17d0af6dfSXianjun Jiao // Author: Xianjun Jiao, Michael Mehari, Wei Liu, Jetmir Haxhibeqiri, Pablo Avila Campos 27d0af6dfSXianjun Jiao // SPDX-FileCopyrightText: 2022 UGent 3a6085186SLina Ceballos // SPDX-License-Identifier: AGPL-3.0-or-later 42ee67178SXianjun Jiao 52ee67178SXianjun Jiao #include <linux/bitops.h> 62ee67178SXianjun Jiao #include <linux/dmapool.h> 72ee67178SXianjun Jiao #include <linux/io.h> 82ee67178SXianjun Jiao #include <linux/iopoll.h> 92ee67178SXianjun Jiao #include <linux/of_address.h> 102ee67178SXianjun Jiao #include <linux/of_platform.h> 112ee67178SXianjun Jiao #include <linux/of_irq.h> 122ee67178SXianjun Jiao #include <linux/slab.h> 132ee67178SXianjun Jiao #include <linux/clk.h> 142ee67178SXianjun Jiao #include <linux/io-64-nonatomic-lo-hi.h> 152ee67178SXianjun Jiao 162ee67178SXianjun Jiao #include <linux/delay.h> 172ee67178SXianjun Jiao #include <linux/interrupt.h> 182ee67178SXianjun Jiao 192ee67178SXianjun Jiao #include <linux/dmaengine.h> 202ee67178SXianjun Jiao #include <linux/slab.h> 212ee67178SXianjun Jiao #include <linux/delay.h> 222ee67178SXianjun Jiao #include <linux/etherdevice.h> 232ee67178SXianjun Jiao 242ee67178SXianjun Jiao #include <linux/init.h> 252ee67178SXianjun Jiao #include <linux/kthread.h> 262ee67178SXianjun Jiao #include <linux/module.h> 272ee67178SXianjun Jiao #include <linux/of_dma.h> 282ee67178SXianjun Jiao #include <linux/platform_device.h> 292ee67178SXianjun Jiao #include <linux/random.h> 302ee67178SXianjun Jiao #include <linux/slab.h> 312ee67178SXianjun Jiao #include <linux/wait.h> 322ee67178SXianjun Jiao #include <linux/sched/task.h> 332ee67178SXianjun Jiao #include <linux/dma/xilinx_dma.h> 342ee67178SXianjun Jiao #include <linux/spi/spi.h> 352ee67178SXianjun Jiao #include <net/mac80211.h> 362ee67178SXianjun Jiao 372ee67178SXianjun Jiao #include <linux/clk.h> 382ee67178SXianjun Jiao #include <linux/clkdev.h> 392ee67178SXianjun Jiao #include <linux/clk-provider.h> 402ee67178SXianjun Jiao 412ee67178SXianjun Jiao #include <linux/iio/iio.h> 422ee67178SXianjun Jiao #include <linux/iio/sysfs.h> 432ee67178SXianjun Jiao 442ee67178SXianjun Jiao #include <linux/gpio.h> 452ee67178SXianjun Jiao #include <linux/leds.h> 462ee67178SXianjun Jiao 472ee67178SXianjun Jiao #define IIO_AD9361_USE_PRIVATE_H_ 4856fcab20SXianjun Jiao #include <../../drivers/iio/adc/ad9361_regs.h> 4956fcab20SXianjun Jiao #include <../../drivers/iio/adc/ad9361.h> 5056fcab20SXianjun Jiao #include <../../drivers/iio/adc/ad9361_private.h> 512ee67178SXianjun Jiao 522ee67178SXianjun Jiao #include <../../drivers/iio/frequency/cf_axi_dds.h> 5356fcab20SXianjun Jiao extern int ad9361_get_tx_atten(struct ad9361_rf_phy *phy, u32 tx_num); 5456fcab20SXianjun Jiao extern int ad9361_set_tx_atten(struct ad9361_rf_phy *phy, u32 atten_mdb, 5556fcab20SXianjun Jiao bool tx1, bool tx2, bool immed); 5656fcab20SXianjun Jiao extern int ad9361_ctrl_outs_setup(struct ad9361_rf_phy *phy, 5756fcab20SXianjun Jiao struct ctrl_outs_control *ctrl); 58bc98f5bbSthavinga extern int ad9361_do_calib_run(struct ad9361_rf_phy *phy, u32 cal, int arg); 592ee67178SXianjun Jiao 602ee67178SXianjun Jiao #include "../user_space/sdrctl_src/nl80211_testmode_def.h" 612ee67178SXianjun Jiao #include "hw_def.h" 622ee67178SXianjun Jiao #include "sdr.h" 630a92505dSXianjun Jiao #include "git_rev.h" 642ee67178SXianjun Jiao 652ee67178SXianjun Jiao // driver API of component driver 662ee67178SXianjun Jiao extern struct tx_intf_driver_api *tx_intf_api; 672ee67178SXianjun Jiao extern struct rx_intf_driver_api *rx_intf_api; 682ee67178SXianjun Jiao extern struct openofdm_tx_driver_api *openofdm_tx_api; 692ee67178SXianjun Jiao extern struct openofdm_rx_driver_api *openofdm_rx_api; 702ee67178SXianjun Jiao extern struct xpu_driver_api *xpu_api; 712ee67178SXianjun Jiao 72f738aefaSmmehari u32 gen_mpdu_crc(u8 *data_in, u32 num_bytes); 73f738aefaSmmehari u8 gen_mpdu_delim_crc(u16 m); 74d2bd08e0SXianjun Jiao u32 reverse32(u32 d); 758e13e72bSXianjun Jiao static int openwifi_set_antenna(struct ieee80211_hw *dev, u32 tx_ant, u32 rx_ant); 768e13e72bSXianjun Jiao static int openwifi_get_antenna(struct ieee80211_hw *dev, u32 *tx_ant, u32 *rx_ant); 77cb810548SXianjun Jiao int rssi_half_db_to_rssi_dbm(int rssi_half_db, int rssi_correction); 78cb810548SXianjun Jiao int rssi_dbm_to_rssi_half_db(int rssi_dbm, int rssi_correction); 79cb810548SXianjun Jiao int rssi_correction_lookup_table(u32 freq_MHz); 80f738aefaSmmehari 817d0af6dfSXianjun Jiao #include "sdrctl_intf.c" 827d0af6dfSXianjun Jiao #include "sysfs_intf.c" 837d0af6dfSXianjun Jiao 8476b1a6a1SXianjun Jiao static int test_mode = 0; // bit0: aggregation enable(1)/disable(0); NO USE ANY MORE: bit1: tx offset tuning enable(0)/disable(1) 8576b1a6a1SXianjun Jiao // Internal indication variables after parsing test_mode 8676b1a6a1SXianjun Jiao static bool AGGR_ENABLE = false; 8776b1a6a1SXianjun Jiao static bool TX_OFFSET_TUNING_ENABLE = false; 8876b1a6a1SXianjun Jiao 8976b1a6a1SXianjun Jiao static int init_tx_att = 0; 902ee67178SXianjun Jiao 912ee67178SXianjun Jiao MODULE_AUTHOR("Xianjun Jiao"); 922ee67178SXianjun Jiao MODULE_DESCRIPTION("SDR driver"); 932ee67178SXianjun Jiao MODULE_LICENSE("GPL v2"); 942ee67178SXianjun Jiao 952ee67178SXianjun Jiao module_param(test_mode, int, 0); 9676b1a6a1SXianjun Jiao MODULE_PARM_DESC(myint, "test_mode. bit0: aggregation enable(1)/disable(0)"); 9776b1a6a1SXianjun Jiao 9876b1a6a1SXianjun Jiao module_param(init_tx_att, int, 0); 9976b1a6a1SXianjun Jiao MODULE_PARM_DESC(myint, "init_tx_att. TX attenuation in dB*1000 example: set to 3000 for 3dB attenuation"); 1002ee67178SXianjun Jiao 1012ee67178SXianjun Jiao // ---------------rfkill--------------------------------------- 1022ee67178SXianjun Jiao static bool openwifi_is_radio_enabled(struct openwifi_priv *priv) 1032ee67178SXianjun Jiao { 1042ee67178SXianjun Jiao int reg; 1052ee67178SXianjun Jiao 10691a6d831SXianjun Jiao if (priv->tx_intf_cfg==TX_INTF_BW_20MHZ_AT_0MHZ_ANT0 || priv->tx_intf_cfg==TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0 || priv->tx_intf_cfg==TX_INTF_BW_20MHZ_AT_0MHZ_ANT_BOTH) 1072ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 1); 10891a6d831SXianjun Jiao else 10991a6d831SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 1102ee67178SXianjun Jiao 11191a6d831SXianjun Jiao if (reg == (AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT])) 1122ee67178SXianjun Jiao return true;// 0 off, 1 on 1132ee67178SXianjun Jiao return false; 1142ee67178SXianjun Jiao } 1152ee67178SXianjun Jiao 1162ee67178SXianjun Jiao void openwifi_rfkill_init(struct ieee80211_hw *hw) 1172ee67178SXianjun Jiao { 1182ee67178SXianjun Jiao struct openwifi_priv *priv = hw->priv; 1192ee67178SXianjun Jiao 1202ee67178SXianjun Jiao priv->rfkill_off = openwifi_is_radio_enabled(priv); 1212ee67178SXianjun Jiao printk("%s openwifi_rfkill_init: wireless switch is %s\n", sdr_compatible_str, priv->rfkill_off ? "on" : "off"); 1222ee67178SXianjun Jiao wiphy_rfkill_set_hw_state(hw->wiphy, !priv->rfkill_off); 1232ee67178SXianjun Jiao wiphy_rfkill_start_polling(hw->wiphy); 1242ee67178SXianjun Jiao } 1252ee67178SXianjun Jiao 1262ee67178SXianjun Jiao void openwifi_rfkill_poll(struct ieee80211_hw *hw) 1272ee67178SXianjun Jiao { 1282ee67178SXianjun Jiao bool enabled; 1292ee67178SXianjun Jiao struct openwifi_priv *priv = hw->priv; 1302ee67178SXianjun Jiao 1312ee67178SXianjun Jiao enabled = openwifi_is_radio_enabled(priv); 132838a9007SXianjun Jiao // printk("%s openwifi_rfkill_poll: wireless radio switch turned %s\n", sdr_compatible_str, enabled ? "on" : "off"); 1332ee67178SXianjun Jiao if (unlikely(enabled != priv->rfkill_off)) { 1342ee67178SXianjun Jiao priv->rfkill_off = enabled; 1352ee67178SXianjun Jiao printk("%s openwifi_rfkill_poll: WARNING wireless radio switch turned %s\n", sdr_compatible_str, enabled ? "on" : "off"); 1362ee67178SXianjun Jiao wiphy_rfkill_set_hw_state(hw->wiphy, !enabled); 1372ee67178SXianjun Jiao } 1382ee67178SXianjun Jiao } 1392ee67178SXianjun Jiao 1402ee67178SXianjun Jiao void openwifi_rfkill_exit(struct ieee80211_hw *hw) 1412ee67178SXianjun Jiao { 1422ee67178SXianjun Jiao printk("%s openwifi_rfkill_exit\n", sdr_compatible_str); 1432ee67178SXianjun Jiao wiphy_rfkill_stop_polling(hw->wiphy); 1442ee67178SXianjun Jiao } 1452ee67178SXianjun Jiao //----------------rfkill end----------------------------------- 1462ee67178SXianjun Jiao 147cb810548SXianjun Jiao inline int rssi_dbm_to_rssi_half_db(int rssi_dbm, int rssi_correction) 148cb810548SXianjun Jiao { 149cb810548SXianjun Jiao return ((rssi_correction+rssi_dbm)<<1); 150cb810548SXianjun Jiao } 151cb810548SXianjun Jiao 152cb810548SXianjun Jiao inline int rssi_correction_lookup_table(u32 freq_MHz) 153cb810548SXianjun Jiao { 154cb810548SXianjun Jiao int rssi_correction; 155cb810548SXianjun Jiao 156cb810548SXianjun Jiao if (freq_MHz<2412) { 157cb810548SXianjun Jiao rssi_correction = 153; 158cb810548SXianjun Jiao } else if (freq_MHz<=2484) { 159cb810548SXianjun Jiao rssi_correction = 153; 160cb810548SXianjun Jiao } else if (freq_MHz<5160) { 161cb810548SXianjun Jiao rssi_correction = 153; 162cb810548SXianjun Jiao } else if (freq_MHz<=5240) { 163cb810548SXianjun Jiao rssi_correction = 145; 164cb810548SXianjun Jiao } else if (freq_MHz<=5320) { 165cb810548SXianjun Jiao rssi_correction = 148; 166cb810548SXianjun Jiao } else { 167cb810548SXianjun Jiao rssi_correction = 148; 168cb810548SXianjun Jiao } 169cb810548SXianjun Jiao 170cb810548SXianjun Jiao return rssi_correction; 171cb810548SXianjun Jiao } 172cb810548SXianjun Jiao 1732ee67178SXianjun Jiao static void ad9361_rf_set_channel(struct ieee80211_hw *dev, 1742ee67178SXianjun Jiao struct ieee80211_conf *conf) 1752ee67178SXianjun Jiao { 1762ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 177a7d34401SXianjun Jiao u32 actual_rx_lo = conf->chandef.chan->center_freq - priv->rx_freq_offset_to_lo_MHz; 178bb0a2c58SXianjun Jiao u32 actual_tx_lo; 179bc98f5bbSthavinga u32 spi_disable; 180bc98f5bbSthavinga u32 diff_tx_lo; 1812ee67178SXianjun Jiao bool change_flag = (actual_rx_lo != priv->actual_rx_lo); 182a7d34401SXianjun Jiao int static_lbt_th, auto_lbt_th, fpga_lbt_th, receiver_rssi_dbm_th; 183bc98f5bbSthavinga struct timeval tv; 184bc98f5bbSthavinga unsigned long time_before = 0; 185bc98f5bbSthavinga unsigned long time_after = 0; 1862ee67178SXianjun Jiao 1872ee67178SXianjun Jiao if (change_flag) { 1882ee67178SXianjun Jiao actual_tx_lo = conf->chandef.chan->center_freq - priv->tx_freq_offset_to_lo_MHz; 189bc98f5bbSthavinga diff_tx_lo = priv->last_tx_quad_cal_lo > actual_tx_lo ? priv->last_tx_quad_cal_lo - actual_tx_lo : actual_tx_lo - priv->last_tx_quad_cal_lo; 1902ee67178SXianjun Jiao 191a7d34401SXianjun Jiao // -------------------Tx Lo tuning------------------- 192a7d34401SXianjun Jiao clk_set_rate(priv->ad9361_phy->clks[TX_RFPLL], ( ( ((u64)1000000ull)*((u64)actual_tx_lo ) + priv->rf_reg_val[RF_TX_REG_IDX_FO] )>>1) ); 193dbf0324bSXianjun Jiao priv->actual_tx_lo = actual_tx_lo; 194dbf0324bSXianjun Jiao 195a7d34401SXianjun Jiao // -------------------Rx Lo tuning------------------- 196a7d34401SXianjun Jiao clk_set_rate(priv->ad9361_phy->clks[RX_RFPLL], ( ( ((u64)1000000ull)*((u64)actual_rx_lo ) + priv->rf_reg_val[RF_RX_REG_IDX_FO] )>>1) ); 197dbf0324bSXianjun Jiao priv->actual_rx_lo = actual_rx_lo; 1982ee67178SXianjun Jiao 199bc98f5bbSthavinga // call Tx Quadrature calibration if frequency change is more than 100MHz 200bc98f5bbSthavinga if (diff_tx_lo > 100) { 201bc98f5bbSthavinga priv->last_tx_quad_cal_lo = actual_tx_lo; 202bc98f5bbSthavinga do_gettimeofday(&tv); 203bc98f5bbSthavinga time_before = tv.tv_usec + ((u64)1000000ull)*((u64)tv.tv_sec ); 204bc98f5bbSthavinga spi_disable = xpu_api->XPU_REG_SPI_DISABLE_read(); // disable FPGA SPI module 205bc98f5bbSthavinga xpu_api->XPU_REG_SPI_DISABLE_write(1); 206bc98f5bbSthavinga ad9361_do_calib_run(priv->ad9361_phy, TX_QUAD_CAL, (int)priv->ad9361_phy->state->last_tx_quad_cal_phase); 207bc98f5bbSthavinga // restore original SPI disable state 208bc98f5bbSthavinga xpu_api->XPU_REG_SPI_DISABLE_write(spi_disable); 209bc98f5bbSthavinga do_gettimeofday(&tv); 210bc98f5bbSthavinga time_after = tv.tv_usec + ((u64)1000000ull)*((u64)tv.tv_sec ); 211bc98f5bbSthavinga } 212bc98f5bbSthavinga 213a7d34401SXianjun Jiao // get rssi correction value from lookup table 214a7d34401SXianjun Jiao priv->rssi_correction = rssi_correction_lookup_table(actual_rx_lo); 2155deb8d18SXianjun Jiao 216a7d34401SXianjun Jiao // set appropriate lbt threshold 217aa239344SXianjun Jiao // xpu_api->XPU_REG_LBT_TH_write((priv->rssi_correction-62)<<1); // -62dBm 2188598d294SXianjun Jiao // xpu_api->XPU_REG_LBT_TH_write((priv->rssi_correction-62-16)<<1); // wei's magic value is 135, here is 134 @ ch 44 219a7d34401SXianjun Jiao // auto_lbt_th = ((priv->rssi_correction-62-16)<<1); 220a7d34401SXianjun Jiao auto_lbt_th = rssi_dbm_to_rssi_half_db(-78, priv->rssi_correction); // -78dBm, the same as above ((priv->rssi_correction-62-16)<<1) 221a7d34401SXianjun Jiao static_lbt_th = rssi_dbm_to_rssi_half_db(-(priv->drv_xpu_reg_val[DRV_XPU_REG_IDX_LBT_TH]), priv->rssi_correction); 222a7d34401SXianjun Jiao fpga_lbt_th = (priv->drv_xpu_reg_val[DRV_XPU_REG_IDX_LBT_TH]==0?auto_lbt_th:static_lbt_th); 2238598d294SXianjun Jiao xpu_api->XPU_REG_LBT_TH_write(fpga_lbt_th); 2248598d294SXianjun Jiao priv->last_auto_fpga_lbt_th = auto_lbt_th; 2252ee67178SXianjun Jiao 226a7d34401SXianjun Jiao // Set rssi_half_db threshold (-85dBm equivalent) to receiver. Receiver will not react to signal lower than this rssi. See test records (OPENOFDM_RX_POWER_THRES_INIT in hw_def.h) 227a7d34401SXianjun Jiao receiver_rssi_dbm_th = (priv->drv_rx_reg_val[DRV_RX_REG_IDX_DEMOD_TH]==0?OPENOFDM_RX_RSSI_DBM_TH_DEFAULT:(-priv->drv_rx_reg_val[DRV_RX_REG_IDX_DEMOD_TH])); 228a7d34401SXianjun Jiao openofdm_rx_api->OPENOFDM_RX_REG_POWER_THRES_write((OPENOFDM_RX_DC_RUNNING_SUM_TH_INIT<<16)|rssi_dbm_to_rssi_half_db(receiver_rssi_dbm_th, priv->rssi_correction)); 229a7d34401SXianjun Jiao 2302ee67178SXianjun Jiao if (actual_rx_lo < 2500) { 2312ee67178SXianjun Jiao if (priv->band != BAND_2_4GHZ) { 2322ee67178SXianjun Jiao priv->band = BAND_2_4GHZ; 2332ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 2342ee67178SXianjun Jiao } 23553462704SXianjun Jiao } else { 2362ee67178SXianjun Jiao if (priv->band != BAND_5_8GHZ) { 2372ee67178SXianjun Jiao priv->band = BAND_5_8GHZ; 2382ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 2392ee67178SXianjun Jiao } 2402ee67178SXianjun Jiao } 241bc98f5bbSthavinga printk("%s ad9361_rf_set_channel %dM rssi_correction %d (change flag %d) fpga_lbt_th %d(%ddBm) (auto %d static %d) tx_quad_cal duration %lu us\n", sdr_compatible_str,conf->chandef.chan->center_freq,priv->rssi_correction,change_flag,fpga_lbt_th,rssi_half_db_to_rssi_dbm(fpga_lbt_th, priv->rssi_correction),auto_lbt_th,static_lbt_th, time_after-time_before); 2422ee67178SXianjun Jiao } 2432ee67178SXianjun Jiao } 2442ee67178SXianjun Jiao 2452ee67178SXianjun Jiao const struct openwifi_rf_ops ad9361_rf_ops = { 2462ee67178SXianjun Jiao .name = "ad9361", 2472ee67178SXianjun Jiao // .init = ad9361_rf_init, 2482ee67178SXianjun Jiao // .stop = ad9361_rf_stop, 2492ee67178SXianjun Jiao .set_chan = ad9361_rf_set_channel, 2502ee67178SXianjun Jiao // .calc_rssi = ad9361_rf_calc_rssi, 2512ee67178SXianjun Jiao }; 2522ee67178SXianjun Jiao 2532ee67178SXianjun Jiao u16 reverse16(u16 d) { 2542ee67178SXianjun Jiao union u16_byte2 tmp0, tmp1; 2552ee67178SXianjun Jiao tmp0.a = d; 2562ee67178SXianjun Jiao tmp1.c[0] = tmp0.c[1]; 2572ee67178SXianjun Jiao tmp1.c[1] = tmp0.c[0]; 2582ee67178SXianjun Jiao return(tmp1.a); 2592ee67178SXianjun Jiao } 2602ee67178SXianjun Jiao 2612ee67178SXianjun Jiao u32 reverse32(u32 d) { 2622ee67178SXianjun Jiao union u32_byte4 tmp0, tmp1; 2632ee67178SXianjun Jiao tmp0.a = d; 2642ee67178SXianjun Jiao tmp1.c[0] = tmp0.c[3]; 2652ee67178SXianjun Jiao tmp1.c[1] = tmp0.c[2]; 2662ee67178SXianjun Jiao tmp1.c[2] = tmp0.c[1]; 2672ee67178SXianjun Jiao tmp1.c[3] = tmp0.c[0]; 2682ee67178SXianjun Jiao return(tmp1.a); 2692ee67178SXianjun Jiao } 2702ee67178SXianjun Jiao 271838a9007SXianjun Jiao static int openwifi_init_tx_ring(struct openwifi_priv *priv, int ring_idx) 2722ee67178SXianjun Jiao { 273838a9007SXianjun Jiao struct openwifi_ring *ring = &(priv->tx_ring[ring_idx]); 2742ee67178SXianjun Jiao int i; 2752ee67178SXianjun Jiao 276838a9007SXianjun Jiao ring->stop_flag = 0; 2772ee67178SXianjun Jiao ring->bd_wr_idx = 0; 2782ee67178SXianjun Jiao ring->bd_rd_idx = 0; 2792ee67178SXianjun Jiao ring->bds = kmalloc(sizeof(struct openwifi_buffer_descriptor)*NUM_TX_BD,GFP_KERNEL); 2802ee67178SXianjun Jiao if (ring->bds==NULL) { 2812ee67178SXianjun Jiao printk("%s openwifi_init_tx_ring: WARNING Cannot allocate TX ring\n",sdr_compatible_str); 2822ee67178SXianjun Jiao return -ENOMEM; 2832ee67178SXianjun Jiao } 2842ee67178SXianjun Jiao 2852ee67178SXianjun Jiao for (i = 0; i < NUM_TX_BD; i++) { 2862ee67178SXianjun Jiao ring->bds[i].skb_linked=0; // for tx, skb is from upper layer 287b1dd94e3Sluz paz //at first right after skb allocated, head, data, tail are the same. 28846c420aeSluz paz ring->bds[i].dma_mapping_addr = 0; // for tx, mapping is done after skb is received from upper layer in tx routine 289f738aefaSmmehari ring->bds[i].seq_no = 0; 2902ee67178SXianjun Jiao } 2912ee67178SXianjun Jiao 2922ee67178SXianjun Jiao return 0; 2932ee67178SXianjun Jiao } 2942ee67178SXianjun Jiao 295838a9007SXianjun Jiao static void openwifi_free_tx_ring(struct openwifi_priv *priv, int ring_idx) 2962ee67178SXianjun Jiao { 297838a9007SXianjun Jiao struct openwifi_ring *ring = &(priv->tx_ring[ring_idx]); 2982ee67178SXianjun Jiao int i; 2992ee67178SXianjun Jiao 300838a9007SXianjun Jiao ring->stop_flag = 0; 3012ee67178SXianjun Jiao ring->bd_wr_idx = 0; 3022ee67178SXianjun Jiao ring->bd_rd_idx = 0; 3032ee67178SXianjun Jiao for (i = 0; i < NUM_TX_BD; i++) { 3042ee67178SXianjun Jiao if (ring->bds[i].skb_linked == 0 && ring->bds[i].dma_mapping_addr == 0) 3052ee67178SXianjun Jiao continue; 3062ee67178SXianjun Jiao if (ring->bds[i].dma_mapping_addr != 0) 307838a9007SXianjun Jiao dma_unmap_single(priv->tx_chan->device->dev, ring->bds[i].dma_mapping_addr,ring->bds[i].skb_linked->len, DMA_MEM_TO_DEV); 3082ee67178SXianjun Jiao // if (ring->bds[i].skb_linked!=NULL) 309838a9007SXianjun Jiao // dev_kfree_skb(ring->bds[i].skb_linked); // only use dev_kfree_skb when there is exception 3102ee67178SXianjun Jiao if ( (ring->bds[i].dma_mapping_addr != 0 && ring->bds[i].skb_linked == 0) || 3112ee67178SXianjun Jiao (ring->bds[i].dma_mapping_addr == 0 && ring->bds[i].skb_linked != 0)) 31295d3c7c5SXianjun Jiao printk("%s openwifi_free_tx_ring: WARNING ring %d i %d skb_linked %p dma_mapping_addr %08x\n", sdr_compatible_str, 3138598d294SXianjun Jiao ring_idx, i, (void*)(ring->bds[i].skb_linked), (unsigned int)(ring->bds[i].dma_mapping_addr)); 3142ee67178SXianjun Jiao 3152ee67178SXianjun Jiao ring->bds[i].skb_linked=0; 3162ee67178SXianjun Jiao ring->bds[i].dma_mapping_addr = 0; 317f738aefaSmmehari ring->bds[i].seq_no = 0; 3182ee67178SXianjun Jiao } 3192ee67178SXianjun Jiao if (ring->bds) 3202ee67178SXianjun Jiao kfree(ring->bds); 3212ee67178SXianjun Jiao ring->bds = NULL; 3222ee67178SXianjun Jiao } 3232ee67178SXianjun Jiao 3242ee67178SXianjun Jiao static int openwifi_init_rx_ring(struct openwifi_priv *priv) 3252ee67178SXianjun Jiao { 326027d42ecSXianjun Jiao int i; 327027d42ecSXianjun Jiao u8 *pdata_tmp; 328027d42ecSXianjun Jiao 3292ee67178SXianjun Jiao priv->rx_cyclic_buf = dma_alloc_coherent(priv->rx_chan->device->dev,RX_BD_BUF_SIZE*NUM_RX_BD,&priv->rx_cyclic_buf_dma_mapping_addr,GFP_KERNEL); 3302ee67178SXianjun Jiao if (!priv->rx_cyclic_buf) { 3312ee67178SXianjun Jiao printk("%s openwifi_init_rx_ring: WARNING dma_alloc_coherent failed!\n", sdr_compatible_str); 3322ee67178SXianjun Jiao dma_free_coherent(priv->rx_chan->device->dev,RX_BD_BUF_SIZE*NUM_RX_BD,priv->rx_cyclic_buf,priv->rx_cyclic_buf_dma_mapping_addr); 3332ee67178SXianjun Jiao return(-1); 3342ee67178SXianjun Jiao } 335027d42ecSXianjun Jiao 336027d42ecSXianjun Jiao // Set tsft_low and tsft_high to 0. If they are not zero, it means there is a packet in the buffer by DMA 337027d42ecSXianjun Jiao for (i=0; i<NUM_RX_BD; i++) { 338027d42ecSXianjun Jiao pdata_tmp = priv->rx_cyclic_buf + i*RX_BD_BUF_SIZE; // our header insertion is at the beginning 339027d42ecSXianjun Jiao (*((u32*)(pdata_tmp+0 ))) = 0; 340027d42ecSXianjun Jiao (*((u32*)(pdata_tmp+4 ))) = 0; 341027d42ecSXianjun Jiao } 342027d42ecSXianjun Jiao printk("%s openwifi_init_rx_ring: tsft_low and tsft_high are cleared!\n", sdr_compatible_str); 343027d42ecSXianjun Jiao 3442ee67178SXianjun Jiao return 0; 3452ee67178SXianjun Jiao } 3462ee67178SXianjun Jiao 3472ee67178SXianjun Jiao static void openwifi_free_rx_ring(struct openwifi_priv *priv) 3482ee67178SXianjun Jiao { 3492ee67178SXianjun Jiao if (priv->rx_cyclic_buf) 3502ee67178SXianjun Jiao dma_free_coherent(priv->rx_chan->device->dev,RX_BD_BUF_SIZE*NUM_RX_BD,priv->rx_cyclic_buf,priv->rx_cyclic_buf_dma_mapping_addr); 3512ee67178SXianjun Jiao 3522ee67178SXianjun Jiao priv->rx_cyclic_buf_dma_mapping_addr = 0; 3532ee67178SXianjun Jiao priv->rx_cyclic_buf = 0; 3542ee67178SXianjun Jiao } 3552ee67178SXianjun Jiao 3562ee67178SXianjun Jiao static int rx_dma_setup(struct ieee80211_hw *dev){ 3572ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 3582ee67178SXianjun Jiao struct dma_device *rx_dev = priv->rx_chan->device; 3592ee67178SXianjun Jiao 3602ee67178SXianjun Jiao priv->rxd = rx_dev->device_prep_dma_cyclic(priv->rx_chan,priv->rx_cyclic_buf_dma_mapping_addr,RX_BD_BUF_SIZE*NUM_RX_BD,RX_BD_BUF_SIZE,DMA_DEV_TO_MEM,DMA_CTRL_ACK|DMA_PREP_INTERRUPT); 3612ee67178SXianjun Jiao if (!(priv->rxd)) { 3622ee67178SXianjun Jiao openwifi_free_rx_ring(priv); 363febc5adfSXianjun Jiao printk("%s rx_dma_setup: WARNING rx_dev->device_prep_dma_cyclic %p\n", sdr_compatible_str, (void*)(priv->rxd)); 3642ee67178SXianjun Jiao return(-1); 3652ee67178SXianjun Jiao } 3662ee67178SXianjun Jiao priv->rxd->callback = 0; 3672ee67178SXianjun Jiao priv->rxd->callback_param = 0; 3682ee67178SXianjun Jiao 3692ee67178SXianjun Jiao priv->rx_cookie = priv->rxd->tx_submit(priv->rxd); 3702ee67178SXianjun Jiao 3712ee67178SXianjun Jiao if (dma_submit_error(priv->rx_cookie)) { 3722ee67178SXianjun Jiao printk("%s rx_dma_setup: WARNING dma_submit_error(rx_cookie) %d\n", sdr_compatible_str, (u32)(priv->rx_cookie)); 3732ee67178SXianjun Jiao return(-1); 3742ee67178SXianjun Jiao } 3752ee67178SXianjun Jiao 3762ee67178SXianjun Jiao dma_async_issue_pending(priv->rx_chan); 3772ee67178SXianjun Jiao return(0); 3782ee67178SXianjun Jiao } 3792ee67178SXianjun Jiao 380cb810548SXianjun Jiao inline int rssi_half_db_to_rssi_dbm(int rssi_half_db, int rssi_correction) 381cb810548SXianjun Jiao { 382cb810548SXianjun Jiao int rssi_db, rssi_dbm; 383cb810548SXianjun Jiao 384cb810548SXianjun Jiao rssi_db = (rssi_half_db>>1); 385cb810548SXianjun Jiao 386cb810548SXianjun Jiao rssi_dbm = rssi_db - rssi_correction; 387cb810548SXianjun Jiao 388cb810548SXianjun Jiao rssi_dbm = (rssi_dbm < (-128)? (-128) : rssi_dbm); 389cb810548SXianjun Jiao 390cb810548SXianjun Jiao return rssi_dbm; 391cb810548SXianjun Jiao } 392cb810548SXianjun Jiao 3932ee67178SXianjun Jiao static irqreturn_t openwifi_rx_interrupt(int irq, void *dev_id) 3942ee67178SXianjun Jiao { 3952ee67178SXianjun Jiao struct ieee80211_hw *dev = dev_id; 3962ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 3972ee67178SXianjun Jiao struct ieee80211_rx_status rx_status = {0}; 3982ee67178SXianjun Jiao struct sk_buff *skb; 3992ee67178SXianjun Jiao struct ieee80211_hdr *hdr; 400261bb9eeSmmehari u32 addr1_low32=0, addr2_low32=0, addr3_low32=0, len, rate_idx, tsft_low, tsft_high, loop_count=0;//, fc_di; 401261bb9eeSmmehari bool ht_flag, short_gi, ht_aggr, ht_aggr_last; 402838a9007SXianjun Jiao // u32 dma_driver_buf_idx_mod; 403027d42ecSXianjun Jiao u8 *pdata_tmp, fcs_ok;//, target_buf_idx;//, phy_rx_sn_hw; 4042ee67178SXianjun Jiao s8 signal; 405109b1cfdSXianjun Jiao u16 agc_status_and_pkt_exist_flag, rssi_val, addr1_high16=0, addr2_high16=0, addr3_high16=0, sc=0; 4062a1e0746SXianjun Jiao bool content_ok = false, len_overflow = false; 4072ee67178SXianjun Jiao 408109b1cfdSXianjun Jiao #ifdef USE_NEW_RX_INTERRUPT 409109b1cfdSXianjun Jiao int i; 4102ee67178SXianjun Jiao spin_lock(&priv->lock); 411109b1cfdSXianjun Jiao for (i=0; i<NUM_RX_BD; i++) { 412109b1cfdSXianjun Jiao pdata_tmp = priv->rx_cyclic_buf + i*RX_BD_BUF_SIZE; 413109b1cfdSXianjun Jiao agc_status_and_pkt_exist_flag = (*((u16*)(pdata_tmp+10))); //check rx_intf_pl_to_m_axis.v. FPGA TODO: add pkt exist 1bit flag next to gpio_status_lock_by_sig_valid 414109b1cfdSXianjun Jiao if ( agc_status_and_pkt_exist_flag==0 ) // no packet in the buffer 415109b1cfdSXianjun Jiao continue; 416109b1cfdSXianjun Jiao #else 417109b1cfdSXianjun Jiao static u8 target_buf_idx_old = 0; 418109b1cfdSXianjun Jiao spin_lock(&priv->lock); 419027d42ecSXianjun Jiao while(1) { // loop all rx buffers that have new rx packets 420838a9007SXianjun Jiao pdata_tmp = priv->rx_cyclic_buf + target_buf_idx_old*RX_BD_BUF_SIZE; // our header insertion is at the beginning 421109b1cfdSXianjun Jiao agc_status_and_pkt_exist_flag = (*((u16*)(pdata_tmp+10))); 422109b1cfdSXianjun Jiao if ( agc_status_and_pkt_exist_flag==0 ) // no packet in the buffer 423109b1cfdSXianjun Jiao break; 424109b1cfdSXianjun Jiao #endif 425109b1cfdSXianjun Jiao 4262ee67178SXianjun Jiao tsft_low = (*((u32*)(pdata_tmp+0 ))); 4272ee67178SXianjun Jiao tsft_high = (*((u32*)(pdata_tmp+4 ))); 4282ee67178SXianjun Jiao rssi_val = (*((u16*)(pdata_tmp+8 ))); 4292ee67178SXianjun Jiao len = (*((u16*)(pdata_tmp+12))); 4302a1e0746SXianjun Jiao 4312a1e0746SXianjun Jiao len_overflow = (len>(RX_BD_BUF_SIZE-16)?true:false); 4322a1e0746SXianjun Jiao 4332ee67178SXianjun Jiao rate_idx = (*((u16*)(pdata_tmp+14))); 434261bb9eeSmmehari ht_flag = ((rate_idx&0x10)!=0); 435b6d71713Smmehari short_gi = ((rate_idx&0x20)!=0); 436261bb9eeSmmehari ht_aggr = (ht_flag & ((rate_idx&0x40)!=0)); 437261bb9eeSmmehari ht_aggr_last = (ht_flag & ((rate_idx&0x80)!=0)); 438261bb9eeSmmehari rate_idx = (rate_idx&0x1F); 4392ee67178SXianjun Jiao 4402a1e0746SXianjun Jiao fcs_ok = ( len_overflow?0:(*(( u8*)(pdata_tmp+16+len-1))) ); 4412ee67178SXianjun Jiao 4422a1e0746SXianjun Jiao //phy_rx_sn_hw = (fcs_ok&(NUM_RX_BD-1)); 443838a9007SXianjun Jiao // phy_rx_sn_hw = (fcs_ok&0x7f);//0x7f is FPGA limitation 444838a9007SXianjun Jiao // dma_driver_buf_idx_mod = (state.residue&0x7f); 4452ee67178SXianjun Jiao fcs_ok = ((fcs_ok&0x80)!=0); 4462ee67178SXianjun Jiao 447b6d71713Smmehari if ( (len>=14 && (!len_overflow)) && (rate_idx>=8 && rate_idx<=23)) { 4482ee67178SXianjun Jiao // if ( phy_rx_sn_hw!=dma_driver_buf_idx_mod) { 449*bca13d88SXianjun Jiao // printk("%s openwifi_rx: WARNING sn %d next buf_idx %d!\n", sdr_compatible_str,phy_rx_sn_hw,dma_driver_buf_idx_mod); 4502ee67178SXianjun Jiao // } 4512ee67178SXianjun Jiao content_ok = true; 4522ee67178SXianjun Jiao } else { 453*bca13d88SXianjun Jiao printk("%s openwifi_rx: WARNING content!\n", sdr_compatible_str); 4542ee67178SXianjun Jiao content_ok = false; 4552ee67178SXianjun Jiao } 4562ee67178SXianjun Jiao 4572ee67178SXianjun Jiao rssi_val = (rssi_val>>1); 4582ee67178SXianjun Jiao if ( (rssi_val+128)<priv->rssi_correction ) 4592ee67178SXianjun Jiao signal = -128; 4602ee67178SXianjun Jiao else 4612ee67178SXianjun Jiao signal = rssi_val - priv->rssi_correction; 4622a1e0746SXianjun Jiao 463838a9007SXianjun Jiao // fc_di = (*((u32*)(pdata_tmp+16))); 464838a9007SXianjun Jiao // addr1_high16 = (*((u16*)(pdata_tmp+16+4))); 465838a9007SXianjun Jiao // addr1_low32 = (*((u32*)(pdata_tmp+16+4+2))); 466838a9007SXianjun Jiao // addr2_high16 = (*((u16*)(pdata_tmp+16+6+4))); 467838a9007SXianjun Jiao // addr2_low32 = (*((u32*)(pdata_tmp+16+6+4+2))); 468838a9007SXianjun Jiao // addr3_high16 = (*((u16*)(pdata_tmp+16+12+4))); 469838a9007SXianjun Jiao // addr3_low32 = (*((u32*)(pdata_tmp+16+12+4+2))); 470838a9007SXianjun Jiao if ( (priv->drv_rx_reg_val[DRV_RX_REG_IDX_PRINT_CFG]&2) || ( (priv->drv_rx_reg_val[DRV_RX_REG_IDX_PRINT_CFG]&1) && fcs_ok==0 ) ) { 471838a9007SXianjun Jiao hdr = (struct ieee80211_hdr *)(pdata_tmp+16); 472838a9007SXianjun Jiao addr1_low32 = *((u32*)(hdr->addr1+2)); 473838a9007SXianjun Jiao addr1_high16 = *((u16*)(hdr->addr1)); 474838a9007SXianjun Jiao if (len>=20) { 475838a9007SXianjun Jiao addr2_low32 = *((u32*)(hdr->addr2+2)); 476838a9007SXianjun Jiao addr2_high16 = *((u16*)(hdr->addr2)); 477838a9007SXianjun Jiao } 478838a9007SXianjun Jiao if (len>=26) { 479838a9007SXianjun Jiao addr3_low32 = *((u32*)(hdr->addr3+2)); 480838a9007SXianjun Jiao addr3_high16 = *((u16*)(hdr->addr3)); 481838a9007SXianjun Jiao } 482838a9007SXianjun Jiao if (len>=28) 483838a9007SXianjun Jiao sc = hdr->seq_ctrl; 484838a9007SXianjun Jiao 4857cf9ba6eSXianjun Jiao if ( (addr1_low32!=0xffffffff || addr1_high16!=0xffff) || (priv->drv_rx_reg_val[DRV_RX_REG_IDX_PRINT_CFG]&4) ) 486*bca13d88SXianjun Jiao printk("%s openwifi_rx:%4dbytes ht%d aggr%d/%d sgi%d %3dM FC%04x DI%04x addr1/2/3:%04x%08x/%04x%08x/%04x%08x SC%04x fcs%d buf_idx%d %ddBm\n", sdr_compatible_str, 487261bb9eeSmmehari len, ht_flag, ht_aggr, ht_aggr_last, short_gi, wifi_rate_table[rate_idx], hdr->frame_control, hdr->duration_id, 4882ee67178SXianjun Jiao reverse16(addr1_high16), reverse32(addr1_low32), reverse16(addr2_high16), reverse32(addr2_low32), reverse16(addr3_high16), reverse32(addr3_low32), 489109b1cfdSXianjun Jiao #ifdef USE_NEW_RX_INTERRUPT 490109b1cfdSXianjun Jiao sc, fcs_ok, i, signal); 491109b1cfdSXianjun Jiao #else 492838a9007SXianjun Jiao sc, fcs_ok, target_buf_idx_old, signal); 493109b1cfdSXianjun Jiao #endif 494838a9007SXianjun Jiao } 4952ee67178SXianjun Jiao 4962ee67178SXianjun Jiao // priv->phy_rx_sn_hw_old = phy_rx_sn_hw; 4972ee67178SXianjun Jiao if (content_ok) { 4982ee67178SXianjun Jiao skb = dev_alloc_skb(len); 4992ee67178SXianjun Jiao if (skb) { 5002ee67178SXianjun Jiao skb_put_data(skb,pdata_tmp+16,len); 5012ee67178SXianjun Jiao 50256203843SXianjun Jiao rx_status.antenna = priv->runtime_rx_ant_cfg; 5032ee67178SXianjun Jiao // def in ieee80211_rate openwifi_rates 0~11. 0~3 11b(1M~11M), 4~11 11a/g(6M~54M) 5042ee67178SXianjun Jiao rx_status.rate_idx = wifi_rate_table_mapping[rate_idx]; 5052ee67178SXianjun Jiao rx_status.signal = signal; 5062ee67178SXianjun Jiao rx_status.freq = dev->conf.chandef.chan->center_freq; 5072ee67178SXianjun Jiao rx_status.band = dev->conf.chandef.chan->band; 5082ee67178SXianjun Jiao rx_status.mactime = ( ( (u64)tsft_low ) | ( ((u64)tsft_high)<<32 ) ); 5092ee67178SXianjun Jiao rx_status.flag |= RX_FLAG_MACTIME_START; 5102ee67178SXianjun Jiao if (!fcs_ok) 5112ee67178SXianjun Jiao rx_status.flag |= RX_FLAG_FAILED_FCS_CRC; 512b6d71713Smmehari if (rate_idx <= 15) 5132ee67178SXianjun Jiao rx_status.encoding = RX_ENC_LEGACY; 514b6d71713Smmehari else 515b6d71713Smmehari rx_status.encoding = RX_ENC_HT; 5162ee67178SXianjun Jiao rx_status.bw = RATE_INFO_BW_20; 517b6d71713Smmehari if (short_gi) 518b6d71713Smmehari rx_status.enc_flags |= RX_ENC_FLAG_SHORT_GI; 519261bb9eeSmmehari if(ht_aggr) 520261bb9eeSmmehari { 521261bb9eeSmmehari rx_status.ampdu_reference = priv->ampdu_reference; 522261bb9eeSmmehari rx_status.flag |= RX_FLAG_AMPDU_DETAILS | RX_FLAG_AMPDU_LAST_KNOWN; 523261bb9eeSmmehari if (ht_aggr_last) 524261bb9eeSmmehari rx_status.flag |= RX_FLAG_AMPDU_IS_LAST; 525261bb9eeSmmehari } 5262ee67178SXianjun Jiao 5272ee67178SXianjun Jiao memcpy(IEEE80211_SKB_RXCB(skb), &rx_status, sizeof(rx_status)); // put rx_status into skb->cb, from now on skb->cb is not dma_dsts any more. 5282ee67178SXianjun Jiao ieee80211_rx_irqsafe(dev, skb); // call mac80211 function 5292ee67178SXianjun Jiao } else 530*bca13d88SXianjun Jiao printk("%s openwifi_rx: WARNING dev_alloc_skb failed!\n", sdr_compatible_str); 531261bb9eeSmmehari 532261bb9eeSmmehari if(ht_aggr_last) 533261bb9eeSmmehari priv->ampdu_reference++; 5342ee67178SXianjun Jiao } 535109b1cfdSXianjun Jiao (*((u16*)(pdata_tmp+10))) = 0; // clear the field (set by rx_intf_pl_to_m_axis.v) to indicate the packet has been processed 536838a9007SXianjun Jiao loop_count++; 537109b1cfdSXianjun Jiao #ifndef USE_NEW_RX_INTERRUPT 538027d42ecSXianjun Jiao target_buf_idx_old=((target_buf_idx_old+1)&(NUM_RX_BD-1)); 539109b1cfdSXianjun Jiao #endif 540838a9007SXianjun Jiao } 541838a9007SXianjun Jiao 542838a9007SXianjun Jiao if ( loop_count!=1 && (priv->drv_rx_reg_val[DRV_RX_REG_IDX_PRINT_CFG]&1) ) 543*bca13d88SXianjun Jiao printk("%s openwifi_rx: WARNING loop_count %d\n", sdr_compatible_str,loop_count); 544838a9007SXianjun Jiao 545*bca13d88SXianjun Jiao // openwifi_rx_out: 5462ee67178SXianjun Jiao spin_unlock(&priv->lock); 5472ee67178SXianjun Jiao return IRQ_HANDLED; 5482ee67178SXianjun Jiao } 5492ee67178SXianjun Jiao 5502ee67178SXianjun Jiao static irqreturn_t openwifi_tx_interrupt(int irq, void *dev_id) 5512ee67178SXianjun Jiao { 5522ee67178SXianjun Jiao struct ieee80211_hw *dev = dev_id; 5532ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 554838a9007SXianjun Jiao struct openwifi_ring *ring; 5552ee67178SXianjun Jiao struct sk_buff *skb; 5562ee67178SXianjun Jiao struct ieee80211_tx_info *info; 5570c0d5d82Smmehari u32 reg_val1, hw_queue_len, reg_val2, prio, queue_idx, dma_fifo_no_room_flag, num_slot_random, cw, loop_count=0; 558f738aefaSmmehari u16 seq_no, pkt_cnt, blk_ack_ssn, start_idx; 559f738aefaSmmehari u8 nof_retx=-1, last_bd_rd_idx, i; 560f738aefaSmmehari u64 blk_ack_bitmap; 561838a9007SXianjun Jiao // u16 prio_rd_idx_store[64]={0}; 562385339abSmmehari bool tx_fail=false; 5632ee67178SXianjun Jiao 5642ee67178SXianjun Jiao spin_lock(&priv->lock); 5652ee67178SXianjun Jiao 566838a9007SXianjun Jiao while(1) { // loop all packets that have been sent by FPGA 567f738aefaSmmehari reg_val1 = tx_intf_api->TX_INTF_REG_PKT_INFO1_read(); 568f738aefaSmmehari reg_val2 = tx_intf_api->TX_INTF_REG_PKT_INFO2_read(); 569f738aefaSmmehari blk_ack_bitmap = (tx_intf_api->TX_INTF_REG_PKT_INFO3_read() | ((u64)tx_intf_api->TX_INTF_REG_PKT_INFO4_read())<<32); 570f738aefaSmmehari 571f738aefaSmmehari if (reg_val1!=0xFFFFFFFF) { 572f738aefaSmmehari nof_retx = (reg_val1&0xF); 573f738aefaSmmehari last_bd_rd_idx = ((reg_val1>>5)&(NUM_TX_BD-1)); 574f738aefaSmmehari prio = ((reg_val1>>17)&0x3); 575f738aefaSmmehari num_slot_random = ((reg_val1>>19)&0x1FF); 576f738aefaSmmehari //num_slot_random = ((0xFF80000 ®_val1)>>(2+5+NUM_BIT_MAX_PHY_TX_SN+NUM_BIT_MAX_NUM_HW_QUEUE)); 577f738aefaSmmehari cw = ((reg_val1>>28)&0xF); 578f738aefaSmmehari //cw = ((0xF0000000 & reg_val1) >> 28); 5792238b42bSweiliu if(cw > 10) { 5802238b42bSweiliu cw = 10 ; 5812238b42bSweiliu num_slot_random += 512 ; 5822238b42bSweiliu } 583f738aefaSmmehari pkt_cnt = (reg_val2&0x3F); 584f738aefaSmmehari blk_ack_ssn = ((reg_val2>>6)&0xFFF); 5852238b42bSweiliu 586838a9007SXianjun Jiao ring = &(priv->tx_ring[prio]); 587f738aefaSmmehari 5880c0d5d82Smmehari if ( ring->stop_flag == 1) { 5890c0d5d82Smmehari // Wake up Linux queue if FPGA and driver ring have room 5900c0d5d82Smmehari queue_idx = ((reg_val1>>15)&(MAX_NUM_HW_QUEUE-1)); 5910c0d5d82Smmehari dma_fifo_no_room_flag = tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read(); 5920c0d5d82Smmehari hw_queue_len = tx_intf_api->TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read(); 5930c0d5d82Smmehari 5940c0d5d82Smmehari if ( ((dma_fifo_no_room_flag>>queue_idx)&1)==0 && (NUM_TX_BD-((hw_queue_len>>(queue_idx*8))&0xFF))>=RING_ROOM_THRESHOLD ) { 595f738aefaSmmehari // printk("%s openwifi_tx_interrupt: WARNING ieee80211_wake_queue loop %d call %d\n", sdr_compatible_str, loop_count, priv->call_counter); 5960c0d5d82Smmehari printk("%s openwifi_tx_interrupt: WARNING ieee80211_wake_queue prio %d queue %d no room flag %x hw queue len %08x wr %d rd %d\n", sdr_compatible_str, 5970c0d5d82Smmehari prio, queue_idx, dma_fifo_no_room_flag, hw_queue_len, ring->bd_wr_idx, last_bd_rd_idx); 598f738aefaSmmehari ieee80211_wake_queue(dev, prio); 599f738aefaSmmehari ring->stop_flag = 0; 600f738aefaSmmehari } 6010c0d5d82Smmehari } 602f738aefaSmmehari 603f738aefaSmmehari for(i = 1; i <= pkt_cnt; i++) 604f738aefaSmmehari { 605f738aefaSmmehari ring->bd_rd_idx = (last_bd_rd_idx + i - pkt_cnt + 64)%64; 606f738aefaSmmehari seq_no = ring->bds[ring->bd_rd_idx].seq_no; 607838a9007SXianjun Jiao skb = ring->bds[ring->bd_rd_idx].skb_linked; 6082ee67178SXianjun Jiao 609838a9007SXianjun Jiao dma_unmap_single(priv->tx_chan->device->dev,ring->bds[ring->bd_rd_idx].dma_mapping_addr, 610838a9007SXianjun Jiao skb->len, DMA_MEM_TO_DEV); 6112ee67178SXianjun Jiao 6122ee67178SXianjun Jiao info = IEEE80211_SKB_CB(skb); 6132ee67178SXianjun Jiao ieee80211_tx_info_clear_status(info); 6142ee67178SXianjun Jiao 615385339abSmmehari // Aggregation packet 616385339abSmmehari if(pkt_cnt > 1) 617f738aefaSmmehari { 618c0981124Smmehari start_idx = (seq_no>=blk_ack_ssn) ? (seq_no-blk_ack_ssn) : (seq_no+((~blk_ack_ssn+1)&0x0FFF)); 619f738aefaSmmehari tx_fail = (((blk_ack_bitmap>>start_idx)&0x1)==0); 620385339abSmmehari info->flags |= IEEE80211_TX_STAT_AMPDU; 621385339abSmmehari info->status.ampdu_len = 1; 622385339abSmmehari info->status.ampdu_ack_len = (tx_fail == true) ? 0 : 1; 623385339abSmmehari 624385339abSmmehari skb_pull(skb, LEN_MPDU_DELIM); 625385339abSmmehari //skb_trim(skb, num_byte_pad_skb); 626f738aefaSmmehari } 627385339abSmmehari // Normal packet 628f738aefaSmmehari else 629f738aefaSmmehari { 630f738aefaSmmehari tx_fail = ((blk_ack_bitmap&0x1)==0); 631385339abSmmehari info->flags &= (~IEEE80211_TX_CTL_AMPDU); 632f738aefaSmmehari } 633f738aefaSmmehari 634f738aefaSmmehari if (tx_fail == false) 6352ee67178SXianjun Jiao info->flags |= IEEE80211_TX_STAT_ACK; 6362ee67178SXianjun Jiao 637f738aefaSmmehari info->status.rates[0].count = nof_retx + 1; //according to our test, the 1st rate is the most important. we only do retry on the 1st rate 6382ee67178SXianjun Jiao info->status.rates[1].idx = -1; 6392ee67178SXianjun Jiao info->status.rates[2].idx = -1; 6402ee67178SXianjun Jiao info->status.rates[3].idx = -1;//in mac80211.h: #define IEEE80211_TX_MAX_RATES 4 64156203843SXianjun Jiao info->status.antenna = priv->runtime_tx_ant_cfg; 642838a9007SXianjun Jiao 643c0981124Smmehari if ( tx_fail && ((priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG])&1) ) 644f738aefaSmmehari printk("%s openwifi_tx_interrupt: WARNING pkt_no %d/%d tx_result [nof_retx %d pass %d] prio%d wr%d rd%d\n", sdr_compatible_str, i, pkt_cnt, nof_retx+1, !tx_fail, prio, ring->bd_wr_idx, ring->bd_rd_idx); 6457cf9ba6eSXianjun Jiao if ( ( (!(info->flags & IEEE80211_TX_CTL_NO_ACK))||(priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG]&4) ) && ((priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG])&2) ) 646f738aefaSmmehari printk("%s openwifi_tx_interrupt: tx_result [nof_retx %d pass %d] prio%d wr%d rd%d num_rand_slot %d cw %d \n", sdr_compatible_str, nof_retx+1, !tx_fail, prio, ring->bd_wr_idx, ring->bd_rd_idx, num_slot_random, cw); 6472ee67178SXianjun Jiao 6482ee67178SXianjun Jiao ieee80211_tx_status_irqsafe(dev, skb); 649f738aefaSmmehari } 6502ee67178SXianjun Jiao 651838a9007SXianjun Jiao loop_count++; 6522ee67178SXianjun Jiao 653838a9007SXianjun Jiao // printk("%s openwifi_tx_interrupt: loop %d prio %d rd %d\n", sdr_compatible_str, loop_count, prio, ring->bd_rd_idx); 654838a9007SXianjun Jiao 655838a9007SXianjun Jiao } else 656838a9007SXianjun Jiao break; 6572ee67178SXianjun Jiao } 658838a9007SXianjun Jiao if ( loop_count!=1 && ((priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG])&1) ) 659838a9007SXianjun Jiao printk("%s openwifi_tx_interrupt: WARNING loop_count %d\n", sdr_compatible_str, loop_count); 6602ee67178SXianjun Jiao 6612ee67178SXianjun Jiao spin_unlock(&priv->lock); 6622ee67178SXianjun Jiao return IRQ_HANDLED; 6632ee67178SXianjun Jiao } 6642ee67178SXianjun Jiao 665f738aefaSmmehari u32 crc_table[16] = {0x4DBDF21C, 0x500AE278, 0x76D3D2D4, 0x6B64C2B0, 0x3B61B38C, 0x26D6A3E8, 0x000F9344, 0x1DB88320, 0xA005713C, 0xBDB26158, 0x9B6B51F4, 0x86DC4190, 0xD6D930AC, 0xCB6E20C8, 0xEDB71064, 0xF0000000}; 666f738aefaSmmehari u32 gen_mpdu_crc(u8 *data_in, u32 num_bytes) 667f738aefaSmmehari { 668f738aefaSmmehari u32 i, crc = 0; 669f738aefaSmmehari u8 idx; 670f738aefaSmmehari for( i = 0; i < num_bytes; i++) 671f738aefaSmmehari { 672f738aefaSmmehari idx = (crc & 0x0F) ^ (data_in[i] & 0x0F); 673f738aefaSmmehari crc = (crc >> 4) ^ crc_table[idx]; 674f738aefaSmmehari 675f738aefaSmmehari idx = (crc & 0x0F) ^ ((data_in[i] >> 4) & 0x0F); 676f738aefaSmmehari crc = (crc >> 4) ^ crc_table[idx]; 6772ee67178SXianjun Jiao } 6782ee67178SXianjun Jiao 679f738aefaSmmehari return crc; 680f738aefaSmmehari } 6812ee67178SXianjun Jiao 682f738aefaSmmehari u8 gen_mpdu_delim_crc(u16 m) 683f738aefaSmmehari { 684f738aefaSmmehari u8 i, temp, c[8] = {1, 1, 1, 1, 1, 1, 1, 1}, mpdu_delim_crc; 685f738aefaSmmehari 686f738aefaSmmehari for (i = 0; i < 16; i++) 687b6d71713Smmehari { 688b6d71713Smmehari temp = c[7] ^ ((m >> i) & 0x01); 689b6d71713Smmehari 690b6d71713Smmehari c[7] = c[6]; 691b6d71713Smmehari c[6] = c[5]; 692b6d71713Smmehari c[5] = c[4]; 693b6d71713Smmehari c[4] = c[3]; 694b6d71713Smmehari c[3] = c[2]; 695b6d71713Smmehari c[2] = c[1] ^ temp; 696b6d71713Smmehari c[1] = c[0] ^ temp; 697b6d71713Smmehari c[0] = temp; 698b6d71713Smmehari } 699f738aefaSmmehari mpdu_delim_crc = ((~c[7] & 0x01) << 0) | ((~c[6] & 0x01) << 1) | ((~c[5] & 0x01) << 2) | ((~c[4] & 0x01) << 3) | ((~c[3] & 0x01) << 4) | ((~c[2] & 0x01) << 5) | ((~c[1] & 0x01) << 6) | ((~c[0] & 0x01) << 7); 700b6d71713Smmehari 701f738aefaSmmehari return mpdu_delim_crc; 702b6d71713Smmehari } 7032ee67178SXianjun Jiao 7042ee67178SXianjun Jiao static inline struct gpio_led_data * //please align with the implementation in leds-gpio.c 7052ee67178SXianjun Jiao cdev_to_gpio_led_data(struct led_classdev *led_cdev) 7062ee67178SXianjun Jiao { 7072ee67178SXianjun Jiao return container_of(led_cdev, struct gpio_led_data, cdev); 7082ee67178SXianjun Jiao } 7092ee67178SXianjun Jiao 7105c65530fSXianjun Jiao inline int calc_n_ofdm(int num_octet, int n_dbps) 7115c65530fSXianjun Jiao { 7125c65530fSXianjun Jiao int num_bit, num_ofdm_sym; 7135c65530fSXianjun Jiao 7145c65530fSXianjun Jiao num_bit = 22+num_octet*8; 7155c65530fSXianjun Jiao num_ofdm_sym = (num_bit/n_dbps) + ((num_bit%n_dbps)!=0); 7165c65530fSXianjun Jiao 7175c65530fSXianjun Jiao return (num_ofdm_sym); 7185c65530fSXianjun Jiao } 7195c65530fSXianjun Jiao 7205c65530fSXianjun Jiao inline __le16 gen_ht_duration_id(__le16 frame_control, __le16 aid, u8 qos_hdr, bool use_ht_aggr, u16 rate_hw_value, u16 sifs) 7215c65530fSXianjun Jiao { 7225c65530fSXianjun Jiao // COTS wifi ht QoS data duration field analysis (lots of capture): 7235c65530fSXianjun Jiao 7245c65530fSXianjun Jiao // ht non-aggr QoS data: 44, type 2 (data frame) sub-type 8 (1000) 21.7/52/57.8/58.5/65Mbps 7255c65530fSXianjun Jiao // ack ht 36 + 4*[(22+14*8)/78] = 36 + 4*2 = 44 7265c65530fSXianjun Jiao // ack legacy 20 + 4*[(22+14*8)/72] = 20 + 4*2 = 28 7275c65530fSXianjun Jiao 7285c65530fSXianjun Jiao // ht non-aggr QoS data: 60, type 2 (data frame) sub-type 8 (1000) 6.5Mbps 7295c65530fSXianjun Jiao // ack ht 36 + 4*[(22+14*8)/26] = 36 + 4*6 = 60 7305c65530fSXianjun Jiao // ack legacy 20 + 4*[(22+14*8)/24] = 20 + 4*6 = 44 7315c65530fSXianjun Jiao 7325c65530fSXianjun Jiao // ht aggr QoS data: 52, type 2 (data frame) sub-type 8 (1000) 19.5/28.9/39/57.8/65/72.2Mbps 7335c65530fSXianjun Jiao // ack ht 36 + 4*[(22+32*8)/78] = 36 + 4*4 = 52 7345c65530fSXianjun Jiao // ack legacy 20 + 4*[(22+32*8)/72] = 20 + 4*4 = 36 7355c65530fSXianjun Jiao 7365c65530fSXianjun Jiao // ht aggr QoS data: 60, type 2 (data frame) sub-type 8 (1000) 13/14.4Mbps 7375c65530fSXianjun Jiao // ack ht 36 + 4*[(22+32*8)/52] = 36 + 4*6 = 60 7385c65530fSXianjun Jiao // ack legacy 20 + 4*[(22+32*8)/48] = 20 + 4*6 = 44 7395c65530fSXianjun Jiao 7405c65530fSXianjun Jiao // ht and legacy rate mapping is ont one on one, instead it is modulation combined with coding rate 7415c65530fSXianjun Jiao // modulate coding ht-mcs ht-n_dbps legacy-mcs legacy-n_dbps 7425c65530fSXianjun Jiao // BPSK 1/2 0 26 4 24 7435c65530fSXianjun Jiao // QPSK 1/2 1 52 6 48 7445c65530fSXianjun Jiao // QPSK 3/4 2 78 7 72 7455c65530fSXianjun Jiao // 16QAM 1/2 3 104 8 96 7465c65530fSXianjun Jiao // 16QAM 3/4 4 156 9 144 7475c65530fSXianjun Jiao // 64QAM 2/3 5 208 10 192 7485c65530fSXianjun Jiao // 64QAM 3/4 6 234 11 216 7495c65530fSXianjun Jiao 7505c65530fSXianjun Jiao // conclusion: duration is: assume ack/blk-ack uses legacy, plus SIFS 7515c65530fSXianjun Jiao 7525c65530fSXianjun Jiao // other observation: ht always use QoS data, not data (sub-type) 7535c65530fSXianjun Jiao // other observation: management/control frame always in non-ht 7545c65530fSXianjun Jiao 7555c65530fSXianjun Jiao __le16 dur = 0; 7565c65530fSXianjun Jiao u16 n_dbps; 7575c65530fSXianjun Jiao int num_octet, num_ofdm_sym; 7585c65530fSXianjun Jiao 7595c65530fSXianjun Jiao if (ieee80211_is_pspoll(frame_control)) { 7605c65530fSXianjun Jiao dur = (aid|0xc000); 7615c65530fSXianjun Jiao } else if (ieee80211_is_data_qos(frame_control) && (~(qos_hdr&IEEE80211_QOS_CTL_ACK_POLICY_NOACK))) { 7625c65530fSXianjun Jiao rate_hw_value = (rate_hw_value>6?6:rate_hw_value); 7635c65530fSXianjun Jiao n_dbps = (rate_hw_value==0?wifi_n_dbps_table[4]:wifi_n_dbps_table[rate_hw_value+5]); 7645c65530fSXianjun Jiao num_octet = (use_ht_aggr?32:14); //32 bytes for compressed block ack; 14 bytes for normal ack 7655c65530fSXianjun Jiao num_ofdm_sym = calc_n_ofdm(num_octet, n_dbps); 7665c65530fSXianjun Jiao dur = sifs + 20 + 4*num_ofdm_sym; // 20us legacy preamble 7675c65530fSXianjun Jiao // printk("%s gen_ht_duration_id: num_octet %d n_dbps %d num_ofdm_sym %d dur %d\n", sdr_compatible_str, 7685c65530fSXianjun Jiao // num_octet, n_dbps, num_ofdm_sym, dur); 7695c65530fSXianjun Jiao } else { 7705c65530fSXianjun Jiao printk("%s openwifi_tx: WARNING gen_ht_duration_id wrong pkt type!\n", sdr_compatible_str); 7715c65530fSXianjun Jiao } 7725c65530fSXianjun Jiao 7735c65530fSXianjun Jiao return dur; 7745c65530fSXianjun Jiao } 7755c65530fSXianjun Jiao 7762ee67178SXianjun Jiao static void openwifi_tx(struct ieee80211_hw *dev, 7772ee67178SXianjun Jiao struct ieee80211_tx_control *control, 7782ee67178SXianjun Jiao struct sk_buff *skb) 7792ee67178SXianjun Jiao { 780838a9007SXianjun Jiao struct openwifi_priv *priv = dev->priv; 781838a9007SXianjun Jiao unsigned long flags; 7822ee67178SXianjun Jiao struct ieee80211_tx_info *info = IEEE80211_SKB_CB(skb); 7832ee67178SXianjun Jiao struct ieee80211_hdr *hdr = (struct ieee80211_hdr *)skb->data; 784f738aefaSmmehari struct openwifi_ring *ring = NULL; 7853ac00233SXianjun Jiao struct sk_buff *skb_new; // temp skb for internal use 7862ee67178SXianjun Jiao dma_addr_t dma_mapping_addr; 78709350b04SXianjun Jiao unsigned int i; 788d8b29676SXianjun Jiao u16 rate_signal_value, rate_hw_value, len_mpdu, len_psdu, num_dma_symbol, len_mpdu_delim_pad=0, num_byte_pad; 78909350b04SXianjun Jiao u32 num_dma_byte, addr1_low32, addr2_low32=0, addr3_low32=0, tx_config, cts_reg, phy_hdr_config;//, openofdm_state_history; 790f70dfc6bSXianjun Jiao u16 addr1_high16, addr2_high16=0, addr3_high16=0, sc, seq_no=0, cts_duration=0, cts_rate_hw_value=0, cts_rate_signal_value=0, sifs, ack_duration=0, traffic_pkt_duration, n_dbps; 79109350b04SXianjun Jiao u8 pkt_need_ack, retry_limit_raw,use_short_gi,*dma_buf,retry_limit_hw_value,rc_flags,qos_hdr,prio,queue_idx; 792f70dfc6bSXianjun Jiao bool drv_seqno=false, use_rts_cts, use_cts_protect, ht_aggr_start=false, use_ht_rate, use_ht_aggr, cts_use_traffic_rate=false, force_use_cts_protect=false; 7932ee67178SXianjun Jiao __le16 frame_control,duration_id; 794f11dfbd0SXianjun Jiao u32 dma_fifo_no_room_flag, hw_queue_len, delay_count=0; 795838a9007SXianjun Jiao enum dma_status status; 796f738aefaSmmehari 7975e4bffc1SXianjun Jiao static u32 addr1_low32_prev = -1; 7985e4bffc1SXianjun Jiao static u16 rate_hw_value_prev = -1; 7995e4bffc1SXianjun Jiao static u8 pkt_need_ack_prev = -1; 8009cd584f8Smmehari static u16 addr1_high16_prev = -1; 8019cd584f8Smmehari static __le16 duration_id_prev = -1; 8025e4bffc1SXianjun Jiao static u8 prio_prev = -1; 803f738aefaSmmehari static u8 retry_limit_raw_prev = -1; 804c0981124Smmehari static u8 use_short_gi_prev = -1; 805f738aefaSmmehari 8062ee67178SXianjun Jiao // static bool led_status=0; 8072ee67178SXianjun Jiao // struct gpio_led_data *led_dat = cdev_to_gpio_led_data(priv->led[3]); 8082ee67178SXianjun Jiao 8092ee67178SXianjun Jiao // if ( (priv->phy_tx_sn&7) ==0 ) { 8102ee67178SXianjun Jiao // openofdm_state_history = openofdm_rx_api->OPENOFDM_RX_REG_STATE_HISTORY_read(); 8112ee67178SXianjun Jiao // if (openofdm_state_history!=openofdm_state_history_old){ 8122ee67178SXianjun Jiao // led_status = (~led_status); 8132ee67178SXianjun Jiao // openofdm_state_history_old = openofdm_state_history; 8142ee67178SXianjun Jiao // gpiod_set_value(led_dat->gpiod, led_status); 8152ee67178SXianjun Jiao // } 8162ee67178SXianjun Jiao // } 8172ee67178SXianjun Jiao 818838a9007SXianjun Jiao if (skb->data_len>0) {// more data are not in linear data area skb->data 819838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING skb->data_len>0\n", sdr_compatible_str); 8202ee67178SXianjun Jiao goto openwifi_tx_early_out; 821838a9007SXianjun Jiao } 8222ee67178SXianjun Jiao 823f738aefaSmmehari len_mpdu = skb->len; 824838a9007SXianjun Jiao 825838a9007SXianjun Jiao // get Linux priority/queue setting info and target mac address 826838a9007SXianjun Jiao prio = skb_get_queue_mapping(skb); 8276e0ffbeaSXianjun Jiao if (prio >= MAX_NUM_HW_QUEUE) { 8286e0ffbeaSXianjun Jiao printk("%s openwifi_tx: WARNING prio%d\n", sdr_compatible_str, prio); 8296e0ffbeaSXianjun Jiao goto openwifi_tx_early_out; 8306e0ffbeaSXianjun Jiao } 8316e0ffbeaSXianjun Jiao 832838a9007SXianjun Jiao addr1_low32 = *((u32*)(hdr->addr1+2)); 833838a9007SXianjun Jiao ring = &(priv->tx_ring[prio]); 834838a9007SXianjun Jiao 835838a9007SXianjun Jiao // -------------- DO your idea here! Map Linux/SW "prio" to hardware "queue_idx" ----------- 836838a9007SXianjun Jiao if (priv->slice_idx == 0xFFFFFFFF) {// use Linux default prio setting, if there isn't any slice config 837838a9007SXianjun Jiao queue_idx = prio; 838838a9007SXianjun Jiao } else {// customized prio to queue_idx mapping 839838a9007SXianjun Jiao //if (fc_type==2 && fc_subtype==0 && (!addr_flag)) { // for unicast data packet only 840838a9007SXianjun Jiao // check current packet belonging to which slice/hw-queue 841838a9007SXianjun Jiao for (i=0; i<MAX_NUM_HW_QUEUE; i++) { 842838a9007SXianjun Jiao if ( priv->dest_mac_addr_queue_map[i] == addr1_low32 ) { 843838a9007SXianjun Jiao break; 844838a9007SXianjun Jiao } 845838a9007SXianjun Jiao } 846838a9007SXianjun Jiao //} 847b1dd94e3Sluz paz queue_idx = (i>=MAX_NUM_HW_QUEUE?2:i); // if no address is hit, use FPGA queue 2. because the queue 2 is the longest. 848838a9007SXianjun Jiao } 849838a9007SXianjun Jiao // -------------------- end of Map Linux/SW "prio" to hardware "queue_idx" ------------------ 850838a9007SXianjun Jiao // get other info from packet header 8512ee67178SXianjun Jiao addr1_high16 = *((u16*)(hdr->addr1)); 852f738aefaSmmehari if (len_mpdu>=20) { 8532ee67178SXianjun Jiao addr2_low32 = *((u32*)(hdr->addr2+2)); 8542ee67178SXianjun Jiao addr2_high16 = *((u16*)(hdr->addr2)); 8552ee67178SXianjun Jiao } 856f738aefaSmmehari if (len_mpdu>=26) { 8572ee67178SXianjun Jiao addr3_low32 = *((u32*)(hdr->addr3+2)); 8582ee67178SXianjun Jiao addr3_high16 = *((u16*)(hdr->addr3)); 8592ee67178SXianjun Jiao } 8602ee67178SXianjun Jiao 8612ee67178SXianjun Jiao frame_control=hdr->frame_control; 862db25dabcSXianjun Jiao pkt_need_ack = (!(info->flags&IEEE80211_TX_CTL_NO_ACK)); 8632ee67178SXianjun Jiao 8642ee67178SXianjun Jiao retry_limit_raw = info->control.rates[0].count; 8652ee67178SXianjun Jiao 8662ee67178SXianjun Jiao rc_flags = info->control.rates[0].flags; 8672ee67178SXianjun Jiao use_rts_cts = ((rc_flags&IEEE80211_TX_RC_USE_RTS_CTS)!=0); 8682ee67178SXianjun Jiao use_cts_protect = ((rc_flags&IEEE80211_TX_RC_USE_CTS_PROTECT)!=0); 869b6d71713Smmehari use_ht_rate = ((rc_flags&IEEE80211_TX_RC_MCS)!=0); 870b6d71713Smmehari use_short_gi = ((rc_flags&IEEE80211_TX_RC_SHORT_GI)!=0); 871f738aefaSmmehari use_ht_aggr = ((info->flags&IEEE80211_TX_CTL_AMPDU)!=0); 87256d25ef8SXianjun Jiao qos_hdr = (*(ieee80211_get_qos_ctl(hdr))); 8732ee67178SXianjun Jiao 874db25dabcSXianjun Jiao // get Linux rate (MCS) setting 875db25dabcSXianjun Jiao rate_hw_value = ieee80211_get_tx_rate(dev, info)->hw_value; 876db25dabcSXianjun Jiao // drv_tx_reg_val[DRV_TX_REG_IDX_RATE] 877db25dabcSXianjun Jiao // override rate legacy: 4:6M, 5:9M, 6:12M, 7:18M, 8:24M, 9:36M, 10:48M, 11:54M 878db25dabcSXianjun Jiao // drv_tx_reg_val[DRV_TX_REG_IDX_RATE_HT] 879db25dabcSXianjun Jiao // override rate ht: 4:6.5M, 5:13M, 6:19.5M,7:26M, 8:39M, 9:52M, 10:58.5M, 11:65M 880db25dabcSXianjun Jiao if ( ieee80211_is_data(hdr->frame_control) ) {//rate override command 881db25dabcSXianjun Jiao if (use_ht_rate && priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE_HT]>0) { 882db25dabcSXianjun Jiao rate_hw_value = (priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE_HT]&0xF)-4; 883db25dabcSXianjun Jiao use_short_gi = ((priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE_HT]&0x10)==0x10); 884db25dabcSXianjun Jiao } else if ((!use_ht_rate) && priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE]>0) 885db25dabcSXianjun Jiao rate_hw_value = (priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE]&0xF); 886db25dabcSXianjun Jiao // TODO: need to map rate_hw_value back to info->control.rates[0].idx!!! 887db25dabcSXianjun Jiao } 888db25dabcSXianjun Jiao 889db25dabcSXianjun Jiao // Workaround for a FPGA bug: if aggr happens on ht mcs 0, the tx core will never end, running eneless and stuck the low MAC! 890db25dabcSXianjun Jiao if (use_ht_aggr && rate_hw_value==0) 891db25dabcSXianjun Jiao rate_hw_value = 1; 892db25dabcSXianjun Jiao 89386032d0bSXianjun Jiao sifs = (priv->actual_rx_lo<2500?10:16); 89486032d0bSXianjun Jiao 8955c65530fSXianjun Jiao if (use_ht_rate) { 8965c65530fSXianjun Jiao // printk("%s openwifi_tx: rate_hw_value %d aggr %d sifs %d\n", sdr_compatible_str, rate_hw_value, use_ht_aggr, sifs); 8975c65530fSXianjun Jiao hdr->duration_id = gen_ht_duration_id(frame_control, control->sta->aid, qos_hdr, use_ht_aggr, rate_hw_value, sifs); //linux only do it for 11a/g, not for 11n and later 8985c65530fSXianjun Jiao } 8995c65530fSXianjun Jiao duration_id = hdr->duration_id; 9005c65530fSXianjun Jiao 9012ee67178SXianjun Jiao if (use_rts_cts) 902838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d use_rts_cts is not supported!\n", sdr_compatible_str, ring->bd_wr_idx); 9032ee67178SXianjun Jiao 9042ee67178SXianjun Jiao if (use_cts_protect) { 9052ee67178SXianjun Jiao cts_rate_hw_value = ieee80211_get_rts_cts_rate(dev, info)->hw_value; 906f738aefaSmmehari cts_duration = le16_to_cpu(ieee80211_ctstoself_duration(dev,info->control.vif,len_mpdu,info)); 9072ee67178SXianjun Jiao } else if (force_use_cts_protect) { // could override mac80211 setting here. 9082ee67178SXianjun Jiao cts_rate_hw_value = 4; //wifi_mcs_table_11b_force_up[] translate it to 1011(6M) 9092ee67178SXianjun Jiao if (pkt_need_ack) 9102ee67178SXianjun Jiao ack_duration = 44;//assume the ack we wait use 6Mbps: 4*ceil((22+14*8)/24) + 20(preamble+SIGNAL) 91186032d0bSXianjun Jiao 91286032d0bSXianjun Jiao n_dbps = (use_ht_rate?wifi_n_dbps_ht_table[rate_hw_value+4]:wifi_n_dbps_table[rate_hw_value]); 91386032d0bSXianjun Jiao traffic_pkt_duration = (use_ht_rate?36:20) + 4*calc_n_ofdm(len_mpdu, n_dbps); 9142ee67178SXianjun Jiao cts_duration = traffic_pkt_duration + sifs + pkt_need_ack*(sifs+ack_duration); 9152ee67178SXianjun Jiao } 9162ee67178SXianjun Jiao 9170a92505dSXianjun Jiao // this is 11b stuff 9180a92505dSXianjun Jiao // if (info->flags&IEEE80211_TX_RC_USE_SHORT_PREAMBLE) 9190a92505dSXianjun Jiao // printk("%s openwifi_tx: WARNING IEEE80211_TX_RC_USE_SHORT_PREAMBLE\n", sdr_compatible_str); 9200a92505dSXianjun Jiao 921f738aefaSmmehari if (len_mpdu>=28) { 9220a92505dSXianjun Jiao if (info->flags & IEEE80211_TX_CTL_ASSIGN_SEQ) { 923f70dfc6bSXianjun Jiao if (info->flags & IEEE80211_TX_CTL_FIRST_FRAGMENT) { 9240a92505dSXianjun Jiao priv->seqno += 0x10; 925f70dfc6bSXianjun Jiao drv_seqno = true; 926f70dfc6bSXianjun Jiao } 9270a92505dSXianjun Jiao hdr->seq_ctrl &= cpu_to_le16(IEEE80211_SCTL_FRAG); 9280a92505dSXianjun Jiao hdr->seq_ctrl |= cpu_to_le16(priv->seqno); 9290a92505dSXianjun Jiao } 9300a92505dSXianjun Jiao sc = hdr->seq_ctrl; 931f70dfc6bSXianjun Jiao seq_no = (sc&IEEE80211_SCTL_SEQ)>>4; 9320a92505dSXianjun Jiao } 9330a92505dSXianjun Jiao 9342ee67178SXianjun Jiao // printk("%s openwifi_tx: rate&try: %d %d %03x; %d %d %03x; %d %d %03x; %d %d %03x\n", sdr_compatible_str, 9352ee67178SXianjun Jiao // info->status.rates[0].idx,info->status.rates[0].count,info->status.rates[0].flags, 9362ee67178SXianjun Jiao // info->status.rates[1].idx,info->status.rates[1].count,info->status.rates[1].flags, 9372ee67178SXianjun Jiao // info->status.rates[2].idx,info->status.rates[2].count,info->status.rates[2].flags, 9382ee67178SXianjun Jiao // info->status.rates[3].idx,info->status.rates[3].count,info->status.rates[3].flags); 9392ee67178SXianjun Jiao 9402ee67178SXianjun Jiao // -----------end of preprocess some info from header and skb---------------- 9412ee67178SXianjun Jiao 9422ee67178SXianjun Jiao // /* HW will perform RTS-CTS when only RTS flags is set. 9432ee67178SXianjun Jiao // * HW will perform CTS-to-self when both RTS and CTS flags are set. 9442ee67178SXianjun Jiao // * RTS rate and RTS duration will be used also for CTS-to-self. 9452ee67178SXianjun Jiao // */ 9462ee67178SXianjun Jiao // if (rc_flags & IEEE80211_TX_RC_USE_RTS_CTS) { 9472ee67178SXianjun Jiao // tx_flags |= ieee80211_get_rts_cts_rate(dev, info)->hw_value << 19; 9482ee67178SXianjun Jiao // rts_duration = ieee80211_rts_duration(dev, priv->vif[0], // assume all vif have the same config 949f738aefaSmmehari // len_mpdu, info); 9502ee67178SXianjun Jiao // printk("%s openwifi_tx: rc_flags & IEEE80211_TX_RC_USE_RTS_CTS\n", sdr_compatible_str); 9512ee67178SXianjun Jiao // } else if (rc_flags & IEEE80211_TX_RC_USE_CTS_PROTECT) { 9522ee67178SXianjun Jiao // tx_flags |= ieee80211_get_rts_cts_rate(dev, info)->hw_value << 19; 9532ee67178SXianjun Jiao // rts_duration = ieee80211_ctstoself_duration(dev, priv->vif[0], // assume all vif have the same config 954f738aefaSmmehari // len_mpdu, info); 9552ee67178SXianjun Jiao // printk("%s openwifi_tx: rc_flags & IEEE80211_TX_RC_USE_CTS_PROTECT\n", sdr_compatible_str); 9562ee67178SXianjun Jiao // } 9572ee67178SXianjun Jiao 958f738aefaSmmehari if(use_ht_aggr) 959f738aefaSmmehari { 96056d25ef8SXianjun Jiao if(ieee80211_is_data_qos(frame_control) == false) 961f738aefaSmmehari { 96256d25ef8SXianjun Jiao printk("%s openwifi_tx: WARNING packet is not QoS packet!\n", sdr_compatible_str); 963f738aefaSmmehari goto openwifi_tx_early_out; 964f738aefaSmmehari } 965f738aefaSmmehari 966f738aefaSmmehari // psdu = [ MPDU DEL | MPDU | CRC | MPDU padding ] 967f738aefaSmmehari len_mpdu_delim_pad = ((len_mpdu + LEN_PHY_CRC)%4 == 0) ? 0 :(4 - (len_mpdu + LEN_PHY_CRC)%4); 968f738aefaSmmehari len_psdu = LEN_MPDU_DELIM + len_mpdu + LEN_PHY_CRC + len_mpdu_delim_pad; 969f738aefaSmmehari 9709cd584f8Smmehari if( (addr1_low32 != addr1_low32_prev) || (addr1_high16 != addr1_high16_prev) || (duration_id != duration_id_prev) || 9719cd584f8Smmehari (rate_hw_value != rate_hw_value_prev) || (use_short_gi != use_short_gi_prev) || 9729cd584f8Smmehari (prio != prio_prev) || (retry_limit_raw != retry_limit_raw_prev) || (pkt_need_ack != pkt_need_ack_prev) ) 973f738aefaSmmehari { 9749cd584f8Smmehari addr1_low32_prev = addr1_low32; 9759cd584f8Smmehari addr1_high16_prev = addr1_high16; 9769cd584f8Smmehari duration_id_prev = duration_id; 977f738aefaSmmehari rate_hw_value_prev = rate_hw_value; 978f738aefaSmmehari use_short_gi_prev = use_short_gi; 979f738aefaSmmehari prio_prev = prio; 980f738aefaSmmehari retry_limit_raw_prev = retry_limit_raw; 981f738aefaSmmehari pkt_need_ack_prev = pkt_need_ack; 982f738aefaSmmehari 983f738aefaSmmehari ht_aggr_start = true; 984f738aefaSmmehari } 985f738aefaSmmehari } 986f738aefaSmmehari else 987f738aefaSmmehari { 988f738aefaSmmehari // psdu = [ MPDU ] 989f738aefaSmmehari len_psdu = len_mpdu; 990f738aefaSmmehari 991b96c234dSXianjun Jiao // // Don't need to reset _prev variables every time when it is not ht aggr qos data. Reason: 992b96c234dSXianjun Jiao // // 1. In 99.9999% cases, the ht always use qos data and goes to prio/queue_idx 2. By not resetting the variable to -1, we can have continuous aggregation packet operation in FPGA queue 2. 993b96c234dSXianjun Jiao // // 2. In other words, the aggregation operation for queue 2 in FPGA won't be interrupted by other non aggregation packets (control/management/beacon/etc.) that go to queue 0 (or other queues than 2). 994b96c234dSXianjun Jiao // // 3. From wired domain and upper level ( DSCP, AC (0~3), WMM management, 802.11D service classes and user priority (UP) ) to chip/FPGA queue index, thre should be some (complicated) mapping relationship. 995b96c234dSXianjun Jiao // // 4. More decent design is setting these aggregation flags (ht_aggr_start) per queue/prio here in driver. But since now only queue 2 and 0 are used (data goes to queue 2, others go to queue 0) in normal (most) cases, let's not go to the decent (complicated) solution immediately. 996b96c234dSXianjun Jiao // addr1_low32_prev = -1; 997b96c234dSXianjun Jiao // addr1_high16_prev = -1; 998b96c234dSXianjun Jiao // duration_id_prev = -1; 999b96c234dSXianjun Jiao // use_short_gi_prev = -1; 1000b96c234dSXianjun Jiao // rate_hw_value_prev = -1; 1001b96c234dSXianjun Jiao // prio_prev = -1; 1002b96c234dSXianjun Jiao // retry_limit_raw_prev = -1; 1003b96c234dSXianjun Jiao // pkt_need_ack_prev = -1; 1004f738aefaSmmehari } 1005f738aefaSmmehari num_dma_symbol = (len_psdu>>TX_INTF_NUM_BYTE_PER_DMA_SYMBOL_IN_BITS) + ((len_psdu&(TX_INTF_NUM_BYTE_PER_DMA_SYMBOL-1))!=0); 1006f738aefaSmmehari 1007e7312859SXianjun Jiao if ( ( (!pkt_need_ack)||(priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG]&4) ) && (priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG]&2) ) 1008e7312859SXianjun Jiao printk("%s openwifi_tx: %4dbytes ht%d aggr%d %3dM FC%04x DI%04x addr1/2/3:%04x%08x/%04x%08x/%04x%08x SC%04x flag%08x retr%d ack%d prio%d q%d wr%d rd%d\n", sdr_compatible_str, 1009e7312859SXianjun Jiao len_mpdu, (use_ht_rate == false ? 0 : 1), (use_ht_aggr == false ? 0 : 1), (use_ht_rate == false ? wifi_rate_all[rate_hw_value] : wifi_rate_all[rate_hw_value + 12]),frame_control,duration_id, 1010e7312859SXianjun Jiao reverse16(addr1_high16), reverse32(addr1_low32), reverse16(addr2_high16), reverse32(addr2_low32), reverse16(addr3_high16), reverse32(addr3_low32), 1011e7312859SXianjun Jiao seq_no, info->flags, retry_limit_raw, pkt_need_ack, prio, queue_idx, 1012e7312859SXianjun Jiao // use_rts_cts,use_cts_protect|force_use_cts_protect,wifi_rate_all[cts_rate_hw_value],cts_duration, 1013e7312859SXianjun Jiao ring->bd_wr_idx,ring->bd_rd_idx); 1014e7312859SXianjun Jiao 1015f738aefaSmmehari // check whether the packet is bigger than DMA buffer size 1016f738aefaSmmehari num_dma_byte = (num_dma_symbol<<TX_INTF_NUM_BYTE_PER_DMA_SYMBOL_IN_BITS); 1017f738aefaSmmehari if (num_dma_byte > TX_BD_BUF_SIZE) { 1018f738aefaSmmehari printk("%s openwifi_tx: WARNING sn %d num_dma_byte > TX_BD_BUF_SIZE\n", sdr_compatible_str, ring->bd_wr_idx); 1019f738aefaSmmehari goto openwifi_tx_early_out; 1020f738aefaSmmehari } 1021f738aefaSmmehari 1022f738aefaSmmehari // Copy MPDU delimiter and padding into sk_buff 1023f738aefaSmmehari if(use_ht_aggr) 1024f738aefaSmmehari { 10252ee67178SXianjun Jiao // when skb does not have enough headroom, skb_push will cause kernel panic. headroom needs to be extended if necessary 10263ac00233SXianjun Jiao if (skb_headroom(skb)<LEN_MPDU_DELIM) {// in case original skb headroom is not enough to host MPDU delimiter 10273ac00233SXianjun Jiao printk("%s openwifi_tx: WARNING(AGGR) sn %d skb_headroom(skb) %d < LEN_MPDU_DELIM %d\n", sdr_compatible_str, ring->bd_wr_idx, skb_headroom(skb), LEN_MPDU_DELIM); 1028f738aefaSmmehari if ((skb_new = skb_realloc_headroom(skb, LEN_MPDU_DELIM)) == NULL) { 1029838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d skb_realloc_headroom failed!\n", sdr_compatible_str, ring->bd_wr_idx); 10302ee67178SXianjun Jiao goto openwifi_tx_early_out; 10312ee67178SXianjun Jiao } 10322ee67178SXianjun Jiao if (skb->sk != NULL) 10332ee67178SXianjun Jiao skb_set_owner_w(skb_new, skb->sk); 10342ee67178SXianjun Jiao dev_kfree_skb(skb); 10352ee67178SXianjun Jiao skb = skb_new; 10362ee67178SXianjun Jiao } 1037f738aefaSmmehari skb_push( skb, LEN_MPDU_DELIM ); 1038f738aefaSmmehari dma_buf = skb->data; 10392ee67178SXianjun Jiao 1040f738aefaSmmehari // fill in MPDU delimiter 1041f738aefaSmmehari *((u16*)(dma_buf+0)) = ((u16)(len_mpdu+LEN_PHY_CRC) << 4) & 0xFFF0; 1042f738aefaSmmehari *((u8 *)(dma_buf+2)) = gen_mpdu_delim_crc(*((u16 *)dma_buf)); 1043f738aefaSmmehari *((u8 *)(dma_buf+3)) = 0x4e; 1044b6d71713Smmehari 1045f738aefaSmmehari // Extend sk_buff to hold CRC + MPDU padding + empty MPDU delimiter 1046f738aefaSmmehari num_byte_pad = num_dma_byte - (LEN_MPDU_DELIM + len_mpdu); 10473ac00233SXianjun Jiao if (skb_tailroom(skb)<num_byte_pad) {// in case original skb tailroom is not enough to host num_byte_pad 10483ac00233SXianjun Jiao printk("%s openwifi_tx: WARNING(AGGR) sn %d skb_tailroom(skb) %d < num_byte_pad %d!\n", sdr_compatible_str, ring->bd_wr_idx, skb_tailroom(skb), num_byte_pad); 10493ac00233SXianjun Jiao if ((skb_new = skb_copy_expand(skb, skb_headroom(skb), num_byte_pad, GFP_KERNEL)) == NULL) { 10503ac00233SXianjun Jiao printk("%s openwifi_tx: WARNING(AGGR) sn %d skb_copy_expand failed!\n", sdr_compatible_str, ring->bd_wr_idx); 10512ee67178SXianjun Jiao goto openwifi_tx_early_out; 10522ee67178SXianjun Jiao } 10533ac00233SXianjun Jiao if (skb->sk != NULL) 10543ac00233SXianjun Jiao skb_set_owner_w(skb_new, skb->sk); 10553ac00233SXianjun Jiao dev_kfree_skb(skb); 10563ac00233SXianjun Jiao skb = skb_new; 10573ac00233SXianjun Jiao } 10582ee67178SXianjun Jiao skb_put( skb, num_byte_pad ); 10592ee67178SXianjun Jiao 1060f738aefaSmmehari // fill in MPDU CRC 1061f738aefaSmmehari *((u32*)(dma_buf+LEN_MPDU_DELIM+len_mpdu)) = gen_mpdu_crc(dma_buf+LEN_MPDU_DELIM, len_mpdu); 1062f738aefaSmmehari 1063f738aefaSmmehari // fill in MPDU delimiter padding 1064f738aefaSmmehari memset(dma_buf+LEN_MPDU_DELIM+len_mpdu+LEN_PHY_CRC, 0, len_mpdu_delim_pad); 1065f738aefaSmmehari 1066f738aefaSmmehari // num_dma_byte is on 8-byte boundary and len_psdu is on 4 byte boundary. 1067f738aefaSmmehari // If they have different lengths, add "empty MPDU delimiter" for alignment 1068f738aefaSmmehari if(num_dma_byte == len_psdu + 4) 1069f738aefaSmmehari { 1070f738aefaSmmehari *((u32*)(dma_buf+len_psdu)) = 0x4e140000; 1071f738aefaSmmehari len_psdu = num_dma_byte; 1072f738aefaSmmehari } 1073f738aefaSmmehari } 1074f738aefaSmmehari else 1075f738aefaSmmehari { 1076c0981124Smmehari // Extend sk_buff to hold padding 1077c0981124Smmehari num_byte_pad = num_dma_byte - len_mpdu; 10783ac00233SXianjun Jiao if (skb_tailroom(skb)<num_byte_pad) {// in case original skb tailroom is not enough to host num_byte_pad 10793ac00233SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d skb_tailroom(skb) %d < num_byte_pad %d!\n", sdr_compatible_str, ring->bd_wr_idx, skb_tailroom(skb), num_byte_pad); 10803ac00233SXianjun Jiao if ((skb_new = skb_copy_expand(skb, skb_headroom(skb), num_byte_pad, GFP_KERNEL)) == NULL) { 10813ac00233SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d skb_copy_expand failed!\n", sdr_compatible_str, ring->bd_wr_idx); 1082c0981124Smmehari goto openwifi_tx_early_out; 1083c0981124Smmehari } 10843ac00233SXianjun Jiao if (skb->sk != NULL) 10853ac00233SXianjun Jiao skb_set_owner_w(skb_new, skb->sk); 10863ac00233SXianjun Jiao dev_kfree_skb(skb); 10873ac00233SXianjun Jiao skb = skb_new; 10883ac00233SXianjun Jiao } 1089c0981124Smmehari skb_put( skb, num_byte_pad ); 1090c0981124Smmehari 10912ee67178SXianjun Jiao dma_buf = skb->data; 1092f738aefaSmmehari } 1093f738aefaSmmehari // for(i = 0; i <= num_dma_symbol; i++) 1094f738aefaSmmehari // printk("%16llx\n", (*(u64*)(&(dma_buf[i*8])))); 1095f738aefaSmmehari 1096f738aefaSmmehari rate_signal_value = (use_ht_rate ? rate_hw_value : wifi_mcs_table_11b_force_up[rate_hw_value]); 1097f738aefaSmmehari 1098f738aefaSmmehari retry_limit_hw_value = ( retry_limit_raw==0?0:((retry_limit_raw - 1)&0xF) ); 10992ee67178SXianjun Jiao 11002ee67178SXianjun Jiao cts_rate_signal_value = wifi_mcs_table_11b_force_up[cts_rate_hw_value]; 1101f738aefaSmmehari cts_reg = ((use_cts_protect|force_use_cts_protect)<<31 | cts_use_traffic_rate<<30 | cts_duration<<8 | cts_rate_signal_value<<4 | rate_signal_value); 1102616c431cSaslaamshaafi tx_config = ( prio<<26 | ring->bd_wr_idx<<20 | queue_idx<<18 | retry_limit_hw_value<<14 | pkt_need_ack<<13 | num_dma_symbol ); 1103f738aefaSmmehari phy_hdr_config = ( ht_aggr_start<<20 | rate_hw_value<<16 | use_ht_rate<<15 | use_short_gi<<14 | use_ht_aggr<<13 | len_psdu ); 11042ee67178SXianjun Jiao 11052ee67178SXianjun Jiao /* We must be sure that tx_flags is written last because the HW 11062ee67178SXianjun Jiao * looks at it to check if the rest of data is valid or not 11072ee67178SXianjun Jiao */ 11082ee67178SXianjun Jiao //wmb(); 11092ee67178SXianjun Jiao // entry->flags = cpu_to_le32(tx_flags); 1110b1dd94e3Sluz paz /* We must be sure this has been written before following HW 1111b1dd94e3Sluz paz * register write, because this write will make the HW attempts 11122ee67178SXianjun Jiao * to DMA the just-written data 11132ee67178SXianjun Jiao */ 11142ee67178SXianjun Jiao //wmb(); 11152ee67178SXianjun Jiao 1116838a9007SXianjun Jiao spin_lock_irqsave(&priv->lock, flags); // from now on, we'd better avoid interrupt because ring->stop_flag is shared with interrupt 1117838a9007SXianjun Jiao 1118838a9007SXianjun Jiao // -------------check whether FPGA dma fifo and queue (queue_idx) has enough room------------- 11190c0d5d82Smmehari dma_fifo_no_room_flag = tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read(); 11200c0d5d82Smmehari hw_queue_len = tx_intf_api->TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read(); 11210c0d5d82Smmehari if ( ((dma_fifo_no_room_flag>>queue_idx)&1) || ((NUM_TX_BD-((hw_queue_len>>(queue_idx*8))&0xFF))<RING_ROOM_THRESHOLD) || ring->stop_flag==1 ) { 1122838a9007SXianjun Jiao ieee80211_stop_queue(dev, prio); // here we should stop those prio related to the queue idx flag set in TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read 11230c0d5d82Smmehari printk("%s openwifi_tx: WARNING ieee80211_stop_queue prio %d queue %d no room flag %x hw queue len %08x request %d wr %d rd %d\n", sdr_compatible_str, 11240c0d5d82Smmehari prio, queue_idx, dma_fifo_no_room_flag, hw_queue_len, num_dma_symbol, ring->bd_wr_idx, ring->bd_rd_idx); 1125838a9007SXianjun Jiao ring->stop_flag = 1; 11260c0d5d82Smmehari goto openwifi_tx_early_out_after_lock; 1127838a9007SXianjun Jiao } 1128838a9007SXianjun Jiao // --------end of check whether FPGA fifo (queue_idx) has enough room------------ 1129838a9007SXianjun Jiao 1130838a9007SXianjun Jiao status = dma_async_is_tx_complete(priv->tx_chan, priv->tx_cookie, NULL, NULL); 1131f11dfbd0SXianjun Jiao while(delay_count<100 && status!=DMA_COMPLETE) { 1132f11dfbd0SXianjun Jiao status = dma_async_is_tx_complete(priv->tx_chan, priv->tx_cookie, NULL, NULL); 1133f11dfbd0SXianjun Jiao delay_count++; 1134f11dfbd0SXianjun Jiao udelay(4); 1135f11dfbd0SXianjun Jiao // udelay(priv->stat.dbg_ch1); 1136f11dfbd0SXianjun Jiao } 1137838a9007SXianjun Jiao if (status!=DMA_COMPLETE) { 1138838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING status!=DMA_COMPLETE\n", sdr_compatible_str); 1139838a9007SXianjun Jiao goto openwifi_tx_early_out_after_lock; 1140838a9007SXianjun Jiao } 1141838a9007SXianjun Jiao 11422ee67178SXianjun Jiao //-------------------------fire skb DMA to hardware---------------------------------- 11432ee67178SXianjun Jiao dma_mapping_addr = dma_map_single(priv->tx_chan->device->dev, dma_buf, 11442ee67178SXianjun Jiao num_dma_byte, DMA_MEM_TO_DEV); 11452ee67178SXianjun Jiao 11462ee67178SXianjun Jiao if (dma_mapping_error(priv->tx_chan->device->dev,dma_mapping_addr)) { 1147838a9007SXianjun Jiao // dev_err(priv->tx_chan->device->dev, "sdr,sdr openwifi_tx: WARNING TX DMA mapping error\n"); 1148838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d TX DMA mapping error\n", sdr_compatible_str, ring->bd_wr_idx); 1149838a9007SXianjun Jiao goto openwifi_tx_early_out_after_lock; 11502ee67178SXianjun Jiao } 11512ee67178SXianjun Jiao 115222dd0cc4SXianjun Jiao sg_init_table(&(priv->tx_sg), 1); // only need to be initialized once in openwifi_start 11532ee67178SXianjun Jiao sg_dma_address( &(priv->tx_sg) ) = dma_mapping_addr; 11542ee67178SXianjun Jiao sg_dma_len( &(priv->tx_sg) ) = num_dma_byte; 11552ee67178SXianjun Jiao 11562ee67178SXianjun Jiao tx_intf_api->TX_INTF_REG_CTS_TOSELF_CONFIG_write(cts_reg); 1157f738aefaSmmehari tx_intf_api->TX_INTF_REG_TX_CONFIG_write(tx_config); 1158f738aefaSmmehari tx_intf_api->TX_INTF_REG_PHY_HDR_CONFIG_write(phy_hdr_config); 11592ee67178SXianjun Jiao priv->txd = priv->tx_chan->device->device_prep_slave_sg(priv->tx_chan, &(priv->tx_sg),1,DMA_MEM_TO_DEV, DMA_CTRL_ACK | DMA_PREP_INTERRUPT, NULL); 11602ee67178SXianjun Jiao if (!(priv->txd)) { 1161838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d device_prep_slave_sg %p\n", sdr_compatible_str, ring->bd_wr_idx, (void*)(priv->txd)); 11622ee67178SXianjun Jiao goto openwifi_tx_after_dma_mapping; 11632ee67178SXianjun Jiao } 11642ee67178SXianjun Jiao 11652ee67178SXianjun Jiao priv->tx_cookie = priv->txd->tx_submit(priv->txd); 11662ee67178SXianjun Jiao 11672ee67178SXianjun Jiao if (dma_submit_error(priv->tx_cookie)) { 1168838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d dma_submit_error(tx_cookie) %d\n", sdr_compatible_str, ring->bd_wr_idx, (u32)(priv->tx_cookie)); 11692ee67178SXianjun Jiao goto openwifi_tx_after_dma_mapping; 11702ee67178SXianjun Jiao } 11712ee67178SXianjun Jiao 1172b1dd94e3Sluz paz // seems everything is ok. let's mark this pkt in bd descriptor ring 1173f70dfc6bSXianjun Jiao ring->bds[ring->bd_wr_idx].seq_no = seq_no; 11742ee67178SXianjun Jiao ring->bds[ring->bd_wr_idx].skb_linked = skb; 11752ee67178SXianjun Jiao ring->bds[ring->bd_wr_idx].dma_mapping_addr = dma_mapping_addr; 11762ee67178SXianjun Jiao 11772ee67178SXianjun Jiao ring->bd_wr_idx = ((ring->bd_wr_idx+1)&(NUM_TX_BD-1)); 11782ee67178SXianjun Jiao 11792ee67178SXianjun Jiao dma_async_issue_pending(priv->tx_chan); 11802ee67178SXianjun Jiao 11812ee67178SXianjun Jiao spin_unlock_irqrestore(&priv->lock, flags); 11822ee67178SXianjun Jiao 11832ee67178SXianjun Jiao return; 11842ee67178SXianjun Jiao 11852ee67178SXianjun Jiao openwifi_tx_after_dma_mapping: 11862ee67178SXianjun Jiao dma_unmap_single(priv->tx_chan->device->dev, dma_mapping_addr, num_dma_byte, DMA_MEM_TO_DEV); 11872ee67178SXianjun Jiao 1188838a9007SXianjun Jiao openwifi_tx_early_out_after_lock: 1189838a9007SXianjun Jiao dev_kfree_skb(skb); 11902ee67178SXianjun Jiao spin_unlock_irqrestore(&priv->lock, flags); 1191838a9007SXianjun Jiao // printk("%s openwifi_tx: WARNING openwifi_tx_after_dma_mapping phy_tx_sn %d queue %d\n", sdr_compatible_str,priv->phy_tx_sn,queue_idx); 1192838a9007SXianjun Jiao return; 11932ee67178SXianjun Jiao 11942ee67178SXianjun Jiao openwifi_tx_early_out: 1195df53600aSXianjun Jiao //dev_kfree_skb(skb); 1196838a9007SXianjun Jiao // printk("%s openwifi_tx: WARNING openwifi_tx_early_out phy_tx_sn %d queue %d\n", sdr_compatible_str,priv->phy_tx_sn,queue_idx); 11972ee67178SXianjun Jiao } 11982ee67178SXianjun Jiao 119956203843SXianjun Jiao static int openwifi_set_antenna(struct ieee80211_hw *dev, u32 tx_ant, u32 rx_ant) 120056203843SXianjun Jiao { 120156203843SXianjun Jiao struct openwifi_priv *priv = dev->priv; 120256203843SXianjun Jiao u8 fpga_tx_ant_setting, target_rx_ant; 120356203843SXianjun Jiao u32 atten_mdb_tx0, atten_mdb_tx1; 120456203843SXianjun Jiao struct ctrl_outs_control ctrl_out; 120556203843SXianjun Jiao int ret; 120656203843SXianjun Jiao 120756203843SXianjun Jiao printk("%s openwifi_set_antenna: tx_ant%d rx_ant%d\n",sdr_compatible_str,tx_ant,rx_ant); 120856203843SXianjun Jiao 120956203843SXianjun Jiao if (tx_ant >= 4 || tx_ant == 0) { 121056203843SXianjun Jiao return -EINVAL; 121156203843SXianjun Jiao } else if (rx_ant >= 3 || rx_ant == 0) { 121256203843SXianjun Jiao return -EINVAL; 121356203843SXianjun Jiao } 121456203843SXianjun Jiao 121556203843SXianjun Jiao fpga_tx_ant_setting = ((tx_ant<=2)?(tx_ant):(tx_ant+16)); 121656203843SXianjun Jiao target_rx_ant = ((rx_ant&1)?0:1); 121756203843SXianjun Jiao 121856203843SXianjun Jiao // try rf chip setting firstly, only update internal state variable when rf chip succeed 121956203843SXianjun Jiao atten_mdb_tx0 = ((tx_ant&1)?(AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT]):AD9361_RADIO_OFF_TX_ATT); 122056203843SXianjun Jiao atten_mdb_tx1 = ((tx_ant&2)?(AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT]):AD9361_RADIO_OFF_TX_ATT); 122156203843SXianjun Jiao ret = ad9361_set_tx_atten(priv->ad9361_phy, atten_mdb_tx0, true, false, true); 122256203843SXianjun Jiao if (ret < 0) { 122356203843SXianjun Jiao printk("%s openwifi_set_antenna: WARNING ad9361_set_tx_atten ant0 %d FAIL!\n",sdr_compatible_str, atten_mdb_tx0); 122456203843SXianjun Jiao return -EINVAL; 122556203843SXianjun Jiao } else { 122656203843SXianjun Jiao printk("%s openwifi_set_antenna: ad9361_set_tx_atten ant0 %d OK\n",sdr_compatible_str, atten_mdb_tx0); 122756203843SXianjun Jiao } 122856203843SXianjun Jiao ret = ad9361_set_tx_atten(priv->ad9361_phy, atten_mdb_tx1, false, true, true); 122956203843SXianjun Jiao if (ret < 0) { 123056203843SXianjun Jiao printk("%s openwifi_set_antenna: WARNING ad9361_set_tx_atten ant1 %d FAIL!\n",sdr_compatible_str, atten_mdb_tx1); 123156203843SXianjun Jiao return -EINVAL; 123256203843SXianjun Jiao } else { 123356203843SXianjun Jiao printk("%s openwifi_set_antenna: ad9361_set_tx_atten ant1 %d OK\n",sdr_compatible_str, atten_mdb_tx1); 123456203843SXianjun Jiao } 123556203843SXianjun Jiao 123656203843SXianjun Jiao ctrl_out.en_mask = priv->ctrl_out.en_mask; 123756203843SXianjun Jiao ctrl_out.index = (target_rx_ant==0?AD9361_CTRL_OUT_INDEX_ANT0:AD9361_CTRL_OUT_INDEX_ANT1); 123856203843SXianjun Jiao ret = ad9361_ctrl_outs_setup(priv->ad9361_phy, &(ctrl_out)); 123956203843SXianjun Jiao if (ret < 0) { 124056203843SXianjun Jiao printk("%s openwifi_set_antenna: WARNING ad9361_ctrl_outs_setup en_mask 0x%02x index 0x%02x FAIL!\n",sdr_compatible_str, ctrl_out.en_mask, ctrl_out.index); 124156203843SXianjun Jiao return -EINVAL; 124256203843SXianjun Jiao } else { 124356203843SXianjun Jiao printk("%s openwifi_set_antenna: ad9361_ctrl_outs_setup en_mask 0x%02x index 0x%02x\n",sdr_compatible_str, ctrl_out.en_mask, ctrl_out.index); 124456203843SXianjun Jiao } 124556203843SXianjun Jiao 124656203843SXianjun Jiao tx_intf_api->TX_INTF_REG_ANT_SEL_write(fpga_tx_ant_setting); 124756203843SXianjun Jiao ret = tx_intf_api->TX_INTF_REG_ANT_SEL_read(); 124856203843SXianjun Jiao if (ret != fpga_tx_ant_setting) { 124956203843SXianjun Jiao printk("%s openwifi_set_antenna: WARNING TX_INTF_REG_ANT_SEL_write target %d read back %d\n",sdr_compatible_str, fpga_tx_ant_setting, ret); 125056203843SXianjun Jiao return -EINVAL; 125156203843SXianjun Jiao } else { 125256203843SXianjun Jiao printk("%s openwifi_set_antenna: TX_INTF_REG_ANT_SEL_write value %d\n",sdr_compatible_str, ret); 125356203843SXianjun Jiao } 125456203843SXianjun Jiao 125556203843SXianjun Jiao rx_intf_api->RX_INTF_REG_ANT_SEL_write(target_rx_ant); 125656203843SXianjun Jiao ret = rx_intf_api->RX_INTF_REG_ANT_SEL_read(); 125756203843SXianjun Jiao if (ret != target_rx_ant) { 125856203843SXianjun Jiao printk("%s openwifi_set_antenna: WARNING RX_INTF_REG_ANT_SEL_write target %d read back %d\n",sdr_compatible_str, target_rx_ant, ret); 125956203843SXianjun Jiao return -EINVAL; 126056203843SXianjun Jiao } else { 126156203843SXianjun Jiao printk("%s openwifi_set_antenna: RX_INTF_REG_ANT_SEL_write value %d\n",sdr_compatible_str, ret); 126256203843SXianjun Jiao } 126356203843SXianjun Jiao 126456203843SXianjun Jiao // update internal state variable 126556203843SXianjun Jiao priv->runtime_tx_ant_cfg = tx_ant; 126656203843SXianjun Jiao priv->runtime_rx_ant_cfg = rx_ant; 126756203843SXianjun Jiao 126856203843SXianjun Jiao if (TX_OFFSET_TUNING_ENABLE) 126956203843SXianjun Jiao priv->tx_intf_cfg = ((tx_ant&1)?TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0:TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1);//NO USE 127056203843SXianjun Jiao else { 127156203843SXianjun Jiao if (tx_ant == 3) 127256203843SXianjun Jiao priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_0MHZ_ANT_BOTH; 127356203843SXianjun Jiao else 127456203843SXianjun Jiao priv->tx_intf_cfg = ((tx_ant&1)?TX_INTF_BW_20MHZ_AT_0MHZ_ANT0:TX_INTF_BW_20MHZ_AT_0MHZ_ANT1); 127556203843SXianjun Jiao } 127656203843SXianjun Jiao 127756203843SXianjun Jiao priv->rx_intf_cfg = (target_rx_ant==0?RX_INTF_BW_20MHZ_AT_0MHZ_ANT0:RX_INTF_BW_20MHZ_AT_0MHZ_ANT1); 127856203843SXianjun Jiao priv->ctrl_out.index=ctrl_out.index; 127956203843SXianjun Jiao 128056203843SXianjun Jiao priv->tx_freq_offset_to_lo_MHz = tx_intf_fo_mapping[priv->tx_intf_cfg]; 128156203843SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = rx_intf_fo_mapping[priv->rx_intf_cfg]; 128256203843SXianjun Jiao 128356203843SXianjun Jiao return 0; 128456203843SXianjun Jiao } 128556203843SXianjun Jiao static int openwifi_get_antenna(struct ieee80211_hw *dev, u32 *tx_ant, u32 *rx_ant) 128656203843SXianjun Jiao { 128756203843SXianjun Jiao struct openwifi_priv *priv = dev->priv; 128856203843SXianjun Jiao 128956203843SXianjun Jiao *tx_ant = priv->runtime_tx_ant_cfg; 129056203843SXianjun Jiao *rx_ant = priv->runtime_rx_ant_cfg; 129156203843SXianjun Jiao 129256203843SXianjun Jiao printk("%s openwifi_get_antenna: tx_ant%d rx_ant%d\n",sdr_compatible_str, *tx_ant, *rx_ant); 129356203843SXianjun Jiao 129456203843SXianjun Jiao printk("%s openwifi_get_antenna: drv tx cfg %d offset %d drv rx cfg %d offset %d drv ctrl_out sel %x\n",sdr_compatible_str, 129556203843SXianjun Jiao priv->tx_intf_cfg, priv->tx_freq_offset_to_lo_MHz, priv->rx_intf_cfg, priv->rx_freq_offset_to_lo_MHz, priv->ctrl_out.index); 129656203843SXianjun Jiao 129756203843SXianjun Jiao printk("%s openwifi_get_antenna: fpga tx sel %d rx sel %d\n", sdr_compatible_str, 129856203843SXianjun Jiao tx_intf_api->TX_INTF_REG_ANT_SEL_read(), rx_intf_api->RX_INTF_REG_ANT_SEL_read()); 129956203843SXianjun Jiao 130056203843SXianjun Jiao printk("%s openwifi_get_antenna: rf tx att0 %d tx att1 %d ctrl_out sel %x\n", sdr_compatible_str, 130156203843SXianjun Jiao ad9361_get_tx_atten(priv->ad9361_phy, 1), ad9361_get_tx_atten(priv->ad9361_phy, 2), ad9361_spi_read(priv->ad9361_phy->spi, REG_CTRL_OUTPUT_POINTER)); 130256203843SXianjun Jiao 130356203843SXianjun Jiao return 0; 130456203843SXianjun Jiao } 130556203843SXianjun Jiao 13062ee67178SXianjun Jiao static int openwifi_start(struct ieee80211_hw *dev) 13072ee67178SXianjun Jiao { 13082ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 1309df53600aSXianjun Jiao int ret, i; 13102ee67178SXianjun Jiao u32 reg; 13112ee67178SXianjun Jiao 13122ee67178SXianjun Jiao for (i=0; i<MAX_NUM_VIF; i++) { 13132ee67178SXianjun Jiao priv->vif[i] = NULL; 13142ee67178SXianjun Jiao } 13152ee67178SXianjun Jiao 1316e21492d7SXianjun Jiao // //keep software registers persistent between NIC down and up for multiple times 1317e21492d7SXianjun Jiao /*memset(priv->drv_tx_reg_val, 0, sizeof(priv->drv_tx_reg_val)); 1318838a9007SXianjun Jiao memset(priv->drv_rx_reg_val, 0, sizeof(priv->drv_rx_reg_val)); 1319838a9007SXianjun Jiao memset(priv->drv_xpu_reg_val, 0, sizeof(priv->drv_xpu_reg_val)); 1320e21492d7SXianjun Jiao memset(priv->rf_reg_val,0,sizeof(priv->rf_reg_val)); 1321e21492d7SXianjun Jiao priv->drv_xpu_reg_val[DRV_XPU_REG_IDX_GIT_REV] = GIT_REV;*/ 1322838a9007SXianjun Jiao 13232ee67178SXianjun Jiao //turn on radio 132456203843SXianjun Jiao openwifi_set_antenna(dev, priv->runtime_tx_ant_cfg, priv->runtime_rx_ant_cfg); 132556203843SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, ((priv->runtime_tx_ant_cfg==1 || priv->runtime_tx_ant_cfg==3)?1:2)); 132656203843SXianjun Jiao if (reg == (AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT])) { 13272ee67178SXianjun Jiao priv->rfkill_off = 1;// 0 off, 1 on 13282ee67178SXianjun Jiao printk("%s openwifi_start: rfkill radio on\n",sdr_compatible_str); 13292ee67178SXianjun Jiao } 13302ee67178SXianjun Jiao else 133156203843SXianjun Jiao printk("%s openwifi_start: WARNING rfkill radio on failed. tx att read %d require %d\n",sdr_compatible_str, reg, AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT]); 13322ee67178SXianjun Jiao 13332ee67178SXianjun Jiao rx_intf_api->hw_init(priv->rx_intf_cfg,8,8); 13340c0d5d82Smmehari tx_intf_api->hw_init(priv->tx_intf_cfg,8,8,priv->fpga_type); 13352ee67178SXianjun Jiao openofdm_tx_api->hw_init(priv->openofdm_tx_cfg); 13362ee67178SXianjun Jiao openofdm_rx_api->hw_init(priv->openofdm_rx_cfg); 13372ee67178SXianjun Jiao xpu_api->hw_init(priv->xpu_cfg); 13382ee67178SXianjun Jiao 13392ee67178SXianjun Jiao xpu_api->XPU_REG_MAC_ADDR_write(priv->mac_addr); 13402ee67178SXianjun Jiao 13412ee67178SXianjun Jiao printk("%s openwifi_start: rx_intf_cfg %d openofdm_rx_cfg %d tx_intf_cfg %d openofdm_tx_cfg %d\n",sdr_compatible_str, priv->rx_intf_cfg, priv->openofdm_rx_cfg, priv->tx_intf_cfg, priv->openofdm_tx_cfg); 13422ee67178SXianjun Jiao printk("%s openwifi_start: rx_freq_offset_to_lo_MHz %d tx_freq_offset_to_lo_MHz %d\n",sdr_compatible_str, priv->rx_freq_offset_to_lo_MHz, priv->tx_freq_offset_to_lo_MHz); 13432ee67178SXianjun Jiao 134422dd0cc4SXianjun Jiao tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x30004); //disable tx interrupt 13452ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_INTERRUPT_TEST_write(0x100); // disable rx interrupt by interrupt test mode 13462ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_M_AXIS_RST_write(1); // hold M AXIS in reset status 13472ee67178SXianjun Jiao 13482ee67178SXianjun Jiao priv->rx_chan = dma_request_slave_channel(&(priv->pdev->dev), "rx_dma_s2mm"); 1349c687b19dSXianjun Jiao if (IS_ERR(priv->rx_chan) || priv->rx_chan==NULL) { 13502ee67178SXianjun Jiao ret = PTR_ERR(priv->rx_chan); 1351c687b19dSXianjun Jiao pr_err("%s openwifi_start: No Rx channel ret %d priv->rx_chan 0x%p\n",sdr_compatible_str, ret, priv->rx_chan); 13522ee67178SXianjun Jiao goto err_dma; 13532ee67178SXianjun Jiao } 13542ee67178SXianjun Jiao 13552ee67178SXianjun Jiao priv->tx_chan = dma_request_slave_channel(&(priv->pdev->dev), "tx_dma_mm2s"); 1356c687b19dSXianjun Jiao if (IS_ERR(priv->tx_chan) || priv->tx_chan==NULL) { 13572ee67178SXianjun Jiao ret = PTR_ERR(priv->tx_chan); 1358c687b19dSXianjun Jiao pr_err("%s openwifi_start: No Tx channel ret %d priv->tx_chan 0x%p\n",sdr_compatible_str, ret, priv->tx_chan); 13592ee67178SXianjun Jiao goto err_dma; 13602ee67178SXianjun Jiao } 1361c687b19dSXianjun Jiao printk("%s openwifi_start: DMA channel setup successfully. priv->rx_chan 0x%p priv->tx_chan 0x%p\n",sdr_compatible_str, priv->rx_chan, priv->tx_chan); 13622ee67178SXianjun Jiao 13632ee67178SXianjun Jiao ret = openwifi_init_rx_ring(priv); 13642ee67178SXianjun Jiao if (ret) { 13652ee67178SXianjun Jiao printk("%s openwifi_start: openwifi_init_rx_ring ret %d\n", sdr_compatible_str,ret); 13662ee67178SXianjun Jiao goto err_free_rings; 13672ee67178SXianjun Jiao } 13682ee67178SXianjun Jiao 13692ee67178SXianjun Jiao priv->seqno=0; 1370838a9007SXianjun Jiao for (i=0; i<MAX_NUM_SW_QUEUE; i++) { 1371838a9007SXianjun Jiao if ((ret = openwifi_init_tx_ring(priv, i))) { 1372838a9007SXianjun Jiao printk("%s openwifi_start: openwifi_init_tx_ring %d ret %d\n", sdr_compatible_str, i, ret); 13732ee67178SXianjun Jiao goto err_free_rings; 13742ee67178SXianjun Jiao } 1375838a9007SXianjun Jiao } 13762ee67178SXianjun Jiao 13772ee67178SXianjun Jiao if ( (ret = rx_dma_setup(dev)) ) { 13782ee67178SXianjun Jiao printk("%s openwifi_start: rx_dma_setup ret %d\n", sdr_compatible_str,ret); 13792ee67178SXianjun Jiao goto err_free_rings; 13802ee67178SXianjun Jiao } 13812ee67178SXianjun Jiao 13822ee67178SXianjun Jiao priv->irq_rx = irq_of_parse_and_map(priv->pdev->dev.of_node, 1); 13832ee67178SXianjun Jiao ret = request_irq(priv->irq_rx, openwifi_rx_interrupt, 13842ee67178SXianjun Jiao IRQF_SHARED, "sdr,rx_pkt_intr", dev); 13852ee67178SXianjun Jiao if (ret) { 13862ee67178SXianjun Jiao wiphy_err(dev->wiphy, "openwifi_start:failed to register IRQ handler openwifi_rx_interrupt\n"); 13872ee67178SXianjun Jiao goto err_free_rings; 13882ee67178SXianjun Jiao } else { 13892ee67178SXianjun Jiao printk("%s openwifi_start: irq_rx %d\n", sdr_compatible_str, priv->irq_rx); 13902ee67178SXianjun Jiao } 13912ee67178SXianjun Jiao 13922ee67178SXianjun Jiao priv->irq_tx = irq_of_parse_and_map(priv->pdev->dev.of_node, 3); 13932ee67178SXianjun Jiao ret = request_irq(priv->irq_tx, openwifi_tx_interrupt, 1394c24e0a04SXianjun Jiao IRQF_SHARED, "sdr,tx_itrpt", dev); 13952ee67178SXianjun Jiao if (ret) { 13962ee67178SXianjun Jiao wiphy_err(dev->wiphy, "openwifi_start: failed to register IRQ handler openwifi_tx_interrupt\n"); 13972ee67178SXianjun Jiao goto err_free_rings; 13982ee67178SXianjun Jiao } else { 13992ee67178SXianjun Jiao printk("%s openwifi_start: irq_tx %d\n", sdr_compatible_str, priv->irq_tx); 14002ee67178SXianjun Jiao } 14012ee67178SXianjun Jiao 14022ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_INTERRUPT_TEST_write(0x000); // enable rx interrupt get normal fcs valid pass through ddc to ARM 140322dd0cc4SXianjun Jiao tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x4); //enable tx interrupt 14042ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_M_AXIS_RST_write(0); // release M AXIS 14052ee67178SXianjun Jiao xpu_api->XPU_REG_TSF_LOAD_VAL_write(0,0); // reset tsf timer 14062ee67178SXianjun Jiao 1407641a980aSthavinga // disable ad9361 auto calibration and enable openwifi fpga spi control 1408641a980aSthavinga priv->ad9361_phy->state->auto_cal_en = false; // turn off auto Tx quadrature calib. 1409641a980aSthavinga priv->ad9361_phy->state->manual_tx_quad_cal_en = true; // turn on manual Tx quadrature calib. 1410641a980aSthavinga xpu_api->XPU_REG_SPI_DISABLE_write(0); 14112ee67178SXianjun Jiao 1412df53600aSXianjun Jiao // normal_out: 14132ee67178SXianjun Jiao printk("%s openwifi_start: normal end\n", sdr_compatible_str); 14142ee67178SXianjun Jiao return 0; 14152ee67178SXianjun Jiao 14162ee67178SXianjun Jiao err_free_rings: 14172ee67178SXianjun Jiao openwifi_free_rx_ring(priv); 1418838a9007SXianjun Jiao for (i=0; i<MAX_NUM_SW_QUEUE; i++) 1419838a9007SXianjun Jiao openwifi_free_tx_ring(priv, i); 14202ee67178SXianjun Jiao 14212ee67178SXianjun Jiao err_dma: 14222ee67178SXianjun Jiao ret = -1; 14232ee67178SXianjun Jiao printk("%s openwifi_start: abnormal end ret %d\n", sdr_compatible_str, ret); 14242ee67178SXianjun Jiao return ret; 14252ee67178SXianjun Jiao } 14262ee67178SXianjun Jiao 14272ee67178SXianjun Jiao static void openwifi_stop(struct ieee80211_hw *dev) 14282ee67178SXianjun Jiao { 14292ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 14302ee67178SXianjun Jiao u32 reg, reg1; 14312ee67178SXianjun Jiao int i; 14322ee67178SXianjun Jiao 1433bc98f5bbSthavinga // enable ad9361 auto calibration and disable openwifi fpga spi control 1434bc98f5bbSthavinga priv->ad9361_phy->state->auto_cal_en = true; // turn on auto Tx quadrature calib. 1435bc98f5bbSthavinga priv->ad9361_phy->state->manual_tx_quad_cal_en = false; // turn off manual Tx quadrature calib. 1436bc98f5bbSthavinga xpu_api->XPU_REG_SPI_DISABLE_write(1); 14372ee67178SXianjun Jiao 14382ee67178SXianjun Jiao //turn off radio 14392ee67178SXianjun Jiao #if 1 14402ee67178SXianjun Jiao ad9361_tx_mute(priv->ad9361_phy, 1); 14412ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 14422ee67178SXianjun Jiao reg1 = ad9361_get_tx_atten(priv->ad9361_phy, 1); 14432ee67178SXianjun Jiao if (reg == AD9361_RADIO_OFF_TX_ATT && reg1 == AD9361_RADIO_OFF_TX_ATT ) { 14442ee67178SXianjun Jiao priv->rfkill_off = 0;// 0 off, 1 on 14452ee67178SXianjun Jiao printk("%s openwifi_stop: rfkill radio off\n",sdr_compatible_str); 14462ee67178SXianjun Jiao } 14472ee67178SXianjun Jiao else 14482ee67178SXianjun Jiao printk("%s openwifi_stop: WARNING rfkill radio off failed. tx att read %d %d require %d\n",sdr_compatible_str, reg, reg1, AD9361_RADIO_OFF_TX_ATT); 14492ee67178SXianjun Jiao #endif 14502ee67178SXianjun Jiao 14512ee67178SXianjun Jiao //ieee80211_stop_queue(dev, 0); 145222dd0cc4SXianjun Jiao tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x30004); //disable tx interrupt 14532ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_INTERRUPT_TEST_write(0x100); // disable fcs_valid by interrupt test mode 14542ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_M_AXIS_RST_write(1); // hold M AXIS in reset status 14552ee67178SXianjun Jiao 14562ee67178SXianjun Jiao for (i=0; i<MAX_NUM_VIF; i++) { 14572ee67178SXianjun Jiao priv->vif[i] = NULL; 14582ee67178SXianjun Jiao } 14592ee67178SXianjun Jiao 14602ee67178SXianjun Jiao openwifi_free_rx_ring(priv); 1461838a9007SXianjun Jiao for (i=0; i<MAX_NUM_SW_QUEUE; i++) 1462838a9007SXianjun Jiao openwifi_free_tx_ring(priv, i); 14632ee67178SXianjun Jiao 14642ee67178SXianjun Jiao pr_info("%s openwifi_stop: dropped channel %s\n", sdr_compatible_str, dma_chan_name(priv->rx_chan)); 14652ee67178SXianjun Jiao dmaengine_terminate_all(priv->rx_chan); 14662ee67178SXianjun Jiao dma_release_channel(priv->rx_chan); 14672ee67178SXianjun Jiao pr_info("%s openwifi_stop: dropped channel %s\n", sdr_compatible_str, dma_chan_name(priv->tx_chan)); 14682ee67178SXianjun Jiao dmaengine_terminate_all(priv->tx_chan); 14692ee67178SXianjun Jiao dma_release_channel(priv->tx_chan); 14702ee67178SXianjun Jiao 14712ee67178SXianjun Jiao //priv->rf->stop(dev); 14722ee67178SXianjun Jiao 14732ee67178SXianjun Jiao free_irq(priv->irq_rx, dev); 14742ee67178SXianjun Jiao free_irq(priv->irq_tx, dev); 14752ee67178SXianjun Jiao 1476df53600aSXianjun Jiao // normal_out: 14772ee67178SXianjun Jiao printk("%s openwifi_stop\n", sdr_compatible_str); 14782ee67178SXianjun Jiao } 14792ee67178SXianjun Jiao 14802ee67178SXianjun Jiao static u64 openwifi_get_tsf(struct ieee80211_hw *dev, 14812ee67178SXianjun Jiao struct ieee80211_vif *vif) 14822ee67178SXianjun Jiao { 14832ee67178SXianjun Jiao u32 tsft_low, tsft_high; 14842ee67178SXianjun Jiao 14852ee67178SXianjun Jiao tsft_low = xpu_api->XPU_REG_TSF_RUNTIME_VAL_LOW_read(); 14862ee67178SXianjun Jiao tsft_high = xpu_api->XPU_REG_TSF_RUNTIME_VAL_HIGH_read(); 14872ee67178SXianjun Jiao //printk("%s openwifi_get_tsf: %08x%08x\n", sdr_compatible_str,tsft_high,tsft_low); 14882ee67178SXianjun Jiao return( ( (u64)tsft_low ) | ( ((u64)tsft_high)<<32 ) ); 14892ee67178SXianjun Jiao } 14902ee67178SXianjun Jiao 14912ee67178SXianjun Jiao static void openwifi_set_tsf(struct ieee80211_hw *hw, struct ieee80211_vif *vif, u64 tsf) 14922ee67178SXianjun Jiao { 14932ee67178SXianjun Jiao u32 tsft_high = ((tsf >> 32)&0xffffffff); 14942ee67178SXianjun Jiao u32 tsft_low = (tsf&0xffffffff); 14952ee67178SXianjun Jiao xpu_api->XPU_REG_TSF_LOAD_VAL_write(tsft_high,tsft_low); 14962ee67178SXianjun Jiao printk("%s openwifi_set_tsf: %08x%08x\n", sdr_compatible_str,tsft_high,tsft_low); 14972ee67178SXianjun Jiao } 14982ee67178SXianjun Jiao 14992ee67178SXianjun Jiao static void openwifi_reset_tsf(struct ieee80211_hw *hw, struct ieee80211_vif *vif) 15002ee67178SXianjun Jiao { 15012ee67178SXianjun Jiao xpu_api->XPU_REG_TSF_LOAD_VAL_write(0,0); 15022ee67178SXianjun Jiao printk("%s openwifi_reset_tsf\n", sdr_compatible_str); 15032ee67178SXianjun Jiao } 15042ee67178SXianjun Jiao 15052ee67178SXianjun Jiao static int openwifi_set_rts_threshold(struct ieee80211_hw *hw, u32 value) 15062ee67178SXianjun Jiao { 15072ee67178SXianjun Jiao printk("%s openwifi_set_rts_threshold WARNING value %d\n", sdr_compatible_str,value); 15082ee67178SXianjun Jiao return(0); 15092ee67178SXianjun Jiao } 15102ee67178SXianjun Jiao 15112ee67178SXianjun Jiao static void openwifi_beacon_work(struct work_struct *work) 15122ee67178SXianjun Jiao { 15132ee67178SXianjun Jiao struct openwifi_vif *vif_priv = 15142ee67178SXianjun Jiao container_of(work, struct openwifi_vif, beacon_work.work); 15152ee67178SXianjun Jiao struct ieee80211_vif *vif = 15162ee67178SXianjun Jiao container_of((void *)vif_priv, struct ieee80211_vif, drv_priv); 15172ee67178SXianjun Jiao struct ieee80211_hw *dev = vif_priv->dev; 15182ee67178SXianjun Jiao struct ieee80211_mgmt *mgmt; 15192ee67178SXianjun Jiao struct sk_buff *skb; 15202ee67178SXianjun Jiao 15212ee67178SXianjun Jiao /* don't overflow the tx ring */ 15222ee67178SXianjun Jiao if (ieee80211_queue_stopped(dev, 0)) 15232ee67178SXianjun Jiao goto resched; 15242ee67178SXianjun Jiao 15252ee67178SXianjun Jiao /* grab a fresh beacon */ 15262ee67178SXianjun Jiao skb = ieee80211_beacon_get(dev, vif); 15272ee67178SXianjun Jiao if (!skb) 15282ee67178SXianjun Jiao goto resched; 15292ee67178SXianjun Jiao 15302ee67178SXianjun Jiao /* 15312ee67178SXianjun Jiao * update beacon timestamp w/ TSF value 15322ee67178SXianjun Jiao * TODO: make hardware update beacon timestamp 15332ee67178SXianjun Jiao */ 15342ee67178SXianjun Jiao mgmt = (struct ieee80211_mgmt *)skb->data; 15352ee67178SXianjun Jiao mgmt->u.beacon.timestamp = cpu_to_le64(openwifi_get_tsf(dev, vif)); 15362ee67178SXianjun Jiao 15372ee67178SXianjun Jiao /* TODO: use actual beacon queue */ 15382ee67178SXianjun Jiao skb_set_queue_mapping(skb, 0); 15392ee67178SXianjun Jiao openwifi_tx(dev, NULL, skb); 15402ee67178SXianjun Jiao 15412ee67178SXianjun Jiao resched: 15422ee67178SXianjun Jiao /* 15432ee67178SXianjun Jiao * schedule next beacon 15442ee67178SXianjun Jiao * TODO: use hardware support for beacon timing 15452ee67178SXianjun Jiao */ 1546747a245fSXianjun Jiao schedule_delayed_work(&vif_priv->beacon_work, usecs_to_jiffies(1024 * vif->bss_conf.beacon_int)); 1547747a245fSXianjun Jiao // printk("%s openwifi_beacon_work beacon_int %d\n", sdr_compatible_str, vif->bss_conf.beacon_int); 15482ee67178SXianjun Jiao } 15492ee67178SXianjun Jiao 15502ee67178SXianjun Jiao static int openwifi_add_interface(struct ieee80211_hw *dev, 15512ee67178SXianjun Jiao struct ieee80211_vif *vif) 15522ee67178SXianjun Jiao { 15532ee67178SXianjun Jiao int i; 15542ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 15552ee67178SXianjun Jiao struct openwifi_vif *vif_priv; 15562ee67178SXianjun Jiao 15572ee67178SXianjun Jiao switch (vif->type) { 15582ee67178SXianjun Jiao case NL80211_IFTYPE_AP: 15592ee67178SXianjun Jiao case NL80211_IFTYPE_STATION: 15602ee67178SXianjun Jiao case NL80211_IFTYPE_ADHOC: 15612ee67178SXianjun Jiao case NL80211_IFTYPE_MONITOR: 15622ee67178SXianjun Jiao case NL80211_IFTYPE_MESH_POINT: 15632ee67178SXianjun Jiao break; 15642ee67178SXianjun Jiao default: 15652ee67178SXianjun Jiao return -EOPNOTSUPP; 15662ee67178SXianjun Jiao } 15672ee67178SXianjun Jiao // let's support more than 1 interface 15682ee67178SXianjun Jiao for (i=0; i<MAX_NUM_VIF; i++) { 15692ee67178SXianjun Jiao if (priv->vif[i] == NULL) 15702ee67178SXianjun Jiao break; 15712ee67178SXianjun Jiao } 15722ee67178SXianjun Jiao 15732ee67178SXianjun Jiao printk("%s openwifi_add_interface start. vif for loop result %d\n", sdr_compatible_str, i); 15742ee67178SXianjun Jiao 15752ee67178SXianjun Jiao if (i==MAX_NUM_VIF) 15762ee67178SXianjun Jiao return -EBUSY; 15772ee67178SXianjun Jiao 15782ee67178SXianjun Jiao priv->vif[i] = vif; 15792ee67178SXianjun Jiao 15802ee67178SXianjun Jiao /* Initialize driver private area */ 15812ee67178SXianjun Jiao vif_priv = (struct openwifi_vif *)&vif->drv_priv; 15822ee67178SXianjun Jiao vif_priv->idx = i; 15832ee67178SXianjun Jiao 15842ee67178SXianjun Jiao vif_priv->dev = dev; 15852ee67178SXianjun Jiao INIT_DELAYED_WORK(&vif_priv->beacon_work, openwifi_beacon_work); 15862ee67178SXianjun Jiao vif_priv->enable_beacon = false; 15872ee67178SXianjun Jiao 1588dc35c004SXianjun Jiao priv->mac_addr[0] = vif->addr[0]; 1589dc35c004SXianjun Jiao priv->mac_addr[1] = vif->addr[1]; 1590dc35c004SXianjun Jiao priv->mac_addr[2] = vif->addr[2]; 1591dc35c004SXianjun Jiao priv->mac_addr[3] = vif->addr[3]; 1592dc35c004SXianjun Jiao priv->mac_addr[4] = vif->addr[4]; 1593dc35c004SXianjun Jiao priv->mac_addr[5] = vif->addr[5]; 1594dc35c004SXianjun Jiao xpu_api->XPU_REG_MAC_ADDR_write(priv->mac_addr); // set mac addr in fpga 1595dc35c004SXianjun Jiao 1596dc35c004SXianjun Jiao printk("%s openwifi_add_interface end with vif idx %d addr %02x:%02x:%02x:%02x:%02x:%02x\n", sdr_compatible_str,vif_priv->idx, 1597dc35c004SXianjun Jiao vif->addr[0],vif->addr[1],vif->addr[2],vif->addr[3],vif->addr[4],vif->addr[5]); 15982ee67178SXianjun Jiao 15992ee67178SXianjun Jiao return 0; 16002ee67178SXianjun Jiao } 16012ee67178SXianjun Jiao 16022ee67178SXianjun Jiao static void openwifi_remove_interface(struct ieee80211_hw *dev, 16032ee67178SXianjun Jiao struct ieee80211_vif *vif) 16042ee67178SXianjun Jiao { 16052ee67178SXianjun Jiao struct openwifi_vif *vif_priv; 16062ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 16072ee67178SXianjun Jiao 16082ee67178SXianjun Jiao vif_priv = (struct openwifi_vif *)&vif->drv_priv; 16092ee67178SXianjun Jiao priv->vif[vif_priv->idx] = NULL; 16102ee67178SXianjun Jiao printk("%s openwifi_remove_interface vif idx %d\n", sdr_compatible_str, vif_priv->idx); 16112ee67178SXianjun Jiao } 16122ee67178SXianjun Jiao 16132ee67178SXianjun Jiao static int openwifi_config(struct ieee80211_hw *dev, u32 changed) 16142ee67178SXianjun Jiao { 16152ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 16162ee67178SXianjun Jiao struct ieee80211_conf *conf = &dev->conf; 16172ee67178SXianjun Jiao 16182ee67178SXianjun Jiao if (changed & IEEE80211_CONF_CHANGE_CHANNEL) 16192ee67178SXianjun Jiao priv->rf->set_chan(dev, conf); 16202ee67178SXianjun Jiao else 16212ee67178SXianjun Jiao printk("%s openwifi_config changed flag %08x\n", sdr_compatible_str, changed); 16222ee67178SXianjun Jiao 16232ee67178SXianjun Jiao return 0; 16242ee67178SXianjun Jiao } 16252ee67178SXianjun Jiao 16262ee67178SXianjun Jiao static void openwifi_bss_info_changed(struct ieee80211_hw *dev, 16272ee67178SXianjun Jiao struct ieee80211_vif *vif, 16282ee67178SXianjun Jiao struct ieee80211_bss_conf *info, 16292ee67178SXianjun Jiao u32 changed) 16302ee67178SXianjun Jiao { 16312ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 16322ee67178SXianjun Jiao struct openwifi_vif *vif_priv; 16332ee67178SXianjun Jiao u32 bssid_low, bssid_high; 16342ee67178SXianjun Jiao 16352ee67178SXianjun Jiao vif_priv = (struct openwifi_vif *)&vif->drv_priv; 16362ee67178SXianjun Jiao 16372ee67178SXianjun Jiao //be careful: we don have valid chip, so registers addresses in priv->map->BSSID[0] are not valid! should not print it! 16382ee67178SXianjun Jiao //printk("%s openwifi_bss_info_changed map bssid %02x%02x%02x%02x%02x%02x\n",sdr_compatible_str,priv->map->BSSID[0],priv->map->BSSID[1],priv->map->BSSID[2],priv->map->BSSID[3],priv->map->BSSID[4],priv->map->BSSID[5]); 16392ee67178SXianjun Jiao if (changed & BSS_CHANGED_BSSID) { 16402ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed BSS_CHANGED_BSSID %02x%02x%02x%02x%02x%02x\n",sdr_compatible_str,info->bssid[0],info->bssid[1],info->bssid[2],info->bssid[3],info->bssid[4],info->bssid[5]); 16412ee67178SXianjun Jiao // write new bssid to our HW, and do not change bssid filter 16422ee67178SXianjun Jiao //u32 bssid_filter_high = xpu_api->XPU_REG_BSSID_FILTER_HIGH_read(); 16432ee67178SXianjun Jiao bssid_low = ( *( (u32*)(info->bssid) ) ); 16442ee67178SXianjun Jiao bssid_high = ( *( (u16*)(info->bssid+4) ) ); 16452ee67178SXianjun Jiao 16462ee67178SXianjun Jiao //bssid_filter_high = (bssid_filter_high&0x80000000); 16472ee67178SXianjun Jiao //bssid_high = (bssid_high|bssid_filter_high); 16482ee67178SXianjun Jiao xpu_api->XPU_REG_BSSID_FILTER_LOW_write(bssid_low); 16492ee67178SXianjun Jiao xpu_api->XPU_REG_BSSID_FILTER_HIGH_write(bssid_high); 16502ee67178SXianjun Jiao } 16512ee67178SXianjun Jiao 16522ee67178SXianjun Jiao if (changed & BSS_CHANGED_BEACON_INT) { 16532ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BEACON_INT %x\n",sdr_compatible_str,info->beacon_int); 16542ee67178SXianjun Jiao } 16552ee67178SXianjun Jiao 16562ee67178SXianjun Jiao if (changed & BSS_CHANGED_TXPOWER) 16572ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_TXPOWER %x\n",sdr_compatible_str,info->txpower); 16582ee67178SXianjun Jiao 16592ee67178SXianjun Jiao if (changed & BSS_CHANGED_ERP_CTS_PROT) 16602ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_ERP_CTS_PROT %x\n",sdr_compatible_str,info->use_cts_prot); 16612ee67178SXianjun Jiao 16622ee67178SXianjun Jiao if (changed & BSS_CHANGED_BASIC_RATES) 16632ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BASIC_RATES %x\n",sdr_compatible_str,info->basic_rates); 16642ee67178SXianjun Jiao 16652ee67178SXianjun Jiao if (changed & (BSS_CHANGED_ERP_SLOT | BSS_CHANGED_ERP_PREAMBLE)) { 16662ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_ERP_SLOT %d BSS_CHANGED_ERP_PREAMBLE %d short slot %d\n",sdr_compatible_str, 16672ee67178SXianjun Jiao changed&BSS_CHANGED_ERP_SLOT,changed&BSS_CHANGED_ERP_PREAMBLE,info->use_short_slot); 16682ee67178SXianjun Jiao if (info->use_short_slot && priv->use_short_slot==false) { 16692ee67178SXianjun Jiao priv->use_short_slot=true; 16702ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 16712ee67178SXianjun Jiao } else if ((!info->use_short_slot) && priv->use_short_slot==true) { 16722ee67178SXianjun Jiao priv->use_short_slot=false; 16732ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 16742ee67178SXianjun Jiao } 16752ee67178SXianjun Jiao } 16762ee67178SXianjun Jiao 16772ee67178SXianjun Jiao if (changed & BSS_CHANGED_BEACON_ENABLED) { 16782ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BEACON_ENABLED\n",sdr_compatible_str); 16792ee67178SXianjun Jiao vif_priv->enable_beacon = info->enable_beacon; 16802ee67178SXianjun Jiao } 16812ee67178SXianjun Jiao 16822ee67178SXianjun Jiao if (changed & (BSS_CHANGED_BEACON_ENABLED | BSS_CHANGED_BEACON)) { 16832ee67178SXianjun Jiao cancel_delayed_work_sync(&vif_priv->beacon_work); 1684dbf47e17SXianjun Jiao if (vif_priv->enable_beacon) { 16852ee67178SXianjun Jiao schedule_work(&vif_priv->beacon_work.work); 1686dbf47e17SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING enable_beacon\n",sdr_compatible_str); 1687dbf47e17SXianjun Jiao } 16882ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BEACON_ENABLED %d BSS_CHANGED_BEACON %d\n",sdr_compatible_str, 16892ee67178SXianjun Jiao changed&BSS_CHANGED_BEACON_ENABLED,changed&BSS_CHANGED_BEACON); 16902ee67178SXianjun Jiao } 16912ee67178SXianjun Jiao } 16922238b42bSweiliu // helper function 16932238b42bSweiliu u32 log2val(u32 val){ 16942238b42bSweiliu u32 ret_val = 0 ; 16952238b42bSweiliu while(val>1){ 16962238b42bSweiliu val = val >> 1 ; 16972238b42bSweiliu ret_val ++ ; 16982238b42bSweiliu } 16992238b42bSweiliu return ret_val ; 17002238b42bSweiliu } 17012ee67178SXianjun Jiao 17022ee67178SXianjun Jiao static int openwifi_conf_tx(struct ieee80211_hw *hw, struct ieee80211_vif *vif, u16 queue, 17032ee67178SXianjun Jiao const struct ieee80211_tx_queue_params *params) 17042ee67178SXianjun Jiao { 1705bb0a2c58SXianjun Jiao u32 reg_val, cw_min_exp, cw_max_exp; 1706027d42ecSXianjun Jiao 1707bb0a2c58SXianjun Jiao printk("%s openwifi_conf_tx: [queue %d], aifs: %d, cw_min: %d, cw_max: %d, txop: %d, aifs and txop ignored\n", 17082ee67178SXianjun Jiao sdr_compatible_str,queue,params->aifs,params->cw_min,params->cw_max,params->txop); 1709027d42ecSXianjun Jiao 1710bb0a2c58SXianjun Jiao reg_val=xpu_api->XPU_REG_CSMA_CFG_read(); 17112238b42bSweiliu cw_min_exp = (log2val(params->cw_min + 1) & 0x0F); 17122238b42bSweiliu cw_max_exp = (log2val(params->cw_max + 1) & 0x0F); 17132238b42bSweiliu switch(queue){ 1714bb0a2c58SXianjun Jiao case 0: reg_val = ( (reg_val & 0xFFFFFF00) | ((cw_min_exp | (cw_max_exp << 4)) << 0) ); break; 1715bb0a2c58SXianjun Jiao case 1: reg_val = ( (reg_val & 0xFFFF00FF) | ((cw_min_exp | (cw_max_exp << 4)) << 8) ); break; 1716bb0a2c58SXianjun Jiao case 2: reg_val = ( (reg_val & 0xFF00FFFF) | ((cw_min_exp | (cw_max_exp << 4)) << 16) ); break; 1717bb0a2c58SXianjun Jiao case 3: reg_val = ( (reg_val & 0x00FFFFFF) | ((cw_min_exp | (cw_max_exp << 4)) << 24) ); break; 17182238b42bSweiliu default: printk("%s openwifi_conf_tx: WARNING queue %d does not exist",sdr_compatible_str, queue); return(0); 17192238b42bSweiliu } 1720bb0a2c58SXianjun Jiao xpu_api->XPU_REG_CSMA_CFG_write(reg_val); 17212ee67178SXianjun Jiao return(0); 17222ee67178SXianjun Jiao } 17232ee67178SXianjun Jiao 17242ee67178SXianjun Jiao static u64 openwifi_prepare_multicast(struct ieee80211_hw *dev, 17252ee67178SXianjun Jiao struct netdev_hw_addr_list *mc_list) 17262ee67178SXianjun Jiao { 17272ee67178SXianjun Jiao printk("%s openwifi_prepare_multicast\n", sdr_compatible_str); 17282ee67178SXianjun Jiao return netdev_hw_addr_list_count(mc_list); 17292ee67178SXianjun Jiao } 17302ee67178SXianjun Jiao 17312ee67178SXianjun Jiao static void openwifi_configure_filter(struct ieee80211_hw *dev, 17322ee67178SXianjun Jiao unsigned int changed_flags, 17332ee67178SXianjun Jiao unsigned int *total_flags, 17342ee67178SXianjun Jiao u64 multicast) 17352ee67178SXianjun Jiao { 17362ee67178SXianjun Jiao u32 filter_flag; 17372ee67178SXianjun Jiao 17382ee67178SXianjun Jiao (*total_flags) &= SDR_SUPPORTED_FILTERS; 17395deb8d18SXianjun Jiao (*total_flags) |= FIF_ALLMULTI; //because we need to pass all multicast (no matter it is for us or not) to upper layer 17402ee67178SXianjun Jiao 17412ee67178SXianjun Jiao filter_flag = (*total_flags); 17422ee67178SXianjun Jiao 17432ee67178SXianjun Jiao filter_flag = (filter_flag|UNICAST_FOR_US|BROADCAST_ALL_ONE|BROADCAST_ALL_ZERO); 17442ee67178SXianjun Jiao //filter_flag = (filter_flag|UNICAST_FOR_US|BROADCAST_ALL_ONE|BROADCAST_ALL_ZERO|MONITOR_ALL); // all pkt will be delivered to arm 17452ee67178SXianjun Jiao 17462054f92cSXianjun Jiao //if (priv->vif[0]->type == NL80211_IFTYPE_MONITOR) 17472054f92cSXianjun Jiao if ((filter_flag&0xf0) == 0xf0) //FIF_BCN_PRBRESP_PROMISC/FIF_CONTROL/FIF_OTHER_BSS/FIF_PSPOLL are set means monitor mode 17482ee67178SXianjun Jiao filter_flag = (filter_flag|MONITOR_ALL); 17492054f92cSXianjun Jiao else 17502054f92cSXianjun Jiao filter_flag = (filter_flag&(~MONITOR_ALL)); 17512ee67178SXianjun Jiao 17522054f92cSXianjun Jiao if ( !(filter_flag&FIF_BCN_PRBRESP_PROMISC) ) 17532ee67178SXianjun Jiao filter_flag = (filter_flag|MY_BEACON); 17542ee67178SXianjun Jiao 17552ee67178SXianjun Jiao filter_flag = (filter_flag|FIF_PSPOLL); 17562ee67178SXianjun Jiao 17572ee67178SXianjun Jiao xpu_api->XPU_REG_FILTER_FLAG_write(filter_flag|HIGH_PRIORITY_DISCARD_FLAG); 17582ee67178SXianjun Jiao //xpu_api->XPU_REG_FILTER_FLAG_write(filter_flag); //do not discard any pkt 17592ee67178SXianjun Jiao 17602ee67178SXianjun Jiao printk("%s openwifi_configure_filter MON %d M_BCN %d BST0 %d BST1 %d UST %d PB_RQ %d PS_PL %d O_BSS %d CTL %d BCN_PRP %d PCP_FL %d FCS_FL %d ALL_MUT %d\n", sdr_compatible_str, 17612ee67178SXianjun Jiao (filter_flag>>13)&1,(filter_flag>>12)&1,(filter_flag>>11)&1,(filter_flag>>10)&1,(filter_flag>>9)&1,(filter_flag>>8)&1,(filter_flag>>7)&1,(filter_flag>>6)&1,(filter_flag>>5)&1,(filter_flag>>4)&1,(filter_flag>>3)&1,(filter_flag>>2)&1,(filter_flag>>1)&1); 17622ee67178SXianjun Jiao } 17632ee67178SXianjun Jiao 1764261bb9eeSmmehari static int openwifi_ampdu_action(struct ieee80211_hw *hw, struct ieee80211_vif *vif, struct ieee80211_ampdu_params *params) 1765261bb9eeSmmehari { 1766261bb9eeSmmehari struct ieee80211_sta *sta = params->sta; 1767261bb9eeSmmehari enum ieee80211_ampdu_mlme_action action = params->action; 17682ae501caSXianjun Jiao // struct openwifi_priv *priv = hw->priv; 17699cd584f8Smmehari u16 max_tx_bytes, buf_size; 1770f738aefaSmmehari u32 ampdu_action_config; 1771261bb9eeSmmehari 177276b1a6a1SXianjun Jiao if (!AGGR_ENABLE) { 177376b1a6a1SXianjun Jiao return -EOPNOTSUPP; 177476b1a6a1SXianjun Jiao } 177576b1a6a1SXianjun Jiao 1776261bb9eeSmmehari switch (action) 1777261bb9eeSmmehari { 1778261bb9eeSmmehari case IEEE80211_AMPDU_TX_START: 1779261bb9eeSmmehari ieee80211_start_tx_ba_cb_irqsafe(vif, sta->addr, params->tid); 178016494306SXianjun Jiao printk("%s openwifi_ampdu_action: start TX aggregation. tid %d\n", sdr_compatible_str, params->tid); 1781261bb9eeSmmehari break; 1782261bb9eeSmmehari case IEEE80211_AMPDU_TX_STOP_CONT: 1783261bb9eeSmmehari case IEEE80211_AMPDU_TX_STOP_FLUSH: 1784261bb9eeSmmehari case IEEE80211_AMPDU_TX_STOP_FLUSH_CONT: 1785261bb9eeSmmehari ieee80211_stop_tx_ba_cb_irqsafe(vif, sta->addr, params->tid); 178616494306SXianjun Jiao printk("%s openwifi_ampdu_action: stop TX aggregation. tid %d\n", sdr_compatible_str, params->tid); 1787261bb9eeSmmehari break; 1788261bb9eeSmmehari case IEEE80211_AMPDU_TX_OPERATIONAL: 1789f738aefaSmmehari buf_size = 4; 1790f738aefaSmmehari // buf_size = (params->buf_size) - 1; 1791f738aefaSmmehari max_tx_bytes = (1 << (IEEE80211_HT_MAX_AMPDU_FACTOR + sta->ht_cap.ampdu_factor)) - 1; 17929cd584f8Smmehari ampdu_action_config = ( sta->ht_cap.ampdu_density<<24 | buf_size<<16 | max_tx_bytes ); 1793f738aefaSmmehari tx_intf_api->TX_INTF_REG_AMPDU_ACTION_CONFIG_write(ampdu_action_config); 179416494306SXianjun Jiao printk("%s openwifi_ampdu_action: TX operational. tid %d max_tx_bytes %d ampdu_density %d buf_size %d\n", 179516494306SXianjun Jiao sdr_compatible_str, params->tid, max_tx_bytes, sta->ht_cap.ampdu_density, buf_size); 1796261bb9eeSmmehari break; 1797261bb9eeSmmehari case IEEE80211_AMPDU_RX_START: 17982ae501caSXianjun Jiao printk("%s openwifi_ampdu_action: start RX aggregation. tid %d\n", sdr_compatible_str, params->tid); 1799261bb9eeSmmehari break; 1800261bb9eeSmmehari case IEEE80211_AMPDU_RX_STOP: 18012ae501caSXianjun Jiao printk("%s openwifi_ampdu_action: stop RX aggregation. tid %d\n", sdr_compatible_str, params->tid); 1802261bb9eeSmmehari break; 1803261bb9eeSmmehari default: 1804261bb9eeSmmehari return -EOPNOTSUPP; 1805261bb9eeSmmehari } 1806261bb9eeSmmehari 1807261bb9eeSmmehari return 0; 1808261bb9eeSmmehari } 1809261bb9eeSmmehari 18102ee67178SXianjun Jiao static const struct ieee80211_ops openwifi_ops = { 18112ee67178SXianjun Jiao .tx = openwifi_tx, 18122ee67178SXianjun Jiao .start = openwifi_start, 18132ee67178SXianjun Jiao .stop = openwifi_stop, 18142ee67178SXianjun Jiao .add_interface = openwifi_add_interface, 18152ee67178SXianjun Jiao .remove_interface = openwifi_remove_interface, 18162ee67178SXianjun Jiao .config = openwifi_config, 18178e13e72bSXianjun Jiao .set_antenna = openwifi_set_antenna, 18188e13e72bSXianjun Jiao .get_antenna = openwifi_get_antenna, 18192ee67178SXianjun Jiao .bss_info_changed = openwifi_bss_info_changed, 18202ee67178SXianjun Jiao .conf_tx = openwifi_conf_tx, 18212ee67178SXianjun Jiao .prepare_multicast = openwifi_prepare_multicast, 18222ee67178SXianjun Jiao .configure_filter = openwifi_configure_filter, 18232ee67178SXianjun Jiao .rfkill_poll = openwifi_rfkill_poll, 18242ee67178SXianjun Jiao .get_tsf = openwifi_get_tsf, 18252ee67178SXianjun Jiao .set_tsf = openwifi_set_tsf, 18262ee67178SXianjun Jiao .reset_tsf = openwifi_reset_tsf, 18272ee67178SXianjun Jiao .set_rts_threshold = openwifi_set_rts_threshold, 1828261bb9eeSmmehari .ampdu_action = openwifi_ampdu_action, 18292ee67178SXianjun Jiao .testmode_cmd = openwifi_testmode_cmd, 18302ee67178SXianjun Jiao }; 18312ee67178SXianjun Jiao 18322ee67178SXianjun Jiao static const struct of_device_id openwifi_dev_of_ids[] = { 18332ee67178SXianjun Jiao { .compatible = "sdr,sdr", }, 18342ee67178SXianjun Jiao {} 18352ee67178SXianjun Jiao }; 18362ee67178SXianjun Jiao MODULE_DEVICE_TABLE(of, openwifi_dev_of_ids); 18372ee67178SXianjun Jiao 18382ee67178SXianjun Jiao static int custom_match_spi_dev(struct device *dev, void *data) 18392ee67178SXianjun Jiao { 18402ee67178SXianjun Jiao const char *name = data; 18412ee67178SXianjun Jiao 18422ee67178SXianjun Jiao bool ret = sysfs_streq(name, dev->of_node->name); 18432ee67178SXianjun Jiao printk("%s custom_match_spi_dev %s %s %d\n", sdr_compatible_str,name, dev->of_node->name, ret); 18442ee67178SXianjun Jiao return ret; 18452ee67178SXianjun Jiao } 18462ee67178SXianjun Jiao 18472ee67178SXianjun Jiao static int custom_match_platform_dev(struct device *dev, void *data) 18482ee67178SXianjun Jiao { 18492ee67178SXianjun Jiao struct platform_device *plat_dev = to_platform_device(dev); 18502ee67178SXianjun Jiao const char *name = data; 18512ee67178SXianjun Jiao char *name_in_sys_bus_platform_devices = strstr(plat_dev->name, name); 18522ee67178SXianjun Jiao bool match_flag = (name_in_sys_bus_platform_devices != NULL); 18532ee67178SXianjun Jiao 18542ee67178SXianjun Jiao if (match_flag) { 18552ee67178SXianjun Jiao printk("%s custom_match_platform_dev %s\n", sdr_compatible_str,plat_dev->name); 18562ee67178SXianjun Jiao } 18572ee67178SXianjun Jiao return(match_flag); 18582ee67178SXianjun Jiao } 18592ee67178SXianjun Jiao 18602ee67178SXianjun Jiao static int openwifi_dev_probe(struct platform_device *pdev) 18612ee67178SXianjun Jiao { 18622ee67178SXianjun Jiao struct ieee80211_hw *dev; 18632ee67178SXianjun Jiao struct openwifi_priv *priv; 18642ee67178SXianjun Jiao int err=1, rand_val; 18656e3730c0Smmehari const char *chip_name, *fpga_model; 186620936d67SXianjun Jiao u32 reg, i;//, reg1; 18672ee67178SXianjun Jiao 18682ee67178SXianjun Jiao struct device_node *np = pdev->dev.of_node; 18692ee67178SXianjun Jiao 18702ee67178SXianjun Jiao struct device *tmp_dev; 18712ee67178SXianjun Jiao struct platform_device *tmp_pdev; 18722ee67178SXianjun Jiao struct iio_dev *tmp_indio_dev; 18732ee67178SXianjun Jiao // struct gpio_leds_priv *tmp_led_priv; 18742ee67178SXianjun Jiao 18752ee67178SXianjun Jiao printk("\n"); 18762ee67178SXianjun Jiao 18772ee67178SXianjun Jiao if (np) { 18782ee67178SXianjun Jiao const struct of_device_id *match; 18792ee67178SXianjun Jiao 18802ee67178SXianjun Jiao match = of_match_node(openwifi_dev_of_ids, np); 18812ee67178SXianjun Jiao if (match) { 18822ee67178SXianjun Jiao printk("%s openwifi_dev_probe: match!\n", sdr_compatible_str); 18832ee67178SXianjun Jiao err = 0; 18842ee67178SXianjun Jiao } 18852ee67178SXianjun Jiao } 18862ee67178SXianjun Jiao 18872ee67178SXianjun Jiao if (err) 18882ee67178SXianjun Jiao return err; 18892ee67178SXianjun Jiao 18902ee67178SXianjun Jiao dev = ieee80211_alloc_hw(sizeof(*priv), &openwifi_ops); 18912ee67178SXianjun Jiao if (!dev) { 18922ee67178SXianjun Jiao printk(KERN_ERR "%s openwifi_dev_probe: ieee80211 alloc failed\n",sdr_compatible_str); 18932ee67178SXianjun Jiao err = -ENOMEM; 18942ee67178SXianjun Jiao goto err_free_dev; 18952ee67178SXianjun Jiao } 18962ee67178SXianjun Jiao 18972ee67178SXianjun Jiao priv = dev->priv; 18982ee67178SXianjun Jiao priv->pdev = pdev; 18992ee67178SXianjun Jiao 19006e3730c0Smmehari err = of_property_read_string(of_find_node_by_path("/"), "model", &fpga_model); 19016e3730c0Smmehari if(err < 0) { 19026e3730c0Smmehari printk("%s openwifi_dev_probe: WARNING unknown openwifi FPGA model %d\n",sdr_compatible_str, err); 19036e3730c0Smmehari priv->fpga_type = SMALL_FPGA; 19046e3730c0Smmehari } else { 19056e3730c0Smmehari // LARGE FPGAs (i.e. ZCU102, Z7035, ZC706) 19066e3730c0Smmehari if(strstr(fpga_model, "ZCU102") != NULL || strstr(fpga_model, "Z7035") != NULL || strstr(fpga_model, "ZC706") != NULL) 19076e3730c0Smmehari priv->fpga_type = LARGE_FPGA; 19086e3730c0Smmehari // SMALL FPGA: (i.e. ZED, ZC702, Z7020) 19096e3730c0Smmehari else if(strstr(fpga_model, "ZED") != NULL || strstr(fpga_model, "ZC702") != NULL || strstr(fpga_model, "Z7020") != NULL) 19106e3730c0Smmehari priv->fpga_type = SMALL_FPGA; 19116e3730c0Smmehari } 19126e3730c0Smmehari 19132ee67178SXianjun Jiao // //-------------find ad9361-phy driver for lo/channel control--------------- 19147b2f8bdfSXianjun Jiao priv->actual_rx_lo = 1000; //Some value aligned with rf_init/rf_init_11n.sh that is not WiFi channel to force ad9361_rf_set_channel execution triggered by Linux 19157b2f8bdfSXianjun Jiao priv->actual_tx_lo = 1000; //Some value aligned with rf_init/rf_init_11n.sh that is not WiFi channel to force ad9361_rf_set_channel execution triggered by Linux 1916bc98f5bbSthavinga priv->last_tx_quad_cal_lo = 1000; 19172ee67178SXianjun Jiao tmp_dev = bus_find_device( &spi_bus_type, NULL, "ad9361-phy", custom_match_spi_dev ); 1918febc5adfSXianjun Jiao if (tmp_dev == NULL) { 19192ee67178SXianjun Jiao printk(KERN_ERR "%s find_dev ad9361-phy failed\n",sdr_compatible_str); 1920ffd377caSXianjun Jiao err = -ENODEV; 19212ee67178SXianjun Jiao goto err_free_dev; 19222ee67178SXianjun Jiao } 1923febc5adfSXianjun Jiao printk("%s bus_find_device ad9361-phy: %s. driver_data pointer %p\n", sdr_compatible_str, ((struct spi_device*)tmp_dev)->modalias, (void*)(((struct spi_device*)tmp_dev)->dev.driver_data)); 1924febc5adfSXianjun Jiao if (((struct spi_device*)tmp_dev)->dev.driver_data == NULL) { 1925febc5adfSXianjun Jiao printk(KERN_ERR "%s find_dev ad9361-phy failed. dev.driver_data == NULL\n",sdr_compatible_str); 1926ffd377caSXianjun Jiao err = -ENODEV; 1927febc5adfSXianjun Jiao goto err_free_dev; 1928febc5adfSXianjun Jiao } 1929febc5adfSXianjun Jiao 19302ee67178SXianjun Jiao priv->ad9361_phy = ad9361_spi_to_phy((struct spi_device*)tmp_dev); 19312ee67178SXianjun Jiao if (!(priv->ad9361_phy)) { 19322ee67178SXianjun Jiao printk(KERN_ERR "%s ad9361_spi_to_phy failed\n",sdr_compatible_str); 1933ffd377caSXianjun Jiao err = -ENODEV; 19342ee67178SXianjun Jiao goto err_free_dev; 19352ee67178SXianjun Jiao } 1936b73660adSXianjun Jiao printk("%s ad9361_spi_to_phy ad9361-phy: %s\n", sdr_compatible_str, priv->ad9361_phy->spi->modalias); 19372ee67178SXianjun Jiao 19382ee67178SXianjun Jiao // //-------------find driver: axi_ad9361 hdl ref design module, dac channel--------------- 19392ee67178SXianjun Jiao tmp_dev = bus_find_device( &platform_bus_type, NULL, "cf-ad9361-dds-core-lpc", custom_match_platform_dev ); 19402ee67178SXianjun Jiao if (!tmp_dev) { 19412ee67178SXianjun Jiao printk(KERN_ERR "%s bus_find_device platform_bus_type cf-ad9361-dds-core-lpc failed\n",sdr_compatible_str); 1942ffd377caSXianjun Jiao err = -ENODEV; 19432ee67178SXianjun Jiao goto err_free_dev; 19442ee67178SXianjun Jiao } 19452ee67178SXianjun Jiao 19462ee67178SXianjun Jiao tmp_pdev = to_platform_device(tmp_dev); 19472ee67178SXianjun Jiao if (!tmp_pdev) { 19482ee67178SXianjun Jiao printk(KERN_ERR "%s to_platform_device failed\n",sdr_compatible_str); 1949ffd377caSXianjun Jiao err = -ENODEV; 19502ee67178SXianjun Jiao goto err_free_dev; 19512ee67178SXianjun Jiao } 19522ee67178SXianjun Jiao 19532ee67178SXianjun Jiao tmp_indio_dev = platform_get_drvdata(tmp_pdev); 19542ee67178SXianjun Jiao if (!tmp_indio_dev) { 19552ee67178SXianjun Jiao printk(KERN_ERR "%s platform_get_drvdata failed\n",sdr_compatible_str); 1956ffd377caSXianjun Jiao err = -ENODEV; 19572ee67178SXianjun Jiao goto err_free_dev; 19582ee67178SXianjun Jiao } 19592ee67178SXianjun Jiao 19602ee67178SXianjun Jiao priv->dds_st = iio_priv(tmp_indio_dev); 19612ee67178SXianjun Jiao if (!(priv->dds_st)) { 19622ee67178SXianjun Jiao printk(KERN_ERR "%s iio_priv failed\n",sdr_compatible_str); 1963ffd377caSXianjun Jiao err = -ENODEV; 19642ee67178SXianjun Jiao goto err_free_dev; 19652ee67178SXianjun Jiao } 19662ee67178SXianjun Jiao printk("%s openwifi_dev_probe: cf-ad9361-dds-core-lpc dds_st->version %08x chip_info->name %s\n",sdr_compatible_str,priv->dds_st->version,priv->dds_st->chip_info->name); 19672ee67178SXianjun Jiao cf_axi_dds_datasel(priv->dds_st, -1, DATA_SEL_DMA); 19682ee67178SXianjun Jiao printk("%s openwifi_dev_probe: cf_axi_dds_datasel DATA_SEL_DMA\n",sdr_compatible_str); 19692ee67178SXianjun Jiao 19702ee67178SXianjun Jiao // //-------------find driver: axi_ad9361 hdl ref design module, adc channel--------------- 19712ee67178SXianjun Jiao // turn off radio by muting tx 19722ee67178SXianjun Jiao // ad9361_tx_mute(priv->ad9361_phy, 1); 19732ee67178SXianjun Jiao // reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 19742ee67178SXianjun Jiao // reg1 = ad9361_get_tx_atten(priv->ad9361_phy, 1); 19752ee67178SXianjun Jiao // if (reg == AD9361_RADIO_OFF_TX_ATT && reg1 == AD9361_RADIO_OFF_TX_ATT ) { 19762ee67178SXianjun Jiao // priv->rfkill_off = 0;// 0 off, 1 on 19772ee67178SXianjun Jiao // printk("%s openwifi_dev_probe: rfkill radio off\n",sdr_compatible_str); 19782ee67178SXianjun Jiao // } 19792ee67178SXianjun Jiao // else 19802ee67178SXianjun Jiao // printk("%s openwifi_dev_probe: WARNING rfkill radio off failed. tx att read %d %d require %d\n",sdr_compatible_str, reg, reg1, AD9361_RADIO_OFF_TX_ATT); 19812ee67178SXianjun Jiao 198276b1a6a1SXianjun Jiao // //-----------------------------parse the test_mode input-------------------------------- 198376b1a6a1SXianjun Jiao if (test_mode&1) 198476b1a6a1SXianjun Jiao AGGR_ENABLE = true; 198576b1a6a1SXianjun Jiao 198676b1a6a1SXianjun Jiao // if (test_mode&2) 198776b1a6a1SXianjun Jiao // TX_OFFSET_TUNING_ENABLE = false; 198876b1a6a1SXianjun Jiao 1989cb810548SXianjun Jiao priv->rssi_correction = rssi_correction_lookup_table(5220);//5220MHz. this will be set in real-time by _rf_set_channel() 1990cb810548SXianjun Jiao priv->last_auto_fpga_lbt_th = rssi_dbm_to_rssi_half_db(-78, priv->rssi_correction);//-78dBm. a magic value. just to avoid uninitialized 19912ee67178SXianjun Jiao 19922ee67178SXianjun Jiao //priv->rf_bw = 20000000; // Signal quality issue! NOT use for now. 20MHz or 40MHz. 40MHz need ddc/duc. 20MHz works in bypass mode 19932ee67178SXianjun Jiao priv->rf_bw = 40000000; // 20MHz or 40MHz. 40MHz need ddc/duc. 20MHz works in bypass mode 19942ee67178SXianjun Jiao 19952ee67178SXianjun Jiao priv->xpu_cfg = XPU_NORMAL; 19962ee67178SXianjun Jiao 19972ee67178SXianjun Jiao priv->openofdm_tx_cfg = OPENOFDM_TX_NORMAL; 19982ee67178SXianjun Jiao priv->openofdm_rx_cfg = OPENOFDM_RX_NORMAL; 19992ee67178SXianjun Jiao 20002ee67178SXianjun Jiao printk("%s openwifi_dev_probe: priv->rf_bw == %dHz. bool for 20000000 %d, 40000000 %d\n",sdr_compatible_str, priv->rf_bw, (priv->rf_bw==20000000) , (priv->rf_bw==40000000) ); 2001921f612eSXianjun Jiao if (priv->rf_bw == 20000000) { //DO NOT USE. Not used for long time. 20022ee67178SXianjun Jiao priv->rx_intf_cfg = RX_INTF_BYPASS; 20032ee67178SXianjun Jiao priv->tx_intf_cfg = TX_INTF_BYPASS; 20042ee67178SXianjun Jiao //priv->rx_freq_offset_to_lo_MHz = 0; 20052ee67178SXianjun Jiao //priv->tx_freq_offset_to_lo_MHz = 0; 20062ee67178SXianjun Jiao } else if (priv->rf_bw == 40000000) { 20072ee67178SXianjun Jiao //priv->rx_intf_cfg = RX_INTF_BW_20MHZ_AT_P_10MHZ; //work 20082ee67178SXianjun Jiao //priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1; //work 20092ee67178SXianjun Jiao 20102ee67178SXianjun Jiao // // test ddc at central, duc at central+10M. It works. And also change rx BW from 40MHz to 20MHz in rf_init.sh. Rx sampling rate is still 40Msps 20112ee67178SXianjun Jiao priv->rx_intf_cfg = RX_INTF_BW_20MHZ_AT_0MHZ_ANT0; 2012921f612eSXianjun Jiao if (TX_OFFSET_TUNING_ENABLE) 2013b73660adSXianjun Jiao priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0; // Let's use rx0 tx0 as default mode, because it works for both 9361 and 9364 2014921f612eSXianjun Jiao else 2015921f612eSXianjun Jiao priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_0MHZ_ANT0; 20162ee67178SXianjun Jiao // // try another antenna option 20172ee67178SXianjun Jiao //priv->rx_intf_cfg = RX_INTF_BW_20MHZ_AT_0MHZ_ANT1; 20182ee67178SXianjun Jiao //priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0; 20192ee67178SXianjun Jiao 20202ee67178SXianjun Jiao #if 0 20212ee67178SXianjun Jiao if (priv->rx_intf_cfg == DDC_BW_20MHZ_AT_N_10MHZ) { 20222ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = -10; 20232ee67178SXianjun Jiao } else if (priv->rx_intf_cfg == DDC_BW_20MHZ_AT_P_10MHZ) { 20242ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = 10; 20252ee67178SXianjun Jiao } else if (priv->rx_intf_cfg == DDC_BW_20MHZ_AT_0MHZ) { 20262ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = 0; 20272ee67178SXianjun Jiao } else { 20282ee67178SXianjun Jiao printk("%s openwifi_dev_probe: Warning! priv->rx_intf_cfg == %d\n",sdr_compatible_str,priv->rx_intf_cfg); 20292ee67178SXianjun Jiao } 20302ee67178SXianjun Jiao #endif 20312ee67178SXianjun Jiao } else { 20322ee67178SXianjun Jiao printk("%s openwifi_dev_probe: Warning! priv->rf_bw == %dHz (should be 20000000 or 40000000)\n",sdr_compatible_str, priv->rf_bw); 2033ffd377caSXianjun Jiao err = -EBADRQC; 2034ffd377caSXianjun Jiao goto err_free_dev; 20352ee67178SXianjun Jiao } 203656203843SXianjun Jiao 203776b1a6a1SXianjun Jiao printk("%s openwifi_dev_probe: test_mode %d AGGR_ENABLE %d TX_OFFSET_TUNING_ENABLE %d init_tx_att %d\n", sdr_compatible_str, test_mode, AGGR_ENABLE, TX_OFFSET_TUNING_ENABLE, init_tx_att); 20382ee67178SXianjun Jiao 203956203843SXianjun Jiao priv->runtime_tx_ant_cfg = ((priv->tx_intf_cfg==TX_INTF_BW_20MHZ_AT_0MHZ_ANT0 || priv->tx_intf_cfg==TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0)?1:(priv->tx_intf_cfg==TX_INTF_BW_20MHZ_AT_0MHZ_ANT_BOTH?3:2)); 204056203843SXianjun Jiao priv->runtime_rx_ant_cfg = (priv->rx_intf_cfg==RX_INTF_BW_20MHZ_AT_0MHZ_ANT0?1:2); 204156203843SXianjun Jiao 204256203843SXianjun Jiao priv->ctrl_out.en_mask=AD9361_CTRL_OUT_EN_MASK; 204356203843SXianjun Jiao priv->ctrl_out.index =(priv->rx_intf_cfg==RX_INTF_BW_20MHZ_AT_0MHZ_ANT0?AD9361_CTRL_OUT_INDEX_ANT0:AD9361_CTRL_OUT_INDEX_ANT1); 204456203843SXianjun Jiao 2045e21492d7SXianjun Jiao memset(priv->drv_rx_reg_val,0,sizeof(priv->drv_rx_reg_val)); 2046e21492d7SXianjun Jiao memset(priv->drv_tx_reg_val,0,sizeof(priv->drv_tx_reg_val)); 2047e21492d7SXianjun Jiao memset(priv->drv_xpu_reg_val,0,sizeof(priv->drv_xpu_reg_val)); 2048e21492d7SXianjun Jiao memset(priv->rf_reg_val,0,sizeof(priv->rf_reg_val)); 2049e21492d7SXianjun Jiao 205076b1a6a1SXianjun Jiao priv->rf_reg_val[RF_TX_REG_IDX_ATT] = init_tx_att; 205176b1a6a1SXianjun Jiao 20522ee67178SXianjun Jiao //let's by default turn radio on when probing 205356203843SXianjun Jiao err = openwifi_set_antenna(dev, priv->runtime_tx_ant_cfg, priv->runtime_rx_ant_cfg); 205456203843SXianjun Jiao if (err) { 205556203843SXianjun Jiao printk("%s openwifi_dev_probe: WARNING openwifi_set_antenna FAIL %d\n",sdr_compatible_str, err); 205656203843SXianjun Jiao err = -EIO; 205756203843SXianjun Jiao goto err_free_dev; 20582ee67178SXianjun Jiao } 205956203843SXianjun Jiao reg = ad9361_spi_read(priv->ad9361_phy->spi, REG_CTRL_OUTPUT_POINTER); 206056203843SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_spi_read REG_CTRL_OUTPUT_POINTER 0x%02x\n",sdr_compatible_str, reg); 206156203843SXianjun Jiao reg = ad9361_spi_read(priv->ad9361_phy->spi, REG_CTRL_OUTPUT_ENABLE); 206256203843SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_spi_read REG_CTRL_OUTPUT_ENABLE 0x%02x\n",sdr_compatible_str, reg); 206356203843SXianjun Jiao 206456203843SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, ((priv->runtime_tx_ant_cfg==1 || priv->runtime_tx_ant_cfg==3)?1:2)); 206556203843SXianjun Jiao if (reg == (AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT])) { 20662ee67178SXianjun Jiao priv->rfkill_off = 1;// 0 off, 1 on 20672ee67178SXianjun Jiao printk("%s openwifi_dev_probe: rfkill radio on\n",sdr_compatible_str); 20688598d294SXianjun Jiao } else 206956203843SXianjun Jiao printk("%s openwifi_dev_probe: WARNING rfkill radio on failed. tx att read %d require %d\n",sdr_compatible_str, reg, AD9361_RADIO_ON_TX_ATT+priv->rf_reg_val[RF_TX_REG_IDX_ATT]); 20702ee67178SXianjun Jiao 2071e21492d7SXianjun Jiao priv->drv_xpu_reg_val[DRV_XPU_REG_IDX_GIT_REV] = GIT_REV; 20722ee67178SXianjun Jiao 20732ee67178SXianjun Jiao // //set ad9361 in certain mode 20742ee67178SXianjun Jiao #if 0 20752ee67178SXianjun Jiao err = ad9361_set_trx_clock_chain_freq(priv->ad9361_phy,priv->rf_bw); 20762ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_set_trx_clock_chain_freq %dHz err %d\n",sdr_compatible_str, priv->rf_bw,err); 20772ee67178SXianjun Jiao err = ad9361_update_rf_bandwidth(priv->ad9361_phy,priv->rf_bw,priv->rf_bw); 20782ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_update_rf_bandwidth %dHz err %d\n",sdr_compatible_str, priv->rf_bw,err); 20792ee67178SXianjun Jiao 20802ee67178SXianjun Jiao rx_intf_api->hw_init(priv->rx_intf_cfg,8,8); 20810c0d5d82Smmehari tx_intf_api->hw_init(priv->tx_intf_cfg,8,8,priv->fpga_type); 20822ee67178SXianjun Jiao openofdm_tx_api->hw_init(priv->openofdm_tx_cfg); 20832ee67178SXianjun Jiao openofdm_rx_api->hw_init(priv->openofdm_rx_cfg); 20842ee67178SXianjun Jiao printk("%s openwifi_dev_probe: rx_intf_cfg %d openofdm_rx_cfg %d tx_intf_cfg %d openofdm_tx_cfg %d\n",sdr_compatible_str, priv->rx_intf_cfg, priv->openofdm_rx_cfg, priv->tx_intf_cfg, priv->openofdm_tx_cfg); 20852ee67178SXianjun Jiao printk("%s openwifi_dev_probe: rx_freq_offset_to_lo_MHz %d tx_freq_offset_to_lo_MHz %d\n",sdr_compatible_str, priv->rx_freq_offset_to_lo_MHz, priv->tx_freq_offset_to_lo_MHz); 20862ee67178SXianjun Jiao #endif 20872ee67178SXianjun Jiao 20882ee67178SXianjun Jiao dev->max_rates = 1; //maximum number of alternate rate retry stages the hw can handle. 20892ee67178SXianjun Jiao 20902ee67178SXianjun Jiao SET_IEEE80211_DEV(dev, &pdev->dev); 20912ee67178SXianjun Jiao platform_set_drvdata(pdev, dev); 20922ee67178SXianjun Jiao 20932ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->rates_2GHz) != sizeof(openwifi_2GHz_rates)); 20942ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->rates_5GHz) != sizeof(openwifi_5GHz_rates)); 20952ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->channels_2GHz) != sizeof(openwifi_2GHz_channels)); 20962ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->channels_5GHz) != sizeof(openwifi_5GHz_channels)); 20972ee67178SXianjun Jiao 20982ee67178SXianjun Jiao memcpy(priv->rates_2GHz, openwifi_2GHz_rates, sizeof(openwifi_2GHz_rates)); 20992ee67178SXianjun Jiao memcpy(priv->rates_5GHz, openwifi_5GHz_rates, sizeof(openwifi_5GHz_rates)); 21002ee67178SXianjun Jiao memcpy(priv->channels_2GHz, openwifi_2GHz_channels, sizeof(openwifi_2GHz_channels)); 21012ee67178SXianjun Jiao memcpy(priv->channels_5GHz, openwifi_5GHz_channels, sizeof(openwifi_5GHz_channels)); 21022ee67178SXianjun Jiao 21032ee67178SXianjun Jiao priv->band = BAND_5_8GHZ; //this can be changed by band _rf_set_channel() (2.4GHz ERP(OFDM)) (5GHz OFDM) 21042ee67178SXianjun Jiao priv->channel = 44; //currently useless. this can be changed by band _rf_set_channel() 21052ee67178SXianjun Jiao priv->use_short_slot = false; //this can be changed by openwifi_bss_info_changed: BSS_CHANGED_ERP_SLOT 2106261bb9eeSmmehari priv->ampdu_reference = 0; 21072ee67178SXianjun Jiao 21082ee67178SXianjun Jiao priv->band_2GHz.band = NL80211_BAND_2GHZ; 21092ee67178SXianjun Jiao priv->band_2GHz.channels = priv->channels_2GHz; 21102ee67178SXianjun Jiao priv->band_2GHz.n_channels = ARRAY_SIZE(priv->channels_2GHz); 21112ee67178SXianjun Jiao priv->band_2GHz.bitrates = priv->rates_2GHz; 21122ee67178SXianjun Jiao priv->band_2GHz.n_bitrates = ARRAY_SIZE(priv->rates_2GHz); 2113b6d71713Smmehari priv->band_2GHz.ht_cap.ht_supported = true; 21147b380560SXianjun Jiao // priv->band_2GHz.ht_cap.cap = IEEE80211_HT_CAP_SGI_20; //SGI -- short GI seems bring unnecessary stability issue 211576b1a6a1SXianjun Jiao if (AGGR_ENABLE) { 2116261bb9eeSmmehari priv->band_2GHz.ht_cap.ampdu_factor = IEEE80211_HT_MAX_AMPDU_8K; 2117261bb9eeSmmehari priv->band_2GHz.ht_cap.ampdu_density = IEEE80211_HT_MPDU_DENSITY_2; 211876b1a6a1SXianjun Jiao } 2119b6d71713Smmehari memset(&priv->band_2GHz.ht_cap.mcs, 0, sizeof(priv->band_2GHz.ht_cap.mcs)); 2120b6d71713Smmehari priv->band_2GHz.ht_cap.mcs.rx_mask[0] = 0xff; 2121b6d71713Smmehari priv->band_2GHz.ht_cap.mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED; 21222ee67178SXianjun Jiao dev->wiphy->bands[NL80211_BAND_2GHZ] = &(priv->band_2GHz); 21232ee67178SXianjun Jiao 21242ee67178SXianjun Jiao priv->band_5GHz.band = NL80211_BAND_5GHZ; 21252ee67178SXianjun Jiao priv->band_5GHz.channels = priv->channels_5GHz; 21262ee67178SXianjun Jiao priv->band_5GHz.n_channels = ARRAY_SIZE(priv->channels_5GHz); 21272ee67178SXianjun Jiao priv->band_5GHz.bitrates = priv->rates_5GHz; 21282ee67178SXianjun Jiao priv->band_5GHz.n_bitrates = ARRAY_SIZE(priv->rates_5GHz); 2129b6d71713Smmehari priv->band_5GHz.ht_cap.ht_supported = true; 21307b380560SXianjun Jiao // priv->band_5GHz.ht_cap.cap = IEEE80211_HT_CAP_SGI_20; //SGI -- short GI seems bring unnecessary stability issue 213176b1a6a1SXianjun Jiao if (AGGR_ENABLE) { 2132261bb9eeSmmehari priv->band_5GHz.ht_cap.ampdu_factor = IEEE80211_HT_MAX_AMPDU_8K; 2133261bb9eeSmmehari priv->band_5GHz.ht_cap.ampdu_density = IEEE80211_HT_MPDU_DENSITY_2; 213476b1a6a1SXianjun Jiao } 2135b6d71713Smmehari memset(&priv->band_5GHz.ht_cap.mcs, 0, sizeof(priv->band_5GHz.ht_cap.mcs)); 2136b6d71713Smmehari priv->band_5GHz.ht_cap.mcs.rx_mask[0] = 0xff; 2137b6d71713Smmehari priv->band_5GHz.ht_cap.mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED; 21382ee67178SXianjun Jiao dev->wiphy->bands[NL80211_BAND_5GHZ] = &(priv->band_5GHz); 21392ee67178SXianjun Jiao 21402ee67178SXianjun Jiao printk("%s openwifi_dev_probe: band_2GHz.n_channels %d n_bitrates %d band_5GHz.n_channels %d n_bitrates %d\n",sdr_compatible_str, 21412ee67178SXianjun Jiao priv->band_2GHz.n_channels,priv->band_2GHz.n_bitrates,priv->band_5GHz.n_channels,priv->band_5GHz.n_bitrates); 21422ee67178SXianjun Jiao 214372d992a6SXianjun Jiao // ieee80211_hw_set(dev, HOST_BROADCAST_PS_BUFFERING); // remove this because we don't want: mac80211.h: host buffers frame for PS and we fetch them via ieee80211_get_buffered_bc() 21442ee67178SXianjun Jiao ieee80211_hw_set(dev, RX_INCLUDES_FCS); 214572d992a6SXianjun Jiao ieee80211_hw_set(dev, BEACON_TX_STATUS);//mac80211.h: The device/driver provides TX status for sent beacons. 214672d992a6SXianjun Jiao 214772d992a6SXianjun Jiao ieee80211_hw_set(dev, REPORTS_TX_ACK_STATUS);//mac80211.h: Hardware can provide ack status reports of Tx frames to the stack 214872d992a6SXianjun Jiao 214972d992a6SXianjun Jiao // * @IEEE80211_HW_AP_LINK_PS: When operating in AP mode the device 215072d992a6SXianjun Jiao // * autonomously manages the PS status of connected stations. When 215172d992a6SXianjun Jiao // * this flag is set mac80211 will not trigger PS mode for connected 215272d992a6SXianjun Jiao // * stations based on the PM bit of incoming frames. 215372d992a6SXianjun Jiao // * Use ieee80211_start_ps()/ieee8021_end_ps() to manually configure 215472d992a6SXianjun Jiao // * the PS mode of connected stations. 215572d992a6SXianjun Jiao ieee80211_hw_set(dev, AP_LINK_PS); 215672d992a6SXianjun Jiao 215776b1a6a1SXianjun Jiao if (AGGR_ENABLE) { 2158261bb9eeSmmehari ieee80211_hw_set(dev, AMPDU_AGGREGATION); 215976b1a6a1SXianjun Jiao } 216076b1a6a1SXianjun Jiao 2161f73b4f42SXianjun Jiao dev->extra_tx_headroom = LEN_MPDU_DELIM; 21622ee67178SXianjun Jiao 21632ee67178SXianjun Jiao dev->vif_data_size = sizeof(struct openwifi_vif); 21642ee67178SXianjun Jiao dev->wiphy->interface_modes = 21652ee67178SXianjun Jiao BIT(NL80211_IFTYPE_MONITOR)| 21662ee67178SXianjun Jiao BIT(NL80211_IFTYPE_P2P_GO) | 21672ee67178SXianjun Jiao BIT(NL80211_IFTYPE_P2P_CLIENT) | 21682ee67178SXianjun Jiao BIT(NL80211_IFTYPE_AP) | 21692ee67178SXianjun Jiao BIT(NL80211_IFTYPE_STATION) | 21702ee67178SXianjun Jiao BIT(NL80211_IFTYPE_ADHOC) | 21712ee67178SXianjun Jiao BIT(NL80211_IFTYPE_MESH_POINT) | 21722ee67178SXianjun Jiao BIT(NL80211_IFTYPE_OCB); 21732ee67178SXianjun Jiao dev->wiphy->iface_combinations = &openwifi_if_comb; 21742ee67178SXianjun Jiao dev->wiphy->n_iface_combinations = 1; 21752ee67178SXianjun Jiao 217656203843SXianjun Jiao dev->wiphy->available_antennas_tx = NUM_TX_ANT_MASK; 217756203843SXianjun Jiao dev->wiphy->available_antennas_rx = NUM_RX_ANT_MASK; 217856203843SXianjun Jiao 21792ee67178SXianjun Jiao dev->wiphy->regulatory_flags = (REGULATORY_STRICT_REG|REGULATORY_CUSTOM_REG); // use our own config within strict regulation 21802ee67178SXianjun Jiao //dev->wiphy->regulatory_flags = REGULATORY_CUSTOM_REG; // use our own config 21812ee67178SXianjun Jiao wiphy_apply_custom_regulatory(dev->wiphy, &sdr_regd); 21822ee67178SXianjun Jiao 21832ee67178SXianjun Jiao chip_name = "ZYNQ"; 21842ee67178SXianjun Jiao 21852ee67178SXianjun Jiao /* we declare to MAC80211 all the queues except for beacon queue 21862ee67178SXianjun Jiao * that will be eventually handled by DRV. 21872ee67178SXianjun Jiao * TX rings are arranged in such a way that lower is the IDX, 21882ee67178SXianjun Jiao * higher is the priority, in order to achieve direct mapping 21892ee67178SXianjun Jiao * with mac80211, however the beacon queue is an exception and it 21902ee67178SXianjun Jiao * is mapped on the highst tx ring IDX. 21912ee67178SXianjun Jiao */ 2192838a9007SXianjun Jiao dev->queues = MAX_NUM_HW_QUEUE; 2193838a9007SXianjun Jiao //dev->queues = 1; 21942ee67178SXianjun Jiao 21952ee67178SXianjun Jiao ieee80211_hw_set(dev, SIGNAL_DBM); 21962ee67178SXianjun Jiao 21972ee67178SXianjun Jiao wiphy_ext_feature_set(dev->wiphy, NL80211_EXT_FEATURE_CQM_RSSI_LIST); 21982ee67178SXianjun Jiao 21992ee67178SXianjun Jiao priv->rf = &ad9361_rf_ops; 22002ee67178SXianjun Jiao 22012ee67178SXianjun Jiao memset(priv->dest_mac_addr_queue_map,0,sizeof(priv->dest_mac_addr_queue_map)); 2202838a9007SXianjun Jiao priv->slice_idx = 0xFFFFFFFF; 2203838a9007SXianjun Jiao 2204838a9007SXianjun Jiao sg_init_table(&(priv->tx_sg), 1); 22052ee67178SXianjun Jiao 22062ee67178SXianjun Jiao get_random_bytes(&rand_val, sizeof(rand_val)); 22072ee67178SXianjun Jiao rand_val%=250; 22082ee67178SXianjun Jiao priv->mac_addr[0]=0x66; priv->mac_addr[1]=0x55; priv->mac_addr[2]=0x44; priv->mac_addr[3]=0x33; priv->mac_addr[4]=0x22; 22092ee67178SXianjun Jiao priv->mac_addr[5]=rand_val+1; 22102ee67178SXianjun Jiao //priv->mac_addr[5]=0x11; 22112ee67178SXianjun Jiao if (!is_valid_ether_addr(priv->mac_addr)) { 22122ee67178SXianjun Jiao printk(KERN_WARNING "%s openwifi_dev_probe: WARNING Invalid hwaddr! Using randomly generated MAC addr\n",sdr_compatible_str); 22132ee67178SXianjun Jiao eth_random_addr(priv->mac_addr); 22142ee67178SXianjun Jiao } 2215ffd377caSXianjun Jiao printk("%s openwifi_dev_probe: mac_addr %02x:%02x:%02x:%02x:%02x:%02x\n",sdr_compatible_str,priv->mac_addr[0],priv->mac_addr[1],priv->mac_addr[2],priv->mac_addr[3],priv->mac_addr[4],priv->mac_addr[5]); 22162ee67178SXianjun Jiao SET_IEEE80211_PERM_ADDR(dev, priv->mac_addr); 22172ee67178SXianjun Jiao 22182ee67178SXianjun Jiao spin_lock_init(&priv->lock); 22192ee67178SXianjun Jiao 22202ee67178SXianjun Jiao err = ieee80211_register_hw(dev); 22212ee67178SXianjun Jiao if (err) { 22222ee67178SXianjun Jiao pr_err(KERN_ERR "%s openwifi_dev_probe: WARNING Cannot register device\n",sdr_compatible_str); 2223ffd377caSXianjun Jiao err = -EIO; 22242ee67178SXianjun Jiao goto err_free_dev; 22252ee67178SXianjun Jiao } else { 22262ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ieee80211_register_hw %d\n",sdr_compatible_str, err); 22272ee67178SXianjun Jiao } 22282ee67178SXianjun Jiao 22292ee67178SXianjun Jiao // // //--------------------hook leds (not complete yet)-------------------------------- 2230b1dd94e3Sluz paz // tmp_dev = bus_find_device( &platform_bus_type, NULL, "leds", custom_match_platform_dev ); //leds is the name in devicetree, not "compatible" field 22312ee67178SXianjun Jiao // if (!tmp_dev) { 22322ee67178SXianjun Jiao // printk(KERN_ERR "%s bus_find_device platform_bus_type leds-gpio failed\n",sdr_compatible_str); 22332ee67178SXianjun Jiao // err = -ENOMEM; 22342ee67178SXianjun Jiao // goto err_free_dev; 22352ee67178SXianjun Jiao // } 22362ee67178SXianjun Jiao 22372ee67178SXianjun Jiao // tmp_pdev = to_platform_device(tmp_dev); 22382ee67178SXianjun Jiao // if (!tmp_pdev) { 22392ee67178SXianjun Jiao // printk(KERN_ERR "%s to_platform_device failed for leds-gpio\n",sdr_compatible_str); 22402ee67178SXianjun Jiao // err = -ENOMEM; 22412ee67178SXianjun Jiao // goto err_free_dev; 22422ee67178SXianjun Jiao // } 22432ee67178SXianjun Jiao 22442ee67178SXianjun Jiao // tmp_led_priv = platform_get_drvdata(tmp_pdev); 22452ee67178SXianjun Jiao // if (!tmp_led_priv) { 22462ee67178SXianjun Jiao // printk(KERN_ERR "%s platform_get_drvdata failed for leds-gpio\n",sdr_compatible_str); 22472ee67178SXianjun Jiao // err = -ENOMEM; 22482ee67178SXianjun Jiao // goto err_free_dev; 22492ee67178SXianjun Jiao // } 22502ee67178SXianjun Jiao // printk("%s openwifi_dev_probe: leds-gpio detect %d leds!\n",sdr_compatible_str, tmp_led_priv->num_leds); 22512ee67178SXianjun Jiao // if (tmp_led_priv->num_leds!=4){ 22522ee67178SXianjun Jiao // printk(KERN_ERR "%s WARNING we expect 4 leds, but actual %d leds\n",sdr_compatible_str,tmp_led_priv->num_leds); 22532ee67178SXianjun Jiao // err = -ENOMEM; 22542ee67178SXianjun Jiao // goto err_free_dev; 22552ee67178SXianjun Jiao // } 22562ee67178SXianjun Jiao // gpiod_set_value(tmp_led_priv->leds[0].gpiod, 1);//light it 22572ee67178SXianjun Jiao // gpiod_set_value(tmp_led_priv->leds[3].gpiod, 0);//black it 22582ee67178SXianjun Jiao // priv->num_led = tmp_led_priv->num_leds; 22592ee67178SXianjun Jiao // priv->led[0] = &(tmp_led_priv->leds[0].cdev); 22602ee67178SXianjun Jiao // priv->led[1] = &(tmp_led_priv->leds[1].cdev); 22612ee67178SXianjun Jiao // priv->led[2] = &(tmp_led_priv->leds[2].cdev); 22622ee67178SXianjun Jiao // priv->led[3] = &(tmp_led_priv->leds[3].cdev); 22632ee67178SXianjun Jiao 22642ee67178SXianjun Jiao // snprintf(priv->led_name[0], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::radio", wiphy_name(dev->wiphy)); 22652ee67178SXianjun Jiao // snprintf(priv->led_name[1], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::assoc", wiphy_name(dev->wiphy)); 22662ee67178SXianjun Jiao // snprintf(priv->led_name[2], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::tx", wiphy_name(dev->wiphy)); 22672ee67178SXianjun Jiao // snprintf(priv->led_name[3], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::rx", wiphy_name(dev->wiphy)); 22682ee67178SXianjun Jiao 22692ee67178SXianjun Jiao wiphy_info(dev->wiphy, "hwaddr %pm, %s + %s\n", 22702ee67178SXianjun Jiao priv->mac_addr, chip_name, priv->rf->name); 22712ee67178SXianjun Jiao 22722ee67178SXianjun Jiao openwifi_rfkill_init(dev); 22732ee67178SXianjun Jiao return 0; 22742ee67178SXianjun Jiao 22752ee67178SXianjun Jiao err_free_dev: 22762ee67178SXianjun Jiao ieee80211_free_hw(dev); 22772ee67178SXianjun Jiao 22782ee67178SXianjun Jiao return err; 22792ee67178SXianjun Jiao } 22802ee67178SXianjun Jiao 22812ee67178SXianjun Jiao static int openwifi_dev_remove(struct platform_device *pdev) 22822ee67178SXianjun Jiao { 22832ee67178SXianjun Jiao struct ieee80211_hw *dev = platform_get_drvdata(pdev); 22842ee67178SXianjun Jiao 22852ee67178SXianjun Jiao if (!dev) { 2286febc5adfSXianjun Jiao pr_info("%s openwifi_dev_remove: dev %p\n", sdr_compatible_str, (void*)dev); 22872ee67178SXianjun Jiao return(-1); 22882ee67178SXianjun Jiao } 22892ee67178SXianjun Jiao 22902ee67178SXianjun Jiao openwifi_rfkill_exit(dev); 22912ee67178SXianjun Jiao ieee80211_unregister_hw(dev); 22922ee67178SXianjun Jiao ieee80211_free_hw(dev); 22932ee67178SXianjun Jiao return(0); 22942ee67178SXianjun Jiao } 22952ee67178SXianjun Jiao 22962ee67178SXianjun Jiao static struct platform_driver openwifi_dev_driver = { 22972ee67178SXianjun Jiao .driver = { 22982ee67178SXianjun Jiao .name = "sdr,sdr", 22992ee67178SXianjun Jiao .owner = THIS_MODULE, 23002ee67178SXianjun Jiao .of_match_table = openwifi_dev_of_ids, 23012ee67178SXianjun Jiao }, 23022ee67178SXianjun Jiao .probe = openwifi_dev_probe, 23032ee67178SXianjun Jiao .remove = openwifi_dev_remove, 23042ee67178SXianjun Jiao }; 23052ee67178SXianjun Jiao 23062ee67178SXianjun Jiao module_platform_driver(openwifi_dev_driver); 2307