mirror of
https://github.com/open-sdr/openwifi.git
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450 lines
17 KiB
C
450 lines
17 KiB
C
// Author: Xianjun jiao, Michael Mehari, Wei Liu
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// SPDX-FileCopyrightText: 2019 UGent
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// SPDX-License-Identifier: AGPL-3.0-or-later
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// #ifndef __HW_DEF_H_FILE__
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// #define __HW_DEF_H_FILE__
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const char *sdr_compatible_str = "sdr,sdr";
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enum openwifi_fpga_type {
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SMALL_FPGA = 0,
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LARGE_FPGA = 1,
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};
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enum openwifi_band {
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BAND_900M = 0,
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BAND_2_4GHZ,
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BAND_3_65GHZ,
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BAND_5_0GHZ,
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BAND_5_8GHZ,
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BAND_5_9GHZ,
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BAND_60GHZ,
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};
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// ------------------------------------tx interface----------------------------------------
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const char *tx_intf_compatible_str = "sdr,tx_intf";
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#define TX_INTF_REG_MULTI_RST_ADDR (0*4)
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#define TX_INTF_REG_ARBITRARY_IQ_ADDR (1*4)
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#define TX_INTF_REG_WIFI_TX_MODE_ADDR (2*4)
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#define TX_INTF_REG_CTS_TOSELF_CONFIG_ADDR (4*4)
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#define TX_INTF_REG_CSI_FUZZER_ADDR (5*4)
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#define TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_ADDR (6*4)
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#define TX_INTF_REG_ARBITRARY_IQ_CTL_ADDR (7*4)
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#define TX_INTF_REG_TX_CONFIG_ADDR (8*4)
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#define TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_ADDR (9*4)
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#define TX_INTF_REG_CFG_DATA_TO_ANT_ADDR (10*4)
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#define TX_INTF_REG_S_AXIS_FIFO_TH_ADDR (11*4)
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#define TX_INTF_REG_TX_HOLD_THRESHOLD_ADDR (12*4)
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#define TX_INTF_REG_BB_GAIN_ADDR (13*4)
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#define TX_INTF_REG_INTERRUPT_SEL_ADDR (14*4)
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#define TX_INTF_REG_AMPDU_ACTION_CONFIG_ADDR (15*4)
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#define TX_INTF_REG_ANT_SEL_ADDR (16*4)
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#define TX_INTF_REG_PHY_HDR_CONFIG_ADDR (17*4)
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#define TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_ADDR (21*4)
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#define TX_INTF_REG_PKT_INFO1_ADDR (22*4)
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#define TX_INTF_REG_PKT_INFO2_ADDR (23*4)
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#define TX_INTF_REG_PKT_INFO3_ADDR (24*4)
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#define TX_INTF_REG_PKT_INFO4_ADDR (25*4)
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#define TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_ADDR (26*4)
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#define TX_INTF_NUM_ANTENNA 2
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#define TX_INTF_NUM_BYTE_PER_DMA_SYMBOL (64/8)
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#define TX_INTF_NUM_BYTE_PER_DMA_SYMBOL_IN_BITS 3
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enum tx_intf_mode {
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TX_INTF_AXIS_LOOP_BACK = 0,
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TX_INTF_BYPASS,
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TX_INTF_BW_20MHZ_AT_0MHZ_ANT0,
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TX_INTF_BW_20MHZ_AT_0MHZ_ANT1,
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TX_INTF_BW_20MHZ_AT_0MHZ_ANT_BOTH,
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TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0,
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TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT0,
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TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1,
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TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1,
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};
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const int tx_intf_fo_mapping[] = {0, 0, 0, 0, 0, -10, 10, -10, 10};
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const u32 dma_symbol_fifo_size_hw_queue[] = {4*1024, 4*1024, 4*1024, 4*1024}; // !!!make sure align to fifo in tx_intf_s_axis.v
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struct tx_intf_driver_api {
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u32 (*hw_init)(enum tx_intf_mode mode, u32 tx_config, u32 num_dma_symbol_to_ps, enum openwifi_fpga_type fpga_type);
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u32 (*reg_read)(u32 reg);
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void (*reg_write)(u32 reg, u32 value);
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u32 (*TX_INTF_REG_MULTI_RST_read)(void);
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u32 (*TX_INTF_REG_ARBITRARY_IQ_read)(void);
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u32 (*TX_INTF_REG_WIFI_TX_MODE_read)(void);
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u32 (*TX_INTF_REG_CTS_TOSELF_CONFIG_read)(void);
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u32 (*TX_INTF_REG_CSI_FUZZER_read)(void);
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u32 (*TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read)(void);
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u32 (*TX_INTF_REG_ARBITRARY_IQ_CTL_read)(void);
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u32 (*TX_INTF_REG_TX_CONFIG_read)(void);
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u32 (*TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read)(void);
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u32 (*TX_INTF_REG_CFG_DATA_TO_ANT_read)(void);
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u32 (*TX_INTF_REG_S_AXIS_FIFO_TH_read)(void);
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u32 (*TX_INTF_REG_TX_HOLD_THRESHOLD_read)(void);
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u32 (*TX_INTF_REG_INTERRUPT_SEL_read)(void);
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u32 (*TX_INTF_REG_AMPDU_ACTION_CONFIG_read)(void);
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u32 (*TX_INTF_REG_BB_GAIN_read)(void);
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u32 (*TX_INTF_REG_ANT_SEL_read)(void);
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u32 (*TX_INTF_REG_PHY_HDR_CONFIG_read)(void);
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u32 (*TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read)(void);
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u32 (*TX_INTF_REG_PKT_INFO1_read)(void);
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u32 (*TX_INTF_REG_PKT_INFO2_read)(void);
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u32 (*TX_INTF_REG_PKT_INFO3_read)(void);
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u32 (*TX_INTF_REG_PKT_INFO4_read)(void);
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u32 (*TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read)(void);
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void (*TX_INTF_REG_MULTI_RST_write)(u32 value);
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void (*TX_INTF_REG_ARBITRARY_IQ_write)(u32 value);
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void (*TX_INTF_REG_WIFI_TX_MODE_write)(u32 value);
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void (*TX_INTF_REG_CTS_TOSELF_CONFIG_write)(u32 value);
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void (*TX_INTF_REG_CSI_FUZZER_write)(u32 value);
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void (*TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write)(u32 value);
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void (*TX_INTF_REG_ARBITRARY_IQ_CTL_write)(u32 value);
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void (*TX_INTF_REG_TX_CONFIG_write)(u32 value);
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void (*TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write)(u32 value);
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void (*TX_INTF_REG_CFG_DATA_TO_ANT_write)(u32 value);
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void (*TX_INTF_REG_S_AXIS_FIFO_TH_write)(u32 value);
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void (*TX_INTF_REG_TX_HOLD_THRESHOLD_write)(u32 value);
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void (*TX_INTF_REG_INTERRUPT_SEL_write)(u32 value);
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void (*TX_INTF_REG_AMPDU_ACTION_CONFIG_write)(u32 value);
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void (*TX_INTF_REG_BB_GAIN_write)(u32 value);
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void (*TX_INTF_REG_ANT_SEL_write)(u32 value);
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void (*TX_INTF_REG_PHY_HDR_CONFIG_write)(u32 value);
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void (*TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write)(u32 value);
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void (*TX_INTF_REG_PKT_INFO1_write)(u32 value);
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void (*TX_INTF_REG_PKT_INFO2_write)(u32 value);
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void (*TX_INTF_REG_PKT_INFO3_write)(u32 value);
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void (*TX_INTF_REG_PKT_INFO4_write)(u32 value);
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};
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// ------------------------------------rx interface----------------------------------------
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const char *rx_intf_compatible_str = "sdr,rx_intf";
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#define RX_INTF_REG_MULTI_RST_ADDR (0*4)
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#define RX_INTF_REG_MIXER_CFG_ADDR (1*4)
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#define RX_INTF_REG_INTERRUPT_TEST_ADDR (2*4)
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#define RX_INTF_REG_IQ_SRC_SEL_ADDR (3*4)
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#define RX_INTF_REG_IQ_CTRL_ADDR (4*4)
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#define RX_INTF_REG_START_TRANS_TO_PS_MODE_ADDR (5*4)
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#define RX_INTF_REG_START_TRANS_TO_PS_ADDR (6*4)
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#define RX_INTF_REG_START_TRANS_TO_PS_SRC_SEL_ADDR (7*4)
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#define RX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_ADDR (8*4)
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#define RX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_ADDR (9*4)
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#define RX_INTF_REG_CFG_DATA_TO_ANT_ADDR (10*4)
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#define RX_INTF_REG_BB_GAIN_ADDR (11*4)
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#define RX_INTF_REG_TLAST_TIMEOUT_TOP_ADDR (12*4)
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#define RX_INTF_REG_S2MM_INTR_DELAY_COUNT_ADDR (13*4)
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#define RX_INTF_REG_ANT_SEL_ADDR (16*4)
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#define RX_INTF_NUM_ANTENNA 2
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#define RX_INTF_NUM_BYTE_PER_DMA_SYMBOL (64/8)
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#define RX_INTF_NUM_BYTE_PER_DMA_SYMBOL_IN_BITS 3
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enum rx_intf_mode {
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RX_INTF_AXIS_LOOP_BACK = 0,
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RX_INTF_BYPASS,
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RX_INTF_BW_20MHZ_AT_0MHZ_ANT0,
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RX_INTF_BW_20MHZ_AT_0MHZ_ANT1,
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RX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0,
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RX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1,
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RX_INTF_BW_20MHZ_AT_P_10MHZ_ANT0,
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RX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1,
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};
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const int rx_intf_fo_mapping[] = {0,0,0,0,-10,-10,10,10};
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struct rx_intf_driver_api {
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u32 io_start;
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u32 base_addr;
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u32 (*hw_init)(enum rx_intf_mode mode, u32 num_dma_symbol_to_pl, u32 num_dma_symbol_to_ps);
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u32 (*reg_read)(u32 reg);
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void (*reg_write)(u32 reg, u32 value);
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u32 (*RX_INTF_REG_MULTI_RST_read)(void);
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u32 (*RX_INTF_REG_MIXER_CFG_read)(void);
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u32 (*RX_INTF_REG_IQ_SRC_SEL_read)(void);
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u32 (*RX_INTF_REG_IQ_CTRL_read)(void);
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u32 (*RX_INTF_REG_START_TRANS_TO_PS_MODE_read)(void);
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u32 (*RX_INTF_REG_START_TRANS_TO_PS_read)(void);
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u32 (*RX_INTF_REG_START_TRANS_TO_PS_SRC_SEL_read)(void);
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u32 (*RX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read)(void);
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u32 (*RX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read)(void);
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u32 (*RX_INTF_REG_CFG_DATA_TO_ANT_read)(void);
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u32 (*RX_INTF_REG_ANT_SEL_read)(void);
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u32 (*RX_INTF_REG_INTERRUPT_TEST_read)(void);
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void (*RX_INTF_REG_MULTI_RST_write)(u32 value);
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void (*RX_INTF_REG_MIXER_CFG_write)(u32 value);
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void (*RX_INTF_REG_IQ_SRC_SEL_write)(u32 value);
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void (*RX_INTF_REG_IQ_CTRL_write)(u32 value);
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void (*RX_INTF_REG_START_TRANS_TO_PS_MODE_write)(u32 value);
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void (*RX_INTF_REG_START_TRANS_TO_PS_write)(u32 value);
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void (*RX_INTF_REG_START_TRANS_TO_PS_SRC_SEL_write)(u32 value);
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void (*RX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write)(u32 value);
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void (*RX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write)(u32 value);
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void (*RX_INTF_REG_CFG_DATA_TO_ANT_write)(u32 value);
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void (*RX_INTF_REG_BB_GAIN_write)(u32 value);
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void (*RX_INTF_REG_ANT_SEL_write)(u32 value);
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void (*RX_INTF_REG_INTERRUPT_TEST_write)(u32 value);
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void (*RX_INTF_REG_M_AXIS_RST_write)(u32 value);
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void (*RX_INTF_REG_S2MM_INTR_DELAY_COUNT_write)(u32 value);
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void (*RX_INTF_REG_TLAST_TIMEOUT_TOP_write)(u32 value);
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};
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// ----------------------------------openofdm rx-------------------------------
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const char *openofdm_rx_compatible_str = "sdr,openofdm_rx";
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#define OPENOFDM_RX_REG_MULTI_RST_ADDR (0*4)
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#define OPENOFDM_RX_REG_ENABLE_ADDR (1*4)
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#define OPENOFDM_RX_REG_POWER_THRES_ADDR (2*4)
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#define OPENOFDM_RX_REG_MIN_PLATEAU_ADDR (3*4)
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#define OPENOFDM_RX_REG_SOFT_DECODING_ADDR (4*4)
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#define OPENOFDM_RX_REG_FFT_WIN_SHIFT_ADDR (5*4)
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#define OPENOFDM_RX_REG_STATE_HISTORY_ADDR (20*4)
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enum openofdm_rx_mode {
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OPENOFDM_RX_TEST = 0,
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OPENOFDM_RX_NORMAL,
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};
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#define OPENOFDM_RX_POWER_THRES_INIT 124
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// Above 118 is based on these test result (2022-03-09)
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// FMCOMMS3
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// 2437M
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// 11a/g BPSK 6M, Rx sensitivity level dmesg report -85dBm
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// priv->rssi_correction = 153; rssi_half_db/2 = 153-85=68; rssi_half_db = 136
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// 5180M
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// 11a/g BPSK 6m, Rx sensitivity level dmesg report -84dBm
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// priv->rssi_correction = 145; rssi_half_db/2 = 145-84=61; rssi_half_db = 122
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// 5320M
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// 11a/g BPSK 6m, Rx sensitivity level dmesg report -86dBm
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// priv->rssi_correction = 148; rssi_half_db/2 = 148-86=62; rssi_half_db = 124
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// FMCOMMS2
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// 2437M
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// 11a/g BPSK 6M, Rx sensitivity level dmesg report -80dBm
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// priv->rssi_correction = 153; rssi_half_db/2 = 153-80=73; rssi_half_db = 146
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// 5180M
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// 11a/g BPSK 6m, Rx sensitivity level dmesg report -83dBm
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// priv->rssi_correction = 145; rssi_half_db/2 = 145-83=62; rssi_half_db = 124
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// 5320M
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// 11a/g BPSK 6m, Rx sensitivity level dmesg report -86dBm
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// priv->rssi_correction = 148; rssi_half_db/2 = 148-86=62; rssi_half_db = 124
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#define OPENOFDM_RX_RSSI_DBM_TH_DEFAULT (-85) //-85 will remove lots of false alarm. the best openwifi reported sensitivity is like -90/-92 (set it manually if conductive test with wifi tester)
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#define OPENOFDM_RX_DC_RUNNING_SUM_TH_INIT 64
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#define OPENOFDM_RX_MIN_PLATEAU_INIT 100
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#define OPENOFDM_RX_FFT_WIN_SHIFT_INIT 1
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#define OPENOFDM_RX_SMALL_EQ_OUT_COUNTER_TH 48
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#define OPENWIFI_MAX_SIGNAL_LEN_TH 1700 //Packet longer than this threshold will result in receiver early termination. It goes to openofdm_rx/xpu/rx_intf
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#define OPENWIFI_MIN_SIGNAL_LEN_TH 14 //Packet shorter than this threshold will result in receiver early termination. It goes to openofdm_rx/xpu/rx_intf
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//due to CRC32, at least 4 bytes needed to push out expected CRC result
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struct openofdm_rx_driver_api {
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u32 (*hw_init)(enum openofdm_rx_mode mode);
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u32 (*reg_read)(u32 reg);
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void (*reg_write)(u32 reg, u32 value);
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u32 (*OPENOFDM_RX_REG_STATE_HISTORY_read)(void);
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void (*OPENOFDM_RX_REG_MULTI_RST_write)(u32 value);
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void (*OPENOFDM_RX_REG_ENABLE_write)(u32 value);
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void (*OPENOFDM_RX_REG_POWER_THRES_write)(u32 value);
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void (*OPENOFDM_RX_REG_MIN_PLATEAU_write)(u32 value);
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void (*OPENOFDM_RX_REG_SOFT_DECODING_write)(u32 value);
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void (*OPENOFDM_RX_REG_FFT_WIN_SHIFT_write)(u32 value);
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};
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// ---------------------------------------openofdm tx-------------------------------
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const char *openofdm_tx_compatible_str = "sdr,openofdm_tx";
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#define OPENOFDM_TX_REG_MULTI_RST_ADDR (0*4)
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#define OPENOFDM_TX_REG_INIT_PILOT_STATE_ADDR (1*4)
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#define OPENOFDM_TX_REG_INIT_DATA_STATE_ADDR (2*4)
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enum openofdm_tx_mode {
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OPENOFDM_TX_TEST = 0,
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OPENOFDM_TX_NORMAL,
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};
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struct openofdm_tx_driver_api {
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u32 (*hw_init)(enum openofdm_tx_mode mode);
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u32 (*reg_read)(u32 reg);
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void (*reg_write)(u32 reg, u32 value);
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void (*OPENOFDM_TX_REG_MULTI_RST_write)(u32 value);
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void (*OPENOFDM_TX_REG_INIT_PILOT_STATE_write)(u32 value);
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void (*OPENOFDM_TX_REG_INIT_DATA_STATE_write)(u32 value);
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};
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// ---------------------------------------xpu low MAC controller-------------------------------
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// extra filter flag together with enum ieee80211_filter_flags in mac80211.h
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#define UNICAST_FOR_US (1<<9)
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#define BROADCAST_ALL_ONE (1<<10)
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#define BROADCAST_ALL_ZERO (1<<11)
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#define MY_BEACON (1<<12)
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#define MONITOR_ALL (1<<13)
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const char *xpu_compatible_str = "sdr,xpu";
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#define XPU_REG_MULTI_RST_ADDR (0*4)
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#define XPU_REG_SRC_SEL_ADDR (1*4)
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#define XPU_REG_TSF_LOAD_VAL_LOW_ADDR (2*4)
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#define XPU_REG_TSF_LOAD_VAL_HIGH_ADDR (3*4)
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#define XPU_REG_BAND_CHANNEL_ADDR (4*4)
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#define XPU_REG_DIFS_ADVANCE_ADDR (5*4)
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#define XPU_REG_FORCE_IDLE_MISC_ADDR (6*4)
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#define XPU_REG_RSSI_DB_CFG_ADDR (7*4)
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#define XPU_REG_LBT_TH_ADDR (8*4)
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#define XPU_REG_CSMA_DEBUG_ADDR (9*4)
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#define XPU_REG_BB_RF_DELAY_ADDR (10*4)
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#define XPU_REG_ACK_CTL_MAX_NUM_RETRANS_ADDR (11*4)
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#define XPU_REG_AMPDU_ACTION_ADDR (12*4)
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#define XPU_REG_SPI_DISABLE_ADDR (13*4)
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#define XPU_REG_RECV_ACK_COUNT_TOP0_ADDR (16*4)
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#define XPU_REG_RECV_ACK_COUNT_TOP1_ADDR (17*4)
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#define XPU_REG_SEND_ACK_WAIT_TOP_ADDR (18*4)
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#define XPU_REG_CSMA_CFG_ADDR (19*4)
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#define XPU_REG_SLICE_COUNT_TOTAL_ADDR (20*4)
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#define XPU_REG_SLICE_COUNT_START_ADDR (21*4)
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#define XPU_REG_SLICE_COUNT_END_ADDR (22*4)
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#define XPU_REG_CTS_TO_RTS_CONFIG_ADDR (26*4)
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#define XPU_REG_FILTER_FLAG_ADDR (27*4)
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#define XPU_REG_BSSID_FILTER_LOW_ADDR (28*4)
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#define XPU_REG_BSSID_FILTER_HIGH_ADDR (29*4)
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#define XPU_REG_MAC_ADDR_LOW_ADDR (30*4)
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#define XPU_REG_MAC_ADDR_HIGH_ADDR (31*4)
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#define XPU_REG_TSF_RUNTIME_VAL_LOW_ADDR (58*4)
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#define XPU_REG_TSF_RUNTIME_VAL_HIGH_ADDR (59*4)
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#define XPU_REG_MAC_ADDR_READ_BACK_ADDR (62*4)
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#define XPU_REG_FPGA_GIT_REV_ADDR (63*4)
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enum xpu_mode {
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XPU_TEST = 0,
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XPU_NORMAL,
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};
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struct xpu_driver_api {
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u32 (*hw_init)(enum xpu_mode mode);
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u32 (*reg_read)(u32 reg);
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void (*reg_write)(u32 reg, u32 value);
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void (*XPU_REG_MULTI_RST_write)(u32 value);
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u32 (*XPU_REG_MULTI_RST_read)(void);
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void (*XPU_REG_SRC_SEL_write)(u32 value);
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u32 (*XPU_REG_SRC_SEL_read)(void);
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void (*XPU_REG_RECV_ACK_COUNT_TOP0_write)(u32 value);
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u32 (*XPU_REG_RECV_ACK_COUNT_TOP0_read)(void);
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void (*XPU_REG_RECV_ACK_COUNT_TOP1_write)(u32 value);
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u32 (*XPU_REG_RECV_ACK_COUNT_TOP1_read)(void);
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void (*XPU_REG_SEND_ACK_WAIT_TOP_write)(u32 value);
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u32 (*XPU_REG_SEND_ACK_WAIT_TOP_read)(void);
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void (*XPU_REG_ACK_FC_FILTER_write)(u32 value);
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u32 (*XPU_REG_ACK_FC_FILTER_read)(void);
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void (*XPU_REG_CTS_TO_RTS_CONFIG_write)(u32 value);
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u32 (*XPU_REG_CTS_TO_RTS_CONFIG_read)(void);
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void (*XPU_REG_FILTER_FLAG_write)(u32 value);
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u32 (*XPU_REG_FILTER_FLAG_read)(void);
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void (*XPU_REG_MAC_ADDR_LOW_write)(u32 value);
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u32 (*XPU_REG_MAC_ADDR_LOW_read)(void);
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void (*XPU_REG_MAC_ADDR_HIGH_write)(u32 value);
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u32 (*XPU_REG_MAC_ADDR_HIGH_read)(void);
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void (*XPU_REG_BSSID_FILTER_LOW_write)(u32 value);
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u32 (*XPU_REG_BSSID_FILTER_LOW_read)(void);
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void (*XPU_REG_BSSID_FILTER_HIGH_write)(u32 value);
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u32 (*XPU_REG_BSSID_FILTER_HIGH_read)(void);
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void (*XPU_REG_BAND_CHANNEL_write)(u32 value);
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u32 (*XPU_REG_BAND_CHANNEL_read)(void);
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void (*XPU_REG_DIFS_ADVANCE_write)(u32 value);
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u32 (*XPU_REG_DIFS_ADVANCE_read)(void);
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void (*XPU_REG_FORCE_IDLE_MISC_write)(u32 value);
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u32 (*XPU_REG_FORCE_IDLE_MISC_read)(void);
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u32 (*XPU_REG_TRX_STATUS_read)(void);
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u32 (*XPU_REG_TX_RESULT_read)(void);
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u32 (*XPU_REG_TSF_RUNTIME_VAL_LOW_read)(void);
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u32 (*XPU_REG_TSF_RUNTIME_VAL_HIGH_read)(void);
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void (*XPU_REG_TSF_LOAD_VAL_LOW_write)(u32 value);
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void (*XPU_REG_TSF_LOAD_VAL_HIGH_write)(u32 value);
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void (*XPU_REG_TSF_LOAD_VAL_write)(u32 high_value, u32 low_value);
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u32 (*XPU_REG_FC_DI_read)(void);
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u32 (*XPU_REG_ADDR1_LOW_read)(void);
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u32 (*XPU_REG_ADDR1_HIGH_read)(void);
|
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u32 (*XPU_REG_ADDR2_LOW_read)(void);
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u32 (*XPU_REG_ADDR2_HIGH_read)(void);
|
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|
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void (*XPU_REG_LBT_TH_write)(u32 value);
|
|
u32 (*XPU_REG_LBT_TH_read)(void);
|
|
|
|
void (*XPU_REG_RSSI_DB_CFG_write)(u32 value);
|
|
u32 (*XPU_REG_RSSI_DB_CFG_read)(void);
|
|
|
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void (*XPU_REG_CSMA_DEBUG_write)(u32 value);
|
|
u32 (*XPU_REG_CSMA_DEBUG_read)(void);
|
|
|
|
void (*XPU_REG_CSMA_CFG_write)(u32 value);
|
|
u32 (*XPU_REG_CSMA_CFG_read)(void);
|
|
|
|
void (*XPU_REG_SLICE_COUNT_TOTAL_write)(u32 value);
|
|
void (*XPU_REG_SLICE_COUNT_START_write)(u32 value);
|
|
void (*XPU_REG_SLICE_COUNT_END_write)(u32 value);
|
|
void (*XPU_REG_SLICE_COUNT_TOTAL1_write)(u32 value);
|
|
void (*XPU_REG_SLICE_COUNT_START1_write)(u32 value);
|
|
void (*XPU_REG_SLICE_COUNT_END1_write)(u32 value);
|
|
|
|
u32 (*XPU_REG_SLICE_COUNT_TOTAL_read)(void);
|
|
u32 (*XPU_REG_SLICE_COUNT_START_read)(void);
|
|
u32 (*XPU_REG_SLICE_COUNT_END_read)(void);
|
|
u32 (*XPU_REG_SLICE_COUNT_TOTAL1_read)(void);
|
|
u32 (*XPU_REG_SLICE_COUNT_START1_read)(void);
|
|
u32 (*XPU_REG_SLICE_COUNT_END1_read)(void);
|
|
|
|
void (*XPU_REG_BB_RF_DELAY_write)(u32 value);
|
|
|
|
void (*XPU_REG_ACK_CTL_MAX_NUM_RETRANS_write)(u32 value);
|
|
u32 (*XPU_REG_ACK_CTL_MAX_NUM_RETRANS_read)(void);
|
|
|
|
void (*XPU_REG_SPI_DISABLE_write)(u32 value);
|
|
u32 (*XPU_REG_SPI_DISABLE_read)(void);
|
|
|
|
void (*XPU_REG_AMPDU_ACTION_write)(u32 value);
|
|
u32 (*XPU_REG_AMPDU_ACTION_read)(void);
|
|
|
|
void (*XPU_REG_MAC_ADDR_write)(u8 *mac_addr);
|
|
};
|
|
|
|
// #endif
|