS4, M_HOST_FLAGS5 }; struct brcms_hw_band *band; if ((val & ~mask) || idx >= MHFMAX) return; /* error condition */ switch (bands) { /* Current band only or all bands, * then set the band to current band */ case BRCM_BAND_AUTO: case BRCM_BAND_ALL: band = wlc_hw->band; break; case BRCM_BAND_5G: band = wlc_hw->bandstate[BAND_5G_INDEX]; break; case BRCM_BAND_2G: band = wlc_hw->bandstate[BAND_2G_INDEX]; break; default: band = NULL; /* error condition */ } if (band) { save = band->mhfs[idx]; band->mhfs[idx] = (band->mhfs[idx] & ~mask) | val; /* optimization: only write through if changed, and * changed band is the current band */ if (wlc_hw->clk && (band->mhfs[idx] != save) && (band == wlc_hw->band)) brcms_b_write_shm(wlc_hw, addr[idx], (u16) band->mhfs[idx]); } if (bands == BRCM_BAND_ALL) { wlc_hw->bandstate[0]->mhfs[idx] = (wlc_hw->bandstate[0]->mhfs[idx] & ~mask) | val; wlc_hw->bandstate[1]->mhfs[idx] = (wlc_hw->bandstate[1]->mhfs[idx] & ~mask) | val; } } /* set the maccontrol register to desired reset state and * initialize the sw cache of the register */ static void brcms_c_mctrl_reset(struct brcms_hardware *wlc_hw) { /* IHR accesses are always enabled, PSM disabled, HPS off and WAKE on */ wlc_hw->maccontrol = 0; wlc_hw->suspended_fifos = 0; wlc_hw->wake_override = 0; wlc_hw->mute_override = 0; brcms_b_mctrl(wlc_hw, ~0, MCTL_IHR_EN | MCTL_WAKE); } /* * write the software state of maccontrol and * overrides to the maccontrol register */ static void brcms_c_mctrl_write(struct brcms_hardware *wlc_hw) { u32 maccontrol = wlc_hw->maccontrol; /* OR in the wake bit if overridden */ if (wlc_hw->wake_override) maccontrol |= MCTL_WAKE; /* set AP and INFRA bits for mute if needed */ if (wlc_hw->mute_override) { maccontrol &= ~(MCTL_AP); maccontrol |= MCTL_INFRA; } bcma_write32(wlc_hw->d11core, D11REGOFFS(maccontrol), maccontrol); } /* set or clear maccontrol bits */ void brcms_b_mctrl(struct brcms_hardware *wlc_hw, u32 mask, u32 val) { u32 maccontrol; u32 new_maccontrol; if (val & ~mask) return; /* error condition */ maccontrol = wlc_hw->maccontrol; new_maccontrol = (maccontrol & ~mask) | val; /* if the new maccontrol value is the same as the old, nothing to do */ if (new_maccontrol == maccontrol) return; /* something changed, cache the new value */ wlc_hw->maccontrol = new_maccontrol; /* write the new values with overrides applied */ brcms_c_mctrl_write(wlc_hw); } void brcms_c_ucode_wake_override_set(struct brcms_hardware *wlc_hw, u32 override_bit) { if (wlc_hw->wake_override || (wlc_hw->maccontrol & MCTL_WAKE)) { mboolset(wlc_hw->wake_override, override_bit); return; } mboolset(wlc_hw->wake_override, override_bit); brcms_c_mctrl_write(wlc_hw); brcms_b_wait_for_wake(wlc_hw); } void brcms_c_ucode_wake_override_clear(struct brcms_hardware *wlc_hw, u32 override_bit) { mboolclr(wlc_hw->wake_override, override_bit); if (wlc_hw->wake_override || (wlc_hw->maccontrol & MCTL_WAKE)) return; brcms_c_mctrl_write(wlc_hw); } /* When driver needs ucode to stop beaconing, it has to make sure that * MCTL_AP is clear and MCTL_INFRA is set * Mode MCTL_AP MCTL_INFRA * AP 1 1 * STA 0 1 <--- This will ensure no beacons * IBSS 0 0 */ static void brcms_c_ucode_mute_override_set(struct brcms_hardware *wlc_hw) { wlc_hw->mute_override = 1; /* if maccontrol already has AP == 0 and INFRA == 1 without this * override, then there is no change to write */ if ((wlc_hw->maccontrol & (MCTL_AP | MCTL_INFRA)) == MCTL_INFRA) return; brcms_c_mctrl_write(wlc_hw); } /* Clear the override on AP and INFRA bits */ static void brcms_c_ucode_mute_override_clear(struct brcms_hardware *wlc_hw) { if (wlc_hw->mute_override == 0) return; wlc_hw->mute_override = 0; /* if maccontrol already has AP == 0 and INFRA == 1 without this * override, then there is no change to write */ if ((wlc_hw->maccontrol & (MCTL_AP | MCTL_INFRA)) == MCTL_INFRA) return; brcms_c_mctrl_write(wlc_hw); } /* * Write a MAC address to the given match reg offset in the RXE match engine. */ static void brcms_b_set_addrmatch(struct brcms_hardware *wlc_hw, int match_reg_offset, const u8 *addr) { struct bcma_device *core = wlc_hw->d11core; u16 mac_l; u16 mac_m; u16 mac_h; brcms_dbg_rx(core, "wl%d: brcms_b_set_addrmatch\n", wlc_hw->unit); mac_l = addr[0] | (addr[1] << 8); mac_m = addr[2] | (addr[3] << 8); mac_h = addr[4] | (addr[5] << 8); /* enter the MAC addr into the RXE match registers */ bcma_write16(core, D11REGOFFS(rcm_ctl), RCM_INC_DATA | match_reg_offset); bcma_write16(core, D11REGOFFS(rcm_mat_data), mac_l); bcma_write16(core, D11REGOFFS(rcm_mat_data), mac_m); bcma_write16(core, D11REGOFFS(rcm_mat_data), mac_h); } void brcms_b_write_template_ram(struct brcms_hardware *wlc_hw, int offset, int len, void *buf) { struct bcma_device *core = wlc_hw->d11core; u32 word; __le32 word_le; __be32 word_be; bool be_bit; brcms_dbg_info(core, "wl%d\n", wlc_hw->unit); bcma_write32(core, D11REGOFFS(tplatewrptr), offset); /* if MCTL_BIGEND bit set in mac control register, * the chip swaps data in fifo, as well as data in * template ram */ be_bit = (bcma_read32(core, D11REGOFFS(maccontrol)) & MCTL_BIGEND) != 0; while (len > 0) { memcpy(&word, buf, sizeof(u32)); if (be_bit) { word_be = cpu_to_be32(word); word = *(u32 *)&word_be; } else { word_le = cpu_to_le32(word); word = *(u32 *)&word_le; } bcma_write32(core, D11REGOFFS(tplatewrdata), word); buf = (u8 *) buf + sizeof(u32); len -= sizeof(u32); } } static void brcms_b_set_cwmin(struct brcms_hardware *wlc_hw, u16 newmin) { wlc_hw->band->CWmin = newmin; bcma_write32(wlc_hw->d11core, D11REGOFFS(objaddr), OBJADDR_SCR_SEL | S_DOT11_CWMIN); (void)bcma_read32(wlc_hw->d11core, D11REGOFFS(objaddr)); bcma_write32(wlc_hw->d11core, D11REGOFFS(objdata), newmin); } static void brcms_b_set_cwmax(struct brcms_hardware *wlc_hw, u16 newmax) { wlc_hw->band->CWmax = newmax; bcma_write32(wlc_hw->d11core, D11REGOFFS(objaddr), OBJADDR_SCR_SEL | S_DOT11_CWMAX); (void)bcma_read32(wlc_hw->d11core, D11REGOFFS(objaddr)); bcma_write32(wlc_hw->d11core, D11REGOFFS(objdata), newmax); } void brcms_b_bw_set(struct brcms_hardware *wlc_hw, u16 bw) { bool fastclk; /* request FAST clock if not on */ fastclk = wlc_hw->forcefastclk; if (!fastclk) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); wlc_phy_bw_state_set(wlc_hw->band->pi, bw); brcms_b_phy_reset(wlc_hw); wlc_phy_init(wlc_hw->band->pi, wlc_phy_chanspec_get(wlc_hw->band->pi)); /* restore the clk */ if (!fastclk) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_DYNAMIC); } static void brcms_b_upd_synthpu(struct brcms_hardware *wlc_hw) { u16 v; struct brcms_c_info *wlc = wlc_hw->wlc; /* update SYNTHPU_DLY */ if (BRCMS_ISLCNPHY(wlc->band)) v = SYNTHPU_DLY_LPPHY_US; else if (BRCMS_ISNPHY(wlc->band) && (NREV_GE(wlc->band->phyrev, 3))) v = SYNTHPU_DLY_NPHY_US; else v = SYNTHPU_DLY_BPHY_US; brcms_b_write_shm(wlc_hw, M_SYNTHPU_DLY, v); } static void brcms_c_ucode_txant_set(struct brcms_hardware *wlc_hw) { u16 phyctl; u16 phytxant = wlc_hw->bmac_phytxant; u16 mask = PHY_TXC_ANT_MASK; /* set the Probe Response frame phy control word */ phyctl = brcms_b_read_shm(wlc_hw, M_CTXPRS_BLK + C_CTX_PCTLWD_POS); phyctl = (phyctl & ~mask) | phytxant; brcms_b_write_shm(wlc_hw, M_CTXPRS_BLK + C_CTX_PCTLWD_POS, phyctl); /* set the Response (ACK/CTS) frame phy control word */ phyctl = brcms_b_read_shm(wlc_hw, M_RSP_PCTLWD); phyctl = (phyctl & ~mask) | phytxant; brcms_b_write_shm(wlc_hw, M_RSP_PCTLWD, phyctl); } static u16 brcms_b_ofdm_ratetable_offset(struct brcms_hardware *wlc_hw, u8 rate) { uint i; u8 plcp_rate = 0; struct plcp_signal_rate_lookup { u8 rate; u8 signal_rate; }; /* OFDM RATE sub-field of PLCP SIGNAL field, per 802.11 sec 17.3.4.1 */ const struct plcp_signal_rate_lookup rate_lookup[] = { {BRCM_RATE_6M, 0xB}, {BRCM_RATE_9M, 0xF}, {BRCM_RATE_12M, 0xA}, {BRCM_RATE_18M, 0xE}, {BRCM_RATE_24M, 0x9}, {BRCM_RATE_36M, 0xD}, {BRCM_RATE_48M, 0x8}, {BRCM_RATE_54M, 0xC} }; for (i = 0; i < ARRAY_SIZE(rate_lookup); i++) { if (rate == rate_lookup[i].rate) { plcp_rate = rate_lookup[i].signal_rate; break; } } /* Find the SHM pointer to the rate table entry by looking in the * Direct-map Table */ return 2 * brcms_b_read_shm(wlc_hw, M_RT_DIRMAP_A + (plcp_rate * 2)); } static void brcms_upd_ofdm_pctl1_table(struct brcms_hardware *wlc_hw) { u8 rate; u8 rates[8] = { BRCM_RATE_6M, BRCM_RATE_9M, BRCM_RATE_12M, BRCM_RATE_18M, BRCM_RATE_24M, BRCM_RATE_36M, BRCM_RATE_48M, BRCM_RATE_54M }; u16 entry_ptr; u16 pctl1; uint i; if (!BRCMS_PHY_11N_CAP(wlc_hw->band)) return; /* walk the phy rate table and update the entries */ for (i = 0; i < ARRAY_SIZE(rates); i++) { rate = rates[i]; entry_ptr = brcms_b_ofdm_ratetable_offset(wlc_hw, rate); /* read the SHM Rate Table entry OFDM PCTL1 values */ pctl1 = brcms_b_read_shm(wlc_hw, entry_ptr + M_RT_OFDM_PCTL1_POS); /* modify the value */ pctl1 &= ~PHY_TXC1_MODE_MASK; pctl1 |= (wlc_hw->hw_stf_ss_opmode << PHY_TXC1_MODE_SHIFT); /* Update the SHM Rate Table entry OFDM PCTL1 values */ brcms_b_write_shm(wlc_hw, entry_ptr + M_RT_OFDM_PCTL1_POS, pctl1); } } /* band-specific init */ static void brcms_b_bsinit(struct brcms_c_info *wlc, u16 chanspec) { struct brcms_hardware *wlc_hw = wlc->hw; brcms_dbg_mac80211(wlc_hw->d11core, "wl%d: bandunit %d\n", wlc_hw->unit, wlc_hw->band->bandunit); brcms_c_ucode_bsinit(wlc_hw); wlc_phy_init(wlc_hw->band->pi, chanspec); brcms_c_ucode_txant_set(wlc_hw); /* * cwmin is band-specific, update hardware * with value for current band */ brcms_b_set_cwmin(wlc_hw, wlc_hw->band->CWmin); brcms_b_set_cwmax(wlc_hw, wlc_hw->band->CWmax); brcms_b_update_slot_timing(wlc_hw, wlc_hw->band->bandtype == BRCM_BAND_5G ? true : wlc_hw->shortslot); /* write phytype and phyvers */ brcms_b_write_shm(wlc_hw, M_PHYTYPE, (u16) wlc_hw->band->phytype); brcms_b_write_shm(wlc_hw, M_PHYVER, (u16) wlc_hw->band->phyrev); /* * initialize the txphyctl1 rate table since * shmem is shared between bands */ brcms_upd_ofdm_pctl1_table(wlc_hw); brcms_b_upd_synthpu(wlc_hw); } /* Perform a soft reset of the PHY PLL */ void brcms_b_core_phypll_reset(struct brcms_hardware *wlc_hw) { ai_cc_reg(wlc_hw->sih, offsetof(struct chipcregs, chipcontrol_addr), ~0, 0); udelay(1); ai_cc_reg(wlc_hw->sih, offsetof(struct chipcregs, chipcontrol_data), 0x4, 0); udelay(1); ai_cc_reg(wlc_hw->sih, offsetof(struct chipcregs, chipcontrol_data), 0x4, 4); udelay(1); ai_cc_reg(wlc_hw->sih, offsetof(struct chipcregs, chipcontrol_data), 0x4, 0); udelay(1); } /* light way to turn on phy clock without reset for NPHY only * refer to brcms_b_core_phy_clk for full version */ void brcms_b_phyclk_fgc(struct brcms_hardware *wlc_hw, bool clk) { /* support(necessary for NPHY and HYPHY) only */ if (!BRCMS_ISNPHY(wlc_hw->band)) return; if (ON == clk) brcms_b_core_ioctl(wlc_hw, SICF_FGC, SICF_FGC); else brcms_b_core_ioctl(wlc_hw, SICF_FGC, 0); } void brcms_b_macphyclk_set(struct brcms_hardware *wlc_hw, bool clk) { if (ON == clk) brcms_b_core_ioctl(wlc_hw, SICF_MPCLKE, SICF_MPCLKE); else brcms_b_core_ioctl(wlc_hw, SICF_MPCLKE, 0); } void brcms_b_phy_reset(struct brcms_hardware *wlc_hw) { struct brcms_phy_pub *pih = wlc_hw->band->pi; u32 phy_bw_clkbits; brcms_dbg_info(wlc_hw->d11core, "wl%d: reset phy\n", wlc_hw->unit); if (pih == NULL) return; phy_bw_clkbits = wlc_phy_clk_bwbits(wlc_hw->band->pi); /* Specific reset sequence required for NPHY rev 3 and 4 */ if (BRCMS_ISNPHY(wlc_hw->band) && NREV_GE(wlc_hw->band->phyrev, 3) && NREV_LE(wlc_hw->band->phyrev, 4)) { /* Set the PHY bandwidth */ brcms_b_core_ioctl(wlc_hw, SICF_BWMASK, phy_bw_clkbits); udelay(1); /* Perform a soft reset of the PHY PLL */ brcms_b_core_phypll_reset(wlc_hw); /* reset the PHY */ brcms_b_core_ioctl(wlc_hw, (SICF_PRST | SICF_PCLKE), (SICF_PRST | SICF_PCLKE)); } else { brcms_b_core_ioctl(wlc_hw, (SICF_PRST | SICF_PCLKE | SICF_BWMASK), (SICF_PRST | SICF_PCLKE | phy_bw_clkbits)); } udelay(2); brcms_b_core_phy_clk(wlc_hw, ON); wlc_phy_anacore(pih, ON); } /* switch to and initialize new band */ static void brcms_b_setband(struct brcms_hardware *wlc_hw, uint bandunit, u16 chanspec) { struct brcms_c_info *wlc = wlc_hw->wlc; u32 macintmask; /* Enable the d11 core before accessing it */ if (!bcma_core_is_enabled(wlc_hw->d11core)) { bcma_core_enable(wlc_hw->d11core, 0); brcms_c_mctrl_reset(wlc_hw); } macintmask = brcms_c_setband_inact(wlc, bandunit); if (!wlc_hw->up) return; brcms_b_core_phy_clk(wlc_hw, ON); /* band-specific initializations */ brcms_b_bsinit(wlc, chanspec); /* * If there are any pending software interrupt bits, * then replace these with a harmless nonzero value * so brcms_c_dpc() will re-enable interrupts when done. */ if (wlc->macintstatus) wlc->macintstatus = MI_DMAINT; /* restore macintmask */ brcms_intrsrestore(wlc->wl, macintmask); /* ucode should still be suspended.. */ WARN_ON((bcma_read32(wlc_hw->d11core, D11REGOFFS(maccontrol)) & MCTL_EN_MAC) != 0); } static bool brcms_c_isgoodchip(struct brcms_hardware *wlc_hw) { /* reject unsupported corerev */ if (!CONF_HAS(D11CONF, wlc_hw->corerev)) { wiphy_err(wlc_hw->wlc->wiphy, "unsupported core rev %d\n", wlc_hw->corerev); return false; } return true; } /* Validate some board info parameters */ static bool brcms_c_validboardtype(struct brcms_hardware *wlc_hw) { uint boardrev = wlc_hw->boardrev; /* 4 bits each for board type, major, minor, and tiny version */ uint brt = (boardrev & 0xf000) >> 12; uint b0 = (boardrev & 0xf00) >> 8; uint b1 = (boardrev & 0xf0) >> 4; uint b2 = boardrev & 0xf; /* voards from other vendors are always considered valid */ if (ai_get_boardvendor(wlc_hw->sih) != PCI_VENDOR_ID_BROADCOM) return true; /* do some boardrev sanity checks when boardvendor is Broadcom */ if (boardrev == 0) return false; if (boardrev <= 0xff) return true; if ((brt > 2) || (brt == 0) || (b0 > 9) || (b0 == 0) || (b1 > 9) || (b2 > 9)) return false; return true; } static void brcms_c_get_macaddr(struct brcms_hardware *wlc_hw, u8 etheraddr[ETH_ALEN]) { struct ssb_sprom *sprom = &wlc_hw->d11core->bus->sprom; /* If macaddr exists, use it (Sromrev4, CIS, ...). */ if (!is_zero_ether_addr(sprom->il0mac)) { memcpy(etheraddr, sprom->il0mac, ETH_ALEN); return; } if (wlc_hw->_nbands > 1) memcpy(etheraddr, sprom->et1mac, ETH_ALEN); else memcpy(etheraddr, sprom->il0mac, ETH_ALEN); } /* power both the pll and external oscillator on/off */ static void brcms_b_xtal(struct brcms_hardware *wlc_hw, bool want) { brcms_dbg_info(wlc_hw->d11core, "wl%d: want %d\n", wlc_hw->unit, want); /* * dont power down if plldown is false or * we must poll hw radio disable */ if (!want && wlc_hw->pllreq) return; wlc_hw->sbclk = want; if (!wlc_hw->sbclk) { wlc_hw->clk = false; if (wlc_hw->band && wlc_hw->band->pi) wlc_phy_hw_clk_state_upd(wlc_hw->band->pi, false); } } /* * Return true if radio is disabled, otherwise false. * hw radio disable signal is an external pin, users activate it asynchronously * this function could be called when driver is down and w/o clock * it operates on different registers depending on corerev and boardflag. */ static bool brcms_b_radio_read_hwdisabled(struct brcms_hardware *wlc_hw) { bool v, clk, xtal; u32 flags = 0; xtal = wlc_hw->sbclk; if (!xtal) brcms_b_xtal(wlc_hw, ON); /* may need to take core out of reset first */ clk = wlc_hw->clk; if (!clk) { /* * mac no longer enables phyclk automatically when driver * accesses phyreg throughput mac. This can be skipped since * only mac reg is accessed below */ if (D11REV_GE(wlc_hw->corerev, 18)) flags |= SICF_PCLKE; /* * TODO: test suspend/resume * * AI chip doesn't restore bar0win2 on * hibernation/resume, need sw fixup */ bcma_core_enable(wlc_hw->d11core, flags); brcms_c_mctrl_reset(wlc_hw); } v = ((bcma_read32(wlc_hw->d11core, D11REGOFFS(phydebug)) & PDBG_RFD) != 0); /* put core back into reset */ if (!clk) bcma_core_disable(wlc_hw->d11core, 0); if (!xtal) brcms_b_xtal(wlc_hw, OFF); return v; } static bool wlc_dma_rxreset(struct brcms_hardware *wlc_hw, uint fifo) { struct dma_pub *di = wlc_hw->di[fifo]; return dma_rxreset(di); } /* d11 core reset * ensure fask clock during reset * reset dma * reset d11(out of reset) * reset phy(out of reset) * clear software macintstatus for fresh new start * one testing hack wlc_hw->noreset will bypass the d11/phy reset */ void brcms_b_corereset(struct brcms_hardware *wlc_hw, u32 flags) { uint i; bool fastclk; if (flags == BRCMS_USE_COREFLAGS) flags = (wlc_hw->band->pi ? wlc_hw->band->core_flags : 0); brcms_dbg_info(wlc_hw->d11core, "wl%d: core reset\n", wlc_hw->unit); /* request FAST clock if not on */ fastclk = wlc_hw->forcefastclk; if (!fastclk) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); /* reset the dma engines except first time thru */ if (bcma_core_is_enabled(wlc_hw->d11core)) { for (i = 0; i < NFIFO; i++) if ((wlc_hw->di[i]) && (!dma_txreset(wlc_hw->di[i]))) brcms_err(wlc_hw->d11core, "wl%d: %s: " "dma_txreset[%d]: cannot stop dma\n", wlc_hw->unit, __func__, i); if ((wlc_hw->di[RX_FIFO]) && (!wlc_dma_rxreset(wlc_hw, RX_FIFO))) brcms_err(wlc_hw->d11core, "wl%d: %s: dma_rxreset" "[%d]: cannot stop dma\n", wlc_hw->unit, __func__, RX_FIFO); } /* if noreset, just stop the psm and return */ if (wlc_hw->noreset) { wlc_hw->wlc->macintstatus = 0; /* skip wl_dpc after down */ brcms_b_mctrl(wlc_hw, MCTL_PSM_RUN | MCTL_EN_MAC, 0); return; } /* * mac no longer enables phyclk automatically when driver accesses * phyreg throughput mac, AND phy_reset is skipped at early stage when * band->pi is invalid. need to enable PHY CLK */ if (D11REV_GE(wlc_hw->corerev, 18)) flags |= SICF_PCLKE; /* * reset the core * In chips with PMU, the fastclk request goes through d11 core * reg 0x1e0, which is cleared by the core_reset. have to re-request it. * * This adds some delay and we can optimize it by also requesting * fastclk through chipcommon during this period if necessary. But * that has to work coordinate with other driver like mips/arm since * they may touch chipcommon as well. */ wlc_hw->clk = false; bcma_core_enable(wlc_hw->d11core, flags); wlc_hw->clk = true; if (wlc_hw->band && wlc_hw->band->pi) wlc_phy_hw_clk_state_upd(wlc_hw->band->pi, true); brcms_c_mctrl_reset(wlc_hw); if (ai_get_cccaps(wlc_hw->sih) & CC_CAP_PMU) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); brcms_b_phy_reset(wlc_hw); /* turn on PHY_PLL */ brcms_b_core_phypll_ctl(wlc_hw, true); /* clear sw intstatus */ wlc_hw->wlc->macintstatus = 0; /* restore the clk setting */ if (!fastclk) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_DYNAMIC); } /* txfifo sizes needs to be modified(increased) since the newer cores * have more memory. */ static void brcms_b_corerev_fifofixup(struct brcms_hardware *wlc_hw) { struct bcma_device *core = wlc_hw->d11core; u16 fifo_nu; u16 txfifo_startblk = TXFIFO_START_BLK, txfifo_endblk; u16 txfifo_def, txfifo_def1; u16 txfifo_cmd; /* tx fifos start at TXFIFO_START_BLK from the Base address */ txfifo_startblk = TXFIFO_START_BLK; /* sequence of operations: reset fifo, set fifo size, reset fifo */ for (fifo_nu = 0; fifo_nu < NFIFO; fifo_nu++) { txfifo_endblk = txfifo_startblk + wlc_hw->xmtfifo_sz[fifo_nu]; txfifo_def = (txfifo_startblk & 0xff) | (((txfifo_endblk - 1) & 0xff) << TXFIFO_FIFOTOP_SHIFT); txfifo_def1 = ((txfifo_startblk >> 8) & 0x1) | ((((txfifo_endblk - 1) >> 8) & 0x1) << TXFIFO_FIFOTOP_SHIFT); txfifo_cmd = TXFIFOCMD_RESET_MASK | (fifo_nu << TXFIFOCMD_FIFOSEL_SHIFT); bcma_write16(core, D11REGOFFS(xmtfifocmd), txfifo_cmd); bcma_write16(core, D11REGOFFS(xmtfifodef), txfifo_def); bcma_write16(core, D11REGOFFS(xmtfifodef1), txfifo_def1); bcma_write16(core, D11REGOFFS(xmtfifocmd), txfifo_cmd); txfifo_startblk += wlc_hw->xmtfifo_sz[fifo_nu]; } /* * need to propagate to shm location to be in sync since ucode/hw won't * do this */ brcms_b_write_shm(wlc_hw, M_FIFOSIZE0, wlc_hw->xmtfifo_sz[TX_AC_BE_FIFO]); brcms_b_write_shm(wlc_hw, M_FIFOSIZE1, wlc_hw->xmtfifo_sz[TX_AC_VI_FIFO]); brcms_b_write_shm(wlc_hw, M_FIFOSIZE2, ((wlc_hw->xmtfifo_sz[TX_AC_VO_FIFO] << 8) | wlc_hw-> xmtfifo_sz[TX_AC_BK_FIFO])); brcms_b_write_shm(wlc_hw, M_FIFOSIZE3, ((wlc_hw->xmtfifo_sz[TX_ATIM_FIFO] << 8) | wlc_hw-> xmtfifo_sz[TX_BCMC_FIFO])); } /* This function is used for changing the tsf frac register * If spur avoidance mode is off, the mac freq will be 80/120/160Mhz * If spur avoidance mode is on1, the mac freq will be 82/123/164Mhz * If spur avoidance mode is on2, the mac freq will be 84/126/168Mhz * HTPHY Formula is 2^26/freq(MHz) e.g. * For spuron2 - 126MHz -> 2^26/126 = 532610.0 * - 532610 = 0x82082 => tsf_clk_frac_h = 0x8, tsf_clk_frac_l = 0x2082 * For spuron: 123MHz -> 2^26/123 = 545600.5 * - 545601 = 0x85341 => tsf_clk_frac_h = 0x8, tsf_clk_frac_l = 0x5341 * For spur off: 120MHz -> 2^26/120 = 559240.5 * - 559241 = 0x88889 => tsf_clk_frac_h = 0x8, tsf_clk_frac_l = 0x8889 */ void brcms_b_switch_macfreq(struct brcms_hardware *wlc_hw, u8 spurmode) { struct bcma_device *core = wlc_hw->d11core; if ((ai_get_chip_id(wlc_hw->sih) == BCMA_CHIP_ID_BCM43224) || (ai_get_chip_id(wlc_hw->sih) == BCMA_CHIP_ID_BCM43225)) { if (spurmode == WL_SPURAVOID_ON2) { /* 126Mhz */ bcma_write16(core, D11REGOFFS(tsf_clk_frac_l), 0x2082); bcma_write16(core, D11REGOFFS(tsf_clk_frac_h), 0x8); } else if (spurmode == WL_SPURAVOID_ON1) { /* 123Mhz */ bcma_write16(core, D11REGOFFS(tsf_clk_frac_l), 0x5341); bcma_write16(core, D11REGOFFS(tsf_clk_frac_h), 0x8); } else { /* 120Mhz */ bcma_write16(core, D11REGOFFS(tsf_clk_frac_l), 0x8889); bcma_write16(core, D11REGOFFS(tsf_clk_frac_h), 0x8); } } else if (BRCMS_ISLCNPHY(wlc_hw->band)) { if (spurmode == WL_SPURAVOID_ON1) { /* 82Mhz */ bcma_write16(core, D11REGOFFS(tsf_clk_frac_l), 0x7CE0); bcma_write16(core, D11REGOFFS(tsf_clk_frac_h), 0xC); } else { /* 80Mhz */ bcma_write16(core, D11REGOFFS(tsf_clk_frac_l), 0xCCCD); bcma_write16(core, D11REGOFFS(tsf_clk_frac_h), 0xC); } } } void brcms_c_start_station(struct brcms_c_info *wlc, u8 *addr) { memcpy(wlc->pub->cur_etheraddr, addr, sizeof(wlc->pub->cur_etheraddr)); wlc->bsscfg->type = BRCMS_TYPE_STATION; } void brcms_c_start_ap(struct brcms_c_info *wlc, u8 *addr, const u8 *bssid, u8 *ssid, size_t ssid_len) { brcms_c_set_ssid(wlc, ssid, ssid_len); memcpy(wlc->pub->cur_etheraddr, addr, sizeof(wlc->pub->cur_etheraddr)); memcpy(wlc->bsscfg->BSSID, bssid, sizeof(wlc->bsscfg->BSSID)); wlc->bsscfg->type = BRCMS_TYPE_AP; brcms_b_mctrl(wlc->hw, MCTL_AP | MCTL_INFRA, MCTL_AP | MCTL_INFRA); } void brcms_c_start_adhoc(struct brcms_c_info *wlc, u8 *addr) { memcpy(wlc->pub->cur_etheraddr, addr, sizeof(wlc->pub->cur_etheraddr)); wlc->bsscfg->type = BRCMS_TYPE_ADHOC; brcms_b_mctrl(wlc->hw, MCTL_AP | MCTL_INFRA, 0); } /* Initialize GPIOs that are controlled by D11 core */ static void brcms_c_gpio_init(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; u32 gc, gm; /* use GPIO select 0 to get all gpio signals from the gpio out reg */ brcms_b_mctrl(wlc_hw, MCTL_GPOUT_SEL_MASK, 0); /* * Common GPIO setup: * G0 = LED 0 = WLAN Activity * G1 = LED 1 = WLAN 2.4 GHz Radio State * G2 = LED 2 = WLAN 5 GHz Radio State * G4 = radio disable input (HI enabled, LO disabled) */ gc = gm = 0; /* Allocate GPIOs for mimo antenna diversity feature */ if (wlc_hw->antsel_type == ANTSEL_2x3) { /* Enable antenna diversity, use 2x3 mode */ brcms_b_mhf(wlc_hw, MHF3, MHF3_ANTSEL_EN, MHF3_ANTSEL_EN, BRCM_BAND_ALL); brcms_b_mhf(wlc_hw, MHF3, MHF3_ANTSEL_MODE, MHF3_ANTSEL_MODE, BRCM_BAND_ALL); /* init superswitch control */ wlc_phy_antsel_init(wlc_hw->band->pi, false); } else if (wlc_hw->antsel_type == ANTSEL_2x4) { gm |= gc |= (BOARD_GPIO_12 | BOARD_GPIO_13); /* * The board itself is powered by these GPIOs * (when not sending pattern) so set them high */ bcma_set16(wlc_hw->d11core, D11REGOFFS(psm_gpio_oe), (BOARD_GPIO_12 | BOARD_GPIO_13)); bcma_set16(wlc_hw->d11core, D11REGOFFS(psm_gpio_out), (BOARD_GPIO_12 | BOARD_GPIO_13)); /* Enable antenna diversity, use 2x4 mode */ brcms_b_mhf(wlc_hw, MHF3, MHF3_ANTSEL_EN, MHF3_ANTSEL_EN, BRCM_BAND_ALL); brcms_b_mhf(wlc_hw, MHF3, MHF3_ANTSEL_MODE, 0, BRCM_BAND_ALL); /* Configure the desired clock to be 4Mhz */ brcms_b_write_shm(wlc_hw, M_ANTSEL_CLKDIV, ANTSEL_CLKDIV_4MHZ); } /* * gpio 9 controls the PA. ucode is responsible * for wiggling out and oe */ if (wlc_hw->boardflags & BFL_PACTRL) gm |= gc |= BOARD_GPIO_PACTRL; /* apply to gpiocontrol register */ bcma_chipco_gpio_control(&wlc_hw->d11core->bus->drv_cc, gm, gc); } static void brcms_ucode_write(struct brcms_hardware *wlc_hw, const __le32 ucode[], const size_t nbytes) { struct bcma_device *core = wlc_hw->d11core; uint i; uint count; brcms_dbg_info(wlc_hw->d11core, "wl%d\n", wlc_hw->unit); count = (nbytes / sizeof(u32)); bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_AUTO_INC | OBJADDR_UCM_SEL); (void)bcma_read32(core, D11REGOFFS(objaddr)); for (i = 0; i < count; i++) bcma_write32(core, D11REGOFFS(objdata), le32_to_cpu(ucode[i])); } static void brcms_ucode_download(struct brcms_hardware *wlc_hw) { struct brcms_ucode *ucode = &wlc_hw->wlc->wl->ucode; if (wlc_hw->ucode_loaded) return; if (D11REV_IS(wlc_hw->corerev, 17) || D11REV_IS(wlc_hw->corerev, 23)) { if (BRCMS_ISNPHY(wlc_hw->band)) { brcms_ucode_write(wlc_hw, ucode->bcm43xx_16_mimo, ucode->bcm43xx_16_mimosz); wlc_hw->ucode_loaded = true; } else brcms_err(wlc_hw->d11core, "%s: wl%d: unsupported phy in corerev %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } else if (D11REV_IS(wlc_hw->corerev, 24)) { if (BRCMS_ISLCNPHY(wlc_hw->band)) { brcms_ucode_write(wlc_hw, ucode->bcm43xx_24_lcn, ucode->bcm43xx_24_lcnsz); wlc_hw->ucode_loaded = true; } else { brcms_err(wlc_hw->d11core, "%s: wl%d: unsupported phy in corerev %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } } } void brcms_b_txant_set(struct brcms_hardware *wlc_hw, u16 phytxant) { /* update sw state */ wlc_hw->bmac_phytxant = phytxant; /* push to ucode if up */ if (!wlc_hw->up) return; brcms_c_ucode_txant_set(wlc_hw); } u16 brcms_b_get_txant(struct brcms_hardware *wlc_hw) { return (u16) wlc_hw->wlc->stf->txant; } void brcms_b_antsel_type_set(struct brcms_hardware *wlc_hw, u8 antsel_type) { wlc_hw->antsel_type = antsel_type; /* Update the antsel type for phy module to use */ wlc_phy_antsel_type_set(wlc_hw->band->pi, antsel_type); } static void brcms_b_fifoerrors(struct brcms_hardware *wlc_hw) { bool fatal = false; uint unit; uint intstatus, idx; struct bcma_device *core = wlc_hw->d11core; unit = wlc_hw->unit; for (idx = 0; idx < NFIFO; idx++) { /* read intstatus register and ignore any non-error bits */ intstatus = bcma_read32(core, D11REGOFFS(intctrlregs[idx].intstatus)) & I_ERRORS; if (!intstatus) continue; brcms_dbg_int(core, "wl%d: intstatus%d 0x%x\n", unit, idx, intstatus); if (intstatus & I_RO) { brcms_err(core, "wl%d: fifo %d: receive fifo " "overflow\n", unit, idx); fatal = true; } if (intstatus & I_PC) { brcms_err(core, "wl%d: fifo %d: descriptor error\n", unit, idx); fatal = true; } if (intstatus & I_PD) { brcms_err(core, "wl%d: fifo %d: data error\n", unit, idx); fatal = true; } if (intstatus & I_DE) { brcms_err(core, "wl%d: fifo %d: descriptor protocol " "error\n", unit, idx); fatal = true; } if (intstatus & I_RU) brcms_err(core, "wl%d: fifo %d: receive descriptor " "underflow\n", idx, unit); if (intstatus & I_XU) { brcms_err(core, "wl%d: fifo %d: transmit fifo " "underflow\n", idx, unit); fatal = true; } if (fatal) { brcms_fatal_error(wlc_hw->wlc->wl); /* big hammer */ break; } else bcma_write32(core, D11REGOFFS(intctrlregs[idx].intstatus), intstatus); } } void brcms_c_intrson(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; wlc->macintmask = wlc->defmacintmask; bcma_write32(wlc_hw->d11core, D11REGOFFS(macintmask), wlc->macintmask); } u32 brcms_c_intrsoff(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; u32 macintmask; if (!wlc_hw->clk) return 0; macintmask = wlc->macintmask; /* isr can still happen */ bcma_write32(wlc_hw->d11core, D11REGOFFS(macintmask), 0); (void)bcma_read32(wlc_hw->d11core, D11REGOFFS(macintmask)); udelay(1); /* ensure int line is no longer driven */ wlc->macintmask = 0; /* return previous macintmask; resolve race between us and our isr */ return wlc->macintstatus ? 0 : macintmask; } void brcms_c_intrsrestore(struct brcms_c_info *wlc, u32 macintmask) { struct brcms_hardware *wlc_hw = wlc->hw; if (!wlc_hw->clk) return; wlc->macintmask = macintmask; bcma_write32(wlc_hw->d11core, D11REGOFFS(macintmask), wlc->macintmask); } /* assumes that the d11 MAC is enabled */ static void brcms_b_tx_fifo_suspend(struct brcms_hardware *wlc_hw, uint tx_fifo) { u8 fifo = 1 << tx_fifo; /* Two clients of this code, 11h Quiet period and scanning. */ /* only suspend if not already suspended */ if ((wlc_hw->suspended_fifos & fifo) == fifo) return; /* force the core awake only if not already */ if (wlc_hw->suspended_fifos == 0) brcms_c_ucode_wake_override_set(wlc_hw, BRCMS_WAKE_OVERRIDE_TXFIFO); wlc_hw->suspended_fifos |= fifo; if (wlc_hw->di[tx_fifo]) { /* * Suspending AMPDU transmissions in the middle can cause * underflow which may result in mismatch between ucode and * driver so suspend the mac before suspending the FIFO */ if (BRCMS_PHY_11N_CAP(wlc_hw->band)) brcms_c_suspend_mac_and_wait(wlc_hw->wlc); dma_txsuspend(wlc_hw->di[tx_fifo]); if (BRCMS_PHY_11N_CAP(wlc_hw->band)) brcms_c_enable_mac(wlc_hw->wlc); } } static void brcms_b_tx_fifo_resume(struct brcms_hardware *wlc_hw, uint tx_fifo) { /* BMAC_NOTE: BRCMS_TX_FIFO_ENAB is done in brcms_c_dpc() for DMA case * but need to be done here for PIO otherwise the watchdog will catch * the inconsistency and fire */ /* Two clients of this code, 11h Quiet period and scanning. */ if (wlc_hw->di[tx_fifo]) dma_txresume(wlc_hw->di[tx_fifo]); /* allow core to sleep again */ if (wlc_hw->suspended_fifos == 0) return; else { wlc_hw->suspended_fifos &= ~(1 << tx_fifo); if (wlc_hw->suspended_fifos == 0) brcms_c_ucode_wake_override_clear(wlc_hw, BRCMS_WAKE_OVERRIDE_TXFIFO); } } /* precondition: requires the mac core to be enabled */ static void brcms_b_mute(struct brcms_hardware *wlc_hw, bool mute_tx) { static const u8 null_ether_addr[ETH_ALEN] = {0, 0, 0, 0, 0, 0}; u8 *ethaddr = wlc_hw->wlc->pub->cur_etheraddr; if (mute_tx) { /* suspend tx fifos */ brcms_b_tx_fifo_suspend(wlc_hw, TX_DATA_FIFO); brcms_b_tx_fifo_suspend(wlc_hw, TX_CTL_FIFO); brcms_b_tx_fifo_suspend(wlc_hw, TX_AC_BK_FIFO); brcms_b_tx_fifo_suspend(wlc_hw, TX_AC_VI_FIFO); /* zero the address match register so we do not send ACKs */ brcms_b_set_addrmatch(wlc_hw, RCM_MAC_OFFSET, null_ether_addr); } else { /* resume tx fifos */ brcms_b_tx_fifo_resume(wlc_hw, TX_DATA_FIFO); brcms_b_tx_fifo_resume(wlc_hw, TX_CTL_FIFO); brcms_b_tx_fifo_resume(wlc_hw, TX_AC_BK_FIFO); brcms_b_tx_fifo_resume(wlc_hw, TX_AC_VI_FIFO); /* Restore address */ brcms_b_set_addrmatch(wlc_hw, RCM_MAC_OFFSET, ethaddr); } wlc_phy_mute_upd(wlc_hw->band->pi, mute_tx, 0); if (mute_tx) brcms_c_ucode_mute_override_set(wlc_hw); else brcms_c_ucode_mute_override_clear(wlc_hw); } void brcms_c_mute(struct brcms_c_info *wlc, bool mute_tx) { brcms_b_mute(wlc->hw, mute_tx); } /* * Read and clear macintmask and macintstatus and intstatus registers. * This routine should be called with interrupts off * Return: * -1 if brcms_deviceremoved(wlc) evaluates to true; * 0 if the interrupt is not for us, or we are in some special cases; * device interrupt status bits otherwise. */ static inline u32 wlc_intstatus(struct brcms_c_info *wlc, bool in_isr) { struct brcms_hardware *wlc_hw = wlc->hw; struct bcma_device *core = wlc_hw->d11core; u32 macintstatus, mask; /* macintstatus includes a DMA interrupt summary bit */ macintstatus = bcma_read32(core, D11REGOFFS(macintstatus)); mask = in_isr ? wlc->macintmask : wlc->defmacintmask; trace_brcms_macintstatus(&core->dev, in_isr, macintstatus, mask); /* detect cardbus removed, in power down(suspend) and in reset */ if (brcms_deviceremoved(wlc)) return -1; /* brcms_deviceremoved() succeeds even when the core is still resetting, * handle that case here. */ if (macintstatus == 0xffffffff) return 0; /* defer unsolicited interrupts */ macintstatus &= mask; /* if not for us */ if (macintstatus == 0) return 0; /* turn off the interrupts */ bcma_write32(core, D11REGOFFS(macintmask), 0); (void)bcma_read32(core, D11REGOFFS(macintmask)); wlc->macintmask = 0; /* clear device interrupts */ bcma_write32(core, D11REGOFFS(macintstatus), macintstatus); /* MI_DMAINT is indication of non-zero intstatus */ if (macintstatus & MI_DMAINT) /* * only fifo interrupt enabled is I_RI in * RX_FIFO. If MI_DMAINT is set, assume it * is set and clear the interrupt. */ bcma_write32(core, D11REGOFFS(intctrlregs[RX_FIFO].intstatus), DEF_RXINTMASK); return macintstatus; } /* Update wlc->macintstatus and wlc->intstatus[]. */ /* Return true if they are updated successfully. false otherwise */ bool brcms_c_intrsupd(struct brcms_c_info *wlc) { u32 macintstatus; /* read and clear macintstatus and intstatus registers */ macintstatus = wlc_intstatus(wlc, false); /* device is removed */ if (macintstatus == 0xffffffff) return false; /* update interrupt status in software */ wlc->macintstatus |= macintstatus; return true; } /* * First-level interrupt processing. * Return true if this was our interrupt * and if further brcms_c_dpc() processing is required, * false otherwise. */ bool brcms_c_isr(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; u32 macintstatus; if (!wlc_hw->up || !wlc->macintmask) return false; /* read and clear macintstatus and intstatus registers */ macintstatus = wlc_intstatus(wlc, true); if (macintstatus == 0xffffffff) { brcms_err(wlc_hw->d11core, "DEVICEREMOVED detected in the ISR code path\n"); return false; } /* it is not for us */ if (macintstatus == 0) return false; /* save interrupt status bits */ wlc->macintstatus = macintstatus; return true; } void brcms_c_suspend_mac_and_wait(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; struct bcma_device *core = wlc_hw->d11core; u32 mc, mi; brcms_dbg_mac80211(core, "wl%d: bandunit %d\n", wlc_hw->unit, wlc_hw->band->bandunit); /* * Track overlapping suspend requests */ wlc_hw->mac_suspend_depth++; if (wlc_hw->mac_suspend_depth > 1) return; /* force the core awake */ brcms_c_ucode_wake_override_set(wlc_hw, BRCMS_WAKE_OVERRIDE_MACSUSPEND); mc = bcma_read32(core, D11REGOFFS(maccontrol)); if (mc == 0xffffffff) { brcms_err(core, "wl%d: %s: dead chip\n", wlc_hw->unit, __func__); brcms_down(wlc->wl); return; } WARN_ON(mc & MCTL_PSM_JMP_0); WARN_ON(!(mc & MCTL_PSM_RUN)); WARN_ON(!(mc & MCTL_EN_MAC)); mi = bcma_read32(core, D11REGOFFS(macintstatus)); if (mi == 0xffffffff) { brcms_err(core, "wl%d: %s: dead chip\n", wlc_hw->unit, __func__); brcms_down(wlc->wl); return; } WARN_ON(mi & MI_MACSSPNDD); brcms_b_mctrl(wlc_hw, MCTL_EN_MAC, 0); SPINWAIT(!(bcma_read32(core, D11REGOFFS(macintstatus)) & MI_MACSSPNDD), BRCMS_MAX_MAC_SUSPEND); if (!(bcma_read32(core, D11REGOFFS(macintstatus)) & MI_MACSSPNDD)) { brcms_err(core, "wl%d: wlc_suspend_mac_and_wait: waited %d uS" " and MI_MACSSPNDD is still not on.\n", wlc_hw->unit, BRCMS_MAX_MAC_SUSPEND); brcms_err(core, "wl%d: psmdebug 0x%08x, phydebug 0x%08x, " "psm_brc 0x%04x\n", wlc_hw->unit, bcma_read32(core, D11REGOFFS(psmdebug)), bcma_read32(core, D11REGOFFS(phydebug)), bcma_read16(core, D11REGOFFS(psm_brc))); } mc = bcma_read32(core, D11REGOFFS(maccontrol)); if (mc == 0xffffffff) { brcms_err(core, "wl%d: %s: dead chip\n", wlc_hw->unit, __func__); brcms_down(wlc->wl); return; } WARN_ON(mc & MCTL_PSM_JMP_0); WARN_ON(!(mc & MCTL_PSM_RUN)); WARN_ON(mc & MCTL_EN_MAC); } void brcms_c_enable_mac(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; struct bcma_device *core = wlc_hw->d11core; u32 mc, mi; brcms_dbg_mac80211(core, "wl%d: bandunit %d\n", wlc_hw->unit, wlc->band->bandunit); /* * Track overlapping suspend requests */ wlc_hw->mac_suspend_depth--; if (wlc_hw->mac_suspend_depth > 0) return; mc = bcma_read32(core, D11REGOFFS(maccontrol)); WARN_ON(mc & MCTL_PSM_JMP_0); WARN_ON(mc & MCTL_EN_MAC); WARN_ON(!(mc & MCTL_PSM_RUN)); brcms_b_mctrl(wlc_hw, MCTL_EN_MAC, MCTL_EN_MAC); bcma_write32(core, D11REGOFFS(macintstatus), MI_MACSSPNDD); mc = bcma_read32(core, D11REGOFFS(maccontrol)); WARN_ON(mc & MCTL_PSM_JMP_0); WARN_ON(!(mc & MCTL_EN_MAC)); WARN_ON(!(mc & MCTL_PSM_RUN)); mi = bcma_read32(core, D11REGOFFS(macintstatus)); WARN_ON(mi & MI_MACSSPNDD); brcms_c_ucode_wake_override_clear(wlc_hw, BRCMS_WAKE_OVERRIDE_MACSUSPEND); } void brcms_b_band_stf_ss_set(struct brcms_hardware *wlc_hw, u8 stf_mode) { wlc_hw->hw_stf_ss_opmode = stf_mode; if (wlc_hw->clk) brcms_upd_ofdm_pctl1_table(wlc_hw); } static bool brcms_b_validate_chip_access(struct brcms_hardware *wlc_hw) { struct bcma_device *core = wlc_hw->d11core; u32 w, val; struct wiphy *wiphy = wlc_hw->wlc->wiphy; /* Validate dchip register access */ bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SHM_SEL | 0); (void)bcma_read32(core, D11REGOFFS(objaddr)); w = bcma_read32(core, D11REGOFFS(objdata)); /* Can we write and read back a 32bit register? */ bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SHM_SEL | 0); (void)bcma_read32(core, D11REGOFFS(objaddr)); bcma_write32(core, D11REGOFFS(objdata), (u32) 0xaa5555aa); bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SHM_SEL | 0); (void)bcma_read32(core, D11REGOFFS(objaddr)); val = bcma_read32(core, D11REGOFFS(objdata)); if (val != (u32) 0xaa5555aa) { wiphy_err(wiphy, "wl%d: validate_chip_access: SHM = 0x%x, " "expected 0xaa5555aa\n", wlc_hw->unit, val); return false; } bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SHM_SEL | 0); (void)bcma_read32(core, D11REGOFFS(objaddr)); bcma_write32(core, D11REGOFFS(objdata), (u32) 0x55aaaa55); bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SHM_SEL | 0); (void)bcma_read32(core, D11REGOFFS(objaddr)); val = bcma_read32(core, D11REGOFFS(objdata)); if (val != (u32) 0x55aaaa55) { wiphy_err(wiphy, "wl%d: validate_chip_access: SHM = 0x%x, " "expected 0x55aaaa55\n", wlc_hw->unit, val); return false; } bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SHM_SEL | 0); (void)bcma_read32(core, D11REGOFFS(objaddr)); bcma_write32(core, D11REGOFFS(objdata), w); /* clear CFPStart */ bcma_write32(core, D11REGOFFS(tsf_cfpstart), 0); w = bcma_read32(core, D11REGOFFS(maccontrol)); if ((w != (MCTL_IHR_EN | MCTL_WAKE)) && (w != (MCTL_IHR_EN | MCTL_GMODE | MCTL_WAKE))) { wiphy_err(wiphy, "wl%d: validate_chip_access: maccontrol = " "0x%x, expected 0x%x or 0x%x\n", wlc_hw->unit, w, (MCTL_IHR_EN | MCTL_WAKE), (MCTL_IHR_EN | MCTL_GMODE | MCTL_WAKE)); return false; } return true; } #define PHYPLL_WAIT_US 100000 void brcms_b_core_phypll_ctl(struct brcms_hardware *wlc_hw, bool on) { struct bcma_device *core = wlc_hw->d11core; u32 tmp; brcms_dbg_info(core, "wl%d\n", wlc_hw->unit); tmp = 0; if (on) { if ((ai_get_chip_id(wlc_hw->sih) == BCMA_CHIP_ID_BCM4313)) { bcma_set32(core, D11REGOFFS(clk_ctl_st), CCS_ERSRC_REQ_HT | CCS_ERSRC_REQ_D11PLL | CCS_ERSRC_REQ_PHYPLL); SPINWAIT((bcma_read32(core, D11REGOFFS(clk_ctl_st)) & CCS_ERSRC_AVAIL_HT) != CCS_ERSRC_AVAIL_HT, PHYPLL_WAIT_US); tmp = bcma_read32(core, D11REGOFFS(clk_ctl_st)); if ((tmp & CCS_ERSRC_AVAIL_HT) != CCS_ERSRC_AVAIL_HT) brcms_err(core, "%s: turn on PHY PLL failed\n", __func__); } else { bcma_set32(core, D11REGOFFS(clk_ctl_st), tmp | CCS_ERSRC_REQ_D11PLL | CCS_ERSRC_REQ_PHYPLL); SPINWAIT((bcma_read32(core, D11REGOFFS(clk_ctl_st)) & (CCS_ERSRC_AVAIL_D11PLL | CCS_ERSRC_AVAIL_PHYPLL)) != (CCS_ERSRC_AVAIL_D11PLL | CCS_ERSRC_AVAIL_PHYPLL), PHYPLL_WAIT_US); tmp = bcma_read32(core, D11REGOFFS(clk_ctl_st)); if ((tmp & (CCS_ERSRC_AVAIL_D11PLL | CCS_ERSRC_AVAIL_PHYPLL)) != (CCS_ERSRC_AVAIL_D11PLL | CCS_ERSRC_AVAIL_PHYPLL)) brcms_err(core, "%s: turn on PHY PLL failed\n", __func__); } } else { /* * Since the PLL may be shared, other cores can still * be requesting it; so we'll deassert the request but * not wait for status to comply. */ bcma_mask32(core, D11REGOFFS(clk_ctl_st), ~CCS_ERSRC_REQ_PHYPLL); (void)bcma_read32(core, D11REGOFFS(clk_ctl_st)); } } static void brcms_c_coredisable(struct brcms_hardware *wlc_hw) { bool dev_gone; brcms_dbg_info(wlc_hw->d11core, "wl%d: disable core\n", wlc_hw->unit); dev_gone = brcms_deviceremoved(wlc_hw->wlc); if (dev_gone) return; if (wlc_hw->noreset) return; /* radio off */ wlc_phy_switch_radio(wlc_hw->band->pi, OFF); /* turn off analog core */ wlc_phy_anacore(wlc_hw->band->pi, OFF); /* turn off PHYPLL to save power */ brcms_b_core_phypll_ctl(wlc_hw, false); wlc_hw->clk = false; bcma_core_disable(wlc_hw->d11core, 0); wlc_phy_hw_clk_state_upd(wlc_hw->band->pi, false); } static void brcms_c_flushqueues(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; uint i; /* free any posted tx packets */ for (i = 0; i < NFIFO; i++) { if (wlc_hw->di[i]) { dma_txreclaim(wlc_hw->di[i], DMA_RANGE_ALL); if (i < TX_BCMC_FIFO) ieee80211_wake_queue(wlc->pub->ieee_hw, brcms_fifo_to_ac(i)); } } /* free any posted rx packets */ dma_rxreclaim(wlc_hw->di[RX_FIFO]); } static u16 brcms_b_read_objmem(struct brcms_hardware *wlc_hw, uint offset, u32 sel) { struct bcma_device *core = wlc_hw->d11core; u16 objoff = D11REGOFFS(objdata); bcma_write32(core, D11REGOFFS(objaddr), sel | (offset >> 2)); (void)bcma_read32(core, D11REGOFFS(objaddr)); if (offset & 2) objoff += 2; return bcma_read16(core, objoff); } static void brcms_b_write_objmem(struct brcms_hardware *wlc_hw, uint offset, u16 v, u32 sel) { struct bcma_device *core = wlc_hw->d11core; u16 objoff = D11REGOFFS(objdata); bcma_write32(core, D11REGOFFS(objaddr), sel | (offset >> 2)); (void)bcma_read32(core, D11REGOFFS(objaddr)); if (offset & 2) objoff += 2; bcma_wflush16(core, objoff, v); } /* * Read a single u16 from shared memory. * SHM 'offset' needs to be an even address */ u16 brcms_b_read_shm(struct brcms_hardware *wlc_hw, uint offset) { return brcms_b_read_objmem(wlc_hw, offset, OBJADDR_SHM_SEL); } /* * Write a single u16 to shared memory. * SHM 'offset' needs to be an even address */ void brcms_b_write_shm(struct brcms_hardware *wlc_hw, uint offset, u16 v) { brcms_b_write_objmem(wlc_hw, offset, v, OBJADDR_SHM_SEL); } /* * Copy a buffer to shared memory of specified type . * SHM 'offset' needs to be an even address and * Buffer length 'len' must be an even number of bytes * 'sel' selects the type of memory */ void brcms_b_copyto_objmem(struct brcms_hardware *wlc_hw, uint offset, const void *buf, int len, u32 sel) { u16 v; const u8 *p = (const u8 *)buf; int i; if (len <= 0 || (offset & 1) || (len & 1)) return; for (i = 0; i < len; i += 2) { v = p[i] | (p[i + 1] << 8); brcms_b_write_objmem(wlc_hw, offset + i, v, sel); } } /* * Copy a piece of shared memory of specified type to a buffer . * SHM 'offset' needs to be an even address and * Buffer length 'len' must be an even number of bytes * 'sel' selects the type of memory */ void brcms_b_copyfrom_objmem(struct brcms_hardware *wlc_hw, uint offset, void *buf, int len, u32 sel) { u16 v; u8 *p = (u8 *) buf; int i; if (len <= 0 || (offset & 1) || (len & 1)) return; for (i = 0; i < len; i += 2) { v = brcms_b_read_objmem(wlc_hw, offset + i, sel); p[i] = v & 0xFF; p[i + 1] = (v >> 8) & 0xFF; } } /* Copy a buffer to shared memory. * SHM 'offset' needs to be an even address and * Buffer length 'len' must be an even number of bytes */ static void brcms_c_copyto_shm(struct brcms_c_info *wlc, uint offset, const void *buf, int len) { brcms_b_copyto_objmem(wlc->hw, offset, buf, len, OBJADDR_SHM_SEL); } static void brcms_b_retrylimit_upd(struct brcms_hardware *wlc_hw, u16 SRL, u16 LRL) { wlc_hw->SRL = SRL; wlc_hw->LRL = LRL; /* write retry limit to SCR, shouldn't need to suspend */ if (wlc_hw->up) { bcma_write32(wlc_hw->d11core, D11REGOFFS(objaddr), OBJADDR_SCR_SEL | S_DOT11_SRC_LMT); (void)bcma_read32(wlc_hw->d11core, D11REGOFFS(objaddr)); bcma_write32(wlc_hw->d11core, D11REGOFFS(objdata), wlc_hw->SRL); bcma_write32(wlc_hw->d11core, D11REGOFFS(objaddr), OBJADDR_SCR_SEL | S_DOT11_LRC_LMT); (void)bcma_read32(wlc_hw->d11core, D11REGOFFS(objaddr)); bcma_write32(wlc_hw->d11core, D11REGOFFS(objdata), wlc_hw->LRL); } } static void brcms_b_pllreq(struct brcms_hardware *wlc_hw, bool set, u32 req_bit) { if (set) { if (mboolisset(wlc_hw->pllreq, req_bit)) return; mboolset(wlc_hw->pllreq, req_bit); if (mboolisset(wlc_hw->pllreq, BRCMS_PLLREQ_FLIP)) { if (!wlc_hw->sbclk) brcms_b_xtal(wlc_hw, ON); } } else { if (!mboolisset(wlc_hw->pllreq, req_bit)) return; mboolclr(wlc_hw->pllreq, req_bit); if (mboolisset(wlc_hw->pllreq, BRCMS_PLLREQ_FLIP)) { if (wlc_hw->sbclk) brcms_b_xtal(wlc_hw, OFF); } } } static void brcms_b_antsel_set(struct brcms_hardware *wlc_hw, u32 antsel_avail) { wlc_hw->antsel_avail = antsel_avail; } /* * conditions under which the PM bit should be set in outgoing frames * and STAY_AWAKE is meaningful */ static bool brcms_c_ps_allowed(struct brcms_c_info *wlc) { /* not supporting PS so always return false for now */ return false; } static void brcms_c_statsupd(struct brcms_c_info *wlc) { int i; struct macstat *macstats; #ifdef DEBUG u16 delta; u16 rxf0ovfl; u16 txfunfl[NFIFO]; #endif /* DEBUG */ /* if driver down, make no sense to update stats */ if (!wlc->pub->up) return; macstats = wlc->core->macstat_snapshot; #ifdef DEBUG /* save last rx fifo 0 overflow count */ rxf0ovfl = macstats->rxf0ovfl; /* save last tx fifo underflow count */ for (i = 0; i < NFIFO; i++) txfunfl[i] = macstats->txfunfl[i]; #endif /* DEBUG */ /* Read mac stats from contiguous shared memory */ brcms_b_copyfrom_objmem(wlc->hw, M_UCODE_MACSTAT, macstats, sizeof(*macstats), OBJADDR_SHM_SEL); #ifdef DEBUG /* check for rx fifo 0 overflow */ delta = (u16)(macstats->rxf0ovfl - rxf0ovfl); if (delta) brcms_err(wlc->hw->d11core, "wl%d: %u rx fifo 0 overflows!\n", wlc->pub->unit, delta); /* check for tx fifo underflows */ for (i = 0; i < NFIFO; i++) { delta = macstats->txfunfl[i] - txfunfl[i]; if (delta) brcms_err(wlc->hw->d11core, "wl%d: %u tx fifo %d underflows!\n", wlc->pub->unit, delta, i); } #endif /* DEBUG */ /* merge counters from dma module */ for (i = 0; i < NFIFO; i++) { if (wlc->hw->di[i]) dma_counterreset(wlc->hw->di[i]); } } static void brcms_b_reset(struct brcms_hardware *wlc_hw) { /* reset the core */ if (!brcms_deviceremoved(wlc_hw->wlc)) brcms_b_corereset(wlc_hw, BRCMS_USE_COREFLAGS); /* purge the dma rings */ brcms_c_flushqueues(wlc_hw->wlc); } void brcms_c_reset(struct brcms_c_info *wlc) { brcms_dbg_info(wlc->hw->d11core, "wl%d\n", wlc->pub->unit); /* slurp up hw mac counters before core reset */ brcms_c_statsupd(wlc); /* reset our snapshot of macstat counters */ memset(wlc->core->macstat_snapshot, 0, sizeof(struct macstat)); brcms_b_reset(wlc->hw); } void brcms_c_init_scb(struct scb *scb) { int i; memset(scb, 0, sizeof(struct scb)); scb->flags = SCB_WMECAP | SCB_HTCAP; for (i = 0; i < NUMPRIO; i++) { scb->seqnum[i] = 0; } scb->magic = SCB_MAGIC; } /* d11 core init * reset PSM * download ucode/PCM * let ucode run to suspended * download ucode inits * config other core registers * init dma */ static void brcms_b_coreinit(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; struct bcma_device *core = wlc_hw->d11core; u32 bcnint_us; uint i = 0; bool fifosz_fixup = false; int err = 0; u16 buf[NFIFO]; struct brcms_ucode *ucode = &wlc_hw->wlc->wl->ucode; brcms_dbg_info(core, "wl%d: core init\n", wlc_hw->unit); /* reset PSM */ brcms_b_mctrl(wlc_hw, ~0, (MCTL_IHR_EN | MCTL_PSM_JMP_0 | MCTL_WAKE)); brcms_ucode_download(wlc_hw); /* * FIFOSZ fixup. driver wants to controls the fifo allocation. */ fifosz_fixup = true; /* let the PSM run to the suspended state, set mode to BSS STA */ bcma_write32(core, D11REGOFFS(macintstatus), -1); brcms_b_mctrl(wlc_hw, ~0, (MCTL_IHR_EN | MCTL_INFRA | MCTL_PSM_RUN | MCTL_WAKE)); /* wait for ucode to self-suspend after auto-init */ SPINWAIT(((bcma_read32(core, D11REGOFFS(macintstatus)) & MI_MACSSPNDD) == 0), 1000 * 1000); if ((bcma_read32(core, D11REGOFFS(macintstatus)) & MI_MACSSPNDD) == 0) brcms_err(core, "wl%d: wlc_coreinit: ucode did not self-" "suspend!\n", wlc_hw->unit); brcms_c_gpio_init(wlc); bcma_aread32(core, BCMA_IOST); if (D11REV_IS(wlc_hw->corerev, 17) || D11REV_IS(wlc_hw->corerev, 23)) { if (BRCMS_ISNPHY(wlc_hw->band)) brcms_c_write_inits(wlc_hw, ucode->d11n0initvals16); else brcms_err(core, "%s: wl%d: unsupported phy in corerev" " %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } else if (D11REV_IS(wlc_hw->corerev, 24)) { if (BRCMS_ISLCNPHY(wlc_hw->band)) brcms_c_write_inits(wlc_hw, ucode->d11lcn0initvals24); else brcms_err(core, "%s: wl%d: unsupported phy in corerev" " %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } else { brcms_err(core, "%s: wl%d: unsupported corerev %d\n", __func__, wlc_hw->unit, wlc_hw->corerev); } /* For old ucode, txfifo sizes needs to be modified(increased) */ if (fifosz_fixup) brcms_b_corerev_fifofixup(wlc_hw); /* check txfifo allocations match between ucode and driver */ buf[TX_AC_BE_FIFO] = brcms_b_read_shm(wlc_hw, M_FIFOSIZE0); if (buf[TX_AC_BE_FIFO] != wlc_hw->xmtfifo_sz[TX_AC_BE_FIFO]) { i = TX_AC_BE_FIFO; err = -1; } buf[TX_AC_VI_FIFO] = brcms_b_read_shm(wlc_hw, M_FIFOSIZE1); if (buf[TX_AC_VI_FIFO] != wlc_hw->xmtfifo_sz[TX_AC_VI_FIFO]) { i = TX_AC_VI_FIFO; err = -1; } buf[TX_AC_BK_FIFO] = brcms_b_read_shm(wlc_hw, M_FIFOSIZE2); buf[TX_AC_VO_FIFO] = (buf[TX_AC_BK_FIFO] >> 8) & 0xff; buf[TX_AC_BK_FIFO] &= 0xff; if (buf[TX_AC_BK_FIFO] != wlc_hw->xmtfifo_sz[TX_AC_BK_FIFO]) { i = TX_AC_BK_FIFO; err = -1; } if (buf[TX_AC_VO_FIFO] != wlc_hw->xmtfifo_sz[TX_AC_VO_FIFO]) { i = TX_AC_VO_FIFO; err = -1; } buf[TX_BCMC_FIFO] = brcms_b_read_shm(wlc_hw, M_FIFOSIZE3); buf[TX_ATIM_FIFO] = (buf[TX_BCMC_FIFO] >> 8) & 0xff; buf[TX_BCMC_FIFO] &= 0xff; if (buf[TX_BCMC_FIFO] != wlc_hw->xmtfifo_sz[TX_BCMC_FIFO]) { i = TX_BCMC_FIFO; err = -1; } if (buf[TX_ATIM_FIFO] != wlc_hw->xmtfifo_sz[TX_ATIM_FIFO]) { i = TX_ATIM_FIFO; err = -1; } if (err != 0) brcms_err(core, "wlc_coreinit: txfifo mismatch: ucode size %d" " driver size %d index %d\n", buf[i], wlc_hw->xmtfifo_sz[i], i); /* make sure we can still talk to the mac */ WARN_ON(bcma_read32(core, D11REGOFFS(maccontrol)) == 0xffffffff); /* band-specific inits done by wlc_bsinit() */ /* Set up frame burst size and antenna swap threshold init values */ brcms_b_write_shm(wlc_hw, M_MBURST_SIZE, MAXTXFRAMEBURST); brcms_b_write_shm(wlc_hw, M_MAX_ANTCNT, ANTCNT); /* enable one rx interrupt per received frame */ bcma_write32(core, D11REGOFFS(intrcvlazy[0]), (1 << IRL_FC_SHIFT)); /* set the station mode (BSS STA) */ brcms_b_mctrl(wlc_hw, (MCTL_INFRA | MCTL_DISCARD_PMQ | MCTL_AP), (MCTL_INFRA | MCTL_DISCARD_PMQ)); /* set up Beacon interval */ bcnint_us = 0x8000 << 10; bcma_write32(core, D11REGOFFS(tsf_cfprep), (bcnint_us << CFPREP_CBI_SHIFT)); bcma_write32(core, D11REGOFFS(tsf_cfpstart), bcnint_us); bcma_write32(core, D11REGOFFS(macintstatus), MI_GP1); /* write interrupt mask */ bcma_write32(core, D11REGOFFS(intctrlregs[RX_FIFO].intmask), DEF_RXINTMASK); /* allow the MAC to control the PHY clock (dynamic on/off) */ brcms_b_macphyclk_set(wlc_hw, ON); /* program dynamic clock control fast powerup delay register */ wlc->fastpwrup_dly = ai_clkctl_fast_pwrup_delay(wlc_hw->sih); bcma_write16(core, D11REGOFFS(scc_fastpwrup_dly), wlc->fastpwrup_dly); /* tell the ucode the corerev */ brcms_b_write_shm(wlc_hw, M_MACHW_VER, (u16) wlc_hw->corerev); /* tell the ucode MAC capabilities */ brcms_b_write_shm(wlc_hw, M_MACHW_CAP_L, (u16) (wlc_hw->machwcap & 0xffff)); brcms_b_write_shm(wlc_hw, M_MACHW_CAP_H, (u16) ((wlc_hw-> machwcap >> 16) & 0xffff)); /* write retry limits to SCR, this done after PSM init */ bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SCR_SEL | S_DOT11_SRC_LMT); (void)bcma_read32(core, D11REGOFFS(objaddr)); bcma_write32(core, D11REGOFFS(objdata), wlc_hw->SRL); bcma_write32(core, D11REGOFFS(objaddr), OBJADDR_SCR_SEL | S_DOT11_LRC_LMT); (void)bcma_read32(core, D11REGOFFS(objaddr)); bcma_write32(core, D11REGOFFS(objdata), wlc_hw->LRL); /* write rate fallback retry limits */ brcms_b_write_shm(wlc_hw, M_SFRMTXCNTFBRTHSD, wlc_hw->SFBL); brcms_b_write_shm(wlc_hw, M_LFRMTXCNTFBRTHSD, wlc_hw->LFBL); bcma_mask16(core, D11REGOFFS(ifs_ctl), 0x0FFF); bcma_write16(core, D11REGOFFS(ifs_aifsn), EDCF_AIFSN_MIN); /* init the tx dma engines */ for (i = 0; i < NFIFO; i++) { if (wlc_hw->di[i]) dma_txinit(wlc_hw->di[i]); } /* init the rx dma engine(s) and post receive buffers */ dma_rxinit(wlc_hw->di[RX_FIFO]); dma_rxfill(wlc_hw->di[RX_FIFO]); } static void brcms_b_init(struct brcms_hardware *wlc_hw, u16 chanspec) { u32 macintmask; bool fastclk; struct brcms_c_info *wlc = wlc_hw->wlc; /* request FAST clock if not on */ fastclk = wlc_hw->forcefastclk; if (!fastclk) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); /* disable interrupts */ macintmask = brcms_intrsoff(wlc->wl); /* set up the specified band and chanspec */ brcms_c_setxband(wlc_hw, chspec_bandunit(chanspec)); wlc_phy_chanspec_radio_set(wlc_hw->band->pi, chanspec); /* do one-time phy inits and calibration */ wlc_phy_cal_init(wlc_hw->band->pi); /* core-specific initialization */ brcms_b_coreinit(wlc); /* band-specific inits */ brcms_b_bsinit(wlc, chanspec); /* restore macintmask */ brcms_intrsrestore(wlc->wl, macintmask); /* seed wake_override with BRCMS_WAKE_OVERRIDE_MACSUSPEND since the mac * is suspended and brcms_c_enable_mac() will clear this override bit. */ mboolset(wlc_hw->wake_override, BRCMS_WAKE_OVERRIDE_MACSUSPEND); /* * initialize mac_suspend_depth to 1 to match ucode * initial suspended state */ wlc_hw->mac_suspend_depth = 1; /* restore the clk */ if (!fastclk) brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_DYNAMIC); } static void brcms_c_set_phy_chanspec(struct brcms_c_info *wlc, u16 chanspec) { /* Save our copy of the chanspec */ wlc->chanspec = chanspec; /* Set the chanspec and power limits for this locale */ brcms_c_channel_set_chanspec(wlc->cmi, chanspec, BRCMS_TXPWR_MAX); if (wlc->stf->ss_algosel_auto) brcms_c_stf_ss_algo_channel_get(wlc, &wlc->stf->ss_algo_channel, chanspec); brcms_c_stf_ss_update(wlc, wlc->band); } static void brcms_default_rateset(struct brcms_c_info *wlc, struct brcms_c_rateset *rs) { brcms_c_rateset_default(rs, NULL, wlc->band->phytype, wlc->band->bandtype, false, BRCMS_RATE_MASK_FULL, (bool) (wlc->pub->_n_enab & SUPPORT_11N), brcms_chspec_bw(wlc->default_bss->chanspec), wlc->stf->txstreams); } /* derive wlc->band->basic_rate[] table from 'rateset' */ static void brcms_c_rate_lookup_init(struct brcms_c_info *wlc, struct brcms_c_rateset *rateset) { u8 rate; u8 mandatory; u8 cck_basic = 0; u8 ofdm_basic = 0; u8 *br = wlc->band->basic_rate; uint i; /* incoming rates are in 500kbps units as in 802.11 Supported Rates */ memset(br, 0, BRCM_MAXRATE + 1); /* For each basic rate in the rates list, make an entry in the * best basic lookup. */ for (i = 0; i < rateset->count; i++) { /* only make an entry for a basic rate */ if (!(rateset->rates[i] & BRCMS_RATE_FLAG)) continue; /* mask off basic bit */ rate = (rateset->rates[i] & BRCMS_RATE_MASK); if (rate > BRCM_MAXRATE) { brcms_err(wlc->hw->d11core, "brcms_c_rate_lookup_init: " "invalid rate 0x%X in rate set\n", rateset->rates[i]); continue; } br[rate] = rate; } /* The rate lookup table now has non-zero entries for each * basic rate, equal to the basic rate: br[basicN] = basicN * * To look up the best basic rate corresponding to any * particular rate, code can use the basic_rate table * like this * * basic_rate = wlc->band->basic_rate[tx_rate] * * Make sure there is a best basic rate entry for * every rate by walking up the table from low rates * to high, filling in holes in the lookup table */ for (i = 0; i < wlc->band->hw_rateset.count; i++) { rate = wlc->band->hw_rateset.rates[i]; if (br[rate] != 0) { /* This rate is a basic rate. * Keep track of the best basic rate so far by * modulation type. */ if (is_ofdm_rate(rate)) ofdm_basic = rate; else cck_basic = rate; continue; } /* This rate is not a basic rate so figure out the * best basic rate less than this rate and fill in * the hole in the table */ br[rate] = is_ofdm_rate(rate) ? ofdm_basic : cck_basic; if (br[rate] != 0) continue; if (is_ofdm_rate(rate)) { /* * In 11g and 11a, the OFDM mandatory rates * are 6, 12, and 24 Mbps */ if (rate >= BRCM_RATE_24M) mandatory = BRCM_RATE_24M; else if (rate >= BRCM_RATE_12M) mandatory = BRCM_RATE_12M; else mandatory = BRCM_RATE_6M; } else { /* In 11b, all CCK rates are mandatory 1 - 11 Mbps */ mandatory = rate; } br[rate] = mandatory; } } static void brcms_c_bandinit_ordered(struct brcms_c_info *wlc, u16 chanspec) { struct brcms_c_rateset default_rateset; uint parkband; uint i, band_order[2]; /* * We might have been bandlocked during down and the chip * power-cycled (hibernate). Figure out the right band to park on */ if (wlc->bandlocked || wlc->pub->_nbands == 1) { /* updated in brcms_c_bandlock() */ parkband = wlc->band->bandunit; band_order[0] = band_order[1] = parkband; } else { /* park on the band of the specified chanspec */ parkband = chspec_bandunit(chanspec); /* order so that parkband initialize last */ band_order[0] = parkband ^ 1; band_order[1] = parkband; } /* make each band operational, software state init */ for (i = 0; i < wlc->pub->_nbands; i++) { uint j = band_order[i]; wlc->band = wlc->bandstate[j]; brcms_default_rateset(wlc, &default_rateset); /* fill in hw_rate */ brcms_c_rateset_filter(&default_rateset, &wlc->band->hw_rateset, false, BRCMS_RATES_CCK_OFDM, BRCMS_RATE_MASK, (bool) (wlc->pub->_n_enab & SUPPORT_11N)); /* init basic rate lookup */ brcms_c_rate_lookup_init(wlc, &default_rateset); } /* sync up phy/radio chanspec */ brcms_c_set_phy_chanspec(wlc, chanspec); } /* * Set or clear filtering related maccontrol bits based on * specified filter flags */ void brcms_c_mac_promisc(struct brcms_c_info *wlc, uint filter_flags) { u32 promisc_bits = 0; wlc->filter_flags = filter_flags; if (filter_flags & FIF_OTHER_BSS) promisc_bits |= MCTL_PROMISC; if (filter_flags & FIF_BCN_PRBRESP_PROMISC) promisc_bits |= MCTL_BCNS_PROMISC; if (filter_flags & FIF_FCSFAIL) promisc_bits |= MCTL_KEEPBADFCS; if (filter_flags & (FIF_CONTROL | FIF_PSPOLL)) promisc_bits |= MCTL_KEEPCONTROL; brcms_b_mctrl(wlc->hw, MCTL_PROMISC | MCTL_BCNS_PROMISC | MCTL_KEEPCONTROL | MCTL_KEEPBADFCS, promisc_bits); } /* * ucode, hwmac update * Channel dependent updates for ucode and hw */ static void brcms_c_ucode_mac_upd(struct brcms_c_info *wlc) { /* enable or disable any active IBSSs depending on whether or not * we are on the home channel */ if (wlc->home_chanspec == wlc_phy_chanspec_get(wlc->band->pi)) { if (wlc->pub->associated) { /* * BMAC_NOTE: This is something that should be fixed * in ucode inits. I think that the ucode inits set * up the bcn templates and shm values with a bogus * beacon. This should not be done in the inits. If * ucode needs to set up a beacon for testing, the * test routines should write it down, not expect the * inits to populate a bogus beacon. */ if (BRCMS_PHY_11N_CAP(wlc->band)) brcms_b_write_shm(wlc->hw, M_BCN_TXTSF_OFFSET, 0); } } else { /* disable an active IBSS if we are not on the home channel */ } } static void brcms_c_write_rate_shm(struct brcms_c_info *wlc, u8 rate, u8 basic_rate) { u8 phy_rate, index; u8 basic_phy_rate, basic_index; u16 dir_table, basic_table; u16 basic_ptr; /* Shared memory address for the table we are reading */ dir_table = is_ofdm_rate(basic_rate) ? M_RT_DIRMAP_A : M_RT_DIRMAP_B; /* Shared memory address for the table we are writing */ basic_table = is_ofdm_rate(rate) ? M_RT_BBRSMAP_A : M_RT_BBRSMAP_B; /* * for a given rate, the LS-nibble of the PLCP SIGNAL field is * the index into the rate table. */ phy_rate = rate_info[rate] & BRCMS_RATE_MASK; basic_phy_rate = rate_info[basic_rate] & BRCMS_RATE_MASK; index = phy_rate & 0xf; basic_index = basic_phy_rate & 0xf; /* Find the SHM pointer to the ACK rate entry by looking in the * Direct-map Table */ basic_ptr = brcms_b_read_shm(wlc->hw, (dir_table + basic_index * 2)); /* Update the SHM BSS-basic-rate-set mapping table with the pointer * to the correct basic rate for the given incoming rate */ brcms_b_write_shm(wlc->hw, (basic_table + index * 2), basic_ptr); } static const struct brcms_c_rateset * brcms_c_rateset_get_hwrs(struct brcms_c_info *wlc) { const struct brcms_c_rateset *rs_dflt; if (BRCMS_PHY_11N_CAP(wlc->band)) { if (wlc->band->bandtype == BRCM_BAND_5G) rs_dflt = &ofdm_mimo_rates; else rs_dflt = &cck_ofdm_mimo_rates; } else if (wlc->band->gmode) rs_dflt = &cck_ofdm_rates; else rs_dflt = &cck_rates; return rs_dflt; } static void brcms_c_set_ratetable(struct brcms_c_info *wlc) { const struct brcms_c_rateset *rs_dflt; struct brcms_c_rateset rs; u8 rate, basic_rate; uint i; rs_dflt = brcms_c_rateset_get_hwrs(wlc); brcms_c_rateset_copy(rs_dflt, &rs); brcms_c_rateset_mcs_upd(&rs, wlc->stf->txstreams); /* walk the phy rate table and update SHM basic rate lookup table */ for (i = 0; i < rs.count; i++) { rate = rs.rates[i] & BRCMS_RATE_MASK; /* for a given rate brcms_basic_rate returns the rate at * which a response ACK/CTS should be sent. */ basic_rate = brcms_basic_rate(wlc, rate); if (basic_rate == 0) /* This should only happen if we are using a * restricted rateset. */ basic_rate = rs.rates[0] & BRCMS_RATE_MASK; brcms_c_write_rate_shm(wlc, rate, basic_rate); } } /* band-specific init */ static void brcms_c_bsinit(struct brcms_c_info *wlc) { brcms_dbg_info(wlc->hw->d11core, "wl%d: bandunit %d\n", wlc->pub->unit, wlc->band->bandunit); /* write ucode ACK/CTS rate table */ brcms_c_set_ratetable(wlc); /* update some band specific mac configuration */ brcms_c_ucode_mac_upd(wlc); /* init antenna selection */ brcms_c_antsel_init(wlc->asi); } /* formula: IDLE_BUSY_RATIO_X_16 = (100-duty_cycle)/duty_cycle*16 */ static int brcms_c_duty_cycle_set(struct brcms_c_info *wlc, int duty_cycle, bool isOFDM, bool writeToShm) { int idle_busy_ratio_x_16 = 0; uint offset = isOFDM ? M_TX_IDLE_BUSY_RATIO_X_16_OFDM : M_TX_IDLE_BUSY_RATIO_X_16_CCK; if (duty_cycle > 100 || duty_cycle < 0) { brcms_err(wlc->hw->d11core, "wl%d: duty cycle value off limit\n", wlc->pub->unit); return -EINVAL; } if (duty_cycle) idle_busy_ratio_x_16 = (100 - duty_cycle) * 16 / duty_cycle; /* Only write to shared memory when wl is up */ if (writeToShm) brcms_b_write_shm(wlc->hw, offset, (u16) idle_busy_ratio_x_16); if (isOFDM) wlc->tx_duty_cycle_ofdm = (u16) duty_cycle; else wlc->tx_duty_cycle_cck = (u16) duty_cycle; return 0; } /* push sw hps and wake state through hardware */ static void brcms_c_set_ps_ctrl(struct brcms_c_info *wlc) { u32 v1, v2; bool hps; bool awake_before; hps = brcms_c_ps_allowed(wlc); brcms_dbg_mac80211(wlc->hw->d11core, "wl%d: hps %d\n", wlc->pub->unit, hps); v1 = bcma_read32(wlc->hw->d11core, D11REGOFFS(maccontrol)); v2 = MCTL_WAKE; if (hps) v2 |= MCTL_HPS; brcms_b_mctrl(wlc->hw, MCTL_WAKE | MCTL_HPS, v2); awake_before = ((v1 & MCTL_WAKE) || ((v1 & MCTL_HPS) == 0)); if (!awake_before) brcms_b_wait_for_wake(wlc->hw); } /* * Write this BSS config's MAC address to core. * Updates RXE match engine. */ static void brcms_c_set_mac(struct brcms_bss_cfg *bsscfg) { struct brcms_c_info *wlc = bsscfg->wlc; /* enter the MAC addr into the RXE match registers */ brcms_c_set_addrmatch(wlc, RCM_MAC_OFFSET, wlc->pub->cur_etheraddr); brcms_c_ampdu_macaddr_upd(wlc); } /* Write the BSS config's BSSID address to core (set_bssid in d11procs.tcl). * Updates RXE match engine. */ static void brcms_c_set_bssid(struct brcms_bss_cfg *bsscfg) { /* we need to update BSSID in RXE match registers */ brcms_c_set_addrmatch(bsscfg->wlc, RCM_BSSID_OFFSET, bsscfg->BSSID); } void brcms_c_set_ssid(struct brcms_c_info *wlc, u8 *ssid, size_t ssid_len) { u8 len = min_t(u8, sizeof(wlc->bsscfg->SSID), ssid_len); memset(wlc->bsscfg->SSID, 0, sizeof(wlc->bsscfg->SSID)); memcpy(wlc->bsscfg->SSID, ssid, len); wlc->bsscfg->SSID_len = len; } static void brcms_b_set_shortslot(struct brcms_hardware *wlc_hw, bool shortslot) { wlc_hw->shortslot = shortslot; if (wlc_hw->band->bandtype == BRCM_BAND_2G && wlc_hw->up) { brcms_c_suspend_mac_and_wait(wlc_hw->wlc); brcms_b_update_slot_timing(wlc_hw, shortslot); brcms_c_enable_mac(wlc_hw->wlc); } } /* * Suspend the MAC and update the slot timing * for standard 11b/g (20us slots) or shortslot 11g (9us slots). */ static void brcms_c_switch_shortslot(struct brcms_c_info *wlc, bool shortslot) { /* use the override if it is set */ if (wlc->shortslot_override != BRCMS_SHORTSLOT_AUTO) shortslot = (wlc->shortslot_override == BRCMS_SHORTSLOT_ON); if (wlc->shortslot == shortslot) return; wlc->shortslot = shortslot; brcms_b_set_shortslot(wlc->hw, shortslot); } static void brcms_c_set_home_chanspec(struct brcms_c_info *wlc, u16 chanspec) { if (wlc->home_chanspec != chanspec) { wlc->home_chanspec = chanspec; if (wlc->pub->associated) wlc->bsscfg->current_bss->chanspec = chanspec; } } void brcms_b_set_chanspec(struct brcms_hardware *wlc_hw, u16 chanspec, bool mute_tx, struct txpwr_limits *txpwr) { uint bandunit; brcms_dbg_mac80211(wlc_hw->d11core, "wl%d: 0x%x\n", wlc_hw->unit, chanspec); wlc_hw->chanspec = chanspec; /* Switch bands if necessary */ if (wlc_hw->_nbands > 1) { bandunit = chspec_bandunit(chanspec); if (wlc_hw->band->bandunit != bandunit) { /* brcms_b_setband disables other bandunit, * use light band switch if not up yet */ if (wlc_hw->up) { wlc_phy_chanspec_radio_set(wlc_hw-> bandstate[bandunit]-> pi, chanspec); brcms_b_setband(wlc_hw, bandunit, chanspec); } else { brcms_c_setxband(wlc_hw, bandunit); } } } wlc_phy_initcal_enable(wlc_hw->band->pi, !mute_tx); if (!wlc_hw->up) { if (wlc_hw->clk) wlc_phy_txpower_limit_set(wlc_hw->band->pi, txpwr, chanspec); wlc_phy_chanspec_radio_set(wlc_hw->band->pi, chanspec); } else { wlc_phy_chanspec_set(wlc_hw->band->pi, chanspec); wlc_phy_txpower_limit_set(wlc_hw->band->pi, txpwr, chanspec); /* Update muting of the channel */ brcms_b_mute(wlc_hw, mute_tx); } } /* switch to and initialize new band */ static void brcms_c_setband(struct brcms_c_info *wlc, uint bandunit) { wlc->band = wlc->bandstate[bandunit]; if (!wlc->pub->up) return; /* wait for at least one beacon before entering sleeping state */ brcms_c_set_ps_ctrl(wlc); /* band-specific initializations */ brcms_c_bsinit(wlc); } static void brcms_c_set_chanspec(struct brcms_c_info *wlc, u16 chanspec) { uint bandunit; u16 old_chanspec = wlc->chanspec; if (!brcms_c_valid_chanspec_db(wlc->cmi, chanspec)) { brcms_err(wlc->hw->d11core, "wl%d: %s: Bad channel %d\n", wlc->pub->unit, __func__, CHSPEC_CHANNEL(chanspec)); return; } /* Switch bands if necessary */ if (wlc->pub->_nbands > 1) { bandunit = chspec_bandunit(chanspec); if (wlc->band->bandunit != bandunit || wlc->bandinit_pending) { if (wlc->bandlocked) { brcms_err(wlc->hw->d11core, "wl%d: %s: chspec %d band is locked!\n", wlc->pub->unit, __func__, CHSPEC_CHANNEL(chanspec)); return; } /* * should the setband call come after the * brcms_b_chanspec() ? if the setband updates * (brcms_c_bsinit) use low level calls to inspect and * set state, the state inspected may be from the wrong * band, or the following brcms_b_set_chanspec() may * undo the work. */ brcms_c_setband(wlc, bandunit); } } /* sync up phy/radio chanspec */ brcms_c_set_phy_chanspec(wlc, chanspec); /* init antenna selection */ if (brcms_chspec_bw(old_chanspec) != brcms_chspec_bw(chanspec)) { brcms_c_antsel_init(wlc->asi); /* Fix the hardware rateset based on bw. * Mainly add MCS32 for 40Mhz, remove MCS 32 for 20Mhz */ brcms_c_rateset_bw_mcs_filter(&wlc->band->hw_rateset, wlc->band->mimo_cap_40 ? brcms_chspec_bw(chanspec) : 0); } /* update some mac configuration since chanspec changed */ brcms_c_ucode_mac_upd(wlc); } /* * This function changes the phytxctl for beacon based on current * beacon ratespec AND txant setting as per this table: * ratespec CCK ant = wlc->stf->txant * OFDM ant = 3 */ void brcms_c_beacon_phytxctl_txant_upd(struct brcms_c_info *wlc, u32 bcn_rspec) { u16 phyctl; u16 phytxant = wlc->stf->phytxant; u16 mask = PHY_TXC_ANT_MASK; /* for non-siso rates or default setting, use the available chains */ if (BRCMS_PHY_11N_CAP(wlc->band)) phytxant = brcms_c_stf_phytxchain_sel(wlc, bcn_rspec); phyctl = brcms_b_read_shm(wlc->hw, M_BCN_PCTLWD); phyctl = (phyctl & ~mask) | phytxant; brcms_b_write_shm(wlc->hw, M_BCN_PCTLWD, phyctl); } /* * centralized protection config change function to simplify debugging, no * consistency checking this should be called only on changes to avoid overhead * in periodic function */ void brcms_c_protection_upd(struct brcms_c_info *wlc, uint idx, int val) { /* * Cannot use brcms_dbg_* here because this function is called * before wlc is sufficiently initialized. */ BCMMSG(wlc->wiphy, "idx %d, val %d\n", idx, val); switch (idx) { case BRCMS_PROT_G_SPEC: wlc->protection->_g = (bool) val; break; case BRCMS_PROT_G_OVR: wlc->protection->g_override = (s8) val; break; case BRCMS_PROT_G_USER: wlc->protection->gmode_user = (u8) val; break; case BRCMS_PROT_OVERLAP: wlc->protection->overlap = (s8) val; break; case BRCMS_PROT_N_USER: wlc->protection->nmode_user = (s8) val; break; case BRCMS_PROT_N_CFG: wlc->protection->n_cfg = (s8) val; break; case BRCMS_PROT_N_CFG_OVR: wlc->protection->n_cfg_override = (s8) val; break; case BRCMS_PROT_N_NONGF: wlc->protection->nongf = (bool) val; break; case BRCMS_PROT_N_NONGF_OVR: wlc->protection->nongf_override = (s8) val; break; case BRCMS_PROT_N_PAM_OVR: wlc->protection->n_pam_override = (s8) val; break; case BRCMS_PROT_N_OBSS: wlc->protection->n_obss = (bool) val; break; default: break; } } static void brcms_c_ht_update_sgi_rx(struct brcms_c_info *wlc, int val) { if (wlc->pub->up) { brcms_c_update_beacon(wlc); brcms_c_update_probe_resp(wlc, true); } } static void brcms_c_ht_update_ldpc(struct brcms_c_info *wlc, s8 val) { wlc->stf->ldpc = val; if (wlc->pub->up) { brcms_c_update_beacon(wlc); brcms_c_update_probe_resp(wlc, true); wlc_phy_ldpc_override_set(wlc->band->pi, (val ? true : false)); } } void brcms_c_wme_setparams(struct brcms_c_info *wlc, u16 aci, const struct ieee80211_tx_queue_params *params, bool suspend) { int i; struct shm_acparams acp_shm; u16 *shm_entry; /* Only apply params if the core is out of reset and has clocks */ if (!wlc->clk) { brcms_err(wlc->hw->d11core, "wl%d: %s : no-clock\n", wlc->pub->unit, __func__); return; } memset(&acp_shm, 0, sizeof(struct shm_acparams)); /* fill in shm ac params struct */ acp_shm.txop = params->txop; /* convert from units of 32us to us for ucode */ wlc->edcf_txop[aci & 0x3] = acp_shm.txop = EDCF_TXOP2USEC(acp_shm.txop); acp_shm.aifs = (params->aifs & EDCF_AIFSN_MASK); if (aci == IEEE80211_AC_VI && acp_shm.txop == 0 && acp_shm.aifs < EDCF_AIFSN_MAX) acp_shm.aifs++; if (acp_shm.aifs < EDCF_AIFSN_MIN || acp_shm.aifs > EDCF_AIFSN_MAX) { brcms_err(wlc->hw->d11core, "wl%d: edcf_setparams: bad " "aifs %d\n", wlc->pub->unit, acp_shm.aifs); } else { acp_shm.cwmin = params->cw_min; acp_shm.cwmax = params->cw_max; acp_shm.cwcur = acp_shm.cwmin; acp_shm.bslots = bcma_read16(wlc->hw->d11core, D11REGOFFS(tsf_random)) & acp_shm.cwcur; acp_shm.reggap = acp_shm.bslots + acp_shm.aifs; /* Indicate the new params to the ucode */ acp_shm.status = brcms_b_read_shm(wlc->hw, (M_EDCF_QINFO + wme_ac2fifo[aci] * M_EDCF_QLEN + M_EDCF_STATUS_OFF)); acp_shm.status |= WME_STATUS_NEWAC; /* Fill in shm acparam table */ shm_entry = (u16 *) &acp_shm; for (i = 0; i < (int)sizeof(struct shm_acparams); i += 2) brcms_b_write_shm(wlc->hw, M_EDCF_QINFO + wme_ac2fifo[aci] * M_EDCF_QLEN + i, *shm_entry++); } if (suspend) brcms_c_suspend_mac_and_wait(wlc); brcms_c_update_beacon(wlc); brcms_c_update_probe_resp(wlc, false); if (suspend) brcms_c_enable_mac(wlc); } static void brcms_c_edcf_setparams(struct brcms_c_info *wlc, bool suspend) { u16 aci; int i_ac; struct ieee80211_tx_queue_params txq_pars; static const struct edcf_acparam default_edcf_acparams[] = { {EDCF_AC_BE_ACI_STA, EDCF_AC_BE_ECW_STA, EDCF_AC_BE_TXOP_STA}, {EDCF_AC_BK_ACI_STA, EDCF_AC_BK_ECW_STA, EDCF_AC_BK_TXOP_STA}, {EDCF_AC_VI_ACI_STA, EDCF_AC_VI_ECW_STA, EDCF_AC_VI_TXOP_STA}, {EDCF_AC_VO_ACI_STA, EDCF_AC_VO_ECW_STA, EDCF_AC_VO_TXOP_STA} }; /* ucode needs these parameters during its initialization */ const struct edcf_acparam *edcf_acp = &default_edcf_acparams[0]; for (i_ac = 0; i_ac < IEEE80211_NUM_ACS; i_ac++, edcf_acp++) { /* find out which ac this set of params applies to */ aci = (edcf_acp->ACI & EDCF_ACI_MASK) >> EDCF_ACI_SHIFT; /* fill in shm ac params struct */ txq_pars.txop = edcf_acp->TXOP; txq_pars.aifs = edcf_acp->ACI; /* CWmin = 2^(ECWmin) - 1 */ txq_pars.cw_min = EDCF_ECW2CW(edcf_acp->ECW & EDCF_ECWMIN_MASK); /* CWmax = 2^(ECWmax) - 1 */ txq_pars.cw_max = EDCF_ECW2CW((edcf_acp->ECW & EDCF_ECWMAX_MASK) >> EDCF_ECWMAX_SHIFT); brcms_c_wme_setparams(wlc, aci, &txq_pars, suspend); } if (suspend) { brcms_c_suspend_mac_and_wait(wlc); brcms_c_enable_mac(wlc); } } static void brcms_c_radio_monitor_start(struct brcms_c_info *wlc) { /* Don't start the timer if HWRADIO feature is disabled */ if (wlc->radio_monitor) return; wlc->radio_monitor = true; brcms_b_pllreq(wlc->hw, true, BRCMS_PLLREQ_RADIO_MON); brcms_add_timer(wlc->radio_timer, TIMER_INTERVAL_RADIOCHK, true); } static bool brcms_c_radio_monitor_stop(struct brcms_c_info *wlc) { if (!wlc->radio_monitor) return true; wlc->radio_monitor = false; brcms_b_pllreq(wlc->hw, false, BRCMS_PLLREQ_RADIO_MON); return brcms_del_timer(wlc->radio_timer); } /* read hwdisable state and propagate to wlc flag */ static void brcms_c_radio_hwdisable_upd(struct brcms_c_info *wlc) { if (wlc->pub->hw_off) return; if (brcms_b_radio_read_hwdisabled(wlc->hw)) mboolset(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE); else mboolclr(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE); } /* update hwradio status and return it */ bool brcms_c_check_radio_disabled(struct brcms_c_info *wlc) { brcms_c_radio_hwdisable_upd(wlc); return mboolisset(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE) ? true : false; } /* periodical query hw radio button while driver is "down" */ static void brcms_c_radio_timer(void *arg) { struct brcms_c_info *wlc = (struct brcms_c_info *) arg; if (brcms_deviceremoved(wlc)) { brcms_err(wlc->hw->d11core, "wl%d: %s: dead chip\n", wlc->pub->unit, __func__); brcms_down(wlc->wl); return; } brcms_c_radio_hwdisable_upd(wlc); } /* common low-level watchdog code */ static void brcms_b_watchdog(struct brcms_c_info *wlc) { struct brcms_hardware *wlc_hw = wlc->hw; if (!wlc_hw->up) return; /* increment second count */ wlc_hw->now++; /* Check for FIFO error interrupts */ brcms_b_fifoerrors(wlc_hw); /* make sure RX dma has buffers */ dma_rxfill(wlc->hw->di[RX_FIFO]); wlc_phy_watchdog(wlc_hw->band->pi); } /* common watchdog code */ static void brcms_c_watchdog(struct brcms_c_info *wlc) { brcms_dbg_info(wlc->hw->d11core, "wl%d\n", wlc->pub->unit); if (!wlc->pub->up) return; if (brcms_deviceremoved(wlc)) { brcms_err(wlc->hw->d11core, "wl%d: %s: dead chip\n", wlc->pub->unit, __func__); brcms_down(wlc->wl); return; } /* increment second count */ wlc->pub->now++; brcms_c_radio_hwdisable_upd(wlc); /* if radio is disable, driver may be down, quit here */ if (wlc->pub->radio_disabled) return; brcms_b_watchdog(wlc); /* * occasionally sample mac stat counters to * detect 16-bit counter wrap */ if ((wlc->pub->now % SW_TIMER_MAC_STAT_UPD) == 0) brcms_c_statsupd(wlc); if (BRCMS_ISNPHY(wlc->band) && ((wlc->pub->now - wlc->tempsense_lasttime) >= BRCMS_TEMPSENSE_PERIOD)) { wlc->tempsense_lasttime = wlc->pub->now; brcms_c_tempsense_upd(wlc); } } static void brcms_c_watchdog_by_timer(void *arg) { struct brcms_c_info *wlc = (struct brcms_c_info *) arg; brcms_c_watchdog(wlc); } static bool brcms_c_timers_init(struct brcms_c_info *wlc, int unit) { wlc->wdtimer = brcms_init_timer(wlc->wl, brcms_c_watchdog_by_timer, wlc, "watchdog"); if (!wlc->wdtimer) { wiphy_err(wlc->wiphy, "wl%d: wl_init_timer for wdtimer " "failed\n", unit); goto fail; } wlc->radio_timer = brcms_init_timer(wlc->wl, brcms_c_radio_timer, wlc, "radio"); if (!wlc->radio_timer) { wiphy_err(wlc->wiphy, "wl%d: wl_init_timer for radio_timer " "failed\n", unit); goto fail; } return true; fail: return false; } /* * Initialize brcms_c_info default values ... * may get overrides later in this function */ static void brcms_c_info_init(struct brcms_c_info *wlc, int unit) { int i; /* Save our copy of the chanspec */ wlc->chanspec = ch20mhz_chspec(1); /* various 802.11g modes */ wlc->shortslot = false; wlc->shortslot_override = BRCMS_SHORTSLOT_AUTO; brcms_c_protection_upd(wlc, BRCMS_PROT_G_OVR, BRCMS_PROTECTION_AUTO); brcms_c_protection_upd(wlc, BRCMS_PROT_G_SPEC, false); brcms_c_protection_upd(wlc, BRCMS_PROT_N_CFG_OVR, BRCMS_PROTECTION_AUTO); brcms_c_protection_upd(wlc, BRCMS_PROT_N_CFG, BRCMS_N_PROTECTION_OFF); brcms_c_protection_upd(wlc, BRCMS_PROT_N_NONGF_OVR, BRCMS_PROTECTION_AUTO); brcms_c_protection_upd(wlc, BRCMS_PROT_N_NONGF, false); brcms_c_protection_upd(wlc, BRCMS_PROT_N_PAM_OVR, AUTO); brcms_c_protection_upd(wlc, BRCMS_PROT_OVERLAP, BRCMS_PROTECTION_CTL_OVERLAP); /* 802.11g draft 4.0 NonERP elt advertisement */ wlc->include_legacy_erp = true; wlc->stf->ant_rx_ovr = ANT_RX_DIV_DEF; wlc->stf->txant = ANT_TX_DEF; wlc->prb_resp_timeout = BRCMS_PRB_RESP_TIMEOUT; wlc->usr_fragthresh = DOT11_DEFAULT_FRAG_LEN; for (i = 0; i < NFIFO; i++) wlc->fragthresh[i] = DOT11_DEFAULT_FRAG_LEN; wlc->RTSThresh = DOT11_DEFAULT_RTS_LEN; /* default rate fallback retry limits */ wlc->SFBL = RETRY_SHORT_FB; wlc->LFBL = RETRY_LONG_FB; /* default mac retry limits */ wlc->SRL = RETRY_SHORT_DEF; wlc->LRL = RETRY_LONG_DEF; /* WME QoS mode is Auto by default */ wlc->pub->_ampdu = AMPDU_AGG_HOST; } static uint brcms_c_attach_module(struct brcms_c_info *wlc) { uint err = 0; uint unit; unit = wlc->pub->unit; wlc->asi = brcms_c_antsel_attach(wlc); if (wlc->asi == NULL) { wiphy_err(wlc->wiphy, "wl%d: attach: antsel_attach " "failed\n", unit); err = 44; goto fail; } wlc->ampdu = brcms_c_ampdu_attach(wlc); if (wlc->ampdu == NULL) { wiphy_err(wlc->wiphy, "wl%d: attach: ampdu_attach " "failed\n", unit); err = 50; goto fail; } if ((brcms_c_stf_attach(wlc) != 0)) { wiphy_err(wlc->wiphy, "wl%d: attach: stf_attach " "failed\n", unit); err = 68; goto fail; } fail: return err; } struct brcms_pub *brcms_c_pub(struct brcms_c_info *wlc) { return wlc->pub; } /* low level attach * run backplane attach, init nvram * run phy attach * initialize software state for each core and band * put the whole chip in reset(driver down state), no clock */ static int brcms_b_attach(struct brcms_c_info *wlc, struct bcma_device *core, uint unit, bool piomode) { struct brcms_hardware *wlc_hw; uint err = 0; uint j; bool wme = false; struct shared_phy_params sha_params; struct wiphy *wiphy = wlc->wiphy; struct pci_dev *pcidev = core->bus->host_pci; struct ssb_sprom *sprom = &core->bus->sprom; if (core->bus->hosttype == BCMA_HOSTTYPE_PCI) brcms_dbg_info(core, "wl%d: vendor 0x%x device 0x%x\n", unit, pcidev->vendor, pcidev->device); else brcms_dbg_info(core, "wl%d: vendor 0x%x device 0x%x\n", unit, core->bus->boardinfo.vendor, core->bus->boardinfo.type); wme = true; wlc_hw = wlc->hw; wlc_hw->wlc = wlc; wlc_hw->unit = unit; wlc_hw->band = wlc_hw->bandstate[0]; wlc_hw->_piomode = piomode; /* populate struct brcms_hardware with default values */ brcms_b_info_init(wlc_hw); /* * Do the hardware portion of the attach. Also initialize software * state that depends on the particular hardware we are running. */ wlc_hw->sih = ai_attach(core->bus); if (wlc_hw->sih == NULL) { wiphy_err(wiphy, "wl%d: brcms_b_attach: si_attach failed\n", unit); err = 11; goto fail; } /* verify again the device is supported */ if (!brcms_c_chipmatch(core)) { wiphy_err(wiphy, "wl%d: brcms_b_attach: Unsupported device\n", unit); err = 12; goto fail; } if (core->bus->hosttype == BCMA_HOSTTYPE_PCI) { wlc_hw->vendorid = pcidev->vendor; wlc_hw->deviceid = pcidev->device; } else { wlc_hw->vendorid = core->bus->boardinfo.vendor; wlc_hw->deviceid = core->bus->boardinfo.type; } wlc_hw->d11core = core; wlc_hw->corerev = core->id.rev; /* validate chip, chiprev and corerev */ if (!brcms_c_isgoodchip(wlc_hw)) { err = 13; goto fail; } /* initialize power control registers */ ai_clkctl_init(wlc_hw->sih); /* request fastclock and force fastclock for the rest of attach * bring the d11 core out of reset. * For PMU chips, the first wlc_clkctl_clk is no-op since core-clk * is still false; But it will be called again inside wlc_corereset, * after d11 is out of reset. */ brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); brcms_b_corereset(wlc_hw, BRCMS_USE_COREFLAGS); if (!brcms_b_validate_chip_access(wlc_hw)) { wiphy_err(wiphy, "wl%d: brcms_b_attach: validate_chip_access " "failed\n", unit); err = 14; goto fail; } /* get the board rev, used just below */ j = sprom->board_rev; /* promote srom boardrev of 0xFF to 1 */ if (j == BOARDREV_PROMOTABLE) j = BOARDREV_PROMOTED; wlc_hw->boardrev = (u16) j; if (!brcms_c_validboardtype(wlc_hw)) { wiphy_err(wiphy, "wl%d: brcms_b_attach: Unsupported Broadcom " "board type (0x%x)" " or revision level (0x%x)\n", unit, ai_get_boardtype(wlc_hw->sih), wlc_hw->boardrev); err = 15; goto fail; } wlc_hw->sromrev = sprom->revision; wlc_hw->boardflags = sprom->boardflags_lo + (sprom->boardflags_hi << 16); wlc_hw->boardflags2 = sprom->boardflags2_lo + (sprom->boardflags2_hi << 16); if (wlc_hw->boardflags & BFL_NOPLLDOWN) brcms_b_pllreq(wlc_hw, true, BRCMS_PLLREQ_SHARED); /* check device id(srom, nvram etc.) to set bands */ if (wlc_hw->deviceid == BCM43224_D11N_ID || wlc_hw->deviceid == BCM43224_D11N_ID_VEN1 || wlc_hw->deviceid == BCM43224_CHIP_ID) /* Dualband boards */ wlc_hw->_nbands = 2; else wlc_hw->_nbands = 1; if ((ai_get_chip_id(wlc_hw->sih) == BCMA_CHIP_ID_BCM43225)) wlc_hw->_nbands = 1; /* BMAC_NOTE: remove init of pub values when brcms_c_attach() * unconditionally does the init of these values */ wlc->vendorid = wlc_hw->vendorid; wlc->deviceid = wlc_hw->deviceid; wlc->pub->sih = wlc_hw->sih; wlc->pub->corerev = wlc_hw->corerev; wlc->pub->sromrev = wlc_hw->sromrev; wlc->pub->boardrev = wlc_hw->boardrev; wlc->pub->boardflags = wlc_hw->boardflags; wlc->pub->boardflags2 = wlc_hw->boardflags2; wlc->pub->_nbands = wlc_hw->_nbands; wlc_hw->physhim = wlc_phy_shim_attach(wlc_hw, wlc->wl, wlc); if (wlc_hw->physhim == NULL) { wiphy_err(wiphy, "wl%d: brcms_b_attach: wlc_phy_shim_attach " "failed\n", unit); err = 25; goto fail; } /* pass all the parameters to wlc_phy_shared_attach in one struct */ sha_params.sih = wlc_hw->sih; sha_params.physhim = wlc_hw->physhim; sha_params.unit = unit; sha_params.corerev = wlc_hw->corerev; sha_params.vid = wlc_hw->vendorid; sha_params.did = wlc_hw->deviceid; sha_params.chip = ai_get_chip_id(wlc_hw->sih); sha_params.chiprev = ai_get_chiprev(wlc_hw->sih); sha_params.chippkg = ai_get_chippkg(wlc_hw->sih); sha_params.sromrev = wlc_hw->sromrev; sha_params.boardtype = ai_get_boardtype(wlc_hw->sih); sha_params.boardrev = wlc_hw->boardrev; sha_params.boardflags = wlc_hw->boardflags; sha_params.boardflags2 = wlc_hw->boardflags2; /* alloc and save pointer to shared phy state area */ wlc_hw->phy_sh = wlc_phy_shared_attach(&sha_params); if (!wlc_hw->phy_sh) { err = 16; goto fail; } /* initialize software state for each core and band */ for (j = 0; j < wlc_hw->_nbands; j++) { /* * band0 is always 2.4Ghz * band1, if present, is 5Ghz */ brcms_c_setxband(wlc_hw, j); wlc_hw->band->bandunit = j; wlc_hw->band->bandtype = j ? BRCM_BAND_5G : BRCM_BAND_2G; wlc->band->bandunit = j; wlc->band->bandtype = j ? BRCM_BAND_5G : BRCM_BAND_2G; wlc->core->coreidx = core->core_index; wlc_hw->machwcap = bcma_read32(core, D11REGOFFS(machwcap)); wlc_hw->machwcap_backup = wlc_hw->machwcap; /* init tx fifo size */ WARN_ON(wlc_hw->corerev < XMTFIFOTBL_STARTREV || (wlc_hw->corerev - XMTFIFOTBL_STARTREV) > ARRAY_SIZE(xmtfifo_sz)); wlc_hw->xmtfifo_sz = xmtfifo_sz[(wlc_hw->corerev - XMTFIFOTBL_STARTREV)]; WARN_ON(!wlc_hw->xmtfifo_sz[0]); /* Get a phy for this band */ wlc_hw->band->pi = wlc_phy_attach(wlc_hw->phy_sh, core, wlc_hw->band->bandtype, wlc->wiphy); if (wlc_hw->band->pi == NULL) { wiphy_err(wiphy, "wl%d: brcms_b_attach: wlc_phy_" "attach failed\n", unit); err = 17; goto fail; } wlc_phy_machwcap_set(wlc_hw->band->pi, wlc_hw->machwcap); wlc_phy_get_phyversion(wlc_hw->band->pi, &wlc_hw->band->phytype, &wlc_hw->band->phyrev, &wlc_hw->band->radioid, &wlc_hw->band->radiorev); wlc_hw->band->abgphy_encore = wlc_phy_get_encore(wlc_hw->band->pi); wlc->band->abgphy_encore = wlc_phy_get_encore(wlc_hw->band->pi); wlc_hw->band->core_flags = wlc_phy_get_coreflags(wlc_hw->band->pi); /* verify good phy_type & supported phy revision */ if (BRCMS_ISNPHY(wlc_hw->band)) { if (NCONF_HAS(wlc_hw->band->phyrev)) goto good_phy; else goto bad_phy; } else if (BRCMS_ISLCNPHY(wlc_hw->band)) { if (LCNCONF_HAS(wlc_hw->band->phyrev)) goto good_phy; else goto bad_phy; } else { bad_phy: wiphy_err(wiphy, "wl%d: brcms_b_attach: unsupported " "phy type/rev (%d/%d)\n", unit, wlc_hw->band->phytype, wlc_hw->band->phyrev); err = 18; goto fail; } good_phy: /* * BMAC_NOTE: wlc->band->pi should not be set below and should * be done in the high level attach. However we can not make * that change until all low level access is changed to * wlc_hw->band->pi. Instead do the wlc->band->pi init below, * keeping wlc_hw->band->pi as well for incremental update of * low level fns, and cut over low only init when all fns * updated. */ wlc->band->pi = wlc_hw->band->pi; wlc->band->phytype = wlc_hw->band->phytype; wlc->band->phyrev = wlc_hw->band->phyrev; wlc->band->radioid = wlc_hw->band->radioid; wlc->band->radiorev = wlc_hw->band->radiorev; brcms_dbg_info(core, "wl%d: phy %u/%u radio %x/%u\n", unit, wlc->band->phytype, wlc->band->phyrev, wlc->band->radioid, wlc->band->radiorev); /* default contention windows size limits */ wlc_hw->band->CWmin = APHY_CWMIN; wlc_hw->band->CWmax = PHY_CWMAX; if (!brcms_b_attach_dmapio(wlc, j, wme)) { err = 19; goto fail; } } /* disable core to match driver "down" state */ brcms_c_coredisable(wlc_hw); /* Match driver "down" state */ bcma_host_pci_down(wlc_hw->d11core->bus); /* turn off pll and xtal to match driver "down" state */ brcms_b_xtal(wlc_hw, OFF); /* ******************************************************************* * The hardware is in the DOWN state at this point. D11 core * or cores are in reset with clocks off, and the board PLLs * are off if possible. * * Beyond this point, wlc->sbclk == false and chip registers * should not be touched. ********************************************************************* */ /* init etheraddr state variables */ brcms_c_get_macaddr(wlc_hw, wlc_hw->etheraddr); if (is_broadcast_ether_addr(wlc_hw->etheraddr) || is_zero_ether_addr(wlc_hw->etheraddr)) { wiphy_err(wiphy, "wl%d: brcms_b_attach: bad macaddr\n", unit); err = 22; goto fail; } brcms_dbg_info(wlc_hw->d11core, "deviceid 0x%x nbands %d board 0x%x\n", wlc_hw->deviceid, wlc_hw->_nbands, ai_get_boardtype(wlc_hw->sih)); return err; fail: wiphy_err(wiphy, "wl%d: brcms_b_attach: failed with err %d\n", unit, err); return err; } static bool brcms_c_attach_stf_ant_init(struct brcms_c_info *wlc) { int aa; uint unit; int bandtype; struct ssb_sprom *sprom = &wlc->hw->d11core->bus->sprom; unit = wlc->pub->unit; bandtype = wlc->band->bandtype; /* get antennas available */ if (bandtype == BRCM_BAND_5G) aa = sprom->ant_available_a; else aa = sprom->ant_available_bg; if ((aa < 1) || (aa > 15)) { wiphy_err(wlc->wiphy, "wl%d: %s: Invalid antennas available in" " srom (0x%x), using 3\n", unit, __func__, aa); aa = 3; } /* reset the defaults if we have a single antenna */ if (aa == 1) { wlc->stf->ant_rx_ovr = ANT_RX_DIV_FORCE_0; wlc->stf->txant = ANT_TX_FORCE_0; } else if (aa == 2) { wlc->stf->ant_rx_ovr = ANT_RX_DIV_FORCE_1; wlc->stf->txant = ANT_TX_FORCE_1; } else { } /* Compute Antenna Gain */ if (bandtype == BRCM_BAND_5G) wlc->band->antgain = sprom->antenna_gain.a1; else wlc->band->antgain = sprom->antenna_gain.a0; return true; } static void brcms_c_bss_default_init(struct brcms_c_info *wlc) { u16 chanspec; struct brcms_band *band; struct brcms_bss_info *bi = wlc->default_bss; /* init default and target BSS with some sane initial values */ memset(bi, 0, sizeof(*bi)); bi->beacon_period = BEACON_INTERVAL_DEFAULT; /* fill the default channel as the first valid channel * starting from the 2G channels */ chanspec = ch20mhz_chspec(1); wlc->home_chanspec = bi->chanspec = chanspec; /* find the band of our default channel */ band = wlc->band; if (wlc->pub->_nbands > 1 && band->bandunit != chspec_bandunit(chanspec)) band = wlc->bandstate[OTHERBANDUNIT(wlc)]; /* init bss rates to the band specific default rate set */ brcms_c_rateset_default(&bi->rateset, NULL, band->phytype, band->bandtype, false, BRCMS_RATE_MASK_FULL, (bool) (wlc->pub->_n_enab & SUPPORT_11N), brcms_chspec_bw(chanspec), wlc->stf->txstreams); if (wlc->pub->_n_enab & SUPPORT_11N) bi->flags |= BRCMS_BSS_HT; } static void brcms_c_update_mimo_band_bwcap(struct brcms_c_info *wlc, u8 bwcap) { uint i; struct brcms_band *band; for (i = 0; i < wlc->pub->_nbands; i++) { band = wlc->bandstate[i]; if (band->bandtype == BRCM_BAND_5G) { if ((bwcap == BRCMS_N_BW_40ALL) || (bwcap == BRCMS_N_BW_20IN2G_40IN5G)) band->mimo_cap_40 = true; else band->mimo_cap_40 = false; } else { if (bwcap == BRCMS_N_BW_40ALL) band->mimo_cap_40 = true; else band->mimo_cap_40 = false; } } } static void brcms_c_timers_deinit(struct brcms_c_info *wlc) { /* free timer state */ if (wlc->wdtimer) { brcms_free_timer(wlc->wdtimer); wlc->wdtimer = NULL; } if (wlc->radio_timer) { brcms_free_timer(wlc->radio_timer); wlc->radio_timer = NULL; } } static void brcms_c_detach_module(struct brcms_c_info *wlc) { if (wlc->asi) { brcms_c_antsel_detach(wlc->asi); wlc->asi = NULL; } if (wlc->ampdu) { brcms_c_ampdu_detach(wlc->ampdu); wlc->ampdu = NULL; } brcms_c_stf_detach(wlc); } /* * low level detach */ static void brcms_b_detach(struct brcms_c_info *wlc) { uint i; struct brcms_hw_band *band; struct brcms_hardware *wlc_hw = wlc->hw; brcms_b_detach_dmapio(wlc_hw); band = wlc_hw->band; for (i = 0; i < wlc_hw->_nbands; i++) { if (band->pi) { /* Detach this band's phy */ wlc_phy_detach(band->pi); band->pi = NULL; } band = wlc_hw->bandstate[OTHERBANDUNIT(wlc)]; } /* Free shared phy state */ kfree(wlc_hw->phy_sh); wlc_phy_shim_detach(wlc_hw->physhim); if (wlc_hw->sih) { ai_detach(wlc_hw->sih); wlc_hw->sih = NULL; } } /* * Return a count of the number of driver callbacks still pending. * * General policy is that brcms_c_detach can only dealloc/free software states. * It can NOT touch hardware registers since the d11core may be in reset and * clock may not be available. * One exception is sb register access, which is possible if crystal is turned * on after "down" state, driver should avoid software timer with the exception * of radio_monitor. */ uint brcms_c_detach(struct brcms_c_info *wlc) { uint callbacks; if (wlc == NULL) return 0; brcms_b_detach(wlc); /* delete software timers */ callbacks = 0; if (!brcms_c_radio_monitor_stop(wlc)) callbacks++; brcms_c_channel_mgr_detach(wlc->cmi); brcms_c_timers_deinit(wlc); brcms_c_detach_module(wlc); brcms_c_detach_mfree(wlc); return callbacks; } /* update state that depends on the current value of "ap" */ static void brcms_c_ap_upd(struct brcms_c_info *wlc) { /* STA-BSS; short capable */ wlc->PLCPHdr_override = BRCMS_PLCP_SHORT; } /* Initialize just the hardware when coming out of POR or S3/S5 system states */ static void brcms_b_hw_up(struct brcms_hardware *wlc_hw) { if (wlc_hw->wlc->pub->hw_up) return; brcms_dbg_info(wlc_hw->d11core, "wl%d\n", wlc_hw->unit); /* * Enable pll and xtal, initialize the power control registers, * and force fastclock for the remainder of brcms_c_up(). */ brcms_b_xtal(wlc_hw, ON); ai_clkctl_init(wlc_hw->sih); brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); /* * TODO: test suspend/resume * * AI chip doesn't restore bar0win2 on * hibernation/resume, need sw fixup */ /* * Inform phy that a POR reset has occurred so * it does a complete phy init */ wlc_phy_por_inform(wlc_hw->band->pi); wlc_hw->ucode_loaded = false; wlc_hw->wlc->pub->hw_up = true; if ((wlc_hw->boardflags & BFL_FEM) && (ai_get_chip_id(wlc_hw->sih) == BCMA_CHIP_ID_BCM4313)) { if (! (wlc_hw->boardrev >= 0x1250 && (wlc_hw->boardflags & BFL_FEM_BT))) ai_epa_4313war(wlc_hw->sih); } } static int brcms_b_up_prep(struct brcms_hardware *wlc_hw) { brcms_dbg_info(wlc_hw->d11core, "wl%d\n", wlc_hw->unit); /* * Enable pll and xtal, initialize the power control registers, * and force fastclock for the remainder of brcms_c_up(). */ brcms_b_xtal(wlc_hw, ON); ai_clkctl_init(wlc_hw->sih); brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); /* * Configure pci/pcmcia here instead of in brcms_c_attach() * to allow mfg hotswap: down, hotswap (chip power cycle), up. */ bcma_host_pci_irq_ctl(wlc_hw->d11core->bus, wlc_hw->d11core, true); /* * Need to read the hwradio status here to cover the case where the * system is loaded with the hw radio disabled. We do not want to * bring the driver up in this case. */ if (brcms_b_radio_read_hwdisabled(wlc_hw)) { /* put SB PCI in down state again */ bcma_host_pci_down(wlc_hw->d11core->bus); brcms_b_xtal(wlc_hw, OFF); return -ENOMEDIUM; } bcma_host_pci_up(wlc_hw->d11core->bus); /* reset the d11 core */ brcms_b_corereset(wlc_hw, BRCMS_USE_COREFLAGS); return 0; } static int brcms_b_up_finish(struct brcms_hardware *wlc_hw) { wlc_hw->up = true; wlc_phy_hw_state_upd(wlc_hw->band->pi, true); /* FULLY enable dynamic power control and d11 core interrupt */ brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_DYNAMIC); brcms_intrson(wlc_hw->wlc->wl); return 0; } /* * Write WME tunable parameters for retransmit/max rate * from wlc struct to ucode */ static void brcms_c_wme_retries_write(struct brcms_c_info *wlc) { int ac; /* Need clock to do this */ if (!wlc->clk) return; for (ac = 0; ac < IEEE80211_NUM_ACS; ac++) brcms_b_write_shm(wlc->hw, M_AC_TXLMT_ADDR(ac), wlc->wme_retries[ac]); } /* make interface operational */ int brcms_c_up(struct brcms_c_info *wlc) { struct ieee80211_channel *ch; brcms_dbg_info(wlc->hw->d11core, "wl%d\n", wlc->pub->unit); /* HW is turned off so don't try to access it */ if (wlc->pub->hw_off || brcms_deviceremoved(wlc)) return -ENOMEDIUM; if (!wlc->pub->hw_up) { brcms_b_hw_up(wlc->hw); wlc->pub->hw_up = true; } if ((wlc->pub->boardflags & BFL_FEM) && (ai_get_chip_id(wlc->hw->sih) == BCMA_CHIP_ID_BCM4313)) { if (wlc->pub->boardrev >= 0x1250 && (wlc->pub->boardflags & BFL_FEM_BT)) brcms_b_mhf(wlc->hw, MHF5, MHF5_4313_GPIOCTRL, MHF5_4313_GPIOCTRL, BRCM_BAND_ALL); else brcms_b_mhf(wlc->hw, MHF4, MHF4_EXTPA_ENABLE, MHF4_EXTPA_ENABLE, BRCM_BAND_ALL); } /* * Need to read the hwradio status here to cover the case where the * system is loaded with the hw radio disabled. We do not want to bring * the driver up in this case. If radio is disabled, abort up, lower * power, start radio timer and return 0(for NDIS) don't call * radio_update to avoid looping brcms_c_up. * * brcms_b_up_prep() returns either 0 or -BCME_RADIOOFF only */ if (!wlc->pub->radio_disabled) { int status = brcms_b_up_prep(wlc->hw); if (status == -ENOMEDIUM) { if (!mboolisset (wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE)) { struct brcms_bss_cfg *bsscfg = wlc->bsscfg; mboolset(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE); if (bsscfg->type == BRCMS_TYPE_STATION || bsscfg->type == BRCMS_TYPE_ADHOC) brcms_err(wlc->hw->d11core, "wl%d: up: rfdisable -> " "bsscfg_disable()\n", wlc->pub->unit); } } } if (wlc->pub->radio_disabled) { brcms_c_radio_monitor_start(wlc); return 0; } /* brcms_b_up_prep has done brcms_c_corereset(). so clk is on, set it */ wlc->clk = true; brcms_c_radio_monitor_stop(wlc); /* Set EDCF hostflags */ brcms_b_mhf(wlc->hw, MHF1, MHF1_EDCF, MHF1_EDCF, BRCM_BAND_ALL); brcms_init(wlc->wl); wlc->pub->up = true; if (wlc->bandinit_pending) { ch = wlc->pub->ieee_hw->conf.chandef.chan; brcms_c_suspend_mac_and_wait(wlc); brcms_c_set_chanspec(wlc, ch20mhz_chspec(ch->hw_value)); wlc->bandinit_pending = false; brcms_c_enable_mac(wlc); } brcms_b_up_finish(wlc->hw); /* Program the TX wme params with the current settings */ brcms_c_wme_retries_write(wlc); /* start one second watchdog timer */ brcms_add_timer(wlc->wdtimer, TIMER_INTERVAL_WATCHDOG, true); wlc->WDarmed = true; /* ensure antenna config is up to date */ brcms_c_stf_phy_txant_upd(wlc); /* ensure LDPC config is in sync */ brcms_c_ht_update_ldpc(wlc, wlc->stf->ldpc); return 0; } static int brcms_b_bmac_down_prep(struct brcms_hardware *wlc_hw) { bool dev_gone; uint callbacks = 0; if (!wlc_hw->up) return callbacks; dev_gone = brcms_deviceremoved(wlc_hw->wlc); /* disable interrupts */ if (dev_gone) wlc_hw->wlc->macintmask = 0; else { /* now disable interrupts */ brcms_intrsoff(wlc_hw->wlc->wl); /* ensure we're running on the pll clock again */ brcms_b_clkctl_clk(wlc_hw, BCMA_CLKMODE_FAST); } /* down phy at the last of this stage */ callbacks += wlc_phy_down(wlc_hw->band->pi); return callbacks; } static int brcms_b_down_finish(struct brcms_hardware *wlc_hw) { uint callbacks = 0; bool dev_gone; if (!wlc_hw->up) return callbacks; wlc_hw->up = false; wlc_phy_hw_state_upd(wlc_hw->band->pi, false); dev_gone = brcms_deviceremoved(wlc_hw->wlc); if (dev_gone) { wlc_hw->sbclk = false; wlc_hw->clk = false; wlc_phy_hw_clk_state_upd(wlc_hw->band->pi, false); /* reclaim any posted packets */ brcms_c_flushqueues(wlc_hw->wlc); } else { /* Reset and disable the core */ if (bcma_core_is_enabled(wlc_hw->d11core)) { if (bcma_read32(wlc_hw->d11core, D11REGOFFS(maccontrol)) & MCTL_EN_MAC) brcms_c_suspend_mac_and_wait(wlc_hw->wlc); callbacks += brcms_reset(wlc_hw->wlc->wl); brcms_c_coredisable(wlc_hw); } /* turn off primary xtal and pll */ if (!wlc_hw->noreset) { bcma_host_pci_down(wlc_hw->d11core->bus); brcms_b_xtal(wlc_hw, OFF); } } return callbacks; } /* * Mark the interface nonoperational, stop the software mechanisms, * disable the hardware, free any transient buffer state. * Return a count of the number of driver callbacks still pending. */ uint brcms_c_down(struct brcms_c_info *wlc) { uint callbacks = 0; int i; brcms_dbg_info(wlc->hw->d11core, "wl%d\n", wlc->pub->unit); /* check if we are already in the going down path */ if (wlc->going_down) { brcms_err(wlc->hw->d11core, "wl%d: %s: Driver going down so return\n", wlc->pub->unit, __func__); return 0; } if (!wlc->pub->up) return callbacks; wlc->going_down = true; callbacks += brcms_b_bmac_down_prep(wlc->hw); brcms_deviceremoved(wlc); /* Call any registered down handlers */ for (i = 0; i < BRCMS_MAXMODULES; i++) { if (wlc->modulecb[i].down_fn) callbacks += wlc->modulecb[i].down_fn(wlc->modulecb[i].hdl); } /* cancel the watchdog timer */ if (wlc->WDarmed) { if (!brcms_del_timer(wlc->wdtimer)) callbacks++; wlc->WDarmed = false; } wlc->pub->up = false; wlc_phy_mute_upd(wlc->band->pi, false, PHY_MUTE_ALL); callbacks += brcms_b_down_finish(wlc->hw); /* brcms_b_down_finish has done brcms_c_coredisable(). so clk is off */ wlc->clk = false; wlc->going_down = false; return callbacks; } /* Set the current gmode configuration */ int brcms_c_set_gmode(struct brcms_c_info *wlc, u8 gmode, bool config) { int ret = 0; uint i; struct brcms_c_rateset rs; /* Default to 54g Auto */ /* Advertise and use shortslot (-1/0/1 Auto/Off/On) */ s8 shortslot = BRCMS_SHORTSLOT_AUTO; bool ofdm_basic = false; /* Make 6, 12, and 24 basic rates */ struct brcms_band *band; /* if N-support is enabled, allow Gmode set as long as requested * Gmode is not GMODE_LEGACY_B */ if ((wlc->pub->_n_enab & SUPPORT_11N) && gmode == GMODE_LEGACY_B) return -ENOTSUPP; /* verify that we are dealing with 2G band and grab the band pointer */ if (wlc->band->bandtype == BRCM_BAND_2G) band = wlc->band; else if ((wlc->pub->_nbands > 1) && (wlc->bandstate[OTHERBANDUNIT(wlc)]->bandtype == BRCM_BAND_2G)) band = wlc->bandstate[OTHERBANDUNIT(wlc)]; else return -EINVAL; /* update configuration value */ if (config) brcms_c_protection_upd(wlc, BRCMS_PROT_G_USER, gmode); /* Clear rateset override */ memset(&rs, 0, sizeof(rs)); switch (gmode) { case GMODE_LEGACY_B: shortslot = BRCMS_SHORTSLOT_OFF; brcms_c_rateset_copy(&gphy_legacy_rates, &rs); break; case GMODE_LRS: break; case GMODE_AUTO: /* Accept defaults */ break; case GMODE_ONLY: ofdm_basic = true; break; case GMODE_PERFORMANCE: shortslot = BRCMS_SHORTSLOT_ON; ofdm_basic = true; break; default: /* Error */ brcms_err(wlc->hw->d11core, "wl%d: %s: invalid gmode %d\n", wlc->pub->unit, __func__, gmode); return -ENOTSUPP; } band->gmode = gmode; wlc->shortslot_override = shortslot; /* Use the default 11g rateset */ if (!rs.count) brcms_c_rateset_copy(&cck_ofdm_rates, &rs); if (ofdm_basic) { for (i = 0; i < rs.count; i++) { if (rs.rates[i] == BRCM_RATE_6M || rs.rates[i] == BRCM_RATE_12M || rs.rates[i] == BRCM_RATE_24M) rs.rates[i] |= BRCMS_RATE_FLAG; } } /* Set default bss rateset */ wlc->default_bss->rateset.count = rs.count; memcpy(wlc->default_bss->rateset.rates, rs.rates, sizeof(wlc->default_bss->rateset.rates)); return ret; } int brcms_c_set_nmode(struct brcms_c_info *wlc) { uint i; s32 nmode = AUTO; if (wlc->stf->txstreams == WL_11N_3x3) nmode = WL_11N_3x3; else nmode = WL_11N_2x2; /* force GMODE_AUTO if NMODE is ON */ brcms_c_set_gmode(wlc, GMODE_AUTO, true); if (nmode == WL_11N_3x3) wlc->pub->_n_enab = SUPPORT_HT; else wlc->pub->_n_enab = SUPPORT_11N; wlc->default_bss->flags |= BRCMS_BSS_HT; /* add the mcs rates to the default and hw ratesets */ brcms_c_rateset_mcs_build(&wlc->default_bss->rateset, wlc->stf->txstreams); for (i = 0; i < wlc->pub->_nbands; i++) memcpy(wlc->bandstate[i]->hw_rateset.mcs, wlc->default_bss->rateset.mcs, MCSSET_LEN); return 0; } static int brcms_c_set_internal_rateset(struct brcms_c_info *wlc, struct brcms_c_rateset *rs_arg) { struct brcms_c_rateset rs, new; uint bandunit; memcpy(&rs, rs_arg, sizeof(struct brcms_c_rateset)); /* check for bad count value */ if ((rs.count == 0) || (rs.count > BRCMS_NUMRATES)) return -EINVAL; /* try the current band */ bandunit = wlc->band->bandunit; memcpy(&new, &rs, sizeof(struct brcms_c_rateset)); if (brcms_c_rate_hwrs_filter_sort_validate (&new, &wlc->bandstate[bandunit]->hw_rateset, true, wlc->stf->txstreams)) goto good; /* try the other band */ if (brcms_is_mband_unlocked(wlc)) { bandunit = OTHERBANDUNIT(wlc); memcpy(&new, &rs, sizeof(struct brcms_c_rateset)); if (brcms_c_rate_hwrs_filter_sort_validate(&new, &wlc-> bandstate[bandunit]-> hw_rateset, true, wlc->stf->txstreams)) goto good; } return -EBADE; good: /* apply new rateset */ memcpy(&wlc->default_bss->rateset, &new, sizeof(struct brcms_c_rateset)); memcpy(&wlc->bandstate[bandunit]->defrateset, &new, sizeof(struct brcms_c_rateset)); return 0; } static void brcms_c_ofdm_rateset_war(struct brcms_c_info *wlc) { wlc_phy_ofdm_rateset_war(wlc->band->pi, false); } int brcms_c_set_channel(struct brcms_c_info *wlc, u16 channel) { u16 chspec = ch20mhz_chspec(channel); if (channel > MAXCHANNEL) return -EINVAL; if (!brcms_c_valid_chanspec_db(wlc->cmi, chspec)) return -EINVAL; if (!wlc->pub->up && brcms_is_mband_unlocked(wlc)) { if (wlc->band->bandunit != chspec_bandunit(chspec)) wlc->bandinit_pending = true; else wlc->bandinit_pending = false; } wlc->default_bss->chanspec = chspec; /* brcms_c_BSSinit() will sanitize the rateset before * using it.. */ if (wlc->pub->up && (wlc_phy_chanspec_get(wlc->band->pi) != chspec)) { brcms_c_set_home_chanspec(wlc, chspec); brcms_c_suspend_mac_and_wait(wlc); brcms_c_set_chanspec(wlc, chspec); brcms_c_enable_mac(wlc); } return 0; } int brcms_c_set_rate_limit(struct brcms_c_info *wlc, u16 srl, u16 lrl) { int ac; if (srl < 1 || srl > RETRY_SHORT_MAX || lrl < 1 || lrl > RETRY_SHORT_MAX) return -EINVAL; wlc->SRL = srl; wlc->LRL = lrl; brcms_b_retrylimit_upd(wlc->hw, wlc->SRL, wlc->LRL); for (ac = 0; ac < IEEE80211_NUM_ACS; ac++) { wlc->wme_retries[ac] = SFIELD(wlc->wme_retries[ac], EDCF_SHORT, wlc->SRL); wlc->wme_retries[ac] = SFIELD(wlc->wme_retries[ac], EDCF_LONG, wlc->LRL); } brcms_c_wme_retries_write(wlc); return 0; } void brcms_c_get_current_rateset(struct brcms_c_info *wlc, struct brcm_rateset *currs) { struct brcms_c_rateset *rs; if (wlc->pub->associated) rs = &wlc->bsscfg->current_bss->rateset; else rs = &wlc->default_bss->rateset; /* Copy only legacy rateset section */ currs->count = rs->count; memcpy(&currs->rates, &rs->rates, rs->count); } int brcms_c_set_rateset(struct brcms_c_info *wlc, struct brcm_rateset *rs) { struct brcms_c_rateset internal_rs; int bcmerror; if (rs->count > BRCMS_NUMRATES) return -ENOBUFS; memset(&internal_rs, 0, sizeof(internal_rs)); /* Copy only legacy rateset section */ internal_rs.count = rs->count; memcpy(&internal_rs.rates, &rs->rates, internal_rs.count); /* merge rateset coming in with the current mcsset */ if (wlc->pub->_n_enab & SUPPORT_11N) { struct brcms_bss_info *mcsset_bss; if (wlc->pub->associated) mcsset_bss = wlc->bsscfg->current_bss; else mcsset_bss = wlc->default_bss; memcpy(internal_rs.mcs, &mcsset_bss->rateset.mcs[0], MCSSET_LEN); } bcmerror = brcms_c_set_internal_rateset(wlc, &internal_rs); if (!bcmerror) brcms_c_ofdm_rateset_war(wlc); return bcmerror; } static void brcms_c_time_lock(struct brcms_c_info *wlc) { bcma_set32(wlc->hw->d11core, D11REGOFFS(maccontrol), MCTL_TBTTHOLD); /* Commit the write */ bcma_read32(wlc->hw->d11core, D11REGOFFS(maccontrol)); } static void brcms_c_time_unlock(struct brcms_c_info *wlc) { bcma_mask32(wlc->hw->d11core, D11REGOFFS(maccontrol), ~MCTL_TBTTHOLD); /* Commit the write */ bcma_read32(wlc->hw->d11core, D11REGOFFS(maccontrol)); } int brcms_c_set_beacon_period(struct brcms_c_info *wlc, u16 period) { u32 bcnint_us; if (period == 0) return -EINVAL; wlc->default_bss->beacon_period = period; bcnint_us = period << 10; brcms_c_time_lock(wlc); bcma_write32(wlc->hw->d11core, D11REGOFFS(tsf_cfprep), (bcnint_us << CFPREP_CBI_SHIFT)); bcma_write32(wlc->hw->d11core, D11REGOFFS(tsf_cfpstart), bcnint_us); brcms_c_time_unlock(wlc); return 0; } u16 brcms_c_get_phy_type(struct brcms_c_info *wlc, int phyidx) { return wlc->band->phytype; } void brcms_c_set_shortslot_override(struct brcms_c_info *wlc, s8 sslot_override) { wlc->shortslot_override = sslot_override; /* * shortslot is an 11g feature, so no more work if we are * currently on the 5G band */ if (wlc->band->bandtype == BRCM_BAND_5G) return; if (wlc->pub->up && wlc->pub->associated) { /* let watchdog or beacon processing update shortslot */ } else if (wlc->pub->up) { /* unassociated shortslot is off */ brcms_c_switch_shortslot(wlc, false); } else { /* driver is down, so just update the brcms_c_info * value */ if (wlc->shortslot_override == BRCMS_SHORTSLOT_AUTO) wlc->shortslot = false; else wlc->shortslot = (wlc->shortslot_override == BRCMS_SHORTSLOT_ON); } } /* * register watchdog and down handlers. */ int brcms_c_module_register(struct brcms_pub *pub, const char *name, struct brcms_info *hdl, int (*d_fn)(void *handle)) { struct brcms_c_info *wlc = (struct brcms_c_info *) pub->wlc; int i; /* find an empty entry and just add, no duplication check! */ for (i = 0; i < BRCMS_MAXMODULES; i++) { if (wlc->modulecb[i].name[0] == '\0') { strncpy(wlc->modulecb[i].name, name, sizeof(wlc->modulecb[i].name) - 1); wlc->modulecb[i].hdl = hdl; wlc->modulecb[i].down_fn = d_fn; return 0; } } return -ENOSR; } /* unregister module callbacks */ int brcms_c_module_unregister(struct brcms_pub *pub, const char *name, struct brcms_info *hdl) { struct brcms_c_info *wlc = (struct brcms_c_info *) pub->wlc; int i; if (wlc == NULL) return -ENODATA; for (i = 0; i < BRCMS_MAXMODULES; i++) { if (!strcmp(wlc->modulecb[i].name, name) && (wlc->modulecb[i].hdl == hdl)) { memset(&wlc->modulecb[i], 0, sizeof(wlc->modulecb[i])); return 0; } } /* table not found! */ return -ENODATA; } static bool brcms_c_chipmatch_pci(struct bcma_device *core) { struct pci_dev *pcidev = core->bus->host_pci; u16 vendor = pcidev->vendor; u16 device = pcidev->device; if (vendor != PCI_VENDOR_ID_BROADCOM) { pr_err("unknown vendor id %04x\n", vendor); return false; } if (device == BCM43224_D11N_ID_VEN1 || device == BCM43224_CHIP_ID) return true; if ((device == BCM43224_D11N_ID) || (device == BCM43225_D11N2G_ID)) return true; if (device == BCM4313_D11N2G_ID || device == BCM4313_CHIP_ID) return true; if ((device == BCM43236_D11N_ID) || (device == BCM43236_D11N2G_ID)) return true; pr_err("unknown device id %04x\n", device); return false; } static bool brcms_c_chipmatch_soc(struct bcma_device *core) { struct bcma_chipinfo *chipinfo = &core->bus->chipinfo; if (chipinfo->id == BCMA_CHIP_ID_BCM4716) return true; pr_err("unknown chip id %04x\n", chipinfo->id); return false; } bool brcms_c_chipmatch(struct bcma_device *core) { switch (core->bus->hosttype) { case BCMA_HOSTTYPE_PCI: return brcms_c_chipmatch_pci(core); case BCMA_HOSTTYPE_SOC: return brcms_c_chipmatch_soc(core); default: pr_err("unknown host type: %i\n", core->bus->hosttype); return false; } } u16 brcms_b_rate_shm_offset(struct brcms_hardware *wlc_hw, u8 rate) { u16 table_ptr; u8 phy_rate, index; /* get the phy specific rate encoding for the PLCP SIGNAL field */ if (is_ofdm_rate(rate)) table_ptr = M_RT_DIRMAP_A; else table_ptr = M_RT_DIRMAP_B; /* for a given rate, the LS-nibble of the PLCP SIGNAL field is * the index into the rate table. */ phy_rate = rate_info[rate] & BRCMS_RATE_MASK; index = phy_rate & 0xf; /* Find the SHM pointer to the rate table entry by looking in the * Direct-map Table */ return 2 * brcms_b_read_shm(wlc_hw, table_ptr + (index * 2)); } /* * bcmc_fid_generate: * Generate frame ID for a BCMC packet. The frag field is not used * for MC frames so is used as part of the sequence number. */ static inline u16 bcmc_fid_generate(struct brcms_c_info *wlc, struct brcms_bss_cfg *bsscfg, struct d11txh *txh) { u16 frameid; frameid = le16_to_cpu(txh->TxFrameID) & ~(TXFID_SEQ_MASK | TXFID_QUEUE_MASK); frameid |= (((wlc-> mc_fid_counter++) << TXFID_SEQ_SHIFT) & TXFID_SEQ_MASK) | TX_BCMC_FIFO; return frameid; } static uint brcms_c_calc_ack_time(struct brcms_c_info *wlc, u32 rspec, u8 preamble_type) { uint dur = 0; /* * Spec 9.6: ack rate is the highest rate in BSSBasicRateSet that * is less than or equal to the rate of the immediately previous * frame in the FES */ rspec = brcms_basic_rate(wlc, rspec); /* ACK frame len == 14 == 2(fc) + 2(dur) + 6(ra) + 4(fcs) */ dur = brcms_c_calc_frame_time(wlc, rspec, preamble_type, (DOT11_ACK_LEN + FCS_LEN)); return dur; } static uint brcms_c_calc_cts_time(struct brcms_c_info *wlc, u32 rspec, u8 preamble_type) { return brcms_c_calc_ack_time(wlc, rspec, preamble_type); } static uint brcms_c_calc_ba_time(struct brcms_c_info *wlc, u32 rspec, u8 preamble_type) { /* * Spec 9.6: ack rate is the highest rate in BSSBasicRateSet that * is less than or equal to the rate of the immediately previous * frame in the FES */ rspec = brcms_basic_rate(wlc, rspec); /* BA len == 32 == 16(ctl hdr) + 4(ba len) + 8(bitmap) + 4(fcs) */ return brcms_c_calc_frame_time(wlc, rspec, preamble_type, (DOT11_BA_LEN + DOT11_BA_BITMAP_LEN + FCS_LEN)); } /* brcms_c_compute_frame_dur() * * Calculate the 802.11 MAC header DUR field for MPDU * DUR for a single frame = 1 SIFS + 1 ACK * DUR for a frame with following frags = 3 SIFS + 2 ACK + next frag time * * rate MPDU rate in unit of 500kbps * next_frag_len next MPDU length in bytes * preamble_type use short/GF or long/MM PLCP header */ static u16 brcms_c_compute_frame_dur(struct brcms_c_info *wlc, u32 rate, u8 preamble_type, uint next_frag_len) { u16 dur, sifs; sifs = get_sifs(wlc->band); dur = sifs; dur += (u16) brcms_c_calc_ack_time(wlc, rate, preamble_type); if (next_frag_len) { /* Double the current DUR to get 2 SIFS + 2 ACKs */ dur *= 2; /* add another SIFS and the frag time */ dur += sifs; dur += (u16) brcms_c_calc_frame_time(wlc, rate, preamble_type, next_frag_len); } return dur; } /* The opposite of brcms_c_calc_frame_time */ static uint brcms_c_calc_frame_len(struct brcms_c_info *wlc, u32 ratespec, u8 preamble_type, uint dur) { uint nsyms, mac_len, Ndps, kNdps; uint rate = rspec2rate(ratespec); if (is_mcs_rate(ratespec)) { uint mcs = ratespec & RSPEC_RATE_MASK; int tot_streams = mcs_2_txstreams(mcs) + rspec_stc(ratespec); dur -= PREN_PREAMBLE + (tot_streams * PREN_PREAMBLE_EXT); /* payload calculation matches that of regular ofdm */ if (wlc->band->bandtype == BRCM_BAND_2G) dur -= DOT11_OFDM_SIGNAL_EXTENSION; /* kNdbps = kbps * 4 */ kNdps = mcs_2_rate(mcs, rspec_is40mhz(ratespec), rspec_issgi(ratespec)) * 4; nsyms = dur / APHY_SYMBOL_TIME; mac_len = ((nsyms * kNdps) - ((APHY_SERVICE_NBITS + APHY_TAIL_NBITS) * 1000)) / 8000; } else if (is_ofdm_rate(ratespec)) { dur -= APHY_PREAMBLE_TIME; dur -= APHY_SIGNAL_TIME; /* Ndbps = Mbps * 4 = rate(500Kbps) * 2 */ Ndps = rate * 2; nsyms = dur / APHY_SYMBOL_TIME; mac_len = ((nsyms * Ndps) - (APHY_SERVICE_NBITS + APHY_TAIL_NBITS)) / 8; } else { if (preamble_type & BRCMS_SHORT_PREAMBLE) dur -= BPHY_PLCP_SHORT_TIME; else dur -= BPHY_PLCP_TIME; mac_len = dur * rate; /* divide out factor of 2 in rate (1/2 mbps) */ mac_len = mac_len / 8 / 2; } return mac_len; } /* * Return true if the specified rate is supported by the specified band. * BRCM_BAND_AUTO indicates the current band. */ static bool brcms_c_valid_rate(struct brcms_c_info *wlc, u32 rspec, int band, bool verbose) { struct brcms_c_rateset *hw_rateset; uint i; if ((band == BRCM_BAND_AUTO) || (band == wlc->band->bandtype)) hw_rateset = &wlc->band->hw_rateset; else if (wlc->pub->_nbands > 1) hw_rateset = &wlc->bandstate[OTHERBANDUNIT(wlc)]->hw_rateset; else /* other band specified and we are a single band device */ return false; /* check if this is a mimo rate */ if (is_mcs_rate(rspec)) { if ((rspec & RSPEC_RATE_MASK) >= MCS_TABLE_SIZE) goto error; return isset(hw_rateset->mcs, (rspec & RSPEC_RATE_MASK)); } for (i = 0; i < hw_rateset->count; i++) if (hw_rateset->rates[i] == rspec2rate(rspec)) return true; error: if (verbose) brcms_err(wlc->hw->d11core, "wl%d: valid_rate: rate spec 0x%x " "not in hw_rateset\n", wlc->pub->unit, rspec); return false; } static u32 mac80211_wlc_set_nrate(struct brcms_c_info *wlc, struct brcms_band *cur_band, u32 int_val) { struct bcma_device *core = wlc->hw->d11core; u8 stf = (int_val & NRATE_STF_MASK) >> NRATE_STF_SHIFT; u8 rate = int_val & NRATE_RATE_MASK; u32 rspec; bool ismcs = ((int_val & NRATE_MCS_INUSE) == NRATE_MCS_INUSE); bool issgi = ((int_val & NRATE_SGI_MASK) >> NRATE_SGI_SHIFT); bool override_mcs_only = ((int_val & NRATE_OVERRIDE_MCS_ONLY) == NRATE_OVERRIDE_MCS_ONLY); if (!ismcs) return (u32) rate; /* validate the combination of rate/mcs/stf is allowed */ if ((wlc->pub->_n_enab & SUPPORT_11N) && ismcs) { /* mcs only allowed when nmode */ if (stf > PHY_TXC1_MODE_SDM) { brcms_err(core, "wl%d: %s: Invalid stf\n", wlc->pub->unit, __func__); goto done; } /* mcs 32 is a special case, DUP mode 40 only */ if (rate == 32) { if (!CHSPEC_IS40(wlc->home_chanspec) || ((stf != PHY_TXC1_MODE_SISO) && (stf != PHY_TXC1_MODE_CDD))) { brcms_err(core, "wl%d: %s: Invalid mcs 32\n", wlc->pub->unit, __func__); goto done; } /* mcs > 7 must use stf SDM */ } else if (rate > HIGHEST_SINGLE_STREAM_MCS) { /* mcs > 7 must use stf SDM */ if (stf != PHY_TXC1_MODE_SDM) { brcms_dbg_mac80211(core, "wl%d: enabling " "SDM mode for mcs %d\n", wlc->pub->unit, rate); stf = PHY_TXC1_MODE_SDM; } } else { /* * MCS 0-7 may use SISO, CDD, and for * phy_rev >= 3 STBC */ if ((stf > PHY_TXC1_MODE_STBC) || (!BRCMS_STBC_CAP_PHY(wlc) && (stf == PHY_TXC1_MODE_STBC))) { brcms_err(core, "wl%d: %s: Invalid STBC\n", wlc->pub->unit, __func__); goto done; } } } else if (is_ofdm_rate(rate)) { if ((stf != PHY_TXC1_MODE_CDD) && (stf != PHY_TXC1_MODE_SISO)) { brcms_err(core, "wl%d: %s: Invalid OFDM\n", wlc->pub->unit, __func__); goto done; } } else if (is_cck_rate(rate)) { if ((cur_band->bandtype != BRCM_BAND_2G) || (stf != PHY_TXC1_MODE_SISO)) { brcms_err(core, "wl%d: %s: Invalid CCK\n", wlc->pub->unit, __func__); goto done; } } else { brcms_err(core, "wl%d: %s: Unknown rate type\n", wlc->pub->unit, __func__); goto done; } /* make sure multiple antennae are available for non-siso rates */ if ((stf != PHY_TXC1_MODE_SISO) && (wlc->stf->txstreams == 1)) { brcms_err(core, "wl%d: %s: SISO antenna but !SISO " "request\n", wlc->pub->unit, __func__); goto done; } rspec = rate; if (ismcs) { rspec |= RSPEC_MIMORATE; /* For STBC populate the STC field of the ratespec */ if (stf == PHY_TXC1_MODE_STBC) { u8 stc; stc = 1; /* Nss for single stream is always 1 */ rspec |= (stc << RSPEC_STC_SHIFT); } } rspec |= (stf << RSPEC_STF_SHIFT); if (override_mcs_only) rspec |= RSPEC_OVERRIDE_MCS_ONLY; if (issgi) rspec |= RSPEC_SHORT_GI; if ((rate != 0) && !brcms_c_valid_rate(wlc, rspec, cur_band->bandtype, true)) return rate; return rspec; done: return rate; } /* * Compute PLCP, but only requires actual rate and length of pkt. * Rate is given in the driver standard multiple of 500 kbps. * le is set for 11 Mbps rate if necessary. * Broken out for PRQ. */ static void brcms_c_cck_plcp_set(struct brcms_c_info *wlc, int rate_500, uint length, u8 *plcp) { u16 usec = 0; u8 le = 0; switch (rate_500) { case BRCM_RATE_1M: usec = length << 3; break; case BRCM_RATE_2M: usec = length << 2; break; case BRCM_RATE_5M5: usec = (length << 4) / 11; if ((length << 4) - (usec * 11) > 0) usec++; break; case BRCM_RATE_11M: usec = (length << 3) / 11; if ((length << 3) - (usec * 11) > 0) { usec++; if ((usec * 11) - (length << 3) >= 8) le = D11B_PLCP_SIGNAL_LE; } break; default: brcms_err(wlc->hw->d11core, "brcms_c_cck_plcp_set: unsupported rate %d\n", rate_500); rate_500 = BRCM_RATE_1M; usec = length << 3; break; } /* PLCP signal byte */ plcp[0] = rate_500 * 5; /* r (500kbps) * 5 == r (100kbps) */ /* PLCP service byte */ plcp[1] = (u8) (le | D11B_PLCP_SIGNAL_LOCKED); /* PLCP length u16, little endian */ plcp[2] = usec & 0xff; plcp[3] = (usec >> 8) & 0xff; /* PLCP CRC16 */ plcp[4] = 0; plcp[5] = 0; } /* Rate: 802.11 rate code, length: PSDU length in octets */ static void brcms_c_compute_mimo_plcp(u32 rspec, uint length, u8 *plcp) { u8 mcs = (u8) (rspec & RSPEC_RATE_MASK); plcp[0] = mcs; if (rspec_is40mhz(rspec) || (mcs == 32)) plcp[0] |= MIMO_PLCP_40MHZ; BRCMS_SET_MIMO_PLCP_LEN(plcp, length); plcp[3] = rspec_mimoplcp3(rspec); /* rspec already holds this byte */ plcp[3] |= 0x7; /* set smoothing, not sounding ppdu & reserved */ plcp[4] = 0; /* number of extension spatial streams bit 0 & 1 */ plcp[5] = 0; } /* Rate: 802.11 rate code, length: PSDU length in octets */ static void brcms_c_compute_ofdm_plcp(u32 rspec, u32 length, u8 *plcp) { u8 rate_signal; u32 tmp = 0; int rate = rspec2rate(rspec); /* * encode rate per 802.11a-1999 sec 17.3.4.1, with lsb * transmitted first */ rate_signal = rate_info[rate] & BRCMS_RATE_MASK; memset(plcp, 0, D11_PHY_HDR_LEN); D11A_PHY_HDR_SRATE((struct ofdm_phy_hdr *) plcp, rate_signal); tmp = (length & 0xfff) << 5; plcp[2] |= (tmp >> 16) & 0xff; plcp[1] |= (tmp >> 8) & 0xff; plcp[0] |= tmp & 0xff; } /* Rate: 802.11 rate code, length: PSDU length in octets */ static void brcms_c_compute_cck_plcp(struct brcms_c_info *wlc, u32 rspec, uint length, u8 *plcp) { int rate = rspec2rate(rspec); brcms_c_cck_plcp_set(wlc, rate, length, plcp); } static void brcms_c_compute_plcp(struct brcms_c_info *wlc, u32 rspec, uint length, u8 *plcp) { if (is_mcs_rate(rspec)) brcms_c_compute_mimo_plcp(rspec, length, plcp); else if (is_ofdm_rate(rspec)) brcms_c_compute_ofdm_plcp(rspec, length, plcp); else brcms_c_compute_cck_plcp(wlc, rspec, length, plcp); } /* brcms_c_compute_rtscts_dur() * * Calculate the 802.11 MAC header DUR field for an RTS or CTS frame * DUR for normal RTS/CTS w/ frame = 3 SIFS + 1 CTS + next frame time + 1 ACK * DUR for CTS-TO-SELF w/ frame = 2 SIFS + next frame time + 1 ACK * * cts cts-to-self or rts/cts * rts_rate rts or cts rate in unit of 500kbps * rate next MPDU rate in unit of 500kbps * frame_len next MPDU frame length in bytes */ u16 brcms_c_compute_rtscts_dur(struct brcms_c_info *wlc, bool cts_only, u32 rts_rate, u32 frame_rate, u8 rts_preamble_type, u8 frame_preamble_type, uint frame_len, bool ba) { u16 dur, sifs; sifs = get_sifs(wlc->band); if (!cts_only) { /* RTS/CTS */ dur = 3 * sifs; dur += (u16) brcms_c_calc_cts_time(wlc, rts_rate, rts_preamble_type); } else { /* CTS-TO-SELF */ dur = 2 * sifs; } dur += (u16) brcms_c_calc_frame_time(wlc, frame_rate, frame_preamble_type, frame_len); if (ba) dur += (u16) brcms_c_calc_ba_time(wlc, frame_rate, BRCMS_SHORT_PREAMBLE); else dur += (u16) brcms_c_calc_ack_time(wlc, frame_rate, frame_preamble_type); return dur; } static u16 brcms_c_phytxctl1_calc(struct brcms_c_info *wlc, u32 rspec) { u16 phyctl1 = 0; u16 bw; if (BRCMS_ISLCNPHY(wlc->band)) { bw = PHY_TXC1_BW_20MHZ; } else { bw = rspec_get_bw(rspec); /* 10Mhz is not supported yet */ if (bw < PHY_TXC1_BW_20MHZ) { brcms_err(wlc->hw->d11core, "phytxctl1_calc: bw %d is " "not supported yet, set to 20L\n", bw); bw = PHY_TXC1_BW_20MHZ; } } if (is_mcs_rate(rspec)) { uint mcs = rspec & RSPEC_RATE_MASK; /* bw, stf, coding-type is part of rspec_phytxbyte2 returns */ phyctl1 = rspec_phytxbyte2(rspec); /* set the upper byte of phyctl1 */ phyctl1 |= (mcs_table[mcs].tx_phy_ctl3 << 8); } else if (is_cck_rate(rspec) && !BRCMS_ISLCNPHY(wlc->band) && !BRCMS_ISSSLPNPHY(wlc->band)) { /* * In CCK mode LPPHY overloads OFDM Modulation bits with CCK * Data Rate. Eventually MIMOPHY would also be converted to * this format */ /* 0 = 1Mbps; 1 = 2Mbps; 2 = 5.5Mbps; 3 = 11Mbps */ phyctl1 = (bw | (rspec_stf(rspec) << PHY_TXC1_MODE_SHIFT)); } else { /* legacy OFDM/CCK */ s16 phycfg; /* get the phyctl byte from rate phycfg table */ phycfg = brcms_c_rate_legacy_phyctl(rspec2rate(rspec)); if (phycfg == -1) { brcms_err(wlc->hw->d11core, "phytxctl1_calc: wrong " "legacy OFDM/CCK rate\n"); phycfg = 0; } /* set the upper byte of phyctl1 */ phyctl1 = (bw | (phycfg << 8) | (rspec_stf(rspec) << PHY_TXC1_MODE_SHIFT)); } return phyctl1; } /* * Add struct d11txh, struct cck_phy_hdr. * * 'p' data must start with 802.11 MAC header * 'p' must allow enough bytes of local headers to be "pushed" onto the packet * * headroom == D11_PHY_HDR_LEN + D11_TXH_LEN (D11_TXH_LEN is now 104 bytes) * */ static u16 brcms_c_d11hdrs_mac80211(struct brcms_c_info *wlc, struct ieee80211_hw *hw, struct sk_buff *p, struct scb *scb, uint frag, uint nfrags, uint queue, uint next_frag_len) { struct ieee80211_hdr *h; struct d11txh *txh; u8 *plcp, plcp_fallback[D11_PHY_HDR_LEN]; int len, phylen, rts_phylen; u16 mch, phyctl, xfts, mainrates; u16 seq = 0, mcl = 0, status = 0, frameid = 0; u32 rspec[2] = { BRCM_RATE_1M, BRCM_RATE_1M }; u32 rts_rspec[2] = { BRCM_RATE_1M, BRCM_RATE_1M }; bool use_rts = false; bool use_cts = false; bool use_rifs = false; u8 preamble_type[2] = { BRCMS_LONG_PREAMBLE, BRCMS_LONG_PREAMBLE }; u8 rts_preamble_type[2] = { BRCMS_LONG_PREAMBLE, BRCMS_LONG_PREAMBLE }; u8 *rts_plcp, rts_plcp_fallback[D11_PHY_HDR_LEN]; struct ieee80211_rts *rts = NULL; bool qos; uint ac; bool hwtkmic = false; u16 mimo_ctlchbw = PHY_TXC1_BW_20MHZ; #define ANTCFG_NONE 0xFF u8 antcfg = ANTCFG_NONE; u8 fbantcfg = ANTCFG_NONE; uint phyctl1_stf = 0; u16 durid = 0; struct ieee80211_tx_rate *txrate[2]; int k; struct ieee80211_tx_info *tx_info; bool is_mcs; u16 mimo_txbw; u8 mimo_preamble_type; /* locate 802.11 MAC header */ h = (struct ieee80211_hdr *)(p->data); qos = ieee80211_is_data_qos(h->frame_control); /* compute length of frame in bytes for use in PLCP computations */ len = p->len; phylen = len + FCS_LEN; /* Get tx_info */ tx_info = IEEE80211_SKB_CB(p); /* add PLCP */ plcp = skb_push(p, D11_PHY_HDR_LEN); /* add Broadcom tx descriptor header */ txh = (struct d11txh *) skb_push(p, D11_TXH_LEN); memset(txh, 0, D11_TXH_LEN); /* setup frameid */ if (tx_info->flags & IEEE80211_TX_CTL_ASSIGN_SEQ) { /* non-AP STA should never use BCMC queue */ if (queue == TX_BCMC_FIFO) { brcms_err(wlc->hw->d11core, "wl%d: %s: ASSERT queue == TX_BCMC!\n", wlc->pub->unit, __func__); frameid = bcmc_fid_generate(wlc, NULL, txh); } else { /* Increment the counter for first fragment */ if (tx_info->flags & IEEE80211_TX_CTL_FIRST_FRAGMENT) scb->seqnum[p->priority]++; /* extract fragment number from frame first */ seq = le16_to_cpu(h->seq_ctrl) & FRAGNUM_MASK; seq |= (scb->seqnum[p->priority] << SEQNUM_SHIFT); h->seq_ctrl = cpu_to_le16(seq); frameid = ((seq << TXFID_SEQ_SHIFT) & TXFID_SEQ_MASK) | (queue & TXFID_QUEUE_MASK); } } frameid |= queue & TXFID_QUEUE_MASK; /* set the ignpmq bit for all pkts tx'd in PS mode and for beacons */ if (ieee80211_is_beacon(h->frame_control)) mcl |= TXC_IGNOREPMQ; txrate[0] = tx_info->control.rates; txrate[1] = txrate[0] + 1; /* * if rate control algorithm didn't give us a fallback * rate, use the primary rate */ if (txrate[1]->idx < 0) txrate[1] = txrate[0]; for (k = 0; k < hw->max_rates; k++) { is_mcs = txrate[k]->flags & IEEE80211_TX_RC_MCS ? true : false; if (!is_mcs) { if ((txrate[k]->idx >= 0) && (txrate[k]->idx < hw->wiphy->bands[tx_info->band]->n_bitrates)) { rspec[k] = hw->wiphy->bands[tx_info->band]-> bitrates[txrate[k]->idx].hw_value; } else { rspec[k] = BRCM_RATE_1M; } } else { rspec[k] = mac80211_wlc_set_nrate(wlc, wlc->band, NRATE_MCS_INUSE | txrate[k]->idx); } /* * Currently only support same setting for primay and * fallback rates. Unify flags for each rate into a * single value for the frame */ use_rts |= txrate[k]-> flags & IEEE80211_TX_RC_USE_RTS_CTS ? true : false; use_cts |= txrate[k]-> flags & IEEE80211_TX_RC_USE_CTS_PROTECT ? true : false; /* * (1) RATE: * determine and validate primary rate * and fallback rates */ if (!rspec_active(rspec[k])) { rspec[k] = BRCM_RATE_1M; } else { if (!is_multicast_ether_addr(h->addr1)) { /* set tx antenna config */ brcms_c_antsel_antcfg_get(wlc->asi, false, false, 0, 0, &antcfg, &fbantcfg); } } } phyctl1_stf = wlc->stf->ss_opmode; if (wlc->pub->_n_enab & SUPPORT_11N) { for (k = 0; k < hw->max_rates; k++) { /* * apply siso/cdd to single stream mcs's or ofdm * if rspec is auto selected */ if (((is_mcs_rate(rspec[k]) && is_single_stream(rspec[k] & RSPEC_RATE_MASK)) || is_ofdm_rate(rspec[k])) && ((rspec[k] & RSPEC_OVERRIDE_MCS_ONLY) || !(rspec[k] & RSPEC_OVERRIDE))) { rspec[k] &= ~(RSPEC_STF_MASK | RSPEC_STC_MASK); /* For SISO MCS use STBC if possible */ if (is_mcs_rate(rspec[k]) && BRCMS_STF_SS_STBC_TX(wlc, scb)) { u8 stc; /* Nss for single stream is always 1 */ stc = 1; rspec[k] |= (PHY_TXC1_MODE_STBC << RSPEC_STF_SHIFT) | (stc << RSPEC_STC_SHIFT); } else rspec[k] |= (phyctl1_stf << RSPEC_STF_SHIFT); } /* * Is the phy configured to use 40MHZ frames? If * so then pick the desired txbw */ if (brcms_chspec_bw(wlc->chanspec) == BRCMS_40_MHZ) { /* default txbw is 20in40 SB */ mimo_ctlchbw = mimo_txbw = CHSPEC_SB_UPPER(wlc_phy_chanspec_get( wlc->band->pi)) ? PHY_TXC1_BW_20MHZ_UP : PHY_TXC1_BW_20MHZ; if (is_mcs_rate(rspec[k])) { /* mcs 32 must be 40b/w DUP */ if ((rspec[k] & RSPEC_RATE_MASK) == 32) { mimo_txbw = PHY_TXC1_BW_40MHZ_DUP; /* use override */ } else if (wlc->mimo_40txbw != AUTO) mimo_txbw = wlc->mimo_40txbw; /* else check if dst is using 40 Mhz */ else if (scb->flags & SCB_IS40) mimo_txbw = PHY_TXC1_BW_40MHZ; } else if (is_ofdm_rate(rspec[k])) { if (wlc->ofdm_40txbw != AUTO) mimo_txbw = wlc->ofdm_40txbw; } else if (wlc->cck_40txbw != AUTO) { mimo_txbw = wlc->cck_40txbw; } } else { /* * mcs32 is 40 b/w only. * This is possible for probe packets on * a STA during SCAN */ if ((rspec[k] & RSPEC_RATE_MASK) == 32) /* mcs 0 */ rspec[k] = RSPEC_MIMORATE; mimo_txbw = PHY_TXC1_BW_20MHZ; } /* Set channel width */ rspec[k] &= ~RSPEC_BW_MASK; if ((k == 0) || ((k > 0) && is_mcs_rate(rspec[k]))) rspec[k] |= (mimo_txbw << RSPEC_BW_SHIFT); else rspec[k] |= (mimo_ctlchbw << RSPEC_BW_SHIFT); /* Disable short GI, not supported yet */ rspec[k] &= ~RSPEC_SHORT_GI; mimo_preamble_type = BRCMS_MM_PREAMBLE; if (txrate[k]->flags & IEEE80211_TX_RC_GREEN_FIELD) mimo_preamble_type = BRCMS_GF_PREAMBLE; if ((txrate[k]->flags & IEEE80211_TX_RC_MCS) && (!is_mcs_rate(rspec[k]))) { brcms_warn(wlc->hw->d11core, "wl%d: %s: IEEE80211_TX_RC_MCS != is_mcs_rate(rspec)\n", wlc->pub->unit, __func__); } if (is_mcs_rate(rspec[k])) { preamble_type[k] = mimo_preamble_type; /* * if SGI is selected, then forced mm * for single stream */ if ((rspec[k] & RSPEC_SHORT_GI) && is_single_stream(rspec[k] & RSPEC_RATE_MASK)) preamble_type[k] = BRCMS_MM_PREAMBLE; } /* should be better conditionalized */ if (!is_mcs_rate(rspec[0]) && (tx_info->control.rates[0]. flags & IEEE80211_TX_RC_USE_SHORT_PREAMBLE)) preamble_type[k] = BRCMS_SHORT_PREAMBLE; } } else { for (k = 0; k < hw->max_rates; k++) { /* Set ctrlchbw as 20Mhz */ rspec[k] &= ~RSPEC_BW_MASK; rspec[k] |= (PHY_TXC1_BW_20MHZ << RSPEC_BW_SHIFT); /* for nphy, stf of ofdm frames must follow policies */ if (BRCMS_ISNPHY(wlc->band) && is_ofdm_rate(rspec[k])) { rspec[k] &= ~RSPEC_STF_MASK; rspec[k] |= phyctl1_stf << RSPEC_STF_SHIFT; } } } /* Reset these for use with AMPDU's */ txrate[0]->count = 0; txrate[1]->count = 0; /* (2) PROTECTION, may change rspec */ if ((ieee80211_is_data(h->frame_control) || ieee80211_is_mgmt(h->frame_control)) && (phylen > wlc->RTSThresh) && !is_multicast_ether_addr(h->addr1)) use_rts = true; /* (3) PLCP: determine PLCP header and MAC duration, * fill struct d11txh */ brcms_c_compute_plcp(wlc, rspec[0], phylen, plcp); brcms_c_compute_plcp(wlc, rspec[1], phylen, plcp_fallback); memcpy(&txh->FragPLCPFallback, plcp_fallback, sizeof(txh->FragPLCPFallback)); /* Length field now put in CCK FBR CRC field */ if (is_cck_rate(rspec[1])) { txh->FragPLCPFallback[4] = phylen & 0xff; txh->FragPLCPFallback[5] = (phylen & 0xff00) >> 8; } /* MIMO-RATE: need validation ?? */ mainrates = is_ofdm_rate(rspec[0]) ? D11A_PHY_HDR_GRATE((struct ofdm_phy_hdr *) plcp) : plcp[0]; /* DUR field for main rate */ if (!ieee80211_is_pspoll(h->frame_control) && !is_multicast_ether_addr(h->addr1) && !use_rifs) { durid = brcms_c_compute_frame_dur(wlc, rspec[0], preamble_type[0], next_frag_len); h->duration_id = cpu_to_le16(durid); } else if (use_rifs) { /* NAV protect to end of next max packet size */ durid = (u16) brcms_c_calc_frame_time(wlc, rspec[0], preamble_type[0], DOT11_MAX_FRAG_LEN); durid += RIFS_11N_TIME; h->duration_id = cpu_to_le16(durid); } /* DUR field for fallback rate */ if (ieee80211_is_pspoll(h->frame_control)) txh->FragDurFallback = h->duration_id; else if (is_multicast_ether_addr(h->addr1) || use_rifs) txh->FragDurFallback = 0; else { durid = brcms_c_compute_frame_dur(wlc, rspec[1], preamble_type[1], next_frag_len); txh->FragDurFallback = cpu_to_le16(durid); } /* (4) MAC-HDR: MacTxControlLow */ if (frag == 0) mcl |= TXC_STARTMSDU; if (!is_multicast_ether_addr(h->addr1)) mcl |= TXC_IMMEDACK; if (wlc->band->bandtype == BRCM_BAND_5G) mcl |= TXC_FREQBAND_5G; if (CHSPEC_IS40(wlc_phy_chanspec_get(wlc->band->pi))) mcl |= TXC_BW_40; /* set AMIC bit if using hardware TKIP MIC */ if (hwtkmic) mcl |= TXC_AMIC; txh->MacTxControlLow = cpu_to_le16(mcl); /* MacTxControlHigh */ mch = 0; /* Set fallback rate preamble type */ if ((preamble_type[1] == BRCMS_SHORT_PREAMBLE) || (preamble_type[1] == BRCMS_GF_PREAMBLE)) { if (rspec2rate(rspec[1]) != BRCM_RATE_1M) mch |= TXC_PREAMBLE_DATA_FB_SHORT; } /* MacFrameControl */ memcpy(&txh->MacFrameControl, &h->frame_control, sizeof(u16)); txh->TxFesTimeNormal = cpu_to_le16(0); txh->TxFesTimeFallback = cpu_to_le16(0); /* TxFrameRA */ memcpy(&txh->TxFrameRA, &h->addr1, ETH_ALEN); /* TxFrameID */ txh->TxFrameID = cpu_to_le16(frameid); /* * TxStatus, Note the case of recreating the first frag of a suppressed * frame then we may need to reset the retry cnt's via the status reg */ txh->TxStatus = cpu_to_le16(status); /* * extra fields for ucode AMPDU aggregation, the new fields are added to * the END of previous structure so that it's compatible in driver. */ txh->MaxNMpdus = cpu_to_le16(0); txh->MaxABytes_MRT = cpu_to_le16(0); txh->MaxABytes_FBR = cpu_to_le16(0); txh->MinMBytes = cpu_to_le16(0); /* (5) RTS/CTS: determine RTS/CTS PLCP header and MAC duration, * furnish struct d11txh */ /* RTS PLCP header and RTS frame */ if (use_rts || use_cts) { if (use_rts && use_cts) use_cts = false; for (k = 0; k < 2; k++) { rts_rspec[k] = brcms_c_rspec_to_rts_rspec(wlc, rspec[k], false, mimo_ctlchbw); } if (!is_ofdm_rate(rts_rspec[0]) && !((rspec2rate(rts_rspec[0]) == BRCM_RATE_1M) || (wlc->PLCPHdr_override == BRCMS_PLCP_LONG))) { rts_preamble_type[0] = BRCMS_SHORT_PREAMBLE; mch |= TXC_PREAMBLE_RTS_MAIN_SHORT; } if (!is_ofdm_rate(rts_rspec[1]) && !((rspec2rate(rts_rspec[1]) == BRCM_RATE_1M) || (wlc->PLCPHdr_override == BRCMS_PLCP_LONG))) { rts_preamble_type[1] = BRCMS_SHORT_PREAMBLE; mch |= TXC_PREAMBLE_RTS_FB_SHORT; } /* RTS/CTS additions to MacTxControlLow */ if (use_cts) { txh->MacTxControlLow |= cpu_to_le16(TXC_SENDCTS); } else { txh->MacTxControlLow |= cpu_to_le16(TXC_SENDRTS); txh->MacTxControlLow |= cpu_to_le16(TXC_LONGFRAME); } /* RTS PLCP header */ rts_plcp = txh->RTSPhyHeader; if (use_cts) rts_phylen = DOT11_CTS_LEN + FCS_LEN; else rts_phylen = DOT11_RTS_LEN + FCS_LEN; brcms_c_compute_plcp(wlc, rts_rspec[0], rts_phylen, rts_plcp); /* fallback rate version of RTS PLCP header */ brcms_c_compute_plcp(wlc, rts_rspec[1], rts_phylen, rts_plcp_fallback); memcpy(&txh->RTSPLCPFallback, rts_plcp_fallback, sizeof(txh->RTSPLCPFallback)); /* RTS frame fields... */ rts = (struct ieee80211_rts *)&txh->rts_frame; durid = brcms_c_compute_rtscts_dur(wlc, use_cts, rts_rspec[0], rspec[0], rts_preamble_type[0], preamble_type[0], phylen, false); rts->duration = cpu_to_le16(durid); /* fallback rate version of RTS DUR field */ durid = brcms_c_compute_rtscts_dur(wlc, use_cts, rts_rspec[1], rspec[1], rts_preamble_type[1], preamble_type[1], phylen, false); txh->RTSDurFallback = cpu_to_le16(durid); if (use_cts) { rts->frame_control = cpu_to_le16(IEEE80211_FTYPE_CTL | IEEE80211_STYPE_CTS); memcpy(&rts->ra, &h->addr2, ETH_ALEN); } else { rts->frame_control = cpu_to_le16(IEEE80211_FTYPE_CTL | IEEE80211_STYPE_RTS); memcpy(&rts->ra, &h->addr1, ETH_ALEN); memcpy(&rts->ta, &h->addr2, ETH_ALEN); } /* mainrate * low 8 bits: main frag rate/mcs, * high 8 bits: rts/cts rate/mcs */ mainrates |= (is_ofdm_rate(rts_rspec[0]) ? D11A_PHY_HDR_GRATE( (struct ofdm_phy_hdr *) rts_plcp) : rts_plcp[0]) << 8; } else { memset(txh->RTSPhyHeader, 0, D11_PHY_HDR_LEN); memset(&txh->rts_frame, 0, sizeof(struct ieee80211_rts)); memset(txh->RTSPLCPFallback, 0, sizeof(txh->RTSPLCPFallback)); txh->RTSDurFallback = 0; } #ifdef SUPPORT_40MHZ /* add null delimiter count */ if ((tx_info->flags & IEEE80211_TX_CTL_AMPDU) && is_mcs_rate(rspec)) txh->RTSPLCPFallback[AMPDU_FBR_NULL_DELIM] = brcm_c_ampdu_null_delim_cnt(wlc->ampdu, scb, rspec, phylen); #endif /* * Now that RTS/RTS FB preamble types are updated, write * the final value */ txh->MacTxControlHigh = cpu_to_le16(mch); /* * MainRates (both the rts and frag plcp rates have * been calculated now) */ txh->MainRates = cpu_to_le16(mainrates); /* XtraFrameTypes */ xfts = frametype(rspec[1], wlc->mimoft); xfts |= (frametype(rts_rspec[0], wlc->mimoft) << XFTS_RTS_FT_SHIFT); xfts |= (frametype(rts_rspec[1], wlc->mimoft) << XFTS_FBRRTS_FT_SHIFT); xfts |= CHSPEC_CHANNEL(wlc_phy_chanspec_get(wlc->band->pi)) << XFTS_CHANNEL_SHIFT; txh->XtraFrameTypes = cpu_to_le16(xfts); /* PhyTxControlWord */ phyctl = frametype(rspec[0], wlc->mimoft); if ((preamble_type[0] == BRCMS_SHORT_PREAMBLE) || (preamble_type[0] == BRCMS_GF_PREAMBLE)) { if (rspec2rate(rspec[0]) != BRCM_RATE_1M) phyctl |= PHY_TXC_SHORT_HDR; } /* phytxant is properly bit shifted */ phyctl |= brcms_c_stf_d11hdrs_phyctl_txant(wlc, rspec[0]); txh->PhyTxControlWord = cpu_to_le16(phyctl); /* PhyTxControlWord_1 */ if (BRCMS_PHY_11N_CAP(wlc->band)) { u16 phyctl1 = 0; phyctl1 = brcms_c_phytxctl1_calc(wlc, rspec[0]); txh->PhyTxControlWord_1 = cpu_to_le16(phyctl1); phyctl1 = brcms_c_phytxctl1_calc(wlc, rspec[1]); txh->PhyTxControlWord_1_Fbr = cpu_to_le16(phyctl1); if (use_rts || use_cts) { phyctl1 = brcms_c_phytxctl1_calc(wlc, rts_rspec[0]); txh->PhyTxControlWord_1_Rts = cpu_to_le16(phyctl1); phyctl1 = brcms_c_phytxctl1_calc(wlc, rts_rspec[1]); txh->PhyTxControlWord_1_FbrRts = cpu_to_le16(phyctl1); } /* * For mcs frames, if mixedmode(overloaded with long preamble) * is going to be set, fill in non-zero MModeLen and/or * MModeFbrLen it will be unnecessary if they are separated */ if (is_mcs_rate(rspec[0]) && (preamble_type[0] == BRCMS_MM_PREAMBLE)) { u16 mmodelen = brcms_c_calc_lsig_len(wlc, rspec[0], phylen); txh->MModeLen = cpu_to_le16(mmodelen); } if (is_mcs_rate(rspec[1]) && (preamble_type[1] == BRCMS_MM_PREAMBLE)) { u16 mmodefbrlen = brcms_c_calc_lsig_len(wlc, rspec[1], phylen); txh->MModeFbrLen = cpu_to_le16(mmodefbrlen); } } ac = skb_get_queue_mapping(p); if ((scb->flags & SCB_WMECAP) && qos && wlc->edcf_txop[ac]) { uint frag_dur, dur, dur_fallback; /* WME: Update TXOP threshold */ if (!(tx_info->flags & IEEE80211_TX_CTL_AMPDU) && frag == 0) { frag_dur = brcms_c_calc_frame_time(wlc, rspec[0], preamble_type[0], phylen); if (rts) { /* 1 RTS or CTS-to-self frame */ dur = brcms_c_calc_cts_time(wlc, rts_rspec[0], rts_preamble_type[0]); dur_fallback = brcms_c_calc_cts_time(wlc, rts_rspec[1], rts_preamble_type[1]); /* (SIFS + CTS) + SIFS + frame + SIFS + ACK */ dur += le16_to_cpu(rts->duration); dur_fallback += le16_to_cpu(txh->RTSDurFallback); } else if (use_rifs) { dur = frag_dur; dur_fallback = 0; } else { /* frame + SIFS + ACK */ dur = frag_dur; dur += brcms_c_compute_frame_dur(wlc, rspec[0], preamble_type[0], 0); dur_fallback = brcms_c_calc_frame_time(wlc, rspec[1], preamble_type[1], phylen); dur_fallback += brcms_c_compute_frame_dur(wlc, rspec[1], preamble_type[1], 0); } /* NEED to set TxFesTimeNormal (hard) */ txh->TxFesTimeNormal = cpu_to_le16((u16) dur); /* * NEED to set fallback rate version of * TxFesTimeNormal (hard) */ txh->TxFesTimeFallback = cpu_to_le16((u16) dur_fallback); /* * update txop byte threshold (txop minus intraframe * overhead) */ if (wlc->edcf_txop[ac] >= (dur - frag_dur)) { uint newfragthresh; newfragthresh = brcms_c_calc_frame_len(wlc, rspec[0], preamble_type[0], (wlc->edcf_txop[ac] - (dur - frag_dur))); /* range bound the fragthreshold */ if (newfragthresh < DOT11_MIN_FRAG_LEN) newfragthresh = DOT11_MIN_FRAG_LEN; else if (newfragthresh > wlc->usr_fragthresh) newfragthresh = wlc->usr_fragthresh; /* update the fragthresh and do txc update */ if (wlc->fragthresh[queue] != (u16) newfragthresh) wlc->fragthresh[queue] = (u16) newfragthresh; } else { brcms_warn(wlc->hw->d11core, "wl%d: %s txop invalid for rate %d\n", wlc->pub->unit, fifo_names[queue], rspec2rate(rspec[0])); } if (dur > wlc->edcf_txop[ac]) brcms_warn(wlc->hw->d11core, "wl%d: %s: %s txop exceeded phylen %d/%d dur %d/%d\n", wlc->pub->unit, __func__, fifo_names[queue], phylen, wlc->fragthresh[queue], dur, wlc->edcf_txop[ac]); } } return 0; } static int brcms_c_tx(struct brcms_c_info *wlc, struct sk_buff *skb) { struct dma_pub *dma; int fifo, ret = -ENOSPC; struct d11txh *txh; u16 frameid = INVALIDFID; fifo = brcms_ac_to_fifo(skb_get_queue_mapping(skb)); dma = wlc->hw->di[fifo]; txh = (struct d11txh *)(skb->data); if (dma->txavail == 0) { /* * We sometimes get a frame from mac80211 after stopping * the queues. This only ever seems to be a single frame * and is seems likely to be a race. TX_HEADROOM should * ensure that we have enough space to handle these stray * packets, so warn if there isn't. If we're out of space * in the tx ring and the tx queue isn't stopped then * we've really got a bug; warn loudly if that happens. */ brcms_warn(wlc->hw->d11core, "Received frame for tx with no space in DMA ring\n"); WARN_ON(!ieee80211_queue_stopped(wlc->pub->ieee_hw, skb_get_queue_mapping(skb))); return -ENOSPC; } /* When a BC/MC frame is being committed to the BCMC fifo * via DMA (NOT PIO), update ucode or BSS info as appropriate. */ if (fifo == TX_BCMC_FIFO) frameid = le16_to_cpu(txh->TxFrameID); /* Commit BCMC sequence number in the SHM frame ID location */ if (frameid != INVALIDFID) { /* * To inform the ucode of the last mcast frame posted * so that it can clear moredata bit */ brcms_b_write_shm(wlc->hw, M_BCMC_FID, frameid); } ret = brcms_c_txfifo(wlc, fifo, skb); /* * The only reason for brcms_c_txfifo to fail is because * there weren't any DMA descriptors, but we've already * checked for that. So if it does fail yell loudly. */ WARN_ON_ONCE(ret); return ret; } bool brcms_c_sendpkt_mac80211(struct brcms_c_info *wlc, struct sk_buff *sdu, struct ieee80211_hw *hw) { uint fifo; struct scb *scb = &wlc->pri_scb; fifo = brcms_ac_to_fifo(skb_get_queue_mapping(sdu)); brcms_c_d11hdrs_mac80211(wlc, hw, sdu, scb, 0, 1, fifo, 0); if (!brcms_c_tx(wlc, sdu)) return true; /* packet discarded */ dev_kfree_skb_any(sdu); return false; } int brcms_c_txfifo(struct brcms_c_info *wlc, uint fifo, struct sk_buff *p) { struct dma_pub *dma = wlc->hw->di[fifo]; int ret; u16 queue; ret = dma_txfast(wlc, dma, p); if (ret < 0) wiphy_err(wlc->wiphy, "txfifo: fatal, toss frames !!!\n"); /* * Stop queue if DMA ring is full. Reserve some free descriptors, * as we sometimes receive a frame from mac80211 after the queues * are stopped. */ queue = skb_get_queue_mapping(p); if (dma->txavail <= TX_HEADROOM && fifo < TX_BCMC_FIFO && !ieee80211_queue_stopped(wlc->pub->ieee_hw, queue)) ieee80211_stop_queue(wlc->pub->ieee_hw, queue); return ret; } u32 brcms_c_rspec_to_rts_rspec(struct brcms_c_info *wlc, u32 rspec, bool use_rspec, u16 mimo_ctlchbw) { u32 rts_rspec = 0; if (use_rspec) /* use frame rate as rts rate */ rts_rspec = rspec; else if (wlc->band->gmode && wlc->protection->_g && !is_cck_rate(rspec)) /* Use 11Mbps as the g protection RTS target rate and fallback. * Use the brcms_basic_rate() lookup to find the best basic rate * under the target in case 11 Mbps is not Basic. * 6 and 9 Mbps are not usually selected by rate selection, but * even if the OFDM rate we are protecting is 6 or 9 Mbps, 11 * is more robust. */ rts_rspec = brcms_basic_rate(wlc, BRCM_RATE_11M); else /* calculate RTS rate and fallback rate based on the frame rate * RTS must be sent at a basic rate since it is a * control frame, sec 9.6 of 802.11 spec */ rts_rspec = brcms_basic_rate(wlc, rspec); if (BRCMS_PHY_11N_CAP(wlc->band)) { /* set rts txbw to correct side band */ rts_rspec &= ~RSPEC_BW_MASK; /* * if rspec/rspec_fallback is 40MHz, then send RTS on both * 20MHz channel (DUP), otherwise send RTS on control channel */ if (rspec_is40mhz(rspec) && !is_cck_rate(rts_rspec)) rts_rspec |= (PHY_TXC1_BW_40MHZ_DUP << RSPEC_BW_SHIFT); else rts_rspec |= (mimo_ctlchbw << RSPEC_BW_SHIFT); /* pick siso/cdd as default for ofdm */ if (is_ofdm_rate(rts_rspec)) { rts_rspec &= ~RSPEC_STF_MASK; rts_rspec |= (wlc->stf->ss_opmode << RSPEC_STF_SHIFT); } } return rts_rspec; } /* Update beacon listen interval in shared memory */ static void brcms_c_bcn_li_upd(struct brcms_c_info *wlc) { /* wake up every DTIM is the default */ if (wlc->bcn_li_dtim == 1) brcms_b_write_shm(wlc->hw, M_BCN_LI, 0); else brcms_b_write_shm(wlc->hw, M_BCN_LI, (wlc->bcn_li_dtim << 8) | wlc->bcn_li_bcn); } static void brcms_b_read_tsf(struct brcms_hardware *wlc_hw, u32 *tsf_l_ptr, u32 *tsf_h_ptr) { struct bcma_device *core = wlc_hw->d11core; /* read the tsf timer low, then high to get an atomic read */ *tsf_l_ptr = bcma_read32(core, D11REGOFFS(tsf_timerlow)); *tsf_h_ptr = bcma_read32(core, D11REGOFFS(tsf_timerhigh)); } /* * recover 64bit TSF value from the 16bit TSF value in the rx header * given the assumption that the TSF passed in header is within 65ms * of the current tsf. * * 6 5 4 4 3 2 1 * 3.......6.......8.......0.......2.......4.......6.......8......0 * |<---------- tsf_h ----------->||<--- tsf_l -->||<-RxTSFTime ->| * * The RxTSFTime are the lowest 16 bits and provided by the ucode. The * tsf_l is filled in by brcms_b_recv, which is done earlier in the * receive call sequence after rx interrupt. Only the higher 16 bits * are used. Finally, the tsf_h is read from the tsf register. */ static u64 brcms_c_recover_tsf64(struct brcms_c_info *wlc, struct d11rxhdr *rxh) { u32 tsf_h, tsf_l; u16 rx_tsf_0_15, rx_tsf_16_31; brcms_b_read_tsf(wlc->hw, &tsf_l, &tsf_h); rx_tsf_16_31 = (u16)(tsf_l >> 16); rx_tsf_0_15 = rxh->RxTSFTime; /* * a greater tsf time indicates the low 16 bits of * tsf_l wrapped, so decrement the high 16 bits. */ if ((u16)tsf_l < rx_tsf_0_15) { rx_tsf_16_31 -= 1; if (rx_tsf_16_31 == 0xffff) tsf_h -= 1; } return ((u64)tsf_h << 32) | (((u32)rx_tsf_16_31 << 16) + rx_tsf_0_15); } static void prep_mac80211_status(struct brcms_c_info *wlc, struct d11rxhdr *rxh, struct sk_buff *p, struct ieee80211_rx_status *rx_status) { int channel; u32 rspec; unsigned char *plcp; /* fill in TSF and flag its presence */ rx_status->mactime = brcms_c_recover_tsf64(wlc, rxh); rx_status->flag |= RX_FLAG_MACTIME_START; channel = BRCMS_CHAN_CHANNEL(rxh->RxChan); rx_status->band = channel > 14 ? NL80211_BAND_5GHZ : NL80211_BAND_2GHZ; rx_status->freq = ieee80211_channel_to_frequency(channel, rx_status->band); rx_status->signal = wlc_phy_rssi_compute(wlc->hw->band->pi, rxh); /* noise */ /* qual */ rx_status->antenna = (rxh->PhyRxStatus_0 & PRXS0_RXANT_UPSUBBAND) ? 1 : 0; plcp = p->data; rspec = brcms_c_compute_rspec(rxh, plcp); if (is_mcs_rate(rspec)) { rx_status->rate_idx = rspec & RSPEC_RATE_MASK; rx_status->encoding = RX_ENC_HT; if (rspec_is40mhz(rspec)) rx_status->bw = RATE_INFO_BW_40; } else { switch (rspec2rate(rspec)) { case BRCM_RATE_1M: rx_status->rate_idx = 0; break; case BRCM_RATE_2M: rx_status->rate_idx = 1; break; case BRCM_RATE_5M5: rx_status->rate_idx = 2; break; case BRCM_RATE_11M: rx_status->rate_idx = 3; break; case BRCM_RATE_6M: rx_status->rate_idx = 4; break; case BRCM_RATE_9M: rx_status->rate_idx = 5; break; case BRCM_RATE_12M: rx_status->rate_idx = 6; break; case BRCM_RATE_18M: rx_status->rate_idx = 7; break; case BRCM_RATE_24M: rx_status->rate_idx = 8; break; case BRCM_RATE_36M: rx_status->rate_idx = 9; break; case BRCM_RATE_48M: rx_status->rate_idx = 10; break; case BRCM_RATE_54M: rx_status->rate_idx = 11; break; default: brcms_err(wlc->hw->d11core, "%s: Unknown rate\n", __func__); } /* * For 5GHz, we should decrease the index as it is * a subset of the 2.4G rates. See bitrates field * of brcms_band_5GHz_nphy (in mac80211_if.c). */ if (rx_status->band == NL80211_BAND_5GHZ) rx_status->rate_idx -= BRCMS_LEGACY_5G_RATE_OFFSET; /* Determine short preamble and rate_idx */ if (is_cck_rate(rspec)) { if (rxh->PhyRxStatus_0 & PRXS0_SHORTH) rx_status->enc_flags |= RX_ENC_FLAG_SHORTPRE; } else if (is_ofdm_rate(rspec)) { rx_status->enc_flags |= RX_ENC_FLAG_SHORTPRE; } else { brcms_err(wlc->hw->d11core, "%s: Unknown modulation\n", __func__); } } if (plcp3_issgi(plcp[3])) rx_status->enc_flags |= RX_ENC_FLAG_SHORT_GI; if (rxh->RxStatus1 & RXS_DECERR) { rx_status->flag |= RX_FLAG_FAILED_PLCP_CRC; brcms_err(wlc->hw->d11core, "%s: RX_FLAG_FAILED_PLCP_CRC\n", __func__); } if (rxh->RxStatus1 & RXS_FCSERR) { rx_status->flag |= RX_FLAG_FAILED_FCS_CRC; brcms_err(wlc->hw->d11core, "%s: RX_FLAG_FAILED_FCS_CRC\n", __func__); } } static void brcms_c_recvctl(struct brcms_c_info *wlc, struct d11rxhdr *rxh, struct sk_buff *p) { int len_mpdu; struct ieee80211_rx_status rx_status; struct ieee80211_hdr *hdr; memset(&rx_status, 0, sizeof(rx_status)); prep_mac80211_status(wlc, rxh, p, &rx_status); /* mac header+body length, exclude CRC and plcp header */ len_mpdu = p->len - D11_PHY_HDR_LEN - FCS_LEN; skb_pull(p, D11_PHY_HDR_LEN); __skb_trim(p, len_mpdu); /* unmute transmit */ if (wlc->hw->suspended_fifos) { hdr = (struct ieee80211_hdr *)p->data; if (ieee80211_is_beacon(hdr->frame_control)) brcms_b_mute(wlc->hw, false); } memcpy(IEEE80211_SKB_RXCB(p), &rx_status, sizeof(rx_status)); ieee80211_rx_irqsafe(wlc->pub->ieee_hw, p); } /* calculate frame duration for Mixed-mode L-SIG spoofing, return * number of bytes goes in the length field * * Formula given by HT PHY Spec v 1.13 * len = 3(nsyms + nstream + 3) - 3 */ u16 brcms_c_calc_lsig_len(struct brcms_c_info *wlc, u32 ratespec, uint mac_len) { uint nsyms, len = 0, kNdps; if (is_mcs_rate(ratespec)) { uint mcs = ratespec & RSPEC_RATE_MASK; int tot_streams = (mcs_2_txstreams(mcs) + 1) + rspec_stc(ratespec); /* * the payload duration calculation matches that * of regular ofdm */ /* 1000Ndbps = kbps * 4 */ kNdps = mcs_2_rate(mcs, rspec_is40mhz(ratespec), rspec_issgi(ratespec)) * 4; if (rspec_stc(ratespec) == 0) nsyms = CEIL((APHY_SERVICE_NBITS + 8 * mac_len + APHY_TAIL_NBITS) * 1000, kNdps); else /* STBC needs to have even number of symbols */ nsyms = 2 * CEIL((APHY_SERVICE_NBITS + 8 * mac_len + APHY_TAIL_NBITS) * 1000, 2 * kNdps); /* (+3) account for HT-SIG(2) and HT-STF(1) */ nsyms += (tot_streams + 3); /* * 3 bytes/symbol @ legacy 6Mbps rate * (-3) excluding service bits and tail bits */ len = (3 * nsyms) - 3; } return (u16) len; } static void brcms_c_mod_prb_rsp_rate_table(struct brcms_c_info *wlc, uint frame_len) { const struct brcms_c_rateset *rs_dflt; struct brcms_c_rateset rs; u8 rate; u16 entry_ptr; u8 plcp[D11_PHY_HDR_LEN]; u16 dur, sifs; uint i; sifs = get_sifs(wlc->band); rs_dflt = brcms_c_rateset_get_hwrs(wlc); brcms_c_rateset_copy(rs_dflt, &rs); brcms_c_rateset_mcs_upd(&rs, wlc->stf->txstreams); /* * walk the phy rate table and update MAC core SHM * basic rate table entries */ for (i = 0; i < rs.count; i++) { rate = rs.rates[i] & BRCMS_RATE_MASK; entry_ptr = brcms_b_rate_shm_offset(wlc->hw, rate); /* Calculate the Probe Response PLCP for the given rate */ brcms_c_compute_plcp(wlc, rate, frame_len, plcp); /* * Calculate the duration of the Probe Response * frame plus SIFS for the MAC */ dur = (u16) brcms_c_calc_frame_time(wlc, rate, BRCMS_LONG_PREAMBLE, frame_len); dur += sifs; /* Update the SHM Rate Table entry Probe Response values */ brcms_b_write_shm(wlc->hw, entry_ptr + M_RT_PRS_PLCP_POS, (u16) (plcp[0] + (plcp[1] << 8))); brcms_b_write_shm(wlc->hw, entry_ptr + M_RT_PRS_PLCP_POS + 2, (u16) (plcp[2] + (plcp[3] << 8))); brcms_b_write_shm(wlc->hw, entry_ptr + M_RT_PRS_DUR_POS, dur); } } int brcms_c_get_header_len(void) { return TXOFF; } static void brcms_c_beacon_write(struct brcms_c_info *wlc, struct sk_buff *beacon, u16 tim_offset, u16 dtim_period, bool bcn0, bool bcn1) { size_t len; struct ieee80211_tx_info *tx_info; struct brcms_hardware *wlc_hw = wlc->hw; struct ieee80211_hw *ieee_hw = brcms_c_pub(wlc)->ieee_hw; /* Get tx_info */ tx_info = IEEE80211_SKB_CB(beacon); len = min_t(size_t, beacon->len, BCN_TMPL_LEN); wlc->bcn_rspec = ieee80211_get_tx_rate(ieee_hw, tx_info)->hw_value; brcms_c_compute_plcp(wlc, wlc->bcn_rspec, len + FCS_LEN - D11_PHY_HDR_LEN, beacon->data); /* "Regular" and 16 MBSS but not for 4 MBSS */ /* Update the phytxctl for the beacon based on the rspec */ brcms_c_beacon_phytxctl_txant_upd(wlc, wlc->bcn_rspec); if (bcn0) { /* write the probe response into the template region */ brcms_b_write_template_ram(wlc_hw, T_BCN0_TPL_BASE, (len + 3) & ~3, beacon->data); /* write beacon length to SCR */ brcms_b_write_shm(wlc_hw, M_BCN0_FRM_BYTESZ, (u16) len); } if (bcn1) { /* write the probe response into the template region */ brcms_b_write_template_ram(wlc_hw, T_BCN1_TPL_BASE, (len + 3) & ~3, beacon->data); /* write beacon length to SCR */ brcms_b_write_shm(wlc_hw, M_BCN1_FRM_BYTESZ, (u16) len); } if (tim_offset != 0) { brcms_b_write_shm(wlc_hw, M_TIMBPOS_INBEACON, tim_offset + D11B_PHY_HDR_LEN); brcms_b_write_shm(wlc_hw, M_DOT11_DTIMPERIOD, dtim_period); } else { brcms_b_write_shm(wlc_hw, M_TIMBPOS_INBEACON, len + D11B_PHY_HDR_LEN); brcms_b_write_shm(wlc_hw, M_DOT11_DTIMPERIOD, 0); } } static void brcms_c_update_beacon_hw(struct brcms_c_info *wlc, struct sk_buff *beacon, u16 tim_offset, u16 dtim_period) { struct brcms_hardware *wlc_hw = wlc->hw; struct bcma_device *core = wlc_hw->d11core; /* Hardware beaconing for this config */ u32 both_valid = MCMD_BCN0VLD | MCMD_BCN1VLD; /* Check if both templates are in use, if so sched. an interrupt * that will call back into this routine */ if ((bcma_read32(core, D11REGOFFS(maccommand)) & both_valid) == both_valid) /* clear any previous status */ bcma_write32(core, D11REGOFFS(macintstatus), MI_BCNTPL); if (wlc->beacon_template_virgin) { wlc->beacon_template_virgin = false; brcms_c_beacon_write(wlc, beacon, tim_offset, dtim_period, true, true); /* mark beacon0 valid */ bcma_set32(core, D11REGOFFS(maccommand), MCMD_BCN0VLD); return; } /* Check that after scheduling the interrupt both of the * templates are still busy. if not clear the int. & remask */ if ((bcma_read32(core, D11REGOFFS(maccommand)) & both_valid) == both_valid) { wlc->defmacintmask |= MI_BCNTPL; return; } if (!(bcma_read32(core, D11REGOFFS(maccommand)) & MCMD_BCN0VLD)) { brcms_c_beacon_write(wlc, beacon, tim_offset, dtim_period, true, false); /* mark beacon0 valid */ bcma_set32(core, D11REGOFFS(maccommand), MCMD_BCN0VLD); return; } if (!(bcma_read32(core, D11REGOFFS(maccommand)) & MCMD_BCN1VLD)) { brcms_c_beacon_write(wlc, beacon, tim_offset, dtim_period, false, true); /* mark beacon0 valid */ bcma_set32(core, D11REGOFFS(maccommand), MCMD_BCN1VLD); } } /* * Update all beacons for the system. */ void brcms_c_update_beacon(struct brcms_c_info *wlc) { struct brcms_bss_cfg *bsscfg = wlc->bsscfg; if (wlc->pub->up && (bsscfg->type == BRCMS_TYPE_AP || bsscfg->type == BRCMS_TYPE_ADHOC)) { /* Clear the soft intmask */ wlc->defmacintmask &= ~MI_BCNTPL; if (!wlc->beacon) return; brcms_c_update_beacon_hw(wlc, wlc->beacon, wlc->beacon_tim_offset, wlc->beacon_dtim_period); } } void brcms_c_set_new_beacon(struct brcms_c_info *wlc, struct sk_buff *beacon, u16 tim_offset, u16 dtim_period) { if (!beacon) return; if (wlc->beacon) dev_kfree_skb_any(wlc->beacon); wlc->beacon = beacon; /* add PLCP */ skb_push(wlc->beacon, D11_PHY_HDR_LEN); wlc->beacon_tim_offset = tim_offset; wlc->beacon_dtim_period = dtim_period; brcms_c_update_beacon(wlc); } void brcms_c_set_new_probe_resp(struct brcms_c_info *wlc, struct sk_buff *probe_resp) { if (!probe_resp) return; if (wlc->probe_resp) dev_kfree_skb_any(wlc->probe_resp); wlc->probe_resp = probe_resp; /* add PLCP */ skb_push(wlc->probe_resp, D11_PHY_HDR_LEN); brcms_c_update_probe_resp(wlc, false); } void brcms_c_enable_probe_resp(struct brcms_c_info *wlc, bool enable) { /* * prevent ucode from sending probe responses by setting the timeout * to 1, it can not send it in that time frame. */ wlc->prb_resp_timeout = enable ? BRCMS_PRB_RESP_TIMEOUT : 1; brcms_b_write_shm(wlc->hw, M_PRS_MAXTIME, wlc->prb_resp_timeout); /* TODO: if (enable) => also deactivate receiving of probe request */ } /* Write ssid into shared memory */ static void brcms_c_shm_ssid_upd(struct brcms_c_info *wlc, struct brcms_bss_cfg *cfg) { u8 *ssidptr = cfg->SSID; u16 base = M_SSID; u8 ssidbuf[IEEE80211_MAX_SSID_LEN]; /* padding the ssid with zero and copy it into shm */ memset(ssidbuf, 0, IEEE80211_MAX_SSID_LEN); memcpy(ssidbuf, ssidptr, cfg->SSID_len); brcms_c_copyto_shm(wlc, base, ssidbuf, IEEE80211_MAX_SSID_LEN); brcms_b_write_shm(wlc->hw, M_SSIDLEN, (u16) cfg->SSID_len); } static void brcms_c_bss_update_probe_resp(struct brcms_c_info *wlc, struct brcms_bss_cfg *cfg, struct sk_buff *probe_resp, bool suspend) { int len; len = min_t(size_t, probe_resp->len, BCN_TMPL_LEN); if (suspend) brcms_c_suspend_mac_and_wait(wlc); /* write the probe response into the template region */ brcms_b_write_template_ram(wlc->hw, T_PRS_TPL_BASE, (len + 3) & ~3, probe_resp->data); /* write the length of the probe response frame (+PLCP/-FCS) */ brcms_b_write_shm(wlc->hw, M_PRB_RESP_FRM_LEN, (u16) len); /* write the SSID and SSID length */ brcms_c_shm_ssid_upd(wlc, cfg); /* * Write PLCP headers and durations for probe response frames * at all rates. Use the actual frame length covered by the * PLCP header for the call to brcms_c_mod_prb_rsp_rate_table() * by subtracting the PLCP len and adding the FCS. */ brcms_c_mod_prb_rsp_rate_table(wlc, (u16)len + FCS_LEN - D11_PHY_HDR_LEN); if (suspend) brcms_c_enable_mac(wlc); } void brcms_c_update_probe_resp(struct brcms_c_info *wlc, bool suspend) { struct brcms_bss_cfg *bsscfg = wlc->bsscfg; /* update AP or IBSS probe responses */ if (wlc->pub->up && (bsscfg->type == BRCMS_TYPE_AP || bsscfg->type == BRCMS_TYPE_ADHOC)) { if (!wlc->probe_resp) return; brcms_c_bss_update_probe_resp(wlc, bsscfg, wlc->probe_resp, suspend); } } int brcms_b_xmtfifo_sz_get(struct brcms_hardware *wlc_hw, uint fifo, uint *blocks) { if (fifo >= NFIFO) return -EINVAL; *blocks = wlc_hw->xmtfifo_sz[fifo]; return 0; } void brcms_c_set_addrmatch(struct brcms_c_info *wlc, int match_reg_offset, const u8 *addr) { brcms_b_set_addrmatch(wlc->hw, match_reg_offset, addr); if (match_reg_offset == RCM_BSSID_OFFSET) memcpy(wlc->bsscfg->BSSID, addr, ETH_ALEN); } /* * Flag 'scan in progress' to withhold dynamic phy calibration */ void brcms_c_scan_start(struct brcms_c_info *wlc) { wlc_phy_hold_upd(wlc->band->pi, PHY_HOLD_FOR_SCAN, true); } void brcms_c_scan_stop(struct brcms_c_info *wlc) { wlc_phy_hold_upd(wlc->band->pi, PHY_HOLD_FOR_SCAN, false); } void brcms_c_associate_upd(struct brcms_c_info *wlc, bool state) { wlc->pub->associated = state; } /* * When a remote STA/AP is removed by Mac80211, or when it can no longer accept * AMPDU traffic, packets pending in hardware have to be invalidated so that * when later on hardware releases them, they can be handled appropriately. */ void brcms_c_inval_dma_pkts(struct brcms_hardware *hw, struct ieee80211_sta *sta, void (*dma_callback_fn)) { struct dma_pub *dmah; int i; for (i = 0; i < NFIFO; i++) { dmah = hw->di[i]; if (dmah != NULL) dma_walk_packets(dmah, dma_callback_fn, sta); } } int brcms_c_get_curband(struct brcms_c_info *wlc) { return wlc->band->bandunit; } bool brcms_c_tx_flush_completed(struct brcms_c_info *wlc) { int i; /* Kick DMA to send any pending AMPDU */ for (i = 0; i < ARRAY_SIZE(wlc->hw->di); i++) if (wlc->hw->di[i]) dma_kick_tx(wlc->hw->di[i]); return !brcms_txpktpendtot(wlc); } void brcms_c_set_beacon_listen_interval(struct brcms_c_info *wlc, u8 interval) { wlc->bcn_li_bcn = interval; if (wlc->pub->up) brcms_c_bcn_li_upd(wlc); } u64 brcms_c_tsf_get(struct brcms_c_info *wlc) { u32 tsf_h, tsf_l; u64 tsf; brcms_b_read_tsf(wlc->hw, &tsf_l, &tsf_h); tsf = tsf_h; tsf <<= 32; tsf |= tsf_l; return tsf; } void brcms_c_tsf_set(struct brcms_c_info *wlc, u64 tsf) { u32 tsf_h, tsf_l; brcms_c_time_lock(wlc); tsf_l = tsf; tsf_h = (tsf >> 32); /* read the tsf timer low, then high to get an atomic read */ bcma_write32(wlc->hw->d11core, D11REGOFFS(tsf_timerlow), tsf_l); bcma_write32(wlc->hw->d11core, D11REGOFFS(tsf_timerhigh), tsf_h); brcms_c_time_unlock(wlc); } int brcms_c_set_tx_power(struct brcms_c_info *wlc, int txpwr) { uint qdbm; /* Remove override bit and clip to max qdbm value */ qdbm = min_t(uint, txpwr * BRCMS_TXPWR_DB_FACTOR, 0xff); return wlc_phy_txpower_set(wlc->band->pi, qdbm, false); } int brcms_c_get_tx_power(struct brcms_c_info *wlc) { uint qdbm; bool override; wlc_phy_txpower_get(wlc->band->pi, &qdbm, &override); /* Return qdbm units */ return (int)(qdbm / BRCMS_TXPWR_DB_FACTOR); } /* Process received frames */ /* * Return true if more frames need to be processed. false otherwise. * Param 'bound' indicates max. # frames to process before break out. */ static void brcms_c_recv(struct brcms_c_info *wlc, struct sk_buff *p) { struct d11rxhdr *rxh; struct ieee80211_hdr *h; uint len; bool is_amsdu; /* frame starts with rxhdr */ rxh = (struct d11rxhdr *) (p->data); /* strip off rxhdr */ skb_pull(p, BRCMS_HWRXOFF); /* MAC inserts 2 pad bytes for a4 headers or QoS or A-MSDU subframes */ if (rxh->RxStatus1 & RXS_PBPRES) { if (p->len < 2) { brcms_err(wlc->hw->d11core, "wl%d: recv: rcvd runt of len %d\n", wlc->pub->unit, p->len); goto toss; } skb_pull(p, 2); } h = (struct ieee80211_hdr *)(p->data + D11_PHY_HDR_LEN); len = p->len; if (rxh->RxStatus1 & RXS_FCSERR) { if (!(wlc->filter_flags & FIF_FCSFAIL)) goto toss; } /* check received pkt has at least frame control field */ if (len < D11_PHY_HDR_LEN + sizeof(h->frame_control)) goto toss; /* not supporting A-MSDU */ is_amsdu = rxh->RxStatus2 & RXS_AMSDU_MASK; if (is_amsdu) goto toss; brcms_c_recvctl(wlc, rxh, p); return; toss: brcmu_pkt_buf_free_skb(p); } /* Process received frames */ /* * Return true if more frames need to be processed. false otherwise. * Param 'bound' indicates max. # frames to process before break out. */ static bool brcms_b_recv(struct brcms_hardware *wlc_hw, uint fifo, bool bound) { struct sk_buff *p; struct sk_buff *next = NULL; struct sk_buff_head recv_frames; uint n = 0; uint bound_limit = bound ? RXBND : -1; bool morepending = false; skb_queue_head_init(&recv_frames); /* gather received frames */ do { /* !give others some time to run! */ if (n >= bound_limit) break; morepending = dma_rx(wlc_hw->di[fifo], &recv_frames); n++; } while (morepending); /* post more rbufs */ dma_rxfill(wlc_hw->di[fifo]); /* process each frame */ skb_queue_walk_safe(&recv_frames, p, next) { struct d11rxhdr_le *rxh_le; struct d11rxhdr *rxh; skb_unlink(p, &recv_frames); rxh_le = (struct d11rxhdr_le *)p->data; rxh = (struct d11rxhdr *)p->data; /* fixup rx header endianness */ rxh->RxFrameSize = le16_to_cpu(rxh_le->RxFrameSize); rxh->PhyRxStatus_0 = le16_to_cpu(rxh_le->PhyRxStatus_0); rxh->PhyRxStatus_1 = le16_to_cpu(rxh_le->PhyRxStatus_1); rxh->PhyRxStatus_2 = le16_to_cpu(rxh_le->PhyRxStatus_2); rxh->PhyRxStatus_3 = le16_to_cpu(rxh_le->PhyRxStatus_3); rxh->PhyRxStatus_4 = le16_to_cpu(rxh_le->PhyRxStatus_4); rxh->PhyRxStatus_5 = le16_to_cpu(rxh_le->PhyRxStatus_5); rxh->RxStatus1 = le16_to_cpu(rxh_le->RxStatus1); rxh->RxStatus2 = le16_to_cpu(rxh_le->RxStatus2); rxh->RxTSFTime = le16_to_cpu(rxh_le->RxTSFTime); rxh->RxChan = le16_to_cpu(rxh_le->RxChan); brcms_c_recv(wlc_hw->wlc, p); } return morepending; } /* second-level interrupt processing * Return true if another dpc needs to be re-scheduled. false otherwise. * Param 'bounded' indicates if applicable loops should be bounded. */ bool brcms_c_dpc(struct brcms_c_info *wlc, bool bounded) { u32 macintstatus; struct brcms_hardware *wlc_hw = wlc->hw; struct bcma_device *core = wlc_hw->d11core; if (brcms_deviceremoved(wlc)) { brcms_err(core, "wl%d: %s: dead chip\n", wlc_hw->unit, __func__); brcms_down(wlc->wl); return false; } /* grab and clear the saved software intstatus bits */ macintstatus = wlc->macintstatus; wlc->macintstatus = 0; brcms_dbg_int(core, "wl%d: macintstatus 0x%x\n", wlc_hw->unit, macintstatus); WARN_ON(macintstatus & MI_PRQ); /* PRQ Interrupt in non-MBSS */ /* tx status */ if (macintstatus & MI_TFS) { bool fatal; if (brcms_b_txstatus(wlc->hw, bounded, &fatal)) wlc->macintstatus |= MI_TFS; if (fatal) { brcms_err(core, "MI_TFS: fatal\n"); goto fatal; } } if (macintstatus & (MI_TBTT | MI_DTIM_TBTT)) brcms_c_tbtt(wlc); /* ATIM window end */ if (macintstatus & MI_ATIMWINEND) { brcms_dbg_info(core, "end of ATIM window\n"); bcma_set32(core, D11REGOFFS(maccommand), wlc->qvalid); wlc->qvalid = 0; } /* * received data or control frame, MI_DMAINT is * indication of RX_FIFO interrupt */ if (macintstatus & MI_DMAINT) if (brcms_b_recv(wlc_hw, RX_FIFO, bounded)) wlc->macintstatus |= MI_DMAINT; /* noise sample collected */ if (macintstatus & MI_BG_NOISE) wlc_phy_noise_sample_intr(wlc_hw->band->pi); if (macintstatus & MI_GP0) { brcms_err(core, "wl%d: PSM microcode watchdog fired at %d " "(seconds). Resetting.\n", wlc_hw->unit, wlc_hw->now); printk_once("%s : PSM Watchdog, chipid 0x%x, chiprev 0x%x\n", __func__, ai_get_chip_id(wlc_hw->sih), ai_get_chiprev(wlc_hw->sih)); brcms_fatal_error(wlc_hw->wlc->wl); } /* gptimer timeout */ if (macintstatus & MI_TO) bcma_write32(core, D11REGOFFS(gptimer), 0); if (macintstatus & MI_RFDISABLE) { brcms_dbg_info(core, "wl%d: BMAC Detected a change on the" " RF Disable Input\n", wlc_hw->unit); brcms_rfkill_set_hw_state(wlc->wl); } /* BCN template is available */ if (macintstatus & MI_BCNTPL) brcms_c_update_beacon(wlc); /* it isn't done and needs to be resched if macintstatus is non-zero */ return wlc->macintstatus != 0; fatal: brcms_fatal_error(wlc_hw->wlc->wl); return wlc->macintstatus != 0; } void brcms_c_init(struct brcms_c_info *wlc, bool mute_tx) { struct bcma_device *core = wlc->hw->d11core; struct ieee80211_channel *ch = wlc->pub->ieee_hw->conf.chandef.chan; u16 chanspec; brcms_dbg_info(core, "wl%d\n", wlc->pub->unit); chanspec = ch20mhz_chspec(ch->hw_value); brcms_b_init(wlc->hw, chanspec); /* update beacon listen interval */ brcms_c_bcn_li_upd(wlc); /* write ethernet address to core */ brcms_c_set_mac(wlc->bsscfg); brcms_c_set_bssid(wlc->bsscfg); /* Update tsf_cfprep if associated and up */ if (wlc->pub->associated && wlc->pub->up) { u32 bi; /* get beacon period and convert to uS */ bi = wlc->bsscfg->current_bss->beacon_period << 10; /* * update since init path would reset * to default value */ bcma_write32(core, D11REGOFFS(tsf_cfprep), bi << CFPREP_CBI_SHIFT); /* Update maccontrol PM related bits */ brcms_c_set_ps_ctrl(wlc); } brcms_c_bandinit_ordered(wlc, chanspec); /* init probe response timeout */ brcms_b_write_shm(wlc->hw, M_PRS_MAXTIME, wlc->prb_resp_timeout); /* init max burst txop (framebursting) */ brcms_b_write_shm(wlc->hw, M_MBURST_TXOP, (wlc-> _rifs ? (EDCF_AC_VO_TXOP_AP << 5) : MAXFRAMEBURST_TXOP)); /* initialize maximum allowed duty cycle */ brcms_c_duty_cycle_set(wlc, wlc->tx_duty_cycle_ofdm, true, true); brcms_c_duty_cycle_set(wlc, wlc->tx_duty_cycle_cck, false, true); /* * Update some shared memory locations related to * max AMPDU size allowed to received */ brcms_c_ampdu_shm_upd(wlc->ampdu); /* band-specific inits */ brcms_c_bsinit(wlc); /* Enable EDCF mode (while the MAC is suspended) */ bcma_set16(core, D11REGOFFS(ifs_ctl), IFS_USEEDCF); brcms_c_edcf_setparams(wlc, false); /* read the ucode version if we have not yet done so */ if (wlc->ucode_rev == 0) { u16 rev; u16 patch; rev = brcms_b_read_shm(wlc->hw, M_BOM_REV_MAJOR); patch = brcms_b_read_shm(wlc->hw, M_BOM_REV_MINOR); wlc->ucode_rev = (rev << NBITS(u16)) | patch; snprintf(wlc->wiphy->fw_version, sizeof(wlc->wiphy->fw_version), "%u.%u", rev, patch); } /* ..now really unleash hell (allow the MAC out of suspend) */ brcms_c_enable_mac(wlc); /* suspend the tx fifos and mute the phy for preism cac time */ if (mute_tx) brcms_b_mute(wlc->hw, true); /* enable the RF Disable Delay timer */ bcma_write32(core, D11REGOFFS(rfdisabledly), RFDISABLE_DEFAULT); /* * Initialize WME parameters; if they haven't been set by some other * mechanism (IOVar, etc) then read them from the hardware. */ if (GFIELD(wlc->wme_retries[0], EDCF_SHORT) == 0) { /* Uninitialized; read from HW */ int ac; for (ac = 0; ac < IEEE80211_NUM_ACS; ac++) wlc->wme_retries[ac] = brcms_b_read_shm(wlc->hw, M_AC_TXLMT_ADDR(ac)); } } /* * The common driver entry routine. Error codes should be unique */ struct brcms_c_info * brcms_c_attach(struct brcms_info *wl, struct bcma_device *core, uint unit, bool piomode, uint *perr) { struct brcms_c_info *wlc; uint err = 0; uint i, j; struct brcms_pub *pub; /* allocate struct brcms_c_info state and its substructures */ wlc = brcms_c_attach_malloc(unit, &err, 0); if (wlc == NULL) goto fail; wlc->wiphy = wl->wiphy; pub = wlc->pub; #if defined(DEBUG) wlc_info_dbg = wlc; #endif wlc->band = wlc->bandstate[0]; wlc->core = wlc->corestate; wlc->wl = wl; pub->unit = unit; pub->_piomode = piomode; wlc->bandinit_pending = false; wlc->beacon_template_virgin = true; /* populate struct brcms_c_info with default values */ brcms_c_info_init(wlc, unit); /* update sta/ap related parameters */ brcms_c_ap_upd(wlc); /* * low level attach steps(all hw accesses go * inside, no more in rest of the attach) */ err = brcms_b_attach(wlc, core, unit, piomode); if (err) goto fail; brcms_c_protection_upd(wlc, BRCMS_PROT_N_PAM_OVR, OFF); pub->phy_11ncapable = BRCMS_PHY_11N_CAP(wlc->band); /* disable allowed duty cycle */ wlc->tx_duty_cycle_ofdm = 0; wlc->tx_duty_cycle_cck = 0; brcms_c_stf_phy_chain_calc(wlc); /* txchain 1: txant 0, txchain 2: txant 1 */ if (BRCMS_ISNPHY(wlc->band) && (wlc->stf->txstreams == 1)) wlc->stf->txant = wlc->stf->hw_txchain - 1; /* push to BMAC driver */ wlc_phy_stf_chain_init(wlc->band->pi, wlc->stf->hw_txchain, wlc->stf->hw_rxchain); /* pull up some info resulting from the low attach */ for (i = 0; i < NFIFO; i++) wlc->core->txavail[i] = wlc->hw->txavail[i]; memcpy(&wlc->perm_etheraddr, &wlc->hw->etheraddr, ETH_ALEN); memcpy(&pub->cur_etheraddr, &wlc->hw->etheraddr, ETH_ALEN); for (j = 0; j < wlc->pub->_nbands; j++) { wlc->band = wlc->bandstate[j]; if (!brcms_c_attach_stf_ant_init(wlc)) { err = 24; goto fail; } /* default contention windows size limits */ wlc->band->CWmin = APHY_CWMIN; wlc->band->CWmax = PHY_CWMAX; /* init gmode value */ if (wlc->band->bandtype == BRCM_BAND_2G) { wlc->band->gmode = GMODE_AUTO; brcms_c_protection_upd(wlc, BRCMS_PROT_G_USER, wlc->band->gmode); } /* init _n_enab supported mode */ if (BRCMS_PHY_11N_CAP(wlc->band)) { pub->_n_enab = SUPPORT_11N; brcms_c_protection_upd(wlc, BRCMS_PROT_N_USER, ((pub->_n_enab == SUPPORT_11N) ? WL_11N_2x2 : WL_11N_3x3)); } /* init per-band default rateset, depend on band->gmode */ brcms_default_rateset(wlc, &wlc->band->defrateset); /* fill in hw_rateset */ brcms_c_rateset_filter(&wlc->band->defrateset, &wlc->band->hw_rateset, false, BRCMS_RATES_CCK_OFDM, BRCMS_RATE_MASK, (bool) (wlc->pub->_n_enab & SUPPORT_11N)); } /* * update antenna config due to * wlc->stf->txant/txchain/ant_rx_ovr change */ brcms_c_stf_phy_txant_upd(wlc); /* attach each modules */ err = brcms_c_attach_module(wlc); if (err != 0) goto fail; if (!brcms_c_timers_init(wlc, unit)) { wiphy_err(wl->wiphy, "wl%d: %s: init_timer failed\n", unit, __func__); err = 32; goto fail; } /* depend on rateset, gmode */ wlc->cmi = brcms_c_channel_mgr_attach(wlc); if (!wlc->cmi) { wiphy_err(wl->wiphy, "wl%d: %s: channel_mgr_attach failed" "\n", unit, __func__); err = 33; goto fail; } /* init default when all parameters are ready, i.e. ->rateset */ brcms_c_bss_default_init(wlc); /* * Complete the wlc default state initializations.. */ wlc->bsscfg->wlc = wlc; wlc->mimoft = FT_HT; wlc->mimo_40txbw = AUTO; wlc->ofdm_40txbw = AUTO; wlc->cck_40txbw = AUTO; brcms_c_update_mimo_band_bwcap(wlc, BRCMS_N_BW_20IN2G_40IN5G); /* Set default values of SGI */ if (BRCMS_SGI_CAP_PHY(wlc)) { brcms_c_ht_update_sgi_rx(wlc, (BRCMS_N_SGI_20 | BRCMS_N_SGI_40)); } else if (BRCMS_ISSSLPNPHY(wlc->band)) { brcms_c_ht_update_sgi_rx(wlc, (BRCMS_N_SGI_20 | BRCMS_N_SGI_40)); } else { brcms_c_ht_update_sgi_rx(wlc, 0); } brcms_b_antsel_set(wlc->hw, wlc->asi->antsel_avail); if (perr) *perr = 0; return wlc; fail: wiphy_err(wl->wiphy, "wl%d: %s: failed with err %d\n", unit, __func__, err); if (wlc) brcms_c_detach(wlc); if (perr) *perr = err; return NULL; } |