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); 582ee67178SXianjun Jiao 592ee67178SXianjun Jiao #include "../user_space/sdrctl_src/nl80211_testmode_def.h" 602ee67178SXianjun Jiao #include "hw_def.h" 612ee67178SXianjun Jiao #include "sdr.h" 620a92505dSXianjun Jiao #include "git_rev.h" 632ee67178SXianjun Jiao 642ee67178SXianjun Jiao // driver API of component driver 652ee67178SXianjun Jiao extern struct tx_intf_driver_api *tx_intf_api; 662ee67178SXianjun Jiao extern struct rx_intf_driver_api *rx_intf_api; 672ee67178SXianjun Jiao extern struct openofdm_tx_driver_api *openofdm_tx_api; 682ee67178SXianjun Jiao extern struct openofdm_rx_driver_api *openofdm_rx_api; 692ee67178SXianjun Jiao extern struct xpu_driver_api *xpu_api; 702ee67178SXianjun Jiao 71f738aefaSmmehari u32 gen_mpdu_crc(u8 *data_in, u32 num_bytes); 72f738aefaSmmehari u8 gen_mpdu_delim_crc(u16 m); 73f738aefaSmmehari 747d0af6dfSXianjun Jiao #include "sdrctl_intf.c" 757d0af6dfSXianjun Jiao #include "sysfs_intf.c" 767d0af6dfSXianjun Jiao 772ee67178SXianjun Jiao static int test_mode = 0; // 0 normal; 1 rx test 782ee67178SXianjun Jiao 792ee67178SXianjun Jiao MODULE_AUTHOR("Xianjun Jiao"); 802ee67178SXianjun Jiao MODULE_DESCRIPTION("SDR driver"); 812ee67178SXianjun Jiao MODULE_LICENSE("GPL v2"); 822ee67178SXianjun Jiao 832ee67178SXianjun Jiao module_param(test_mode, int, 0); 842ee67178SXianjun Jiao MODULE_PARM_DESC(myint, "test_mode. 0 normal; 1 rx test"); 852ee67178SXianjun Jiao 862ee67178SXianjun Jiao // ---------------rfkill--------------------------------------- 872ee67178SXianjun Jiao static bool openwifi_is_radio_enabled(struct openwifi_priv *priv) 882ee67178SXianjun Jiao { 892ee67178SXianjun Jiao int reg; 902ee67178SXianjun Jiao 912ee67178SXianjun Jiao if (priv->tx_intf_cfg == TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1) 922ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 932ee67178SXianjun Jiao else 942ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 1); 952ee67178SXianjun Jiao 962ee67178SXianjun Jiao if (reg == AD9361_RADIO_ON_TX_ATT) 972ee67178SXianjun Jiao return true;// 0 off, 1 on 982ee67178SXianjun Jiao return false; 992ee67178SXianjun Jiao } 1002ee67178SXianjun Jiao 1012ee67178SXianjun Jiao void openwifi_rfkill_init(struct ieee80211_hw *hw) 1022ee67178SXianjun Jiao { 1032ee67178SXianjun Jiao struct openwifi_priv *priv = hw->priv; 1042ee67178SXianjun Jiao 1052ee67178SXianjun Jiao priv->rfkill_off = openwifi_is_radio_enabled(priv); 1062ee67178SXianjun Jiao printk("%s openwifi_rfkill_init: wireless switch is %s\n", sdr_compatible_str, priv->rfkill_off ? "on" : "off"); 1072ee67178SXianjun Jiao wiphy_rfkill_set_hw_state(hw->wiphy, !priv->rfkill_off); 1082ee67178SXianjun Jiao wiphy_rfkill_start_polling(hw->wiphy); 1092ee67178SXianjun Jiao } 1102ee67178SXianjun Jiao 1112ee67178SXianjun Jiao void openwifi_rfkill_poll(struct ieee80211_hw *hw) 1122ee67178SXianjun Jiao { 1132ee67178SXianjun Jiao bool enabled; 1142ee67178SXianjun Jiao struct openwifi_priv *priv = hw->priv; 1152ee67178SXianjun Jiao 1162ee67178SXianjun Jiao enabled = openwifi_is_radio_enabled(priv); 117838a9007SXianjun Jiao // printk("%s openwifi_rfkill_poll: wireless radio switch turned %s\n", sdr_compatible_str, enabled ? "on" : "off"); 1182ee67178SXianjun Jiao if (unlikely(enabled != priv->rfkill_off)) { 1192ee67178SXianjun Jiao priv->rfkill_off = enabled; 1202ee67178SXianjun Jiao printk("%s openwifi_rfkill_poll: WARNING wireless radio switch turned %s\n", sdr_compatible_str, enabled ? "on" : "off"); 1212ee67178SXianjun Jiao wiphy_rfkill_set_hw_state(hw->wiphy, !enabled); 1222ee67178SXianjun Jiao } 1232ee67178SXianjun Jiao } 1242ee67178SXianjun Jiao 1252ee67178SXianjun Jiao void openwifi_rfkill_exit(struct ieee80211_hw *hw) 1262ee67178SXianjun Jiao { 1272ee67178SXianjun Jiao printk("%s openwifi_rfkill_exit\n", sdr_compatible_str); 1282ee67178SXianjun Jiao wiphy_rfkill_stop_polling(hw->wiphy); 1292ee67178SXianjun Jiao } 1302ee67178SXianjun Jiao //----------------rfkill end----------------------------------- 1312ee67178SXianjun Jiao 1322ee67178SXianjun Jiao //static void ad9361_rf_init(void); 1332ee67178SXianjun Jiao //static void ad9361_rf_stop(void); 1342ee67178SXianjun Jiao //static void ad9361_rf_calc_rssi(void); 1352ee67178SXianjun Jiao static void ad9361_rf_set_channel(struct ieee80211_hw *dev, 1362ee67178SXianjun Jiao struct ieee80211_conf *conf) 1372ee67178SXianjun Jiao { 1382ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 13922dd0cc4SXianjun Jiao u32 actual_rx_lo = conf->chandef.chan->center_freq - priv->rx_freq_offset_to_lo_MHz + priv->drv_rx_reg_val[DRV_RX_REG_IDX_EXTRA_FO]; 140bb0a2c58SXianjun Jiao u32 actual_tx_lo; 1412ee67178SXianjun Jiao bool change_flag = (actual_rx_lo != priv->actual_rx_lo); 1428598d294SXianjun Jiao int static_lbt_th, auto_lbt_th, fpga_lbt_th; 1432ee67178SXianjun Jiao 1442ee67178SXianjun Jiao if (change_flag) { 1452ee67178SXianjun Jiao priv->actual_rx_lo = actual_rx_lo; 146*b196f496SXianjun Jiao priv->actual_tx_lo = actual_tx_lo; 1472ee67178SXianjun Jiao 1482ee67178SXianjun Jiao actual_tx_lo = conf->chandef.chan->center_freq - priv->tx_freq_offset_to_lo_MHz; 1492ee67178SXianjun Jiao 15056fcab20SXianjun Jiao clk_set_rate(priv->ad9361_phy->clks[RX_RFPLL], ( ((u64)1000000ull)*((u64)actual_rx_lo )>>1) ); 15156fcab20SXianjun Jiao clk_set_rate(priv->ad9361_phy->clks[TX_RFPLL], ( ((u64)1000000ull)*((u64)actual_tx_lo )>>1) ); 1522ee67178SXianjun Jiao 1532ee67178SXianjun Jiao if (actual_rx_lo<2412) { 1542ee67178SXianjun Jiao priv->rssi_correction = 153; 1552ee67178SXianjun Jiao } else if (actual_rx_lo<=2484) { 1562ee67178SXianjun Jiao priv->rssi_correction = 153; 1572ee67178SXianjun Jiao } else if (actual_rx_lo<5160) { 1582ee67178SXianjun Jiao priv->rssi_correction = 153; 1592ee67178SXianjun Jiao } else if (actual_rx_lo<=5240) { 1602ee67178SXianjun Jiao priv->rssi_correction = 145; 1612ee67178SXianjun Jiao } else if (actual_rx_lo<=5320) { 1622ee67178SXianjun Jiao priv->rssi_correction = 148; 1632ee67178SXianjun Jiao } else { 1642ee67178SXianjun Jiao priv->rssi_correction = 148; 1652ee67178SXianjun Jiao } 1665deb8d18SXianjun Jiao 167aa239344SXianjun Jiao // xpu_api->XPU_REG_LBT_TH_write((priv->rssi_correction-62)<<1); // -62dBm 1688598d294SXianjun 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 1698598d294SXianjun Jiao auto_lbt_th = ((priv->rssi_correction-62-16)<<1); 1708598d294SXianjun Jiao static_lbt_th = priv->drv_xpu_reg_val[DRV_XPU_REG_IDX_LBT_TH]; 1718598d294SXianjun Jiao fpga_lbt_th = (static_lbt_th==0?auto_lbt_th:static_lbt_th); 1728598d294SXianjun Jiao xpu_api->XPU_REG_LBT_TH_write(fpga_lbt_th); 1738598d294SXianjun Jiao 1748598d294SXianjun Jiao priv->last_auto_fpga_lbt_th = auto_lbt_th; 1752ee67178SXianjun Jiao 1762ee67178SXianjun Jiao if (actual_rx_lo < 2500) { 1772ee67178SXianjun Jiao //priv->slot_time = 20; //20 is default slot time in ERP(OFDM)/11g 2.4G; short one is 9. 1782ee67178SXianjun Jiao //xpu_api->XPU_REG_BAND_CHANNEL_write(BAND_2_4GHZ<<16); 1792ee67178SXianjun Jiao if (priv->band != BAND_2_4GHZ) { 1802ee67178SXianjun Jiao priv->band = BAND_2_4GHZ; 1812ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 1822ee67178SXianjun Jiao } 183febc5adfSXianjun Jiao // //xpu_api->XPU_REG_RECV_ACK_COUNT_TOP_write( (((45+2)*10)<<16) | 10 ); // high 16 bits to cover sig valid of ACK packet, low 16 bits is adjustment of fcs valid waiting time. let's add 2us for those device that is really "slow"! 184febc5adfSXianjun Jiao // xpu_api->XPU_REG_RECV_ACK_COUNT_TOP_write( (((45+2+2)*10)<<16) | 10 );//add 2us for longer fir. BUT corrding to FPGA probing test, we do not need this 1852ee67178SXianjun Jiao // xpu_api->XPU_REG_SEND_ACK_WAIT_TOP_write( 0 ); 186febc5adfSXianjun Jiao // tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write(((10)*10)<<16); 1872ee67178SXianjun Jiao } 1882ee67178SXianjun Jiao else { 1892ee67178SXianjun Jiao //priv->slot_time = 9; //default slot time of OFDM PHY (OFDM by default means 5GHz) 1902ee67178SXianjun Jiao // xpu_api->XPU_REG_BAND_CHANNEL_write(BAND_5_8GHZ<<16); 1912ee67178SXianjun Jiao if (priv->band != BAND_5_8GHZ) { 1922ee67178SXianjun Jiao priv->band = BAND_5_8GHZ; 1932ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 1942ee67178SXianjun Jiao } 195febc5adfSXianjun Jiao // //xpu_api->XPU_REG_RECV_ACK_COUNT_TOP_write( (((51+2)*10)<<16) | 10 ); // because 5GHz needs longer SIFS (16 instead of 10), we need 58 instead of 48 for XPU low mac setting. let's add 2us for those device that is really "slow"! 196febc5adfSXianjun Jiao // xpu_api->XPU_REG_RECV_ACK_COUNT_TOP_write( (((51+2+2)*10)<<16) | 10 );//add 2us for longer fir. BUT corrding to FPGA probing test, we do not need this 197febc5adfSXianjun Jiao // //xpu_api->XPU_REG_SEND_ACK_WAIT_TOP_write( 60*10 ); 198febc5adfSXianjun Jiao // xpu_api->XPU_REG_SEND_ACK_WAIT_TOP_write( 50*10 );// for longer fir we need this delay 1us shorter 199febc5adfSXianjun Jiao // tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write(((16)*10)<<16); 2002ee67178SXianjun Jiao } 2012ee67178SXianjun Jiao //printk("%s ad9361_rf_set_channel %dM rssi_correction %d\n", sdr_compatible_str,conf->chandef.chan->center_freq,priv->rssi_correction); 2022ee67178SXianjun Jiao // //-- use less 2032ee67178SXianjun Jiao //clk_prepare_enable(priv->ad9361_phy->clks[RX_RFPLL]); 2042ee67178SXianjun Jiao //printk("%s ad9361_rf_set_channel tune to %d read back %llu\n", sdr_compatible_str,conf->chandef.chan->center_freq,2*priv->ad9361_phy->state->current_rx_lo_freq); 2052ee67178SXianjun Jiao //ad9361_set_trx_clock_chain_default(priv->ad9361_phy); 2062ee67178SXianjun Jiao //printk("%s ad9361_rf_set_channel tune to %d read back %llu\n", sdr_compatible_str,conf->chandef.chan->center_freq,2*priv->ad9361_phy->state->current_rx_lo_freq); 2078598d294SXianjun Jiao printk("%s ad9361_rf_set_channel %dM rssi_correction %d (change flag %d) fpga_lbt_th %d (auto %d static %d)\n", sdr_compatible_str,conf->chandef.chan->center_freq,priv->rssi_correction,change_flag,fpga_lbt_th,auto_lbt_th,static_lbt_th); 2082ee67178SXianjun Jiao } 2092ee67178SXianjun Jiao } 2102ee67178SXianjun Jiao 2112ee67178SXianjun Jiao const struct openwifi_rf_ops ad9361_rf_ops = { 2122ee67178SXianjun Jiao .name = "ad9361", 2132ee67178SXianjun Jiao // .init = ad9361_rf_init, 2142ee67178SXianjun Jiao // .stop = ad9361_rf_stop, 2152ee67178SXianjun Jiao .set_chan = ad9361_rf_set_channel, 2162ee67178SXianjun Jiao // .calc_rssi = ad9361_rf_calc_rssi, 2172ee67178SXianjun Jiao }; 2182ee67178SXianjun Jiao 2192ee67178SXianjun Jiao u16 reverse16(u16 d) { 2202ee67178SXianjun Jiao union u16_byte2 tmp0, tmp1; 2212ee67178SXianjun Jiao tmp0.a = d; 2222ee67178SXianjun Jiao tmp1.c[0] = tmp0.c[1]; 2232ee67178SXianjun Jiao tmp1.c[1] = tmp0.c[0]; 2242ee67178SXianjun Jiao return(tmp1.a); 2252ee67178SXianjun Jiao } 2262ee67178SXianjun Jiao 2272ee67178SXianjun Jiao u32 reverse32(u32 d) { 2282ee67178SXianjun Jiao union u32_byte4 tmp0, tmp1; 2292ee67178SXianjun Jiao tmp0.a = d; 2302ee67178SXianjun Jiao tmp1.c[0] = tmp0.c[3]; 2312ee67178SXianjun Jiao tmp1.c[1] = tmp0.c[2]; 2322ee67178SXianjun Jiao tmp1.c[2] = tmp0.c[1]; 2332ee67178SXianjun Jiao tmp1.c[3] = tmp0.c[0]; 2342ee67178SXianjun Jiao return(tmp1.a); 2352ee67178SXianjun Jiao } 2362ee67178SXianjun Jiao 237838a9007SXianjun Jiao static int openwifi_init_tx_ring(struct openwifi_priv *priv, int ring_idx) 2382ee67178SXianjun Jiao { 239838a9007SXianjun Jiao struct openwifi_ring *ring = &(priv->tx_ring[ring_idx]); 2402ee67178SXianjun Jiao int i; 2412ee67178SXianjun Jiao 242838a9007SXianjun Jiao ring->stop_flag = 0; 2432ee67178SXianjun Jiao ring->bd_wr_idx = 0; 2442ee67178SXianjun Jiao ring->bd_rd_idx = 0; 2452ee67178SXianjun Jiao ring->bds = kmalloc(sizeof(struct openwifi_buffer_descriptor)*NUM_TX_BD,GFP_KERNEL); 2462ee67178SXianjun Jiao if (ring->bds==NULL) { 2472ee67178SXianjun Jiao printk("%s openwifi_init_tx_ring: WARNING Cannot allocate TX ring\n",sdr_compatible_str); 2482ee67178SXianjun Jiao return -ENOMEM; 2492ee67178SXianjun Jiao } 2502ee67178SXianjun Jiao 2512ee67178SXianjun Jiao for (i = 0; i < NUM_TX_BD; i++) { 2522ee67178SXianjun Jiao ring->bds[i].skb_linked=0; // for tx, skb is from upper layer 253b1dd94e3Sluz paz //at first right after skb allocated, head, data, tail are the same. 25446c420aeSluz paz ring->bds[i].dma_mapping_addr = 0; // for tx, mapping is done after skb is received from upper layer in tx routine 255f738aefaSmmehari ring->bds[i].seq_no = 0; 2562ee67178SXianjun Jiao } 2572ee67178SXianjun Jiao 2582ee67178SXianjun Jiao return 0; 2592ee67178SXianjun Jiao } 2602ee67178SXianjun Jiao 261838a9007SXianjun Jiao static void openwifi_free_tx_ring(struct openwifi_priv *priv, int ring_idx) 2622ee67178SXianjun Jiao { 263838a9007SXianjun Jiao struct openwifi_ring *ring = &(priv->tx_ring[ring_idx]); 2642ee67178SXianjun Jiao int i; 2652ee67178SXianjun Jiao 266838a9007SXianjun Jiao ring->stop_flag = 0; 2672ee67178SXianjun Jiao ring->bd_wr_idx = 0; 2682ee67178SXianjun Jiao ring->bd_rd_idx = 0; 2692ee67178SXianjun Jiao for (i = 0; i < NUM_TX_BD; i++) { 2702ee67178SXianjun Jiao if (ring->bds[i].skb_linked == 0 && ring->bds[i].dma_mapping_addr == 0) 2712ee67178SXianjun Jiao continue; 2722ee67178SXianjun Jiao if (ring->bds[i].dma_mapping_addr != 0) 273838a9007SXianjun 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); 2742ee67178SXianjun Jiao // if (ring->bds[i].skb_linked!=NULL) 275838a9007SXianjun Jiao // dev_kfree_skb(ring->bds[i].skb_linked); // only use dev_kfree_skb when there is exception 2762ee67178SXianjun Jiao if ( (ring->bds[i].dma_mapping_addr != 0 && ring->bds[i].skb_linked == 0) || 2772ee67178SXianjun Jiao (ring->bds[i].dma_mapping_addr == 0 && ring->bds[i].skb_linked != 0)) 27895d3c7c5SXianjun Jiao printk("%s openwifi_free_tx_ring: WARNING ring %d i %d skb_linked %p dma_mapping_addr %08x\n", sdr_compatible_str, 2798598d294SXianjun Jiao ring_idx, i, (void*)(ring->bds[i].skb_linked), (unsigned int)(ring->bds[i].dma_mapping_addr)); 2802ee67178SXianjun Jiao 2812ee67178SXianjun Jiao ring->bds[i].skb_linked=0; 2822ee67178SXianjun Jiao ring->bds[i].dma_mapping_addr = 0; 283f738aefaSmmehari ring->bds[i].seq_no = 0; 2842ee67178SXianjun Jiao } 2852ee67178SXianjun Jiao if (ring->bds) 2862ee67178SXianjun Jiao kfree(ring->bds); 2872ee67178SXianjun Jiao ring->bds = NULL; 2882ee67178SXianjun Jiao } 2892ee67178SXianjun Jiao 2902ee67178SXianjun Jiao static int openwifi_init_rx_ring(struct openwifi_priv *priv) 2912ee67178SXianjun Jiao { 292027d42ecSXianjun Jiao int i; 293027d42ecSXianjun Jiao u8 *pdata_tmp; 294027d42ecSXianjun Jiao 2952ee67178SXianjun 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); 2962ee67178SXianjun Jiao if (!priv->rx_cyclic_buf) { 2972ee67178SXianjun Jiao printk("%s openwifi_init_rx_ring: WARNING dma_alloc_coherent failed!\n", sdr_compatible_str); 2982ee67178SXianjun 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); 2992ee67178SXianjun Jiao return(-1); 3002ee67178SXianjun Jiao } 301027d42ecSXianjun Jiao 302027d42ecSXianjun 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 303027d42ecSXianjun Jiao for (i=0; i<NUM_RX_BD; i++) { 304027d42ecSXianjun Jiao pdata_tmp = priv->rx_cyclic_buf + i*RX_BD_BUF_SIZE; // our header insertion is at the beginning 305027d42ecSXianjun Jiao (*((u32*)(pdata_tmp+0 ))) = 0; 306027d42ecSXianjun Jiao (*((u32*)(pdata_tmp+4 ))) = 0; 307027d42ecSXianjun Jiao } 308027d42ecSXianjun Jiao printk("%s openwifi_init_rx_ring: tsft_low and tsft_high are cleared!\n", sdr_compatible_str); 309027d42ecSXianjun Jiao 3102ee67178SXianjun Jiao return 0; 3112ee67178SXianjun Jiao } 3122ee67178SXianjun Jiao 3132ee67178SXianjun Jiao static void openwifi_free_rx_ring(struct openwifi_priv *priv) 3142ee67178SXianjun Jiao { 3152ee67178SXianjun Jiao if (priv->rx_cyclic_buf) 3162ee67178SXianjun 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); 3172ee67178SXianjun Jiao 3182ee67178SXianjun Jiao priv->rx_cyclic_buf_dma_mapping_addr = 0; 3192ee67178SXianjun Jiao priv->rx_cyclic_buf = 0; 3202ee67178SXianjun Jiao } 3212ee67178SXianjun Jiao 3222ee67178SXianjun Jiao static int rx_dma_setup(struct ieee80211_hw *dev){ 3232ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 3242ee67178SXianjun Jiao struct dma_device *rx_dev = priv->rx_chan->device; 3252ee67178SXianjun Jiao 3262ee67178SXianjun 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); 3272ee67178SXianjun Jiao if (!(priv->rxd)) { 3282ee67178SXianjun Jiao openwifi_free_rx_ring(priv); 329febc5adfSXianjun Jiao printk("%s rx_dma_setup: WARNING rx_dev->device_prep_dma_cyclic %p\n", sdr_compatible_str, (void*)(priv->rxd)); 3302ee67178SXianjun Jiao return(-1); 3312ee67178SXianjun Jiao } 3322ee67178SXianjun Jiao priv->rxd->callback = 0; 3332ee67178SXianjun Jiao priv->rxd->callback_param = 0; 3342ee67178SXianjun Jiao 3352ee67178SXianjun Jiao priv->rx_cookie = priv->rxd->tx_submit(priv->rxd); 3362ee67178SXianjun Jiao 3372ee67178SXianjun Jiao if (dma_submit_error(priv->rx_cookie)) { 3382ee67178SXianjun Jiao printk("%s rx_dma_setup: WARNING dma_submit_error(rx_cookie) %d\n", sdr_compatible_str, (u32)(priv->rx_cookie)); 3392ee67178SXianjun Jiao return(-1); 3402ee67178SXianjun Jiao } 3412ee67178SXianjun Jiao 3422ee67178SXianjun Jiao dma_async_issue_pending(priv->rx_chan); 3432ee67178SXianjun Jiao return(0); 3442ee67178SXianjun Jiao } 3452ee67178SXianjun Jiao 3462ee67178SXianjun Jiao static irqreturn_t openwifi_rx_interrupt(int irq, void *dev_id) 3472ee67178SXianjun Jiao { 3482ee67178SXianjun Jiao struct ieee80211_hw *dev = dev_id; 3492ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 3502ee67178SXianjun Jiao struct ieee80211_rx_status rx_status = {0}; 3512ee67178SXianjun Jiao struct sk_buff *skb; 3522ee67178SXianjun Jiao struct ieee80211_hdr *hdr; 353261bb9eeSmmehari u32 addr1_low32=0, addr2_low32=0, addr3_low32=0, len, rate_idx, tsft_low, tsft_high, loop_count=0;//, fc_di; 354261bb9eeSmmehari bool ht_flag, short_gi, ht_aggr, ht_aggr_last; 355838a9007SXianjun Jiao // u32 dma_driver_buf_idx_mod; 356027d42ecSXianjun Jiao u8 *pdata_tmp, fcs_ok;//, target_buf_idx;//, phy_rx_sn_hw; 3572ee67178SXianjun Jiao s8 signal; 358109b1cfdSXianjun Jiao u16 agc_status_and_pkt_exist_flag, rssi_val, addr1_high16=0, addr2_high16=0, addr3_high16=0, sc=0; 3592a1e0746SXianjun Jiao bool content_ok = false, len_overflow = false; 3602ee67178SXianjun Jiao 361109b1cfdSXianjun Jiao #ifdef USE_NEW_RX_INTERRUPT 362109b1cfdSXianjun Jiao int i; 3632ee67178SXianjun Jiao spin_lock(&priv->lock); 364109b1cfdSXianjun Jiao for (i=0; i<NUM_RX_BD; i++) { 365109b1cfdSXianjun Jiao pdata_tmp = priv->rx_cyclic_buf + i*RX_BD_BUF_SIZE; 366109b1cfdSXianjun 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 367109b1cfdSXianjun Jiao if ( agc_status_and_pkt_exist_flag==0 ) // no packet in the buffer 368109b1cfdSXianjun Jiao continue; 369109b1cfdSXianjun Jiao #else 370109b1cfdSXianjun Jiao static u8 target_buf_idx_old = 0; 371109b1cfdSXianjun Jiao spin_lock(&priv->lock); 372027d42ecSXianjun Jiao while(1) { // loop all rx buffers that have new rx packets 373838a9007SXianjun Jiao pdata_tmp = priv->rx_cyclic_buf + target_buf_idx_old*RX_BD_BUF_SIZE; // our header insertion is at the beginning 374109b1cfdSXianjun Jiao agc_status_and_pkt_exist_flag = (*((u16*)(pdata_tmp+10))); 375109b1cfdSXianjun Jiao if ( agc_status_and_pkt_exist_flag==0 ) // no packet in the buffer 376109b1cfdSXianjun Jiao break; 377109b1cfdSXianjun Jiao #endif 378109b1cfdSXianjun Jiao 3792ee67178SXianjun Jiao tsft_low = (*((u32*)(pdata_tmp+0 ))); 3802ee67178SXianjun Jiao tsft_high = (*((u32*)(pdata_tmp+4 ))); 3812ee67178SXianjun Jiao rssi_val = (*((u16*)(pdata_tmp+8 ))); 3822ee67178SXianjun Jiao len = (*((u16*)(pdata_tmp+12))); 3832a1e0746SXianjun Jiao 3842a1e0746SXianjun Jiao len_overflow = (len>(RX_BD_BUF_SIZE-16)?true:false); 3852a1e0746SXianjun Jiao 3862ee67178SXianjun Jiao rate_idx = (*((u16*)(pdata_tmp+14))); 387261bb9eeSmmehari ht_flag = ((rate_idx&0x10)!=0); 388b6d71713Smmehari short_gi = ((rate_idx&0x20)!=0); 389261bb9eeSmmehari ht_aggr = (ht_flag & ((rate_idx&0x40)!=0)); 390261bb9eeSmmehari ht_aggr_last = (ht_flag & ((rate_idx&0x80)!=0)); 391261bb9eeSmmehari rate_idx = (rate_idx&0x1F); 3922ee67178SXianjun Jiao 3932a1e0746SXianjun Jiao fcs_ok = ( len_overflow?0:(*(( u8*)(pdata_tmp+16+len-1))) ); 3942ee67178SXianjun Jiao 3952a1e0746SXianjun Jiao //phy_rx_sn_hw = (fcs_ok&(NUM_RX_BD-1)); 396838a9007SXianjun Jiao // phy_rx_sn_hw = (fcs_ok&0x7f);//0x7f is FPGA limitation 397838a9007SXianjun Jiao // dma_driver_buf_idx_mod = (state.residue&0x7f); 3982ee67178SXianjun Jiao fcs_ok = ((fcs_ok&0x80)!=0); 3992ee67178SXianjun Jiao 400b6d71713Smmehari if ( (len>=14 && (!len_overflow)) && (rate_idx>=8 && rate_idx<=23)) { 4012ee67178SXianjun Jiao // if ( phy_rx_sn_hw!=dma_driver_buf_idx_mod) { 4022ee67178SXianjun Jiao // printk("%s openwifi_rx_interrupt: WARNING sn %d next buf_idx %d!\n", sdr_compatible_str,phy_rx_sn_hw,dma_driver_buf_idx_mod); 4032ee67178SXianjun Jiao // } 4042ee67178SXianjun Jiao content_ok = true; 4052ee67178SXianjun Jiao } else { 4062ee67178SXianjun Jiao printk("%s openwifi_rx_interrupt: WARNING content!\n", sdr_compatible_str); 4072ee67178SXianjun Jiao content_ok = false; 4082ee67178SXianjun Jiao } 4092ee67178SXianjun Jiao 4102ee67178SXianjun Jiao rssi_val = (rssi_val>>1); 4112ee67178SXianjun Jiao if ( (rssi_val+128)<priv->rssi_correction ) 4122ee67178SXianjun Jiao signal = -128; 4132ee67178SXianjun Jiao else 4142ee67178SXianjun Jiao signal = rssi_val - priv->rssi_correction; 4152a1e0746SXianjun Jiao 416838a9007SXianjun Jiao // fc_di = (*((u32*)(pdata_tmp+16))); 417838a9007SXianjun Jiao // addr1_high16 = (*((u16*)(pdata_tmp+16+4))); 418838a9007SXianjun Jiao // addr1_low32 = (*((u32*)(pdata_tmp+16+4+2))); 419838a9007SXianjun Jiao // addr2_high16 = (*((u16*)(pdata_tmp+16+6+4))); 420838a9007SXianjun Jiao // addr2_low32 = (*((u32*)(pdata_tmp+16+6+4+2))); 421838a9007SXianjun Jiao // addr3_high16 = (*((u16*)(pdata_tmp+16+12+4))); 422838a9007SXianjun Jiao // addr3_low32 = (*((u32*)(pdata_tmp+16+12+4+2))); 423838a9007SXianjun 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 ) ) { 424838a9007SXianjun Jiao hdr = (struct ieee80211_hdr *)(pdata_tmp+16); 425838a9007SXianjun Jiao addr1_low32 = *((u32*)(hdr->addr1+2)); 426838a9007SXianjun Jiao addr1_high16 = *((u16*)(hdr->addr1)); 427838a9007SXianjun Jiao if (len>=20) { 428838a9007SXianjun Jiao addr2_low32 = *((u32*)(hdr->addr2+2)); 429838a9007SXianjun Jiao addr2_high16 = *((u16*)(hdr->addr2)); 430838a9007SXianjun Jiao } 431838a9007SXianjun Jiao if (len>=26) { 432838a9007SXianjun Jiao addr3_low32 = *((u32*)(hdr->addr3+2)); 433838a9007SXianjun Jiao addr3_high16 = *((u16*)(hdr->addr3)); 434838a9007SXianjun Jiao } 435838a9007SXianjun Jiao if (len>=28) 436838a9007SXianjun Jiao sc = hdr->seq_ctrl; 437838a9007SXianjun Jiao 4387cf9ba6eSXianjun Jiao if ( (addr1_low32!=0xffffffff || addr1_high16!=0xffff) || (priv->drv_rx_reg_val[DRV_RX_REG_IDX_PRINT_CFG]&4) ) 439261bb9eeSmmehari printk("%s openwifi_rx_interrupt:%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, 440261bb9eeSmmehari len, ht_flag, ht_aggr, ht_aggr_last, short_gi, wifi_rate_table[rate_idx], hdr->frame_control, hdr->duration_id, 4412ee67178SXianjun Jiao reverse16(addr1_high16), reverse32(addr1_low32), reverse16(addr2_high16), reverse32(addr2_low32), reverse16(addr3_high16), reverse32(addr3_low32), 442109b1cfdSXianjun Jiao #ifdef USE_NEW_RX_INTERRUPT 443109b1cfdSXianjun Jiao sc, fcs_ok, i, signal); 444109b1cfdSXianjun Jiao #else 445838a9007SXianjun Jiao sc, fcs_ok, target_buf_idx_old, signal); 446109b1cfdSXianjun Jiao #endif 447838a9007SXianjun Jiao } 4482ee67178SXianjun Jiao 4492ee67178SXianjun Jiao // priv->phy_rx_sn_hw_old = phy_rx_sn_hw; 4502ee67178SXianjun Jiao if (content_ok) { 4512ee67178SXianjun Jiao skb = dev_alloc_skb(len); 4522ee67178SXianjun Jiao if (skb) { 4532ee67178SXianjun Jiao skb_put_data(skb,pdata_tmp+16,len); 4542ee67178SXianjun Jiao 4552ee67178SXianjun Jiao rx_status.antenna = 0; 4562ee67178SXianjun Jiao // def in ieee80211_rate openwifi_rates 0~11. 0~3 11b(1M~11M), 4~11 11a/g(6M~54M) 4572ee67178SXianjun Jiao rx_status.rate_idx = wifi_rate_table_mapping[rate_idx]; 4582ee67178SXianjun Jiao rx_status.signal = signal; 4592ee67178SXianjun Jiao rx_status.freq = dev->conf.chandef.chan->center_freq; 4602ee67178SXianjun Jiao rx_status.band = dev->conf.chandef.chan->band; 4612ee67178SXianjun Jiao rx_status.mactime = ( ( (u64)tsft_low ) | ( ((u64)tsft_high)<<32 ) ); 4622ee67178SXianjun Jiao rx_status.flag |= RX_FLAG_MACTIME_START; 4632ee67178SXianjun Jiao if (!fcs_ok) 4642ee67178SXianjun Jiao rx_status.flag |= RX_FLAG_FAILED_FCS_CRC; 465b6d71713Smmehari if (rate_idx <= 15) 4662ee67178SXianjun Jiao rx_status.encoding = RX_ENC_LEGACY; 467b6d71713Smmehari else 468b6d71713Smmehari rx_status.encoding = RX_ENC_HT; 4692ee67178SXianjun Jiao rx_status.bw = RATE_INFO_BW_20; 470b6d71713Smmehari if (short_gi) 471b6d71713Smmehari rx_status.enc_flags |= RX_ENC_FLAG_SHORT_GI; 472261bb9eeSmmehari if(ht_aggr) 473261bb9eeSmmehari { 474261bb9eeSmmehari rx_status.ampdu_reference = priv->ampdu_reference; 475261bb9eeSmmehari rx_status.flag |= RX_FLAG_AMPDU_DETAILS | RX_FLAG_AMPDU_LAST_KNOWN; 476261bb9eeSmmehari if (ht_aggr_last) 477261bb9eeSmmehari rx_status.flag |= RX_FLAG_AMPDU_IS_LAST; 478261bb9eeSmmehari } 4792ee67178SXianjun Jiao 4802ee67178SXianjun 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. 4812ee67178SXianjun Jiao ieee80211_rx_irqsafe(dev, skb); // call mac80211 function 4822ee67178SXianjun Jiao } else 483838a9007SXianjun Jiao printk("%s openwifi_rx_interrupt: WARNING dev_alloc_skb failed!\n", sdr_compatible_str); 484261bb9eeSmmehari 485261bb9eeSmmehari if(ht_aggr_last) 486261bb9eeSmmehari priv->ampdu_reference++; 4872ee67178SXianjun Jiao } 488109b1cfdSXianjun 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 489838a9007SXianjun Jiao loop_count++; 490109b1cfdSXianjun Jiao #ifndef USE_NEW_RX_INTERRUPT 491027d42ecSXianjun Jiao target_buf_idx_old=((target_buf_idx_old+1)&(NUM_RX_BD-1)); 492109b1cfdSXianjun Jiao #endif 493838a9007SXianjun Jiao } 494838a9007SXianjun Jiao 495838a9007SXianjun Jiao if ( loop_count!=1 && (priv->drv_rx_reg_val[DRV_RX_REG_IDX_PRINT_CFG]&1) ) 496838a9007SXianjun Jiao printk("%s openwifi_rx_interrupt: WARNING loop_count %d\n", sdr_compatible_str,loop_count); 497838a9007SXianjun Jiao 498838a9007SXianjun Jiao // openwifi_rx_interrupt_out: 4992ee67178SXianjun Jiao spin_unlock(&priv->lock); 5002ee67178SXianjun Jiao return IRQ_HANDLED; 5012ee67178SXianjun Jiao } 5022ee67178SXianjun Jiao 5032ee67178SXianjun Jiao static irqreturn_t openwifi_tx_interrupt(int irq, void *dev_id) 5042ee67178SXianjun Jiao { 5052ee67178SXianjun Jiao struct ieee80211_hw *dev = dev_id; 5062ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 507838a9007SXianjun Jiao struct openwifi_ring *ring; 5082ee67178SXianjun Jiao struct sk_buff *skb; 5092ee67178SXianjun Jiao struct ieee80211_tx_info *info; 5100c0d5d82Smmehari u32 reg_val1, hw_queue_len, reg_val2, prio, queue_idx, dma_fifo_no_room_flag, num_slot_random, cw, loop_count=0; 511f738aefaSmmehari u16 seq_no, pkt_cnt, blk_ack_ssn, start_idx; 512f738aefaSmmehari u8 nof_retx=-1, last_bd_rd_idx, i; 513f738aefaSmmehari u64 blk_ack_bitmap; 514838a9007SXianjun Jiao // u16 prio_rd_idx_store[64]={0}; 515385339abSmmehari bool tx_fail=false; 5162ee67178SXianjun Jiao 5172ee67178SXianjun Jiao spin_lock(&priv->lock); 5182ee67178SXianjun Jiao 519838a9007SXianjun Jiao while(1) { // loop all packets that have been sent by FPGA 520f738aefaSmmehari reg_val1 = tx_intf_api->TX_INTF_REG_PKT_INFO1_read(); 521f738aefaSmmehari reg_val2 = tx_intf_api->TX_INTF_REG_PKT_INFO2_read(); 522f738aefaSmmehari blk_ack_bitmap = (tx_intf_api->TX_INTF_REG_PKT_INFO3_read() | ((u64)tx_intf_api->TX_INTF_REG_PKT_INFO4_read())<<32); 523f738aefaSmmehari 524f738aefaSmmehari if (reg_val1!=0xFFFFFFFF) { 525f738aefaSmmehari nof_retx = (reg_val1&0xF); 526f738aefaSmmehari last_bd_rd_idx = ((reg_val1>>5)&(NUM_TX_BD-1)); 527f738aefaSmmehari prio = ((reg_val1>>17)&0x3); 528f738aefaSmmehari num_slot_random = ((reg_val1>>19)&0x1FF); 529f738aefaSmmehari //num_slot_random = ((0xFF80000 ®_val1)>>(2+5+NUM_BIT_MAX_PHY_TX_SN+NUM_BIT_MAX_NUM_HW_QUEUE)); 530f738aefaSmmehari cw = ((reg_val1>>28)&0xF); 531f738aefaSmmehari //cw = ((0xF0000000 & reg_val1) >> 28); 5322238b42bSweiliu if(cw > 10) { 5332238b42bSweiliu cw = 10 ; 5342238b42bSweiliu num_slot_random += 512 ; 5352238b42bSweiliu } 536f738aefaSmmehari pkt_cnt = (reg_val2&0x3F); 537f738aefaSmmehari blk_ack_ssn = ((reg_val2>>6)&0xFFF); 5382238b42bSweiliu 539838a9007SXianjun Jiao ring = &(priv->tx_ring[prio]); 540f738aefaSmmehari 5410c0d5d82Smmehari if ( ring->stop_flag == 1) { 5420c0d5d82Smmehari // Wake up Linux queue if FPGA and driver ring have room 5430c0d5d82Smmehari queue_idx = ((reg_val1>>15)&(MAX_NUM_HW_QUEUE-1)); 5440c0d5d82Smmehari dma_fifo_no_room_flag = tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read(); 5450c0d5d82Smmehari hw_queue_len = tx_intf_api->TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read(); 5460c0d5d82Smmehari 5470c0d5d82Smmehari if ( ((dma_fifo_no_room_flag>>queue_idx)&1)==0 && (NUM_TX_BD-((hw_queue_len>>(queue_idx*8))&0xFF))>=RING_ROOM_THRESHOLD ) { 548f738aefaSmmehari // printk("%s openwifi_tx_interrupt: WARNING ieee80211_wake_queue loop %d call %d\n", sdr_compatible_str, loop_count, priv->call_counter); 5490c0d5d82Smmehari 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, 5500c0d5d82Smmehari prio, queue_idx, dma_fifo_no_room_flag, hw_queue_len, ring->bd_wr_idx, last_bd_rd_idx); 551f738aefaSmmehari ieee80211_wake_queue(dev, prio); 552f738aefaSmmehari ring->stop_flag = 0; 553f738aefaSmmehari } 5540c0d5d82Smmehari } 555f738aefaSmmehari 556f738aefaSmmehari for(i = 1; i <= pkt_cnt; i++) 557f738aefaSmmehari { 558f738aefaSmmehari ring->bd_rd_idx = (last_bd_rd_idx + i - pkt_cnt + 64)%64; 559f738aefaSmmehari seq_no = ring->bds[ring->bd_rd_idx].seq_no; 560838a9007SXianjun Jiao skb = ring->bds[ring->bd_rd_idx].skb_linked; 5612ee67178SXianjun Jiao 562838a9007SXianjun Jiao dma_unmap_single(priv->tx_chan->device->dev,ring->bds[ring->bd_rd_idx].dma_mapping_addr, 563838a9007SXianjun Jiao skb->len, DMA_MEM_TO_DEV); 5642ee67178SXianjun Jiao 5652ee67178SXianjun Jiao info = IEEE80211_SKB_CB(skb); 5662ee67178SXianjun Jiao ieee80211_tx_info_clear_status(info); 5672ee67178SXianjun Jiao 568385339abSmmehari // Aggregation packet 569385339abSmmehari if(pkt_cnt > 1) 570f738aefaSmmehari { 571c0981124Smmehari start_idx = (seq_no>=blk_ack_ssn) ? (seq_no-blk_ack_ssn) : (seq_no+((~blk_ack_ssn+1)&0x0FFF)); 572f738aefaSmmehari tx_fail = (((blk_ack_bitmap>>start_idx)&0x1)==0); 573385339abSmmehari info->flags |= IEEE80211_TX_STAT_AMPDU; 574385339abSmmehari info->status.ampdu_len = 1; 575385339abSmmehari info->status.ampdu_ack_len = (tx_fail == true) ? 0 : 1; 576385339abSmmehari 577385339abSmmehari skb_pull(skb, LEN_MPDU_DELIM); 578385339abSmmehari //skb_trim(skb, num_byte_pad_skb); 579f738aefaSmmehari } 580385339abSmmehari // Normal packet 581f738aefaSmmehari else 582f738aefaSmmehari { 583f738aefaSmmehari tx_fail = ((blk_ack_bitmap&0x1)==0); 584385339abSmmehari info->flags &= (~IEEE80211_TX_CTL_AMPDU); 585f738aefaSmmehari } 586f738aefaSmmehari 587f738aefaSmmehari if (tx_fail == false) 5882ee67178SXianjun Jiao info->flags |= IEEE80211_TX_STAT_ACK; 5892ee67178SXianjun Jiao 590f738aefaSmmehari 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 5912ee67178SXianjun Jiao info->status.rates[1].idx = -1; 5922ee67178SXianjun Jiao info->status.rates[2].idx = -1; 5932ee67178SXianjun Jiao info->status.rates[3].idx = -1;//in mac80211.h: #define IEEE80211_TX_MAX_RATES 4 594838a9007SXianjun Jiao 595c0981124Smmehari if ( tx_fail && ((priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG])&1) ) 596f738aefaSmmehari 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); 5977cf9ba6eSXianjun 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) ) 598f738aefaSmmehari 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); 5992ee67178SXianjun Jiao 6002ee67178SXianjun Jiao ieee80211_tx_status_irqsafe(dev, skb); 601f738aefaSmmehari } 6022ee67178SXianjun Jiao 603838a9007SXianjun Jiao loop_count++; 6042ee67178SXianjun Jiao 605838a9007SXianjun Jiao // printk("%s openwifi_tx_interrupt: loop %d prio %d rd %d\n", sdr_compatible_str, loop_count, prio, ring->bd_rd_idx); 606838a9007SXianjun Jiao 607838a9007SXianjun Jiao } else 608838a9007SXianjun Jiao break; 6092ee67178SXianjun Jiao } 610838a9007SXianjun Jiao if ( loop_count!=1 && ((priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG])&1) ) 611838a9007SXianjun Jiao printk("%s openwifi_tx_interrupt: WARNING loop_count %d\n", sdr_compatible_str, loop_count); 6122ee67178SXianjun Jiao 6132ee67178SXianjun Jiao spin_unlock(&priv->lock); 6142ee67178SXianjun Jiao return IRQ_HANDLED; 6152ee67178SXianjun Jiao } 6162ee67178SXianjun Jiao 617f738aefaSmmehari u32 crc_table[16] = {0x4DBDF21C, 0x500AE278, 0x76D3D2D4, 0x6B64C2B0, 0x3B61B38C, 0x26D6A3E8, 0x000F9344, 0x1DB88320, 0xA005713C, 0xBDB26158, 0x9B6B51F4, 0x86DC4190, 0xD6D930AC, 0xCB6E20C8, 0xEDB71064, 0xF0000000}; 618f738aefaSmmehari u32 gen_mpdu_crc(u8 *data_in, u32 num_bytes) 619f738aefaSmmehari { 620f738aefaSmmehari u32 i, crc = 0; 621f738aefaSmmehari u8 idx; 622f738aefaSmmehari for( i = 0; i < num_bytes; i++) 623f738aefaSmmehari { 624f738aefaSmmehari idx = (crc & 0x0F) ^ (data_in[i] & 0x0F); 625f738aefaSmmehari crc = (crc >> 4) ^ crc_table[idx]; 626f738aefaSmmehari 627f738aefaSmmehari idx = (crc & 0x0F) ^ ((data_in[i] >> 4) & 0x0F); 628f738aefaSmmehari crc = (crc >> 4) ^ crc_table[idx]; 6292ee67178SXianjun Jiao } 6302ee67178SXianjun Jiao 631f738aefaSmmehari return crc; 632f738aefaSmmehari } 6332ee67178SXianjun Jiao 634f738aefaSmmehari u8 gen_mpdu_delim_crc(u16 m) 635f738aefaSmmehari { 636f738aefaSmmehari u8 i, temp, c[8] = {1, 1, 1, 1, 1, 1, 1, 1}, mpdu_delim_crc; 637f738aefaSmmehari 638f738aefaSmmehari for (i = 0; i < 16; i++) 639b6d71713Smmehari { 640b6d71713Smmehari temp = c[7] ^ ((m >> i) & 0x01); 641b6d71713Smmehari 642b6d71713Smmehari c[7] = c[6]; 643b6d71713Smmehari c[6] = c[5]; 644b6d71713Smmehari c[5] = c[4]; 645b6d71713Smmehari c[4] = c[3]; 646b6d71713Smmehari c[3] = c[2]; 647b6d71713Smmehari c[2] = c[1] ^ temp; 648b6d71713Smmehari c[1] = c[0] ^ temp; 649b6d71713Smmehari c[0] = temp; 650b6d71713Smmehari } 651f738aefaSmmehari 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); 652b6d71713Smmehari 653f738aefaSmmehari return mpdu_delim_crc; 654b6d71713Smmehari } 6552ee67178SXianjun Jiao 6562ee67178SXianjun Jiao static inline struct gpio_led_data * //please align with the implementation in leds-gpio.c 6572ee67178SXianjun Jiao cdev_to_gpio_led_data(struct led_classdev *led_cdev) 6582ee67178SXianjun Jiao { 6592ee67178SXianjun Jiao return container_of(led_cdev, struct gpio_led_data, cdev); 6602ee67178SXianjun Jiao } 6612ee67178SXianjun Jiao 6622ee67178SXianjun Jiao static void openwifi_tx(struct ieee80211_hw *dev, 6632ee67178SXianjun Jiao struct ieee80211_tx_control *control, 6642ee67178SXianjun Jiao struct sk_buff *skb) 6652ee67178SXianjun Jiao { 666838a9007SXianjun Jiao struct openwifi_priv *priv = dev->priv; 667838a9007SXianjun Jiao unsigned long flags; 6682ee67178SXianjun Jiao struct ieee80211_tx_info *info = IEEE80211_SKB_CB(skb); 6692ee67178SXianjun Jiao struct ieee80211_hdr *hdr = (struct ieee80211_hdr *)skb->data; 670f738aefaSmmehari struct openwifi_ring *ring = NULL; 6712ee67178SXianjun Jiao dma_addr_t dma_mapping_addr; 672f738aefaSmmehari unsigned int prio=0, i; 673f738aefaSmmehari u32 num_dma_symbol, len_mpdu = 0, len_mpdu_delim_pad = 0, num_dma_byte, len_psdu, num_byte_pad; 674f738aefaSmmehari u32 rate_signal_value,rate_hw_value=0,ack_flag; 675f738aefaSmmehari u32 pkt_need_ack=0, addr1_low32=0, addr2_low32=0, addr3_low32=0, queue_idx=2, tx_config, cts_reg, phy_hdr_config;//, openofdm_state_history; 6762ee67178SXianjun Jiao u16 addr1_high16=0, addr2_high16=0, addr3_high16=0, sc=0, cts_duration=0, cts_rate_hw_value=0, cts_rate_signal_value=0, sifs, ack_duration=0, traffic_pkt_duration; 677c0981124Smmehari u8 fc_flag,fc_type,fc_subtype,retry_limit_raw=0,use_short_gi=0,*dma_buf,retry_limit_hw_value,rc_flags,*qos_hdr; 678c0981124Smmehari bool use_rts_cts, use_cts_protect=false, ht_aggr_start=false, use_ht_rate=false, use_ht_aggr=false, addr_flag, cts_use_traffic_rate=false, force_use_cts_protect=false; 6792ee67178SXianjun Jiao __le16 frame_control,duration_id; 6800c0d5d82Smmehari u32 dma_fifo_no_room_flag, hw_queue_len; 681838a9007SXianjun Jiao enum dma_status status; 682f738aefaSmmehari 6839cd584f8Smmehari static u32 addr1_low32_prev = -1, rate_hw_value_prev = -1, pkt_need_ack_prev = -1; 6849cd584f8Smmehari static u16 addr1_high16_prev = -1; 6859cd584f8Smmehari static __le16 duration_id_prev = -1; 686f738aefaSmmehari static unsigned int prio_prev = -1; 687f738aefaSmmehari static u8 retry_limit_raw_prev = -1; 688c0981124Smmehari static u8 use_short_gi_prev = -1; 689f738aefaSmmehari 6902ee67178SXianjun Jiao // static bool led_status=0; 6912ee67178SXianjun Jiao // struct gpio_led_data *led_dat = cdev_to_gpio_led_data(priv->led[3]); 6922ee67178SXianjun Jiao 6932ee67178SXianjun Jiao // if ( (priv->phy_tx_sn&7) ==0 ) { 6942ee67178SXianjun Jiao // openofdm_state_history = openofdm_rx_api->OPENOFDM_RX_REG_STATE_HISTORY_read(); 6952ee67178SXianjun Jiao // if (openofdm_state_history!=openofdm_state_history_old){ 6962ee67178SXianjun Jiao // led_status = (~led_status); 6972ee67178SXianjun Jiao // openofdm_state_history_old = openofdm_state_history; 6982ee67178SXianjun Jiao // gpiod_set_value(led_dat->gpiod, led_status); 6992ee67178SXianjun Jiao // } 7002ee67178SXianjun Jiao // } 7012ee67178SXianjun Jiao 7022ee67178SXianjun Jiao if (test_mode==1){ 703838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING test_mode==1\n", sdr_compatible_str); 7042ee67178SXianjun Jiao goto openwifi_tx_early_out; 7052ee67178SXianjun Jiao } 706838a9007SXianjun Jiao 707838a9007SXianjun Jiao if (skb->data_len>0) {// more data are not in linear data area skb->data 708838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING skb->data_len>0\n", sdr_compatible_str); 7092ee67178SXianjun Jiao goto openwifi_tx_early_out; 710838a9007SXianjun Jiao } 7112ee67178SXianjun Jiao 712f738aefaSmmehari len_mpdu = skb->len; 713838a9007SXianjun Jiao 714838a9007SXianjun Jiao // get Linux priority/queue setting info and target mac address 715838a9007SXianjun Jiao prio = skb_get_queue_mapping(skb); 716838a9007SXianjun Jiao addr1_low32 = *((u32*)(hdr->addr1+2)); 717838a9007SXianjun Jiao ring = &(priv->tx_ring[prio]); 718838a9007SXianjun Jiao 719838a9007SXianjun Jiao // -------------- DO your idea here! Map Linux/SW "prio" to hardware "queue_idx" ----------- 720838a9007SXianjun Jiao if (priv->slice_idx == 0xFFFFFFFF) {// use Linux default prio setting, if there isn't any slice config 721838a9007SXianjun Jiao queue_idx = prio; 722838a9007SXianjun Jiao } else {// customized prio to queue_idx mapping 723838a9007SXianjun Jiao //if (fc_type==2 && fc_subtype==0 && (!addr_flag)) { // for unicast data packet only 724838a9007SXianjun Jiao // check current packet belonging to which slice/hw-queue 725838a9007SXianjun Jiao for (i=0; i<MAX_NUM_HW_QUEUE; i++) { 726838a9007SXianjun Jiao if ( priv->dest_mac_addr_queue_map[i] == addr1_low32 ) { 727838a9007SXianjun Jiao break; 728838a9007SXianjun Jiao } 729838a9007SXianjun Jiao } 730838a9007SXianjun Jiao //} 731b1dd94e3Sluz 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. 732838a9007SXianjun Jiao } 733838a9007SXianjun Jiao // -------------------- end of Map Linux/SW "prio" to hardware "queue_idx" ------------------ 734838a9007SXianjun Jiao // get other info from packet header 7352ee67178SXianjun Jiao addr1_high16 = *((u16*)(hdr->addr1)); 736f738aefaSmmehari if (len_mpdu>=20) { 7372ee67178SXianjun Jiao addr2_low32 = *((u32*)(hdr->addr2+2)); 7382ee67178SXianjun Jiao addr2_high16 = *((u16*)(hdr->addr2)); 7392ee67178SXianjun Jiao } 740f738aefaSmmehari if (len_mpdu>=26) { 7412ee67178SXianjun Jiao addr3_low32 = *((u32*)(hdr->addr3+2)); 7422ee67178SXianjun Jiao addr3_high16 = *((u16*)(hdr->addr3)); 7432ee67178SXianjun Jiao } 7442ee67178SXianjun Jiao 7452ee67178SXianjun Jiao duration_id = hdr->duration_id; 7462ee67178SXianjun Jiao frame_control=hdr->frame_control; 7472ee67178SXianjun Jiao ack_flag = (info->flags&IEEE80211_TX_CTL_NO_ACK); 7482ee67178SXianjun Jiao fc_type = ((frame_control)>>2)&3; 7492ee67178SXianjun Jiao fc_subtype = ((frame_control)>>4)&0xf; 7502ee67178SXianjun Jiao fc_flag = ( fc_type==2 || fc_type==0 || (fc_type==1 && (fc_subtype==8 || fc_subtype==9 || fc_subtype==10) ) ); 7512ee67178SXianjun Jiao //if it is broadcasting or multicasting addr 7522ee67178SXianjun Jiao addr_flag = ( (addr1_low32==0 && addr1_high16==0) || 7532ee67178SXianjun Jiao (addr1_low32==0xFFFFFFFF && addr1_high16==0xFFFF) || 7542ee67178SXianjun Jiao (addr1_high16==0x3333) || 7552ee67178SXianjun Jiao (addr1_high16==0x0001 && hdr->addr1[2]==0x5E) ); 7562ee67178SXianjun Jiao if ( fc_flag && ( !addr_flag ) && (!ack_flag) ) { // unicast data frame 7572ee67178SXianjun Jiao pkt_need_ack = 1; //FPGA need to wait ACK after this pkt sent 7582ee67178SXianjun Jiao } else { 7592ee67178SXianjun Jiao pkt_need_ack = 0; 7602ee67178SXianjun Jiao } 7612ee67178SXianjun Jiao 762838a9007SXianjun Jiao // get Linux rate (MCS) setting 763838a9007SXianjun Jiao rate_hw_value = ieee80211_get_tx_rate(dev, info)->hw_value; 7642ee67178SXianjun Jiao //rate_hw_value = 10; //4:6M, 5:9M, 6:12M, 7:18M, 8:24M, 9:36M, 10:48M, 11:54M 765838a9007SXianjun Jiao if (priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE]>0 && fc_type==2 && (!addr_flag)) //rate override command 766838a9007SXianjun Jiao rate_hw_value = priv->drv_tx_reg_val[DRV_TX_REG_IDX_RATE]; 7672ee67178SXianjun Jiao 7682ee67178SXianjun Jiao retry_limit_raw = info->control.rates[0].count; 7692ee67178SXianjun Jiao 7702ee67178SXianjun Jiao rc_flags = info->control.rates[0].flags; 7712ee67178SXianjun Jiao use_rts_cts = ((rc_flags&IEEE80211_TX_RC_USE_RTS_CTS)!=0); 7722ee67178SXianjun Jiao use_cts_protect = ((rc_flags&IEEE80211_TX_RC_USE_CTS_PROTECT)!=0); 773b6d71713Smmehari use_ht_rate = ((rc_flags&IEEE80211_TX_RC_MCS)!=0); 774b6d71713Smmehari use_short_gi = ((rc_flags&IEEE80211_TX_RC_SHORT_GI)!=0); 775f738aefaSmmehari use_ht_aggr = ((info->flags&IEEE80211_TX_CTL_AMPDU)!=0); 7762ee67178SXianjun Jiao 7772ee67178SXianjun Jiao if (use_rts_cts) 778838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d use_rts_cts is not supported!\n", sdr_compatible_str, ring->bd_wr_idx); 7792ee67178SXianjun Jiao 7802ee67178SXianjun Jiao if (use_cts_protect) { 7812ee67178SXianjun Jiao cts_rate_hw_value = ieee80211_get_rts_cts_rate(dev, info)->hw_value; 782f738aefaSmmehari cts_duration = le16_to_cpu(ieee80211_ctstoself_duration(dev,info->control.vif,len_mpdu,info)); 7832ee67178SXianjun Jiao } else if (force_use_cts_protect) { // could override mac80211 setting here. 7842ee67178SXianjun Jiao cts_rate_hw_value = 4; //wifi_mcs_table_11b_force_up[] translate it to 1011(6M) 7852ee67178SXianjun Jiao sifs = (priv->actual_rx_lo<2500?10:16); 7862ee67178SXianjun Jiao if (pkt_need_ack) 7872ee67178SXianjun Jiao ack_duration = 44;//assume the ack we wait use 6Mbps: 4*ceil((22+14*8)/24) + 20(preamble+SIGNAL) 788f738aefaSmmehari traffic_pkt_duration = 20 + 4*(((22+len_mpdu*8)/wifi_n_dbps_table[rate_hw_value])+1); 7892ee67178SXianjun Jiao cts_duration = traffic_pkt_duration + sifs + pkt_need_ack*(sifs+ack_duration); 7902ee67178SXianjun Jiao } 7912ee67178SXianjun Jiao 7920a92505dSXianjun Jiao // this is 11b stuff 7930a92505dSXianjun Jiao // if (info->flags&IEEE80211_TX_RC_USE_SHORT_PREAMBLE) 7940a92505dSXianjun Jiao // printk("%s openwifi_tx: WARNING IEEE80211_TX_RC_USE_SHORT_PREAMBLE\n", sdr_compatible_str); 7950a92505dSXianjun Jiao 796f738aefaSmmehari if (len_mpdu>=28) { 7970a92505dSXianjun Jiao if (info->flags & IEEE80211_TX_CTL_ASSIGN_SEQ) { 7980a92505dSXianjun Jiao if (info->flags & IEEE80211_TX_CTL_FIRST_FRAGMENT) 7990a92505dSXianjun Jiao priv->seqno += 0x10; 8000a92505dSXianjun Jiao hdr->seq_ctrl &= cpu_to_le16(IEEE80211_SCTL_FRAG); 8010a92505dSXianjun Jiao hdr->seq_ctrl |= cpu_to_le16(priv->seqno); 8020a92505dSXianjun Jiao } 8030a92505dSXianjun Jiao sc = hdr->seq_ctrl; 8040a92505dSXianjun Jiao } 8050a92505dSXianjun Jiao 8067cf9ba6eSXianjun Jiao if ( ( (!addr_flag)||(priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG]&4) ) && (priv->drv_tx_reg_val[DRV_TX_REG_IDX_PRINT_CFG]&2) ) 807f738aefaSmmehari 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, 808f738aefaSmmehari 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, 8092ee67178SXianjun Jiao reverse16(addr1_high16), reverse32(addr1_low32), reverse16(addr2_high16), reverse32(addr2_low32), reverse16(addr3_high16), reverse32(addr3_low32), 810838a9007SXianjun Jiao sc, info->flags, retry_limit_raw, pkt_need_ack, prio, queue_idx, 811838a9007SXianjun Jiao // use_rts_cts,use_cts_protect|force_use_cts_protect,wifi_rate_all[cts_rate_hw_value],cts_duration, 8122ee67178SXianjun Jiao ring->bd_wr_idx,ring->bd_rd_idx); 813febc5adfSXianjun Jiao 8142ee67178SXianjun Jiao // printk("%s openwifi_tx: rate&try: %d %d %03x; %d %d %03x; %d %d %03x; %d %d %03x\n", sdr_compatible_str, 8152ee67178SXianjun Jiao // info->status.rates[0].idx,info->status.rates[0].count,info->status.rates[0].flags, 8162ee67178SXianjun Jiao // info->status.rates[1].idx,info->status.rates[1].count,info->status.rates[1].flags, 8172ee67178SXianjun Jiao // info->status.rates[2].idx,info->status.rates[2].count,info->status.rates[2].flags, 8182ee67178SXianjun Jiao // info->status.rates[3].idx,info->status.rates[3].count,info->status.rates[3].flags); 8192ee67178SXianjun Jiao 8202ee67178SXianjun Jiao // -----------end of preprocess some info from header and skb---------------- 8212ee67178SXianjun Jiao 8222ee67178SXianjun Jiao // /* HW will perform RTS-CTS when only RTS flags is set. 8232ee67178SXianjun Jiao // * HW will perform CTS-to-self when both RTS and CTS flags are set. 8242ee67178SXianjun Jiao // * RTS rate and RTS duration will be used also for CTS-to-self. 8252ee67178SXianjun Jiao // */ 8262ee67178SXianjun Jiao // if (rc_flags & IEEE80211_TX_RC_USE_RTS_CTS) { 8272ee67178SXianjun Jiao // tx_flags |= ieee80211_get_rts_cts_rate(dev, info)->hw_value << 19; 8282ee67178SXianjun Jiao // rts_duration = ieee80211_rts_duration(dev, priv->vif[0], // assume all vif have the same config 829f738aefaSmmehari // len_mpdu, info); 8302ee67178SXianjun Jiao // printk("%s openwifi_tx: rc_flags & IEEE80211_TX_RC_USE_RTS_CTS\n", sdr_compatible_str); 8312ee67178SXianjun Jiao // } else if (rc_flags & IEEE80211_TX_RC_USE_CTS_PROTECT) { 8322ee67178SXianjun Jiao // tx_flags |= ieee80211_get_rts_cts_rate(dev, info)->hw_value << 19; 8332ee67178SXianjun Jiao // rts_duration = ieee80211_ctstoself_duration(dev, priv->vif[0], // assume all vif have the same config 834f738aefaSmmehari // len_mpdu, info); 8352ee67178SXianjun Jiao // printk("%s openwifi_tx: rc_flags & IEEE80211_TX_RC_USE_CTS_PROTECT\n", sdr_compatible_str); 8362ee67178SXianjun Jiao // } 8372ee67178SXianjun Jiao 838f738aefaSmmehari if(use_ht_aggr) 839f738aefaSmmehari { 840f738aefaSmmehari qos_hdr = ieee80211_get_qos_ctl(hdr); 841f738aefaSmmehari if(ieee80211_is_data_qos(frame_control) == false || qos_hdr[0] != priv->tid) 842f738aefaSmmehari { 843f738aefaSmmehari printk("%s openwifi_tx: WARNING packet is either not qos or tid %u does not match registered tid %u\n", sdr_compatible_str, qos_hdr[0], priv->tid); 844f738aefaSmmehari goto openwifi_tx_early_out; 845f738aefaSmmehari } 846f738aefaSmmehari 847f738aefaSmmehari // psdu = [ MPDU DEL | MPDU | CRC | MPDU padding ] 848f738aefaSmmehari len_mpdu_delim_pad = ((len_mpdu + LEN_PHY_CRC)%4 == 0) ? 0 :(4 - (len_mpdu + LEN_PHY_CRC)%4); 849f738aefaSmmehari len_psdu = LEN_MPDU_DELIM + len_mpdu + LEN_PHY_CRC + len_mpdu_delim_pad; 850f738aefaSmmehari 8519cd584f8Smmehari if( (addr1_low32 != addr1_low32_prev) || (addr1_high16 != addr1_high16_prev) || (duration_id != duration_id_prev) || 8529cd584f8Smmehari (rate_hw_value != rate_hw_value_prev) || (use_short_gi != use_short_gi_prev) || 8539cd584f8Smmehari (prio != prio_prev) || (retry_limit_raw != retry_limit_raw_prev) || (pkt_need_ack != pkt_need_ack_prev) ) 854f738aefaSmmehari { 8559cd584f8Smmehari addr1_low32_prev = addr1_low32; 8569cd584f8Smmehari addr1_high16_prev = addr1_high16; 8579cd584f8Smmehari duration_id_prev = duration_id; 858f738aefaSmmehari rate_hw_value_prev = rate_hw_value; 859f738aefaSmmehari use_short_gi_prev = use_short_gi; 860f738aefaSmmehari prio_prev = prio; 861f738aefaSmmehari retry_limit_raw_prev = retry_limit_raw; 862f738aefaSmmehari pkt_need_ack_prev = pkt_need_ack; 863f738aefaSmmehari 864f738aefaSmmehari ht_aggr_start = true; 865f738aefaSmmehari } 866f738aefaSmmehari } 867f738aefaSmmehari else 868f738aefaSmmehari { 869f738aefaSmmehari // psdu = [ MPDU ] 870f738aefaSmmehari len_psdu = len_mpdu; 871f738aefaSmmehari 8729cd584f8Smmehari addr1_low32_prev = -1; 8739cd584f8Smmehari addr1_high16_prev = -1; 8749cd584f8Smmehari duration_id_prev = -1; 875c0981124Smmehari use_short_gi_prev = -1; 876f738aefaSmmehari rate_hw_value_prev = -1; 877f738aefaSmmehari prio_prev = -1; 878f738aefaSmmehari retry_limit_raw_prev = -1; 879f738aefaSmmehari pkt_need_ack_prev = -1; 880f738aefaSmmehari } 881f738aefaSmmehari 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); 882f738aefaSmmehari 883f738aefaSmmehari // check whether the packet is bigger than DMA buffer size 884f738aefaSmmehari num_dma_byte = (num_dma_symbol<<TX_INTF_NUM_BYTE_PER_DMA_SYMBOL_IN_BITS); 885f738aefaSmmehari if (num_dma_byte > TX_BD_BUF_SIZE) { 886f738aefaSmmehari printk("%s openwifi_tx: WARNING sn %d num_dma_byte > TX_BD_BUF_SIZE\n", sdr_compatible_str, ring->bd_wr_idx); 887f738aefaSmmehari goto openwifi_tx_early_out; 888f738aefaSmmehari } 889f738aefaSmmehari 890f738aefaSmmehari // Copy MPDU delimiter and padding into sk_buff 891f738aefaSmmehari if(use_ht_aggr) 892f738aefaSmmehari { 8932ee67178SXianjun Jiao // when skb does not have enough headroom, skb_push will cause kernel panic. headroom needs to be extended if necessary 894f738aefaSmmehari if (skb_headroom(skb)<LEN_MPDU_DELIM) { 895f738aefaSmmehari struct sk_buff *skb_new; // in case original skb headroom is not enough to host MPDU delimiter 896f738aefaSmmehari printk("%s openwifi_tx: WARNING sn %d skb_headroom(skb)<LEN_MPDU_DELIM\n", sdr_compatible_str, ring->bd_wr_idx); 897f738aefaSmmehari if ((skb_new = skb_realloc_headroom(skb, LEN_MPDU_DELIM)) == NULL) { 898838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d skb_realloc_headroom failed!\n", sdr_compatible_str, ring->bd_wr_idx); 8992ee67178SXianjun Jiao goto openwifi_tx_early_out; 9002ee67178SXianjun Jiao } 9012ee67178SXianjun Jiao if (skb->sk != NULL) 9022ee67178SXianjun Jiao skb_set_owner_w(skb_new, skb->sk); 9032ee67178SXianjun Jiao dev_kfree_skb(skb); 9042ee67178SXianjun Jiao skb = skb_new; 9052ee67178SXianjun Jiao } 906f738aefaSmmehari skb_push( skb, LEN_MPDU_DELIM ); 907f738aefaSmmehari dma_buf = skb->data; 9082ee67178SXianjun Jiao 909f738aefaSmmehari // fill in MPDU delimiter 910f738aefaSmmehari *((u16*)(dma_buf+0)) = ((u16)(len_mpdu+LEN_PHY_CRC) << 4) & 0xFFF0; 911f738aefaSmmehari *((u8 *)(dma_buf+2)) = gen_mpdu_delim_crc(*((u16 *)dma_buf)); 912f738aefaSmmehari *((u8 *)(dma_buf+3)) = 0x4e; 913b6d71713Smmehari 914f738aefaSmmehari // Extend sk_buff to hold CRC + MPDU padding + empty MPDU delimiter 915f738aefaSmmehari num_byte_pad = num_dma_byte - (LEN_MPDU_DELIM + len_mpdu); 9162ee67178SXianjun Jiao if (skb_tailroom(skb)<num_byte_pad) { 917838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d skb_tailroom(skb)<num_byte_pad!\n", sdr_compatible_str, ring->bd_wr_idx); 9182ee67178SXianjun Jiao goto openwifi_tx_early_out; 9192ee67178SXianjun Jiao } 9202ee67178SXianjun Jiao skb_put( skb, num_byte_pad ); 9212ee67178SXianjun Jiao 922f738aefaSmmehari // fill in MPDU CRC 923f738aefaSmmehari *((u32*)(dma_buf+LEN_MPDU_DELIM+len_mpdu)) = gen_mpdu_crc(dma_buf+LEN_MPDU_DELIM, len_mpdu); 924f738aefaSmmehari 925f738aefaSmmehari // fill in MPDU delimiter padding 926f738aefaSmmehari memset(dma_buf+LEN_MPDU_DELIM+len_mpdu+LEN_PHY_CRC, 0, len_mpdu_delim_pad); 927f738aefaSmmehari 928f738aefaSmmehari // num_dma_byte is on 8-byte boundary and len_psdu is on 4 byte boundary. 929f738aefaSmmehari // If they have different lengths, add "empty MPDU delimiter" for alignment 930f738aefaSmmehari if(num_dma_byte == len_psdu + 4) 931f738aefaSmmehari { 932f738aefaSmmehari *((u32*)(dma_buf+len_psdu)) = 0x4e140000; 933f738aefaSmmehari len_psdu = num_dma_byte; 934f738aefaSmmehari } 935f738aefaSmmehari } 936f738aefaSmmehari else 937f738aefaSmmehari { 938c0981124Smmehari // Extend sk_buff to hold padding 939c0981124Smmehari num_byte_pad = num_dma_byte - len_mpdu; 940c0981124Smmehari if (skb_tailroom(skb)<num_byte_pad) { 941c0981124Smmehari printk("%s openwifi_tx: WARNING sn %d skb_tailroom(skb)<num_byte_pad!\n", sdr_compatible_str, ring->bd_wr_idx); 942c0981124Smmehari goto openwifi_tx_early_out; 943c0981124Smmehari } 944c0981124Smmehari skb_put( skb, num_byte_pad ); 945c0981124Smmehari 9462ee67178SXianjun Jiao dma_buf = skb->data; 947f738aefaSmmehari } 948f738aefaSmmehari // for(i = 0; i <= num_dma_symbol; i++) 949f738aefaSmmehari // printk("%16llx\n", (*(u64*)(&(dma_buf[i*8])))); 950f738aefaSmmehari 951f738aefaSmmehari rate_signal_value = (use_ht_rate ? rate_hw_value : wifi_mcs_table_11b_force_up[rate_hw_value]); 952f738aefaSmmehari 953f738aefaSmmehari retry_limit_hw_value = ( retry_limit_raw==0?0:((retry_limit_raw - 1)&0xF) ); 9542ee67178SXianjun Jiao 9552ee67178SXianjun Jiao cts_rate_signal_value = wifi_mcs_table_11b_force_up[cts_rate_hw_value]; 956f738aefaSmmehari 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); 957f738aefaSmmehari tx_config = ( prio<<26 | ring->bd_wr_idx<<20 | queue_idx<<18 | retry_limit_hw_value<<14 | pkt_need_ack<<13 | (len_mpdu+LEN_PHY_CRC) ); 958f738aefaSmmehari 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 ); 9592ee67178SXianjun Jiao 9602ee67178SXianjun Jiao /* We must be sure that tx_flags is written last because the HW 9612ee67178SXianjun Jiao * looks at it to check if the rest of data is valid or not 9622ee67178SXianjun Jiao */ 9632ee67178SXianjun Jiao //wmb(); 9642ee67178SXianjun Jiao // entry->flags = cpu_to_le32(tx_flags); 965b1dd94e3Sluz paz /* We must be sure this has been written before following HW 966b1dd94e3Sluz paz * register write, because this write will make the HW attempts 9672ee67178SXianjun Jiao * to DMA the just-written data 9682ee67178SXianjun Jiao */ 9692ee67178SXianjun Jiao //wmb(); 9702ee67178SXianjun Jiao 971838a9007SXianjun Jiao spin_lock_irqsave(&priv->lock, flags); // from now on, we'd better avoid interrupt because ring->stop_flag is shared with interrupt 972838a9007SXianjun Jiao 973838a9007SXianjun Jiao // -------------check whether FPGA dma fifo and queue (queue_idx) has enough room------------- 9740c0d5d82Smmehari dma_fifo_no_room_flag = tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read(); 9750c0d5d82Smmehari hw_queue_len = tx_intf_api->TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read(); 9760c0d5d82Smmehari 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 ) { 977838a9007SXianjun 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 9780c0d5d82Smmehari 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, 9790c0d5d82Smmehari prio, queue_idx, dma_fifo_no_room_flag, hw_queue_len, num_dma_symbol, ring->bd_wr_idx, ring->bd_rd_idx); 980838a9007SXianjun Jiao ring->stop_flag = 1; 9810c0d5d82Smmehari goto openwifi_tx_early_out_after_lock; 982838a9007SXianjun Jiao } 983838a9007SXianjun Jiao // --------end of check whether FPGA fifo (queue_idx) has enough room------------ 984838a9007SXianjun Jiao 985838a9007SXianjun Jiao status = dma_async_is_tx_complete(priv->tx_chan, priv->tx_cookie, NULL, NULL); 986838a9007SXianjun Jiao if (status!=DMA_COMPLETE) { 987838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING status!=DMA_COMPLETE\n", sdr_compatible_str); 988838a9007SXianjun Jiao goto openwifi_tx_early_out_after_lock; 989838a9007SXianjun Jiao } 990838a9007SXianjun Jiao 9912ee67178SXianjun Jiao //-------------------------fire skb DMA to hardware---------------------------------- 9922ee67178SXianjun Jiao dma_mapping_addr = dma_map_single(priv->tx_chan->device->dev, dma_buf, 9932ee67178SXianjun Jiao num_dma_byte, DMA_MEM_TO_DEV); 9942ee67178SXianjun Jiao 9952ee67178SXianjun Jiao if (dma_mapping_error(priv->tx_chan->device->dev,dma_mapping_addr)) { 996838a9007SXianjun Jiao // dev_err(priv->tx_chan->device->dev, "sdr,sdr openwifi_tx: WARNING TX DMA mapping error\n"); 997838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d TX DMA mapping error\n", sdr_compatible_str, ring->bd_wr_idx); 998838a9007SXianjun Jiao goto openwifi_tx_early_out_after_lock; 9992ee67178SXianjun Jiao } 10002ee67178SXianjun Jiao 100122dd0cc4SXianjun Jiao sg_init_table(&(priv->tx_sg), 1); // only need to be initialized once in openwifi_start 10022ee67178SXianjun Jiao sg_dma_address( &(priv->tx_sg) ) = dma_mapping_addr; 10032ee67178SXianjun Jiao sg_dma_len( &(priv->tx_sg) ) = num_dma_byte; 10042ee67178SXianjun Jiao 10052ee67178SXianjun Jiao tx_intf_api->TX_INTF_REG_CTS_TOSELF_CONFIG_write(cts_reg); 1006f738aefaSmmehari tx_intf_api->TX_INTF_REG_TX_CONFIG_write(tx_config); 1007f738aefaSmmehari tx_intf_api->TX_INTF_REG_PHY_HDR_CONFIG_write(phy_hdr_config); 10082ee67178SXianjun 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); 10092ee67178SXianjun Jiao if (!(priv->txd)) { 1010838a9007SXianjun Jiao printk("%s openwifi_tx: WARNING sn %d device_prep_slave_sg %p\n", sdr_compatible_str, ring->bd_wr_idx, (void*)(priv->txd)); 10112ee67178SXianjun Jiao goto openwifi_tx_after_dma_mapping; 10122ee67178SXianjun Jiao } 10132ee67178SXianjun Jiao 10142ee67178SXianjun Jiao priv->tx_cookie = priv->txd->tx_submit(priv->txd); 10152ee67178SXianjun Jiao 10162ee67178SXianjun Jiao if (dma_submit_error(priv->tx_cookie)) { 1017838a9007SXianjun 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)); 10182ee67178SXianjun Jiao goto openwifi_tx_after_dma_mapping; 10192ee67178SXianjun Jiao } 10202ee67178SXianjun Jiao 1021b1dd94e3Sluz paz // seems everything is ok. let's mark this pkt in bd descriptor ring 1022f738aefaSmmehari ring->bds[ring->bd_wr_idx].seq_no = (sc&IEEE80211_SCTL_SEQ)>>4; 10232ee67178SXianjun Jiao ring->bds[ring->bd_wr_idx].skb_linked = skb; 10242ee67178SXianjun Jiao ring->bds[ring->bd_wr_idx].dma_mapping_addr = dma_mapping_addr; 10252ee67178SXianjun Jiao 10262ee67178SXianjun Jiao ring->bd_wr_idx = ((ring->bd_wr_idx+1)&(NUM_TX_BD-1)); 10272ee67178SXianjun Jiao 10282ee67178SXianjun Jiao dma_async_issue_pending(priv->tx_chan); 10292ee67178SXianjun Jiao 10302ee67178SXianjun Jiao spin_unlock_irqrestore(&priv->lock, flags); 10312ee67178SXianjun Jiao 10322ee67178SXianjun Jiao return; 10332ee67178SXianjun Jiao 10342ee67178SXianjun Jiao openwifi_tx_after_dma_mapping: 10352ee67178SXianjun Jiao dma_unmap_single(priv->tx_chan->device->dev, dma_mapping_addr, num_dma_byte, DMA_MEM_TO_DEV); 10362ee67178SXianjun Jiao 1037838a9007SXianjun Jiao openwifi_tx_early_out_after_lock: 1038838a9007SXianjun Jiao dev_kfree_skb(skb); 10392ee67178SXianjun Jiao spin_unlock_irqrestore(&priv->lock, flags); 1040838a9007SXianjun 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); 1041838a9007SXianjun Jiao return; 10422ee67178SXianjun Jiao 10432ee67178SXianjun Jiao openwifi_tx_early_out: 10442ee67178SXianjun Jiao dev_kfree_skb(skb); 1045838a9007SXianjun 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); 10462ee67178SXianjun Jiao } 10472ee67178SXianjun Jiao 10482ee67178SXianjun Jiao static int openwifi_start(struct ieee80211_hw *dev) 10492ee67178SXianjun Jiao { 10502ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 10512ee67178SXianjun Jiao int ret, i, rssi_half_db_offset, agc_gain_delay;//rssi_half_db_th, 10522ee67178SXianjun Jiao u32 reg; 10532ee67178SXianjun Jiao 10542ee67178SXianjun Jiao for (i=0; i<MAX_NUM_VIF; i++) { 10552ee67178SXianjun Jiao priv->vif[i] = NULL; 10562ee67178SXianjun Jiao } 10572ee67178SXianjun Jiao 1058838a9007SXianjun Jiao memset(priv->drv_tx_reg_val, 0, sizeof(priv->drv_tx_reg_val)); 1059838a9007SXianjun Jiao memset(priv->drv_rx_reg_val, 0, sizeof(priv->drv_rx_reg_val)); 1060838a9007SXianjun Jiao memset(priv->drv_xpu_reg_val, 0, sizeof(priv->drv_xpu_reg_val)); 10610a92505dSXianjun Jiao priv->drv_xpu_reg_val[DRV_XPU_REG_IDX_GIT_REV] = GIT_REV; 1062838a9007SXianjun Jiao 10632ee67178SXianjun Jiao //turn on radio 10642ee67178SXianjun Jiao if (priv->tx_intf_cfg == TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1) { 10652ee67178SXianjun Jiao ad9361_set_tx_atten(priv->ad9361_phy, AD9361_RADIO_ON_TX_ATT, false, true, true); // AD9361_RADIO_ON_TX_ATT 3000 means 3dB, 0 means 0dB 10662ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 10672ee67178SXianjun Jiao } else { 10682ee67178SXianjun Jiao ad9361_set_tx_atten(priv->ad9361_phy, AD9361_RADIO_ON_TX_ATT, true, false, true); // AD9361_RADIO_ON_TX_ATT 3000 means 3dB, 0 means 0dB 10692ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 1); 10702ee67178SXianjun Jiao } 10712ee67178SXianjun Jiao if (reg == AD9361_RADIO_ON_TX_ATT) { 10722ee67178SXianjun Jiao priv->rfkill_off = 1;// 0 off, 1 on 10732ee67178SXianjun Jiao printk("%s openwifi_start: rfkill radio on\n",sdr_compatible_str); 10742ee67178SXianjun Jiao } 10752ee67178SXianjun Jiao else 10762ee67178SXianjun 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); 10772ee67178SXianjun Jiao 10782ee67178SXianjun Jiao if (priv->rx_intf_cfg == RX_INTF_BW_20MHZ_AT_0MHZ_ANT0) 10792ee67178SXianjun Jiao priv->ctrl_out.index=0x16; 10802ee67178SXianjun Jiao else 10812ee67178SXianjun Jiao priv->ctrl_out.index=0x17; 10822ee67178SXianjun Jiao 10832ee67178SXianjun Jiao ret = ad9361_ctrl_outs_setup(priv->ad9361_phy, &(priv->ctrl_out)); 10842ee67178SXianjun Jiao if (ret < 0) { 10852ee67178SXianjun Jiao printk("%s openwifi_start: WARNING ad9361_ctrl_outs_setup %d\n",sdr_compatible_str, ret); 10862ee67178SXianjun Jiao } else { 10872ee67178SXianjun Jiao printk("%s openwifi_start: ad9361_ctrl_outs_setup en_mask 0x%02x index 0x%02x\n",sdr_compatible_str, priv->ctrl_out.en_mask, priv->ctrl_out.index); 10882ee67178SXianjun Jiao } 10892ee67178SXianjun Jiao 10902ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = rx_intf_fo_mapping[priv->rx_intf_cfg]; 10912ee67178SXianjun Jiao priv->tx_freq_offset_to_lo_MHz = tx_intf_fo_mapping[priv->tx_intf_cfg]; 10922ee67178SXianjun Jiao 10932ee67178SXianjun Jiao rx_intf_api->hw_init(priv->rx_intf_cfg,8,8); 10940c0d5d82Smmehari tx_intf_api->hw_init(priv->tx_intf_cfg,8,8,priv->fpga_type); 10952ee67178SXianjun Jiao openofdm_tx_api->hw_init(priv->openofdm_tx_cfg); 10962ee67178SXianjun Jiao openofdm_rx_api->hw_init(priv->openofdm_rx_cfg); 10972ee67178SXianjun Jiao xpu_api->hw_init(priv->xpu_cfg); 10982ee67178SXianjun Jiao 10992ee67178SXianjun Jiao agc_gain_delay = 50; //samples 110009316927SJiao Xianjun rssi_half_db_offset = 150; // to be consistent 11012ee67178SXianjun Jiao xpu_api->XPU_REG_RSSI_DB_CFG_write(0x80000000|((rssi_half_db_offset<<16)|agc_gain_delay) ); 11022ee67178SXianjun Jiao xpu_api->XPU_REG_RSSI_DB_CFG_write((~0x80000000)&((rssi_half_db_offset<<16)|agc_gain_delay) ); 11032ee67178SXianjun Jiao 11042ee67178SXianjun Jiao openofdm_rx_api->OPENOFDM_RX_REG_POWER_THRES_write(0); 1105b1dd94e3Sluz paz // rssi_half_db_th = 87<<1; // -62dBm // will setup in runtime in _rf_set_channel 11062ee67178SXianjun Jiao // xpu_api->XPU_REG_LBT_TH_write(rssi_half_db_th); // set IQ rssi th step .5dB to xxx and enable it 1107bb0a2c58SXianjun Jiao xpu_api->XPU_REG_FORCE_IDLE_MISC_write(75); //control the duration to force ch_idle after decoding a packet due to imperfection of agc and signals 11082ee67178SXianjun Jiao 1109febc5adfSXianjun Jiao //xpu_api->XPU_REG_SEND_ACK_WAIT_TOP_write( ((40)<<16)|0 );//high 16bit 5GHz; low 16 bit 2.4GHz (Attention, current tx core has around 1.19us starting delay that makes the ack fall behind 10us SIFS in 2.4GHz! Need to improve TX in 2.4GHz!) 1110febc5adfSXianjun Jiao //xpu_api->XPU_REG_SEND_ACK_WAIT_TOP_write( ((51)<<16)|0 );//now our tx send out I/Q immediately 1111febc5adfSXianjun Jiao xpu_api->XPU_REG_SEND_ACK_WAIT_TOP_write( ((51+23)<<16)|(0+23) );//we have more time when we use FIR in AD9361 11122ee67178SXianjun Jiao 11132238b42bSweiliu xpu_api->XPU_REG_RECV_ACK_COUNT_TOP0_write( (1<<31) | (((45+2+2)*10 + 15)<<16) | 10 );//2.4GHz. extra 300 clocks are needed when rx core fall into fake ht detection phase (rx mcs 6M) 11142238b42bSweiliu xpu_api->XPU_REG_RECV_ACK_COUNT_TOP1_write( (1<<31) | (((51+2+2)*10 + 15)<<16) | 10 );//5GHz. extra 300 clocks are needed when rx core fall into fake ht detection phase (rx mcs 6M) 11152ee67178SXianjun Jiao 1116febc5adfSXianjun Jiao tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write( ((16*10)<<16)|(10*10) );//high 16bit 5GHz; low 16 bit 2.4GHz. counter speed 10MHz is assumed 11172ee67178SXianjun Jiao 11185deb8d18SXianjun Jiao // //xpu_api->XPU_REG_BB_RF_DELAY_write(51); // fine tuned value at 0.005us. old: dac-->ant port: 0.6us, 57 taps fir at 40MHz: 1.425us; round trip: 2*(0.6+1.425)=4.05us; 4.05*10=41 11195deb8d18SXianjun Jiao // xpu_api->XPU_REG_BB_RF_DELAY_write(47);//add .5us for slightly longer fir -- already in xpu.c 11202ee67178SXianjun Jiao xpu_api->XPU_REG_MAC_ADDR_write(priv->mac_addr); 11212ee67178SXianjun Jiao 1122838a9007SXianjun Jiao // setup time schedule of 4 slices 1123838a9007SXianjun Jiao // slice 0 1124838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_TOTAL_write(50000-1); // total 50ms 1125838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_START_write(0); //start 0ms 1126838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_END_write(50000-1); //end 50ms 1127838a9007SXianjun Jiao 1128838a9007SXianjun Jiao // slice 1 1129838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_TOTAL_write((1<<20)|(50000-1)); // total 50ms 1130838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_START_write((1<<20)|(0)); //start 0ms 1131838a9007SXianjun Jiao //xpu_api->XPU_REG_SLICE_COUNT_END_write((1<<20)|(20000-1)); //end 20ms 1132838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_END_write((1<<20)|(50000-1)); //end 20ms 1133838a9007SXianjun Jiao 1134838a9007SXianjun Jiao // slice 2 1135838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_TOTAL_write((2<<20)|(50000-1)); // total 50ms 1136838a9007SXianjun Jiao //xpu_api->XPU_REG_SLICE_COUNT_START_write((2<<20)|(20000)); //start 20ms 1137838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_START_write((2<<20)|(0)); //start 20ms 1138838a9007SXianjun Jiao //xpu_api->XPU_REG_SLICE_COUNT_END_write((2<<20)|(40000-1)); //end 20ms 1139838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_END_write((2<<20)|(50000-1)); //end 20ms 1140838a9007SXianjun Jiao 1141838a9007SXianjun Jiao // slice 3 1142838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_TOTAL_write((3<<20)|(50000-1)); // total 50ms 1143838a9007SXianjun Jiao //xpu_api->XPU_REG_SLICE_COUNT_START_write((3<<20)|(40000)); //start 40ms 1144838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_START_write((3<<20)|(0)); //start 40ms 1145838a9007SXianjun Jiao //xpu_api->XPU_REG_SLICE_COUNT_END_write((3<<20)|(50000-1)); //end 20ms 1146838a9007SXianjun Jiao xpu_api->XPU_REG_SLICE_COUNT_END_write((3<<20)|(50000-1)); //end 20ms 1147838a9007SXianjun Jiao 1148838a9007SXianjun Jiao // all slice sync rest 1149838a9007SXianjun Jiao xpu_api->XPU_REG_MULTI_RST_write(1<<7); //bit7 reset the counter for all queues at the same time 1150838a9007SXianjun Jiao xpu_api->XPU_REG_MULTI_RST_write(0<<7); 11512ee67178SXianjun Jiao 11522ee67178SXianjun Jiao //xpu_api->XPU_REG_MAC_ADDR_HIGH_write( (*( (u16*)(priv->mac_addr + 4) )) ); 11532ee67178SXianjun 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); 11542ee67178SXianjun 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); 11552ee67178SXianjun Jiao 115622dd0cc4SXianjun Jiao tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x30004); //disable tx interrupt 11572ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_INTERRUPT_TEST_write(0x100); // disable rx interrupt by interrupt test mode 11582ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_M_AXIS_RST_write(1); // hold M AXIS in reset status 11592ee67178SXianjun Jiao 11602ee67178SXianjun Jiao if (test_mode==1) { 11612ee67178SXianjun Jiao printk("%s openwifi_start: test_mode==1\n",sdr_compatible_str); 11622ee67178SXianjun Jiao goto normal_out; 11632ee67178SXianjun Jiao } 11642ee67178SXianjun Jiao 11652ee67178SXianjun Jiao priv->rx_chan = dma_request_slave_channel(&(priv->pdev->dev), "rx_dma_s2mm"); 1166c687b19dSXianjun Jiao if (IS_ERR(priv->rx_chan) || priv->rx_chan==NULL) { 11672ee67178SXianjun Jiao ret = PTR_ERR(priv->rx_chan); 1168c687b19dSXianjun Jiao pr_err("%s openwifi_start: No Rx channel ret %d priv->rx_chan 0x%p\n",sdr_compatible_str, ret, priv->rx_chan); 11692ee67178SXianjun Jiao goto err_dma; 11702ee67178SXianjun Jiao } 11712ee67178SXianjun Jiao 11722ee67178SXianjun Jiao priv->tx_chan = dma_request_slave_channel(&(priv->pdev->dev), "tx_dma_mm2s"); 1173c687b19dSXianjun Jiao if (IS_ERR(priv->tx_chan) || priv->tx_chan==NULL) { 11742ee67178SXianjun Jiao ret = PTR_ERR(priv->tx_chan); 1175c687b19dSXianjun Jiao pr_err("%s openwifi_start: No Tx channel ret %d priv->tx_chan 0x%p\n",sdr_compatible_str, ret, priv->tx_chan); 11762ee67178SXianjun Jiao goto err_dma; 11772ee67178SXianjun Jiao } 1178c687b19dSXianjun 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); 11792ee67178SXianjun Jiao 11802ee67178SXianjun Jiao ret = openwifi_init_rx_ring(priv); 11812ee67178SXianjun Jiao if (ret) { 11822ee67178SXianjun Jiao printk("%s openwifi_start: openwifi_init_rx_ring ret %d\n", sdr_compatible_str,ret); 11832ee67178SXianjun Jiao goto err_free_rings; 11842ee67178SXianjun Jiao } 11852ee67178SXianjun Jiao 11862ee67178SXianjun Jiao priv->seqno=0; 1187838a9007SXianjun Jiao for (i=0; i<MAX_NUM_SW_QUEUE; i++) { 1188838a9007SXianjun Jiao if ((ret = openwifi_init_tx_ring(priv, i))) { 1189838a9007SXianjun Jiao printk("%s openwifi_start: openwifi_init_tx_ring %d ret %d\n", sdr_compatible_str, i, ret); 11902ee67178SXianjun Jiao goto err_free_rings; 11912ee67178SXianjun Jiao } 1192838a9007SXianjun Jiao } 11932ee67178SXianjun Jiao 11942ee67178SXianjun Jiao if ( (ret = rx_dma_setup(dev)) ) { 11952ee67178SXianjun Jiao printk("%s openwifi_start: rx_dma_setup ret %d\n", sdr_compatible_str,ret); 11962ee67178SXianjun Jiao goto err_free_rings; 11972ee67178SXianjun Jiao } 11982ee67178SXianjun Jiao 11992ee67178SXianjun Jiao priv->irq_rx = irq_of_parse_and_map(priv->pdev->dev.of_node, 1); 12002ee67178SXianjun Jiao ret = request_irq(priv->irq_rx, openwifi_rx_interrupt, 12012ee67178SXianjun Jiao IRQF_SHARED, "sdr,rx_pkt_intr", dev); 12022ee67178SXianjun Jiao if (ret) { 12032ee67178SXianjun Jiao wiphy_err(dev->wiphy, "openwifi_start:failed to register IRQ handler openwifi_rx_interrupt\n"); 12042ee67178SXianjun Jiao goto err_free_rings; 12052ee67178SXianjun Jiao } else { 12062ee67178SXianjun Jiao printk("%s openwifi_start: irq_rx %d\n", sdr_compatible_str, priv->irq_rx); 12072ee67178SXianjun Jiao } 12082ee67178SXianjun Jiao 12092ee67178SXianjun Jiao priv->irq_tx = irq_of_parse_and_map(priv->pdev->dev.of_node, 3); 12102ee67178SXianjun Jiao ret = request_irq(priv->irq_tx, openwifi_tx_interrupt, 1211c24e0a04SXianjun Jiao IRQF_SHARED, "sdr,tx_itrpt", dev); 12122ee67178SXianjun Jiao if (ret) { 12132ee67178SXianjun Jiao wiphy_err(dev->wiphy, "openwifi_start: failed to register IRQ handler openwifi_tx_interrupt\n"); 12142ee67178SXianjun Jiao goto err_free_rings; 12152ee67178SXianjun Jiao } else { 12162ee67178SXianjun Jiao printk("%s openwifi_start: irq_tx %d\n", sdr_compatible_str, priv->irq_tx); 12172ee67178SXianjun Jiao } 12182ee67178SXianjun Jiao 12192ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_INTERRUPT_TEST_write(0x000); // enable rx interrupt get normal fcs valid pass through ddc to ARM 122022dd0cc4SXianjun Jiao tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x4); //enable tx interrupt 12212ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_M_AXIS_RST_write(0); // release M AXIS 12222ee67178SXianjun Jiao xpu_api->XPU_REG_TSF_LOAD_VAL_write(0,0); // reset tsf timer 12232ee67178SXianjun Jiao 12242ee67178SXianjun Jiao //ieee80211_wake_queue(dev, 0); 12252ee67178SXianjun Jiao 12262ee67178SXianjun Jiao normal_out: 12272ee67178SXianjun Jiao printk("%s openwifi_start: normal end\n", sdr_compatible_str); 12282ee67178SXianjun Jiao return 0; 12292ee67178SXianjun Jiao 12302ee67178SXianjun Jiao err_free_rings: 12312ee67178SXianjun Jiao openwifi_free_rx_ring(priv); 1232838a9007SXianjun Jiao for (i=0; i<MAX_NUM_SW_QUEUE; i++) 1233838a9007SXianjun Jiao openwifi_free_tx_ring(priv, i); 12342ee67178SXianjun Jiao 12352ee67178SXianjun Jiao err_dma: 12362ee67178SXianjun Jiao ret = -1; 12372ee67178SXianjun Jiao printk("%s openwifi_start: abnormal end ret %d\n", sdr_compatible_str, ret); 12382ee67178SXianjun Jiao return ret; 12392ee67178SXianjun Jiao } 12402ee67178SXianjun Jiao 12412ee67178SXianjun Jiao static void openwifi_stop(struct ieee80211_hw *dev) 12422ee67178SXianjun Jiao { 12432ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 12442ee67178SXianjun Jiao u32 reg, reg1; 12452ee67178SXianjun Jiao int i; 12462ee67178SXianjun Jiao 12472ee67178SXianjun Jiao if (test_mode==1){ 12482ee67178SXianjun Jiao pr_info("%s openwifi_stop: test_mode==1\n", sdr_compatible_str); 12492ee67178SXianjun Jiao goto normal_out; 12502ee67178SXianjun Jiao } 12512ee67178SXianjun Jiao 12522ee67178SXianjun Jiao //turn off radio 12532ee67178SXianjun Jiao #if 1 12542ee67178SXianjun Jiao ad9361_tx_mute(priv->ad9361_phy, 1); 12552ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 12562ee67178SXianjun Jiao reg1 = ad9361_get_tx_atten(priv->ad9361_phy, 1); 12572ee67178SXianjun Jiao if (reg == AD9361_RADIO_OFF_TX_ATT && reg1 == AD9361_RADIO_OFF_TX_ATT ) { 12582ee67178SXianjun Jiao priv->rfkill_off = 0;// 0 off, 1 on 12592ee67178SXianjun Jiao printk("%s openwifi_stop: rfkill radio off\n",sdr_compatible_str); 12602ee67178SXianjun Jiao } 12612ee67178SXianjun Jiao else 12622ee67178SXianjun 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); 12632ee67178SXianjun Jiao #endif 12642ee67178SXianjun Jiao 12652ee67178SXianjun Jiao //ieee80211_stop_queue(dev, 0); 126622dd0cc4SXianjun Jiao tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x30004); //disable tx interrupt 12672ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_INTERRUPT_TEST_write(0x100); // disable fcs_valid by interrupt test mode 12682ee67178SXianjun Jiao rx_intf_api->RX_INTF_REG_M_AXIS_RST_write(1); // hold M AXIS in reset status 12692ee67178SXianjun Jiao 12702ee67178SXianjun Jiao for (i=0; i<MAX_NUM_VIF; i++) { 12712ee67178SXianjun Jiao priv->vif[i] = NULL; 12722ee67178SXianjun Jiao } 12732ee67178SXianjun Jiao 12742ee67178SXianjun Jiao openwifi_free_rx_ring(priv); 1275838a9007SXianjun Jiao for (i=0; i<MAX_NUM_SW_QUEUE; i++) 1276838a9007SXianjun Jiao openwifi_free_tx_ring(priv, i); 12772ee67178SXianjun Jiao 12782ee67178SXianjun Jiao pr_info("%s openwifi_stop: dropped channel %s\n", sdr_compatible_str, dma_chan_name(priv->rx_chan)); 12792ee67178SXianjun Jiao dmaengine_terminate_all(priv->rx_chan); 12802ee67178SXianjun Jiao dma_release_channel(priv->rx_chan); 12812ee67178SXianjun Jiao pr_info("%s openwifi_stop: dropped channel %s\n", sdr_compatible_str, dma_chan_name(priv->tx_chan)); 12822ee67178SXianjun Jiao dmaengine_terminate_all(priv->tx_chan); 12832ee67178SXianjun Jiao dma_release_channel(priv->tx_chan); 12842ee67178SXianjun Jiao 12852ee67178SXianjun Jiao //priv->rf->stop(dev); 12862ee67178SXianjun Jiao 12872ee67178SXianjun Jiao free_irq(priv->irq_rx, dev); 12882ee67178SXianjun Jiao free_irq(priv->irq_tx, dev); 12892ee67178SXianjun Jiao 12902ee67178SXianjun Jiao normal_out: 12912ee67178SXianjun Jiao printk("%s openwifi_stop\n", sdr_compatible_str); 12922ee67178SXianjun Jiao } 12932ee67178SXianjun Jiao 12942ee67178SXianjun Jiao static u64 openwifi_get_tsf(struct ieee80211_hw *dev, 12952ee67178SXianjun Jiao struct ieee80211_vif *vif) 12962ee67178SXianjun Jiao { 12972ee67178SXianjun Jiao u32 tsft_low, tsft_high; 12982ee67178SXianjun Jiao 12992ee67178SXianjun Jiao tsft_low = xpu_api->XPU_REG_TSF_RUNTIME_VAL_LOW_read(); 13002ee67178SXianjun Jiao tsft_high = xpu_api->XPU_REG_TSF_RUNTIME_VAL_HIGH_read(); 13012ee67178SXianjun Jiao //printk("%s openwifi_get_tsf: %08x%08x\n", sdr_compatible_str,tsft_high,tsft_low); 13022ee67178SXianjun Jiao return( ( (u64)tsft_low ) | ( ((u64)tsft_high)<<32 ) ); 13032ee67178SXianjun Jiao } 13042ee67178SXianjun Jiao 13052ee67178SXianjun Jiao static void openwifi_set_tsf(struct ieee80211_hw *hw, struct ieee80211_vif *vif, u64 tsf) 13062ee67178SXianjun Jiao { 13072ee67178SXianjun Jiao u32 tsft_high = ((tsf >> 32)&0xffffffff); 13082ee67178SXianjun Jiao u32 tsft_low = (tsf&0xffffffff); 13092ee67178SXianjun Jiao xpu_api->XPU_REG_TSF_LOAD_VAL_write(tsft_high,tsft_low); 13102ee67178SXianjun Jiao printk("%s openwifi_set_tsf: %08x%08x\n", sdr_compatible_str,tsft_high,tsft_low); 13112ee67178SXianjun Jiao } 13122ee67178SXianjun Jiao 13132ee67178SXianjun Jiao static void openwifi_reset_tsf(struct ieee80211_hw *hw, struct ieee80211_vif *vif) 13142ee67178SXianjun Jiao { 13152ee67178SXianjun Jiao xpu_api->XPU_REG_TSF_LOAD_VAL_write(0,0); 13162ee67178SXianjun Jiao printk("%s openwifi_reset_tsf\n", sdr_compatible_str); 13172ee67178SXianjun Jiao } 13182ee67178SXianjun Jiao 13192ee67178SXianjun Jiao static int openwifi_set_rts_threshold(struct ieee80211_hw *hw, u32 value) 13202ee67178SXianjun Jiao { 13212ee67178SXianjun Jiao printk("%s openwifi_set_rts_threshold WARNING value %d\n", sdr_compatible_str,value); 13222ee67178SXianjun Jiao return(0); 13232ee67178SXianjun Jiao } 13242ee67178SXianjun Jiao 13252ee67178SXianjun Jiao static void openwifi_beacon_work(struct work_struct *work) 13262ee67178SXianjun Jiao { 13272ee67178SXianjun Jiao struct openwifi_vif *vif_priv = 13282ee67178SXianjun Jiao container_of(work, struct openwifi_vif, beacon_work.work); 13292ee67178SXianjun Jiao struct ieee80211_vif *vif = 13302ee67178SXianjun Jiao container_of((void *)vif_priv, struct ieee80211_vif, drv_priv); 13312ee67178SXianjun Jiao struct ieee80211_hw *dev = vif_priv->dev; 13322ee67178SXianjun Jiao struct ieee80211_mgmt *mgmt; 13332ee67178SXianjun Jiao struct sk_buff *skb; 13342ee67178SXianjun Jiao 13352ee67178SXianjun Jiao /* don't overflow the tx ring */ 13362ee67178SXianjun Jiao if (ieee80211_queue_stopped(dev, 0)) 13372ee67178SXianjun Jiao goto resched; 13382ee67178SXianjun Jiao 13392ee67178SXianjun Jiao /* grab a fresh beacon */ 13402ee67178SXianjun Jiao skb = ieee80211_beacon_get(dev, vif); 13412ee67178SXianjun Jiao if (!skb) 13422ee67178SXianjun Jiao goto resched; 13432ee67178SXianjun Jiao 13442ee67178SXianjun Jiao /* 13452ee67178SXianjun Jiao * update beacon timestamp w/ TSF value 13462ee67178SXianjun Jiao * TODO: make hardware update beacon timestamp 13472ee67178SXianjun Jiao */ 13482ee67178SXianjun Jiao mgmt = (struct ieee80211_mgmt *)skb->data; 13492ee67178SXianjun Jiao mgmt->u.beacon.timestamp = cpu_to_le64(openwifi_get_tsf(dev, vif)); 13502ee67178SXianjun Jiao 13512ee67178SXianjun Jiao /* TODO: use actual beacon queue */ 13522ee67178SXianjun Jiao skb_set_queue_mapping(skb, 0); 13532ee67178SXianjun Jiao openwifi_tx(dev, NULL, skb); 13542ee67178SXianjun Jiao 13552ee67178SXianjun Jiao resched: 13562ee67178SXianjun Jiao /* 13572ee67178SXianjun Jiao * schedule next beacon 13582ee67178SXianjun Jiao * TODO: use hardware support for beacon timing 13592ee67178SXianjun Jiao */ 13602ee67178SXianjun Jiao schedule_delayed_work(&vif_priv->beacon_work, 13612ee67178SXianjun Jiao usecs_to_jiffies(1024 * vif->bss_conf.beacon_int)); 13622ee67178SXianjun Jiao } 13632ee67178SXianjun Jiao 13642ee67178SXianjun Jiao static int openwifi_add_interface(struct ieee80211_hw *dev, 13652ee67178SXianjun Jiao struct ieee80211_vif *vif) 13662ee67178SXianjun Jiao { 13672ee67178SXianjun Jiao int i; 13682ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 13692ee67178SXianjun Jiao struct openwifi_vif *vif_priv; 13702ee67178SXianjun Jiao 13712ee67178SXianjun Jiao switch (vif->type) { 13722ee67178SXianjun Jiao case NL80211_IFTYPE_AP: 13732ee67178SXianjun Jiao case NL80211_IFTYPE_STATION: 13742ee67178SXianjun Jiao case NL80211_IFTYPE_ADHOC: 13752ee67178SXianjun Jiao case NL80211_IFTYPE_MONITOR: 13762ee67178SXianjun Jiao case NL80211_IFTYPE_MESH_POINT: 13772ee67178SXianjun Jiao break; 13782ee67178SXianjun Jiao default: 13792ee67178SXianjun Jiao return -EOPNOTSUPP; 13802ee67178SXianjun Jiao } 13812ee67178SXianjun Jiao // let's support more than 1 interface 13822ee67178SXianjun Jiao for (i=0; i<MAX_NUM_VIF; i++) { 13832ee67178SXianjun Jiao if (priv->vif[i] == NULL) 13842ee67178SXianjun Jiao break; 13852ee67178SXianjun Jiao } 13862ee67178SXianjun Jiao 13872ee67178SXianjun Jiao printk("%s openwifi_add_interface start. vif for loop result %d\n", sdr_compatible_str, i); 13882ee67178SXianjun Jiao 13892ee67178SXianjun Jiao if (i==MAX_NUM_VIF) 13902ee67178SXianjun Jiao return -EBUSY; 13912ee67178SXianjun Jiao 13922ee67178SXianjun Jiao priv->vif[i] = vif; 13932ee67178SXianjun Jiao 13942ee67178SXianjun Jiao /* Initialize driver private area */ 13952ee67178SXianjun Jiao vif_priv = (struct openwifi_vif *)&vif->drv_priv; 13962ee67178SXianjun Jiao vif_priv->idx = i; 13972ee67178SXianjun Jiao 13982ee67178SXianjun Jiao vif_priv->dev = dev; 13992ee67178SXianjun Jiao INIT_DELAYED_WORK(&vif_priv->beacon_work, openwifi_beacon_work); 14002ee67178SXianjun Jiao vif_priv->enable_beacon = false; 14012ee67178SXianjun Jiao 14022ee67178SXianjun Jiao printk("%s openwifi_add_interface end with vif idx %d\n", sdr_compatible_str,vif_priv->idx); 14032ee67178SXianjun Jiao 14042ee67178SXianjun Jiao return 0; 14052ee67178SXianjun Jiao } 14062ee67178SXianjun Jiao 14072ee67178SXianjun Jiao static void openwifi_remove_interface(struct ieee80211_hw *dev, 14082ee67178SXianjun Jiao struct ieee80211_vif *vif) 14092ee67178SXianjun Jiao { 14102ee67178SXianjun Jiao struct openwifi_vif *vif_priv; 14112ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 14122ee67178SXianjun Jiao 14132ee67178SXianjun Jiao vif_priv = (struct openwifi_vif *)&vif->drv_priv; 14142ee67178SXianjun Jiao priv->vif[vif_priv->idx] = NULL; 14152ee67178SXianjun Jiao printk("%s openwifi_remove_interface vif idx %d\n", sdr_compatible_str, vif_priv->idx); 14162ee67178SXianjun Jiao } 14172ee67178SXianjun Jiao 14182ee67178SXianjun Jiao static int openwifi_config(struct ieee80211_hw *dev, u32 changed) 14192ee67178SXianjun Jiao { 14202ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 14212ee67178SXianjun Jiao struct ieee80211_conf *conf = &dev->conf; 14222ee67178SXianjun Jiao 14232ee67178SXianjun Jiao if (changed & IEEE80211_CONF_CHANGE_CHANNEL) 14242ee67178SXianjun Jiao priv->rf->set_chan(dev, conf); 14252ee67178SXianjun Jiao else 14262ee67178SXianjun Jiao printk("%s openwifi_config changed flag %08x\n", sdr_compatible_str, changed); 14272ee67178SXianjun Jiao 14282ee67178SXianjun Jiao return 0; 14292ee67178SXianjun Jiao } 14302ee67178SXianjun Jiao 14312ee67178SXianjun Jiao static void openwifi_bss_info_changed(struct ieee80211_hw *dev, 14322ee67178SXianjun Jiao struct ieee80211_vif *vif, 14332ee67178SXianjun Jiao struct ieee80211_bss_conf *info, 14342ee67178SXianjun Jiao u32 changed) 14352ee67178SXianjun Jiao { 14362ee67178SXianjun Jiao struct openwifi_priv *priv = dev->priv; 14372ee67178SXianjun Jiao struct openwifi_vif *vif_priv; 14382ee67178SXianjun Jiao u32 bssid_low, bssid_high; 14392ee67178SXianjun Jiao 14402ee67178SXianjun Jiao vif_priv = (struct openwifi_vif *)&vif->drv_priv; 14412ee67178SXianjun Jiao 14422ee67178SXianjun Jiao //be careful: we don have valid chip, so registers addresses in priv->map->BSSID[0] are not valid! should not print it! 14432ee67178SXianjun 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]); 14442ee67178SXianjun Jiao if (changed & BSS_CHANGED_BSSID) { 14452ee67178SXianjun 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]); 14462ee67178SXianjun Jiao // write new bssid to our HW, and do not change bssid filter 14472ee67178SXianjun Jiao //u32 bssid_filter_high = xpu_api->XPU_REG_BSSID_FILTER_HIGH_read(); 14482ee67178SXianjun Jiao bssid_low = ( *( (u32*)(info->bssid) ) ); 14492ee67178SXianjun Jiao bssid_high = ( *( (u16*)(info->bssid+4) ) ); 14502ee67178SXianjun Jiao 14512ee67178SXianjun Jiao //bssid_filter_high = (bssid_filter_high&0x80000000); 14522ee67178SXianjun Jiao //bssid_high = (bssid_high|bssid_filter_high); 14532ee67178SXianjun Jiao xpu_api->XPU_REG_BSSID_FILTER_LOW_write(bssid_low); 14542ee67178SXianjun Jiao xpu_api->XPU_REG_BSSID_FILTER_HIGH_write(bssid_high); 14552ee67178SXianjun Jiao } 14562ee67178SXianjun Jiao 14572ee67178SXianjun Jiao if (changed & BSS_CHANGED_BEACON_INT) { 14582ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BEACON_INT %x\n",sdr_compatible_str,info->beacon_int); 14592ee67178SXianjun Jiao } 14602ee67178SXianjun Jiao 14612ee67178SXianjun Jiao if (changed & BSS_CHANGED_TXPOWER) 14622ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_TXPOWER %x\n",sdr_compatible_str,info->txpower); 14632ee67178SXianjun Jiao 14642ee67178SXianjun Jiao if (changed & BSS_CHANGED_ERP_CTS_PROT) 14652ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_ERP_CTS_PROT %x\n",sdr_compatible_str,info->use_cts_prot); 14662ee67178SXianjun Jiao 14672ee67178SXianjun Jiao if (changed & BSS_CHANGED_BASIC_RATES) 14682ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BASIC_RATES %x\n",sdr_compatible_str,info->basic_rates); 14692ee67178SXianjun Jiao 14702ee67178SXianjun Jiao if (changed & (BSS_CHANGED_ERP_SLOT | BSS_CHANGED_ERP_PREAMBLE)) { 14712ee67178SXianjun 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, 14722ee67178SXianjun Jiao changed&BSS_CHANGED_ERP_SLOT,changed&BSS_CHANGED_ERP_PREAMBLE,info->use_short_slot); 14732ee67178SXianjun Jiao if (info->use_short_slot && priv->use_short_slot==false) { 14742ee67178SXianjun Jiao priv->use_short_slot=true; 14752ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 14762ee67178SXianjun Jiao } else if ((!info->use_short_slot) && priv->use_short_slot==true) { 14772ee67178SXianjun Jiao priv->use_short_slot=false; 14782ee67178SXianjun Jiao xpu_api->XPU_REG_BAND_CHANNEL_write( (priv->use_short_slot<<24)|(priv->band<<16) ); 14792ee67178SXianjun Jiao } 14802ee67178SXianjun Jiao } 14812ee67178SXianjun Jiao 14822ee67178SXianjun Jiao if (changed & BSS_CHANGED_BEACON_ENABLED) { 14832ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BEACON_ENABLED\n",sdr_compatible_str); 14842ee67178SXianjun Jiao vif_priv->enable_beacon = info->enable_beacon; 14852ee67178SXianjun Jiao } 14862ee67178SXianjun Jiao 14872ee67178SXianjun Jiao if (changed & (BSS_CHANGED_BEACON_ENABLED | BSS_CHANGED_BEACON)) { 14882ee67178SXianjun Jiao cancel_delayed_work_sync(&vif_priv->beacon_work); 14892ee67178SXianjun Jiao if (vif_priv->enable_beacon) 14902ee67178SXianjun Jiao schedule_work(&vif_priv->beacon_work.work); 14912ee67178SXianjun Jiao printk("%s openwifi_bss_info_changed WARNING BSS_CHANGED_BEACON_ENABLED %d BSS_CHANGED_BEACON %d\n",sdr_compatible_str, 14922ee67178SXianjun Jiao changed&BSS_CHANGED_BEACON_ENABLED,changed&BSS_CHANGED_BEACON); 14932ee67178SXianjun Jiao } 14942ee67178SXianjun Jiao } 14952238b42bSweiliu // helper function 14962238b42bSweiliu u32 log2val(u32 val){ 14972238b42bSweiliu u32 ret_val = 0 ; 14982238b42bSweiliu while(val>1){ 14992238b42bSweiliu val = val >> 1 ; 15002238b42bSweiliu ret_val ++ ; 15012238b42bSweiliu } 15022238b42bSweiliu return ret_val ; 15032238b42bSweiliu } 15042ee67178SXianjun Jiao 15052ee67178SXianjun Jiao static int openwifi_conf_tx(struct ieee80211_hw *hw, struct ieee80211_vif *vif, u16 queue, 15062ee67178SXianjun Jiao const struct ieee80211_tx_queue_params *params) 15072ee67178SXianjun Jiao { 1508bb0a2c58SXianjun Jiao u32 reg_val, cw_min_exp, cw_max_exp; 1509027d42ecSXianjun Jiao 1510bb0a2c58SXianjun Jiao printk("%s openwifi_conf_tx: [queue %d], aifs: %d, cw_min: %d, cw_max: %d, txop: %d, aifs and txop ignored\n", 15112ee67178SXianjun Jiao sdr_compatible_str,queue,params->aifs,params->cw_min,params->cw_max,params->txop); 1512027d42ecSXianjun Jiao 1513bb0a2c58SXianjun Jiao reg_val=xpu_api->XPU_REG_CSMA_CFG_read(); 15142238b42bSweiliu cw_min_exp = (log2val(params->cw_min + 1) & 0x0F); 15152238b42bSweiliu cw_max_exp = (log2val(params->cw_max + 1) & 0x0F); 15162238b42bSweiliu switch(queue){ 1517bb0a2c58SXianjun Jiao case 0: reg_val = ( (reg_val & 0xFFFFFF00) | ((cw_min_exp | (cw_max_exp << 4)) << 0) ); break; 1518bb0a2c58SXianjun Jiao case 1: reg_val = ( (reg_val & 0xFFFF00FF) | ((cw_min_exp | (cw_max_exp << 4)) << 8) ); break; 1519bb0a2c58SXianjun Jiao case 2: reg_val = ( (reg_val & 0xFF00FFFF) | ((cw_min_exp | (cw_max_exp << 4)) << 16) ); break; 1520bb0a2c58SXianjun Jiao case 3: reg_val = ( (reg_val & 0x00FFFFFF) | ((cw_min_exp | (cw_max_exp << 4)) << 24) ); break; 15212238b42bSweiliu default: printk("%s openwifi_conf_tx: WARNING queue %d does not exist",sdr_compatible_str, queue); return(0); 15222238b42bSweiliu } 1523bb0a2c58SXianjun Jiao xpu_api->XPU_REG_CSMA_CFG_write(reg_val); 15242ee67178SXianjun Jiao return(0); 15252ee67178SXianjun Jiao } 15262ee67178SXianjun Jiao 15272ee67178SXianjun Jiao static u64 openwifi_prepare_multicast(struct ieee80211_hw *dev, 15282ee67178SXianjun Jiao struct netdev_hw_addr_list *mc_list) 15292ee67178SXianjun Jiao { 15302ee67178SXianjun Jiao printk("%s openwifi_prepare_multicast\n", sdr_compatible_str); 15312ee67178SXianjun Jiao return netdev_hw_addr_list_count(mc_list); 15322ee67178SXianjun Jiao } 15332ee67178SXianjun Jiao 15342ee67178SXianjun Jiao static void openwifi_configure_filter(struct ieee80211_hw *dev, 15352ee67178SXianjun Jiao unsigned int changed_flags, 15362ee67178SXianjun Jiao unsigned int *total_flags, 15372ee67178SXianjun Jiao u64 multicast) 15382ee67178SXianjun Jiao { 15392ee67178SXianjun Jiao u32 filter_flag; 15402ee67178SXianjun Jiao 15412ee67178SXianjun Jiao (*total_flags) &= SDR_SUPPORTED_FILTERS; 15425deb8d18SXianjun Jiao (*total_flags) |= FIF_ALLMULTI; //because we need to pass all multicast (no matter it is for us or not) to upper layer 15432ee67178SXianjun Jiao 15442ee67178SXianjun Jiao filter_flag = (*total_flags); 15452ee67178SXianjun Jiao 15462ee67178SXianjun Jiao filter_flag = (filter_flag|UNICAST_FOR_US|BROADCAST_ALL_ONE|BROADCAST_ALL_ZERO); 15472ee67178SXianjun Jiao //filter_flag = (filter_flag|UNICAST_FOR_US|BROADCAST_ALL_ONE|BROADCAST_ALL_ZERO|MONITOR_ALL); // all pkt will be delivered to arm 15482ee67178SXianjun Jiao 15492054f92cSXianjun Jiao //if (priv->vif[0]->type == NL80211_IFTYPE_MONITOR) 15502054f92cSXianjun Jiao if ((filter_flag&0xf0) == 0xf0) //FIF_BCN_PRBRESP_PROMISC/FIF_CONTROL/FIF_OTHER_BSS/FIF_PSPOLL are set means monitor mode 15512ee67178SXianjun Jiao filter_flag = (filter_flag|MONITOR_ALL); 15522054f92cSXianjun Jiao else 15532054f92cSXianjun Jiao filter_flag = (filter_flag&(~MONITOR_ALL)); 15542ee67178SXianjun Jiao 15552054f92cSXianjun Jiao if ( !(filter_flag&FIF_BCN_PRBRESP_PROMISC) ) 15562ee67178SXianjun Jiao filter_flag = (filter_flag|MY_BEACON); 15572ee67178SXianjun Jiao 15582ee67178SXianjun Jiao filter_flag = (filter_flag|FIF_PSPOLL); 15592ee67178SXianjun Jiao 15602ee67178SXianjun Jiao xpu_api->XPU_REG_FILTER_FLAG_write(filter_flag|HIGH_PRIORITY_DISCARD_FLAG); 15612ee67178SXianjun Jiao //xpu_api->XPU_REG_FILTER_FLAG_write(filter_flag); //do not discard any pkt 15622ee67178SXianjun Jiao 15632ee67178SXianjun 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, 15642ee67178SXianjun 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); 15652ee67178SXianjun Jiao } 15662ee67178SXianjun Jiao 1567261bb9eeSmmehari static int openwifi_ampdu_action(struct ieee80211_hw *hw, struct ieee80211_vif *vif, struct ieee80211_ampdu_params *params) 1568261bb9eeSmmehari { 1569261bb9eeSmmehari struct ieee80211_sta *sta = params->sta; 1570261bb9eeSmmehari enum ieee80211_ampdu_mlme_action action = params->action; 15712ae501caSXianjun Jiao // struct openwifi_priv *priv = hw->priv; 15729cd584f8Smmehari u16 max_tx_bytes, buf_size; 1573f738aefaSmmehari u32 ampdu_action_config; 1574261bb9eeSmmehari 1575261bb9eeSmmehari switch (action) 1576261bb9eeSmmehari { 1577261bb9eeSmmehari case IEEE80211_AMPDU_TX_START: 1578261bb9eeSmmehari ieee80211_start_tx_ba_cb_irqsafe(vif, sta->addr, params->tid); 1579261bb9eeSmmehari break; 1580261bb9eeSmmehari case IEEE80211_AMPDU_TX_STOP_CONT: 1581261bb9eeSmmehari case IEEE80211_AMPDU_TX_STOP_FLUSH: 1582261bb9eeSmmehari case IEEE80211_AMPDU_TX_STOP_FLUSH_CONT: 1583261bb9eeSmmehari ieee80211_stop_tx_ba_cb_irqsafe(vif, sta->addr, params->tid); 1584261bb9eeSmmehari break; 1585261bb9eeSmmehari case IEEE80211_AMPDU_TX_OPERATIONAL: 1586f738aefaSmmehari buf_size = 4; 1587f738aefaSmmehari // buf_size = (params->buf_size) - 1; 1588f738aefaSmmehari max_tx_bytes = (1 << (IEEE80211_HT_MAX_AMPDU_FACTOR + sta->ht_cap.ampdu_factor)) - 1; 15899cd584f8Smmehari ampdu_action_config = ( sta->ht_cap.ampdu_density<<24 | buf_size<<16 | max_tx_bytes ); 1590f738aefaSmmehari tx_intf_api->TX_INTF_REG_AMPDU_ACTION_CONFIG_write(ampdu_action_config); 1591261bb9eeSmmehari break; 1592261bb9eeSmmehari case IEEE80211_AMPDU_RX_START: 15932ae501caSXianjun Jiao printk("%s openwifi_ampdu_action: start RX aggregation. tid %d\n", sdr_compatible_str, params->tid); 1594261bb9eeSmmehari break; 1595261bb9eeSmmehari case IEEE80211_AMPDU_RX_STOP: 15962ae501caSXianjun Jiao printk("%s openwifi_ampdu_action: stop RX aggregation. tid %d\n", sdr_compatible_str, params->tid); 1597261bb9eeSmmehari break; 1598261bb9eeSmmehari default: 1599261bb9eeSmmehari return -EOPNOTSUPP; 1600261bb9eeSmmehari } 1601261bb9eeSmmehari 1602261bb9eeSmmehari return 0; 1603261bb9eeSmmehari } 1604261bb9eeSmmehari 16052ee67178SXianjun Jiao static const struct ieee80211_ops openwifi_ops = { 16062ee67178SXianjun Jiao .tx = openwifi_tx, 16072ee67178SXianjun Jiao .start = openwifi_start, 16082ee67178SXianjun Jiao .stop = openwifi_stop, 16092ee67178SXianjun Jiao .add_interface = openwifi_add_interface, 16102ee67178SXianjun Jiao .remove_interface = openwifi_remove_interface, 16112ee67178SXianjun Jiao .config = openwifi_config, 16122ee67178SXianjun Jiao .bss_info_changed = openwifi_bss_info_changed, 16132ee67178SXianjun Jiao .conf_tx = openwifi_conf_tx, 16142ee67178SXianjun Jiao .prepare_multicast = openwifi_prepare_multicast, 16152ee67178SXianjun Jiao .configure_filter = openwifi_configure_filter, 16162ee67178SXianjun Jiao .rfkill_poll = openwifi_rfkill_poll, 16172ee67178SXianjun Jiao .get_tsf = openwifi_get_tsf, 16182ee67178SXianjun Jiao .set_tsf = openwifi_set_tsf, 16192ee67178SXianjun Jiao .reset_tsf = openwifi_reset_tsf, 16202ee67178SXianjun Jiao .set_rts_threshold = openwifi_set_rts_threshold, 1621261bb9eeSmmehari .ampdu_action = openwifi_ampdu_action, 16222ee67178SXianjun Jiao .testmode_cmd = openwifi_testmode_cmd, 16232ee67178SXianjun Jiao }; 16242ee67178SXianjun Jiao 16252ee67178SXianjun Jiao static const struct of_device_id openwifi_dev_of_ids[] = { 16262ee67178SXianjun Jiao { .compatible = "sdr,sdr", }, 16272ee67178SXianjun Jiao {} 16282ee67178SXianjun Jiao }; 16292ee67178SXianjun Jiao MODULE_DEVICE_TABLE(of, openwifi_dev_of_ids); 16302ee67178SXianjun Jiao 16312ee67178SXianjun Jiao static int custom_match_spi_dev(struct device *dev, void *data) 16322ee67178SXianjun Jiao { 16332ee67178SXianjun Jiao const char *name = data; 16342ee67178SXianjun Jiao 16352ee67178SXianjun Jiao bool ret = sysfs_streq(name, dev->of_node->name); 16362ee67178SXianjun Jiao printk("%s custom_match_spi_dev %s %s %d\n", sdr_compatible_str,name, dev->of_node->name, ret); 16372ee67178SXianjun Jiao return ret; 16382ee67178SXianjun Jiao } 16392ee67178SXianjun Jiao 16402ee67178SXianjun Jiao static int custom_match_platform_dev(struct device *dev, void *data) 16412ee67178SXianjun Jiao { 16422ee67178SXianjun Jiao struct platform_device *plat_dev = to_platform_device(dev); 16432ee67178SXianjun Jiao const char *name = data; 16442ee67178SXianjun Jiao char *name_in_sys_bus_platform_devices = strstr(plat_dev->name, name); 16452ee67178SXianjun Jiao bool match_flag = (name_in_sys_bus_platform_devices != NULL); 16462ee67178SXianjun Jiao 16472ee67178SXianjun Jiao if (match_flag) { 16482ee67178SXianjun Jiao printk("%s custom_match_platform_dev %s\n", sdr_compatible_str,plat_dev->name); 16492ee67178SXianjun Jiao } 16502ee67178SXianjun Jiao return(match_flag); 16512ee67178SXianjun Jiao } 16522ee67178SXianjun Jiao 16532ee67178SXianjun Jiao static int openwifi_dev_probe(struct platform_device *pdev) 16542ee67178SXianjun Jiao { 16552ee67178SXianjun Jiao struct ieee80211_hw *dev; 16562ee67178SXianjun Jiao struct openwifi_priv *priv; 16572ee67178SXianjun Jiao int err=1, rand_val; 16586e3730c0Smmehari const char *chip_name, *fpga_model; 16592ee67178SXianjun Jiao u32 reg;//, reg1; 16602ee67178SXianjun Jiao 16612ee67178SXianjun Jiao struct device_node *np = pdev->dev.of_node; 16622ee67178SXianjun Jiao 16632ee67178SXianjun Jiao struct device *tmp_dev; 16642ee67178SXianjun Jiao struct platform_device *tmp_pdev; 16652ee67178SXianjun Jiao struct iio_dev *tmp_indio_dev; 16662ee67178SXianjun Jiao // struct gpio_leds_priv *tmp_led_priv; 16672ee67178SXianjun Jiao 16682ee67178SXianjun Jiao printk("\n"); 16692ee67178SXianjun Jiao 16702ee67178SXianjun Jiao if (np) { 16712ee67178SXianjun Jiao const struct of_device_id *match; 16722ee67178SXianjun Jiao 16732ee67178SXianjun Jiao match = of_match_node(openwifi_dev_of_ids, np); 16742ee67178SXianjun Jiao if (match) { 16752ee67178SXianjun Jiao printk("%s openwifi_dev_probe: match!\n", sdr_compatible_str); 16762ee67178SXianjun Jiao err = 0; 16772ee67178SXianjun Jiao } 16782ee67178SXianjun Jiao } 16792ee67178SXianjun Jiao 16802ee67178SXianjun Jiao if (err) 16812ee67178SXianjun Jiao return err; 16822ee67178SXianjun Jiao 16832ee67178SXianjun Jiao dev = ieee80211_alloc_hw(sizeof(*priv), &openwifi_ops); 16842ee67178SXianjun Jiao if (!dev) { 16852ee67178SXianjun Jiao printk(KERN_ERR "%s openwifi_dev_probe: ieee80211 alloc failed\n",sdr_compatible_str); 16862ee67178SXianjun Jiao err = -ENOMEM; 16872ee67178SXianjun Jiao goto err_free_dev; 16882ee67178SXianjun Jiao } 16892ee67178SXianjun Jiao 16902ee67178SXianjun Jiao priv = dev->priv; 16912ee67178SXianjun Jiao priv->pdev = pdev; 16922ee67178SXianjun Jiao 16936e3730c0Smmehari err = of_property_read_string(of_find_node_by_path("/"), "model", &fpga_model); 16946e3730c0Smmehari if(err < 0) { 16956e3730c0Smmehari printk("%s openwifi_dev_probe: WARNING unknown openwifi FPGA model %d\n",sdr_compatible_str, err); 16966e3730c0Smmehari priv->fpga_type = SMALL_FPGA; 16976e3730c0Smmehari } else { 16986e3730c0Smmehari // LARGE FPGAs (i.e. ZCU102, Z7035, ZC706) 16996e3730c0Smmehari if(strstr(fpga_model, "ZCU102") != NULL || strstr(fpga_model, "Z7035") != NULL || strstr(fpga_model, "ZC706") != NULL) 17006e3730c0Smmehari priv->fpga_type = LARGE_FPGA; 17016e3730c0Smmehari // SMALL FPGA: (i.e. ZED, ZC702, Z7020) 17026e3730c0Smmehari else if(strstr(fpga_model, "ZED") != NULL || strstr(fpga_model, "ZC702") != NULL || strstr(fpga_model, "Z7020") != NULL) 17036e3730c0Smmehari priv->fpga_type = SMALL_FPGA; 17046e3730c0Smmehari } 17056e3730c0Smmehari 17062ee67178SXianjun Jiao // //-------------find ad9361-phy driver for lo/channel control--------------- 17072ee67178SXianjun Jiao priv->actual_rx_lo = 0; 1708*b196f496SXianjun Jiao priv->actual_tx_lo = 0; 17092ee67178SXianjun Jiao tmp_dev = bus_find_device( &spi_bus_type, NULL, "ad9361-phy", custom_match_spi_dev ); 1710febc5adfSXianjun Jiao if (tmp_dev == NULL) { 17112ee67178SXianjun Jiao printk(KERN_ERR "%s find_dev ad9361-phy failed\n",sdr_compatible_str); 17122ee67178SXianjun Jiao err = -ENOMEM; 17132ee67178SXianjun Jiao goto err_free_dev; 17142ee67178SXianjun Jiao } 1715febc5adfSXianjun 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)); 1716febc5adfSXianjun Jiao if (((struct spi_device*)tmp_dev)->dev.driver_data == NULL) { 1717febc5adfSXianjun Jiao printk(KERN_ERR "%s find_dev ad9361-phy failed. dev.driver_data == NULL\n",sdr_compatible_str); 1718febc5adfSXianjun Jiao err = -ENOMEM; 1719febc5adfSXianjun Jiao goto err_free_dev; 1720febc5adfSXianjun Jiao } 1721febc5adfSXianjun Jiao 17222ee67178SXianjun Jiao priv->ad9361_phy = ad9361_spi_to_phy((struct spi_device*)tmp_dev); 17232ee67178SXianjun Jiao if (!(priv->ad9361_phy)) { 17242ee67178SXianjun Jiao printk(KERN_ERR "%s ad9361_spi_to_phy failed\n",sdr_compatible_str); 17252ee67178SXianjun Jiao err = -ENOMEM; 17262ee67178SXianjun Jiao goto err_free_dev; 17272ee67178SXianjun Jiao } 1728b73660adSXianjun Jiao printk("%s ad9361_spi_to_phy ad9361-phy: %s\n", sdr_compatible_str, priv->ad9361_phy->spi->modalias); 17292ee67178SXianjun Jiao 17302ee67178SXianjun Jiao priv->ctrl_out.en_mask=0xFF; 17312ee67178SXianjun Jiao priv->ctrl_out.index=0x16; 17322ee67178SXianjun Jiao err = ad9361_ctrl_outs_setup(priv->ad9361_phy, &(priv->ctrl_out)); 17332ee67178SXianjun Jiao if (err < 0) { 17342ee67178SXianjun Jiao printk("%s openwifi_dev_probe: WARNING ad9361_ctrl_outs_setup %d\n",sdr_compatible_str, err); 17352ee67178SXianjun Jiao } else { 17362ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_ctrl_outs_setup en_mask 0x%02x index 0x%02x\n",sdr_compatible_str, priv->ctrl_out.en_mask, priv->ctrl_out.index); 17372ee67178SXianjun Jiao } 17382ee67178SXianjun Jiao 17392ee67178SXianjun Jiao reg = ad9361_spi_read(priv->ad9361_phy->spi, REG_CTRL_OUTPUT_POINTER); 17402ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_spi_read REG_CTRL_OUTPUT_POINTER 0x%02x\n",sdr_compatible_str, reg); 17412ee67178SXianjun Jiao reg = ad9361_spi_read(priv->ad9361_phy->spi, REG_CTRL_OUTPUT_ENABLE); 17422ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_spi_read REG_CTRL_OUTPUT_ENABLE 0x%02x\n",sdr_compatible_str, reg); 17432ee67178SXianjun Jiao 17442ee67178SXianjun Jiao // //-------------find driver: axi_ad9361 hdl ref design module, dac channel--------------- 17452ee67178SXianjun Jiao tmp_dev = bus_find_device( &platform_bus_type, NULL, "cf-ad9361-dds-core-lpc", custom_match_platform_dev ); 17462ee67178SXianjun Jiao if (!tmp_dev) { 17472ee67178SXianjun Jiao printk(KERN_ERR "%s bus_find_device platform_bus_type cf-ad9361-dds-core-lpc failed\n",sdr_compatible_str); 17482ee67178SXianjun Jiao err = -ENOMEM; 17492ee67178SXianjun Jiao goto err_free_dev; 17502ee67178SXianjun Jiao } 17512ee67178SXianjun Jiao 17522ee67178SXianjun Jiao tmp_pdev = to_platform_device(tmp_dev); 17532ee67178SXianjun Jiao if (!tmp_pdev) { 17542ee67178SXianjun Jiao printk(KERN_ERR "%s to_platform_device failed\n",sdr_compatible_str); 17552ee67178SXianjun Jiao err = -ENOMEM; 17562ee67178SXianjun Jiao goto err_free_dev; 17572ee67178SXianjun Jiao } 17582ee67178SXianjun Jiao 17592ee67178SXianjun Jiao tmp_indio_dev = platform_get_drvdata(tmp_pdev); 17602ee67178SXianjun Jiao if (!tmp_indio_dev) { 17612ee67178SXianjun Jiao printk(KERN_ERR "%s platform_get_drvdata failed\n",sdr_compatible_str); 17622ee67178SXianjun Jiao err = -ENOMEM; 17632ee67178SXianjun Jiao goto err_free_dev; 17642ee67178SXianjun Jiao } 17652ee67178SXianjun Jiao 17662ee67178SXianjun Jiao priv->dds_st = iio_priv(tmp_indio_dev); 17672ee67178SXianjun Jiao if (!(priv->dds_st)) { 17682ee67178SXianjun Jiao printk(KERN_ERR "%s iio_priv failed\n",sdr_compatible_str); 17692ee67178SXianjun Jiao err = -ENOMEM; 17702ee67178SXianjun Jiao goto err_free_dev; 17712ee67178SXianjun Jiao } 17722ee67178SXianjun 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); 17732ee67178SXianjun Jiao cf_axi_dds_datasel(priv->dds_st, -1, DATA_SEL_DMA); 17742ee67178SXianjun Jiao printk("%s openwifi_dev_probe: cf_axi_dds_datasel DATA_SEL_DMA\n",sdr_compatible_str); 17752ee67178SXianjun Jiao 17762ee67178SXianjun Jiao // //-------------find driver: axi_ad9361 hdl ref design module, adc channel--------------- 17772ee67178SXianjun Jiao // turn off radio by muting tx 17782ee67178SXianjun Jiao // ad9361_tx_mute(priv->ad9361_phy, 1); 17792ee67178SXianjun Jiao // reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 17802ee67178SXianjun Jiao // reg1 = ad9361_get_tx_atten(priv->ad9361_phy, 1); 17812ee67178SXianjun Jiao // if (reg == AD9361_RADIO_OFF_TX_ATT && reg1 == AD9361_RADIO_OFF_TX_ATT ) { 17822ee67178SXianjun Jiao // priv->rfkill_off = 0;// 0 off, 1 on 17832ee67178SXianjun Jiao // printk("%s openwifi_dev_probe: rfkill radio off\n",sdr_compatible_str); 17842ee67178SXianjun Jiao // } 17852ee67178SXianjun Jiao // else 17862ee67178SXianjun 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); 17872ee67178SXianjun Jiao 17888598d294SXianjun Jiao priv->last_auto_fpga_lbt_th = 134;//just to avoid uninitialized 17892ee67178SXianjun Jiao priv->rssi_correction = 43;//this will be set in real-time by _rf_set_channel() 17902ee67178SXianjun Jiao 17912ee67178SXianjun Jiao //priv->rf_bw = 20000000; // Signal quality issue! NOT use for now. 20MHz or 40MHz. 40MHz need ddc/duc. 20MHz works in bypass mode 17922ee67178SXianjun Jiao priv->rf_bw = 40000000; // 20MHz or 40MHz. 40MHz need ddc/duc. 20MHz works in bypass mode 17932ee67178SXianjun Jiao 17942ee67178SXianjun Jiao priv->xpu_cfg = XPU_NORMAL; 17952ee67178SXianjun Jiao 17962ee67178SXianjun Jiao priv->openofdm_tx_cfg = OPENOFDM_TX_NORMAL; 17972ee67178SXianjun Jiao priv->openofdm_rx_cfg = OPENOFDM_RX_NORMAL; 17982ee67178SXianjun Jiao 17992ee67178SXianjun 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) ); 18002ee67178SXianjun Jiao if (priv->rf_bw == 20000000) { 18012ee67178SXianjun Jiao priv->rx_intf_cfg = RX_INTF_BYPASS; 18022ee67178SXianjun Jiao priv->tx_intf_cfg = TX_INTF_BYPASS; 18032ee67178SXianjun Jiao //priv->rx_freq_offset_to_lo_MHz = 0; 18042ee67178SXianjun Jiao //priv->tx_freq_offset_to_lo_MHz = 0; 18052ee67178SXianjun Jiao } else if (priv->rf_bw == 40000000) { 18062ee67178SXianjun Jiao //priv->rx_intf_cfg = RX_INTF_BW_20MHZ_AT_P_10MHZ; //work 18072ee67178SXianjun Jiao //priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1; //work 18082ee67178SXianjun Jiao 18092ee67178SXianjun 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 18102ee67178SXianjun Jiao priv->rx_intf_cfg = RX_INTF_BW_20MHZ_AT_0MHZ_ANT0; 1811b73660adSXianjun 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 18122ee67178SXianjun Jiao // // try another antenna option 18132ee67178SXianjun Jiao //priv->rx_intf_cfg = RX_INTF_BW_20MHZ_AT_0MHZ_ANT1; 18142ee67178SXianjun Jiao //priv->tx_intf_cfg = TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0; 18152ee67178SXianjun Jiao 18162ee67178SXianjun Jiao #if 0 18172ee67178SXianjun Jiao if (priv->rx_intf_cfg == DDC_BW_20MHZ_AT_N_10MHZ) { 18182ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = -10; 18192ee67178SXianjun Jiao } else if (priv->rx_intf_cfg == DDC_BW_20MHZ_AT_P_10MHZ) { 18202ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = 10; 18212ee67178SXianjun Jiao } else if (priv->rx_intf_cfg == DDC_BW_20MHZ_AT_0MHZ) { 18222ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = 0; 18232ee67178SXianjun Jiao } else { 18242ee67178SXianjun Jiao printk("%s openwifi_dev_probe: Warning! priv->rx_intf_cfg == %d\n",sdr_compatible_str,priv->rx_intf_cfg); 18252ee67178SXianjun Jiao } 18262ee67178SXianjun Jiao #endif 18272ee67178SXianjun Jiao } else { 18282ee67178SXianjun Jiao printk("%s openwifi_dev_probe: Warning! priv->rf_bw == %dHz (should be 20000000 or 40000000)\n",sdr_compatible_str, priv->rf_bw); 18292ee67178SXianjun Jiao } 18302ee67178SXianjun Jiao priv->rx_freq_offset_to_lo_MHz = rx_intf_fo_mapping[priv->rx_intf_cfg]; 18312ee67178SXianjun Jiao priv->tx_freq_offset_to_lo_MHz = tx_intf_fo_mapping[priv->tx_intf_cfg]; 18322ee67178SXianjun Jiao printk("%s openwifi_dev_probe: test_mode %d\n", sdr_compatible_str, test_mode); 18332ee67178SXianjun Jiao 18342ee67178SXianjun Jiao //let's by default turn radio on when probing 18352ee67178SXianjun Jiao if (priv->tx_intf_cfg == TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1) { 18362ee67178SXianjun Jiao ad9361_set_tx_atten(priv->ad9361_phy, AD9361_RADIO_ON_TX_ATT, false, true, true); // AD9361_RADIO_ON_TX_ATT 3000 means 3dB, 0 means 0dB 18372ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 2); 18382ee67178SXianjun Jiao } else { 18392ee67178SXianjun Jiao ad9361_set_tx_atten(priv->ad9361_phy, AD9361_RADIO_ON_TX_ATT, true, false, true); // AD9361_RADIO_ON_TX_ATT 3000 means 3dB, 0 means 0dB 18402ee67178SXianjun Jiao reg = ad9361_get_tx_atten(priv->ad9361_phy, 1); 18412ee67178SXianjun Jiao } 18422ee67178SXianjun Jiao if (reg == AD9361_RADIO_ON_TX_ATT) { 18432ee67178SXianjun Jiao priv->rfkill_off = 1;// 0 off, 1 on 18442ee67178SXianjun Jiao printk("%s openwifi_dev_probe: rfkill radio on\n",sdr_compatible_str); 18458598d294SXianjun Jiao } else 18462ee67178SXianjun 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); 18472ee67178SXianjun Jiao 18482ee67178SXianjun Jiao memset(priv->drv_rx_reg_val,0,sizeof(priv->drv_rx_reg_val)); 18492ee67178SXianjun Jiao memset(priv->drv_tx_reg_val,0,sizeof(priv->drv_tx_reg_val)); 18502ee67178SXianjun Jiao memset(priv->drv_xpu_reg_val,0,sizeof(priv->drv_xpu_reg_val)); 18512ee67178SXianjun Jiao 18522ee67178SXianjun Jiao // //set ad9361 in certain mode 18532ee67178SXianjun Jiao #if 0 18542ee67178SXianjun Jiao err = ad9361_set_trx_clock_chain_freq(priv->ad9361_phy,priv->rf_bw); 18552ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_set_trx_clock_chain_freq %dHz err %d\n",sdr_compatible_str, priv->rf_bw,err); 18562ee67178SXianjun Jiao err = ad9361_update_rf_bandwidth(priv->ad9361_phy,priv->rf_bw,priv->rf_bw); 18572ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ad9361_update_rf_bandwidth %dHz err %d\n",sdr_compatible_str, priv->rf_bw,err); 18582ee67178SXianjun Jiao 18592ee67178SXianjun Jiao rx_intf_api->hw_init(priv->rx_intf_cfg,8,8); 18600c0d5d82Smmehari tx_intf_api->hw_init(priv->tx_intf_cfg,8,8,priv->fpga_type); 18612ee67178SXianjun Jiao openofdm_tx_api->hw_init(priv->openofdm_tx_cfg); 18622ee67178SXianjun Jiao openofdm_rx_api->hw_init(priv->openofdm_rx_cfg); 18632ee67178SXianjun 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); 18642ee67178SXianjun 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); 18652ee67178SXianjun Jiao #endif 18662ee67178SXianjun Jiao 18672ee67178SXianjun Jiao dev->max_rates = 1; //maximum number of alternate rate retry stages the hw can handle. 18682ee67178SXianjun Jiao 18692ee67178SXianjun Jiao SET_IEEE80211_DEV(dev, &pdev->dev); 18702ee67178SXianjun Jiao platform_set_drvdata(pdev, dev); 18712ee67178SXianjun Jiao 18722ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->rates_2GHz) != sizeof(openwifi_2GHz_rates)); 18732ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->rates_5GHz) != sizeof(openwifi_5GHz_rates)); 18742ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->channels_2GHz) != sizeof(openwifi_2GHz_channels)); 18752ee67178SXianjun Jiao BUILD_BUG_ON(sizeof(priv->channels_5GHz) != sizeof(openwifi_5GHz_channels)); 18762ee67178SXianjun Jiao 18772ee67178SXianjun Jiao memcpy(priv->rates_2GHz, openwifi_2GHz_rates, sizeof(openwifi_2GHz_rates)); 18782ee67178SXianjun Jiao memcpy(priv->rates_5GHz, openwifi_5GHz_rates, sizeof(openwifi_5GHz_rates)); 18792ee67178SXianjun Jiao memcpy(priv->channels_2GHz, openwifi_2GHz_channels, sizeof(openwifi_2GHz_channels)); 18802ee67178SXianjun Jiao memcpy(priv->channels_5GHz, openwifi_5GHz_channels, sizeof(openwifi_5GHz_channels)); 18812ee67178SXianjun Jiao 18822ee67178SXianjun Jiao priv->band = BAND_5_8GHZ; //this can be changed by band _rf_set_channel() (2.4GHz ERP(OFDM)) (5GHz OFDM) 18832ee67178SXianjun Jiao priv->channel = 44; //currently useless. this can be changed by band _rf_set_channel() 18842ee67178SXianjun Jiao priv->use_short_slot = false; //this can be changed by openwifi_bss_info_changed: BSS_CHANGED_ERP_SLOT 1885261bb9eeSmmehari priv->ampdu_reference = 0; 18862ee67178SXianjun Jiao 18872ee67178SXianjun Jiao priv->band_2GHz.band = NL80211_BAND_2GHZ; 18882ee67178SXianjun Jiao priv->band_2GHz.channels = priv->channels_2GHz; 18892ee67178SXianjun Jiao priv->band_2GHz.n_channels = ARRAY_SIZE(priv->channels_2GHz); 18902ee67178SXianjun Jiao priv->band_2GHz.bitrates = priv->rates_2GHz; 18912ee67178SXianjun Jiao priv->band_2GHz.n_bitrates = ARRAY_SIZE(priv->rates_2GHz); 1892b6d71713Smmehari priv->band_2GHz.ht_cap.ht_supported = true; 1893b6d71713Smmehari priv->band_2GHz.ht_cap.cap = IEEE80211_HT_CAP_SGI_20; 1894261bb9eeSmmehari priv->band_2GHz.ht_cap.ampdu_factor = IEEE80211_HT_MAX_AMPDU_8K; 1895261bb9eeSmmehari priv->band_2GHz.ht_cap.ampdu_density = IEEE80211_HT_MPDU_DENSITY_2; 1896b6d71713Smmehari memset(&priv->band_2GHz.ht_cap.mcs, 0, sizeof(priv->band_2GHz.ht_cap.mcs)); 1897b6d71713Smmehari priv->band_2GHz.ht_cap.mcs.rx_mask[0] = 0xff; 1898b6d71713Smmehari priv->band_2GHz.ht_cap.mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED; 18992ee67178SXianjun Jiao dev->wiphy->bands[NL80211_BAND_2GHZ] = &(priv->band_2GHz); 19002ee67178SXianjun Jiao 19012ee67178SXianjun Jiao priv->band_5GHz.band = NL80211_BAND_5GHZ; 19022ee67178SXianjun Jiao priv->band_5GHz.channels = priv->channels_5GHz; 19032ee67178SXianjun Jiao priv->band_5GHz.n_channels = ARRAY_SIZE(priv->channels_5GHz); 19042ee67178SXianjun Jiao priv->band_5GHz.bitrates = priv->rates_5GHz; 19052ee67178SXianjun Jiao priv->band_5GHz.n_bitrates = ARRAY_SIZE(priv->rates_5GHz); 1906b6d71713Smmehari priv->band_5GHz.ht_cap.ht_supported = true; 1907b6d71713Smmehari priv->band_5GHz.ht_cap.cap = IEEE80211_HT_CAP_SGI_20; 1908261bb9eeSmmehari priv->band_5GHz.ht_cap.ampdu_factor = IEEE80211_HT_MAX_AMPDU_8K; 1909261bb9eeSmmehari priv->band_5GHz.ht_cap.ampdu_density = IEEE80211_HT_MPDU_DENSITY_2; 1910b6d71713Smmehari memset(&priv->band_5GHz.ht_cap.mcs, 0, sizeof(priv->band_5GHz.ht_cap.mcs)); 1911b6d71713Smmehari priv->band_5GHz.ht_cap.mcs.rx_mask[0] = 0xff; 1912b6d71713Smmehari priv->band_5GHz.ht_cap.mcs.tx_params = IEEE80211_HT_MCS_TX_DEFINED; 19132ee67178SXianjun Jiao dev->wiphy->bands[NL80211_BAND_5GHZ] = &(priv->band_5GHz); 19142ee67178SXianjun Jiao 19152ee67178SXianjun 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, 19162ee67178SXianjun Jiao priv->band_2GHz.n_channels,priv->band_2GHz.n_bitrates,priv->band_5GHz.n_channels,priv->band_5GHz.n_bitrates); 19172ee67178SXianjun Jiao 19182ee67178SXianjun Jiao ieee80211_hw_set(dev, HOST_BROADCAST_PS_BUFFERING); 19192ee67178SXianjun Jiao ieee80211_hw_set(dev, RX_INCLUDES_FCS); 19202ee67178SXianjun Jiao ieee80211_hw_set(dev, BEACON_TX_STATUS); 1921261bb9eeSmmehari ieee80211_hw_set(dev, AMPDU_AGGREGATION); 19222ee67178SXianjun Jiao 19232ee67178SXianjun Jiao dev->vif_data_size = sizeof(struct openwifi_vif); 19242ee67178SXianjun Jiao dev->wiphy->interface_modes = 19252ee67178SXianjun Jiao BIT(NL80211_IFTYPE_MONITOR)| 19262ee67178SXianjun Jiao BIT(NL80211_IFTYPE_P2P_GO) | 19272ee67178SXianjun Jiao BIT(NL80211_IFTYPE_P2P_CLIENT) | 19282ee67178SXianjun Jiao BIT(NL80211_IFTYPE_AP) | 19292ee67178SXianjun Jiao BIT(NL80211_IFTYPE_STATION) | 19302ee67178SXianjun Jiao BIT(NL80211_IFTYPE_ADHOC) | 19312ee67178SXianjun Jiao BIT(NL80211_IFTYPE_MESH_POINT) | 19322ee67178SXianjun Jiao BIT(NL80211_IFTYPE_OCB); 19332ee67178SXianjun Jiao dev->wiphy->iface_combinations = &openwifi_if_comb; 19342ee67178SXianjun Jiao dev->wiphy->n_iface_combinations = 1; 19352ee67178SXianjun Jiao 19362ee67178SXianjun Jiao dev->wiphy->regulatory_flags = (REGULATORY_STRICT_REG|REGULATORY_CUSTOM_REG); // use our own config within strict regulation 19372ee67178SXianjun Jiao //dev->wiphy->regulatory_flags = REGULATORY_CUSTOM_REG; // use our own config 19382ee67178SXianjun Jiao wiphy_apply_custom_regulatory(dev->wiphy, &sdr_regd); 19392ee67178SXianjun Jiao 19402ee67178SXianjun Jiao chip_name = "ZYNQ"; 19412ee67178SXianjun Jiao 19422ee67178SXianjun Jiao /* we declare to MAC80211 all the queues except for beacon queue 19432ee67178SXianjun Jiao * that will be eventually handled by DRV. 19442ee67178SXianjun Jiao * TX rings are arranged in such a way that lower is the IDX, 19452ee67178SXianjun Jiao * higher is the priority, in order to achieve direct mapping 19462ee67178SXianjun Jiao * with mac80211, however the beacon queue is an exception and it 19472ee67178SXianjun Jiao * is mapped on the highst tx ring IDX. 19482ee67178SXianjun Jiao */ 1949838a9007SXianjun Jiao dev->queues = MAX_NUM_HW_QUEUE; 1950838a9007SXianjun Jiao //dev->queues = 1; 19512ee67178SXianjun Jiao 19522ee67178SXianjun Jiao ieee80211_hw_set(dev, SIGNAL_DBM); 19532ee67178SXianjun Jiao 19542ee67178SXianjun Jiao wiphy_ext_feature_set(dev->wiphy, NL80211_EXT_FEATURE_CQM_RSSI_LIST); 19552ee67178SXianjun Jiao 19562ee67178SXianjun Jiao priv->rf = &ad9361_rf_ops; 19572ee67178SXianjun Jiao 19582ee67178SXianjun Jiao memset(priv->dest_mac_addr_queue_map,0,sizeof(priv->dest_mac_addr_queue_map)); 1959838a9007SXianjun Jiao priv->slice_idx = 0xFFFFFFFF; 1960838a9007SXianjun Jiao 1961838a9007SXianjun Jiao sg_init_table(&(priv->tx_sg), 1); 19622ee67178SXianjun Jiao 19632ee67178SXianjun Jiao get_random_bytes(&rand_val, sizeof(rand_val)); 19642ee67178SXianjun Jiao rand_val%=250; 19652ee67178SXianjun 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; 19662ee67178SXianjun Jiao priv->mac_addr[5]=rand_val+1; 19672ee67178SXianjun Jiao //priv->mac_addr[5]=0x11; 19682ee67178SXianjun Jiao if (!is_valid_ether_addr(priv->mac_addr)) { 19692ee67178SXianjun Jiao printk(KERN_WARNING "%s openwifi_dev_probe: WARNING Invalid hwaddr! Using randomly generated MAC addr\n",sdr_compatible_str); 19702ee67178SXianjun Jiao eth_random_addr(priv->mac_addr); 19712ee67178SXianjun Jiao } else { 19722ee67178SXianjun 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]); 19732ee67178SXianjun Jiao } 19742ee67178SXianjun Jiao SET_IEEE80211_PERM_ADDR(dev, priv->mac_addr); 19752ee67178SXianjun Jiao 19762ee67178SXianjun Jiao spin_lock_init(&priv->lock); 19772ee67178SXianjun Jiao 19782ee67178SXianjun Jiao err = ieee80211_register_hw(dev); 19792ee67178SXianjun Jiao if (err) { 19802ee67178SXianjun Jiao pr_err(KERN_ERR "%s openwifi_dev_probe: WARNING Cannot register device\n",sdr_compatible_str); 19812ee67178SXianjun Jiao goto err_free_dev; 19822ee67178SXianjun Jiao } else { 19832ee67178SXianjun Jiao printk("%s openwifi_dev_probe: ieee80211_register_hw %d\n",sdr_compatible_str, err); 19842ee67178SXianjun Jiao } 19852ee67178SXianjun Jiao 19862ee67178SXianjun Jiao // // //--------------------hook leds (not complete yet)-------------------------------- 1987b1dd94e3Sluz paz // tmp_dev = bus_find_device( &platform_bus_type, NULL, "leds", custom_match_platform_dev ); //leds is the name in devicetree, not "compatible" field 19882ee67178SXianjun Jiao // if (!tmp_dev) { 19892ee67178SXianjun Jiao // printk(KERN_ERR "%s bus_find_device platform_bus_type leds-gpio failed\n",sdr_compatible_str); 19902ee67178SXianjun Jiao // err = -ENOMEM; 19912ee67178SXianjun Jiao // goto err_free_dev; 19922ee67178SXianjun Jiao // } 19932ee67178SXianjun Jiao 19942ee67178SXianjun Jiao // tmp_pdev = to_platform_device(tmp_dev); 19952ee67178SXianjun Jiao // if (!tmp_pdev) { 19962ee67178SXianjun Jiao // printk(KERN_ERR "%s to_platform_device failed for leds-gpio\n",sdr_compatible_str); 19972ee67178SXianjun Jiao // err = -ENOMEM; 19982ee67178SXianjun Jiao // goto err_free_dev; 19992ee67178SXianjun Jiao // } 20002ee67178SXianjun Jiao 20012ee67178SXianjun Jiao // tmp_led_priv = platform_get_drvdata(tmp_pdev); 20022ee67178SXianjun Jiao // if (!tmp_led_priv) { 20032ee67178SXianjun Jiao // printk(KERN_ERR "%s platform_get_drvdata failed for leds-gpio\n",sdr_compatible_str); 20042ee67178SXianjun Jiao // err = -ENOMEM; 20052ee67178SXianjun Jiao // goto err_free_dev; 20062ee67178SXianjun Jiao // } 20072ee67178SXianjun Jiao // printk("%s openwifi_dev_probe: leds-gpio detect %d leds!\n",sdr_compatible_str, tmp_led_priv->num_leds); 20082ee67178SXianjun Jiao // if (tmp_led_priv->num_leds!=4){ 20092ee67178SXianjun Jiao // printk(KERN_ERR "%s WARNING we expect 4 leds, but actual %d leds\n",sdr_compatible_str,tmp_led_priv->num_leds); 20102ee67178SXianjun Jiao // err = -ENOMEM; 20112ee67178SXianjun Jiao // goto err_free_dev; 20122ee67178SXianjun Jiao // } 20132ee67178SXianjun Jiao // gpiod_set_value(tmp_led_priv->leds[0].gpiod, 1);//light it 20142ee67178SXianjun Jiao // gpiod_set_value(tmp_led_priv->leds[3].gpiod, 0);//black it 20152ee67178SXianjun Jiao // priv->num_led = tmp_led_priv->num_leds; 20162ee67178SXianjun Jiao // priv->led[0] = &(tmp_led_priv->leds[0].cdev); 20172ee67178SXianjun Jiao // priv->led[1] = &(tmp_led_priv->leds[1].cdev); 20182ee67178SXianjun Jiao // priv->led[2] = &(tmp_led_priv->leds[2].cdev); 20192ee67178SXianjun Jiao // priv->led[3] = &(tmp_led_priv->leds[3].cdev); 20202ee67178SXianjun Jiao 20212ee67178SXianjun Jiao // snprintf(priv->led_name[0], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::radio", wiphy_name(dev->wiphy)); 20222ee67178SXianjun Jiao // snprintf(priv->led_name[1], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::assoc", wiphy_name(dev->wiphy)); 20232ee67178SXianjun Jiao // snprintf(priv->led_name[2], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::tx", wiphy_name(dev->wiphy)); 20242ee67178SXianjun Jiao // snprintf(priv->led_name[3], OPENWIFI_LED_MAX_NAME_LEN, "openwifi-%s::rx", wiphy_name(dev->wiphy)); 20252ee67178SXianjun Jiao 20262ee67178SXianjun Jiao wiphy_info(dev->wiphy, "hwaddr %pm, %s + %s\n", 20272ee67178SXianjun Jiao priv->mac_addr, chip_name, priv->rf->name); 20282ee67178SXianjun Jiao 20292ee67178SXianjun Jiao openwifi_rfkill_init(dev); 20302ee67178SXianjun Jiao return 0; 20312ee67178SXianjun Jiao 20322ee67178SXianjun Jiao err_free_dev: 20332ee67178SXianjun Jiao ieee80211_free_hw(dev); 20342ee67178SXianjun Jiao 20352ee67178SXianjun Jiao return err; 20362ee67178SXianjun Jiao } 20372ee67178SXianjun Jiao 20382ee67178SXianjun Jiao static int openwifi_dev_remove(struct platform_device *pdev) 20392ee67178SXianjun Jiao { 20402ee67178SXianjun Jiao struct ieee80211_hw *dev = platform_get_drvdata(pdev); 20412ee67178SXianjun Jiao 20422ee67178SXianjun Jiao if (!dev) { 2043febc5adfSXianjun Jiao pr_info("%s openwifi_dev_remove: dev %p\n", sdr_compatible_str, (void*)dev); 20442ee67178SXianjun Jiao return(-1); 20452ee67178SXianjun Jiao } 20462ee67178SXianjun Jiao 20472ee67178SXianjun Jiao openwifi_rfkill_exit(dev); 20482ee67178SXianjun Jiao ieee80211_unregister_hw(dev); 20492ee67178SXianjun Jiao ieee80211_free_hw(dev); 20502ee67178SXianjun Jiao return(0); 20512ee67178SXianjun Jiao } 20522ee67178SXianjun Jiao 20532ee67178SXianjun Jiao static struct platform_driver openwifi_dev_driver = { 20542ee67178SXianjun Jiao .driver = { 20552ee67178SXianjun Jiao .name = "sdr,sdr", 20562ee67178SXianjun Jiao .owner = THIS_MODULE, 20572ee67178SXianjun Jiao .of_match_table = openwifi_dev_of_ids, 20582ee67178SXianjun Jiao }, 20592ee67178SXianjun Jiao .probe = openwifi_dev_probe, 20602ee67178SXianjun Jiao .remove = openwifi_dev_remove, 20612ee67178SXianjun Jiao }; 20622ee67178SXianjun Jiao 20632ee67178SXianjun Jiao module_platform_driver(openwifi_dev_driver); 2064