linux/linux-5.4.31/drivers/media/dvb-frontends/mxl5xx_defs.h

733 lines
20 KiB
C

/* SPDX-License-Identifier: GPL-2.0 */
/*
* Defines for the Maxlinear MX58x family of tuners/demods
*
* Copyright (C) 2014 Digital Devices GmbH
*
* based on code:
* Copyright (c) 2011-2013 MaxLinear, Inc. All rights reserved
* which was released under GPL V2
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* version 2, as published by the Free Software Foundation.
*/
enum MXL_BOOL_E {
MXL_DISABLE = 0,
MXL_ENABLE = 1,
MXL_FALSE = 0,
MXL_TRUE = 1,
MXL_INVALID = 0,
MXL_VALID = 1,
MXL_NO = 0,
MXL_YES = 1,
MXL_OFF = 0,
MXL_ON = 1
};
/* Firmware-Host Command IDs */
enum MXL_HYDRA_HOST_CMD_ID_E {
/* --Device command IDs-- */
MXL_HYDRA_DEV_NO_OP_CMD = 0, /* No OP */
MXL_HYDRA_DEV_SET_POWER_MODE_CMD = 1,
MXL_HYDRA_DEV_SET_OVERWRITE_DEF_CMD = 2,
/* Host-used CMD, not used by firmware */
MXL_HYDRA_DEV_FIRMWARE_DOWNLOAD_CMD = 3,
/* Additional CONTROL types from DTV */
MXL_HYDRA_DEV_SET_BROADCAST_PID_STB_ID_CMD = 4,
MXL_HYDRA_DEV_GET_PMM_SLEEP_CMD = 5,
/* --Tuner command IDs-- */
MXL_HYDRA_TUNER_TUNE_CMD = 6,
MXL_HYDRA_TUNER_GET_STATUS_CMD = 7,
/* --Demod command IDs-- */
MXL_HYDRA_DEMOD_SET_PARAM_CMD = 8,
MXL_HYDRA_DEMOD_GET_STATUS_CMD = 9,
MXL_HYDRA_DEMOD_RESET_FEC_COUNTER_CMD = 10,
MXL_HYDRA_DEMOD_SET_PKT_NUM_CMD = 11,
MXL_HYDRA_DEMOD_SET_IQ_SOURCE_CMD = 12,
MXL_HYDRA_DEMOD_GET_IQ_DATA_CMD = 13,
MXL_HYDRA_DEMOD_GET_M68HC05_VER_CMD = 14,
MXL_HYDRA_DEMOD_SET_ERROR_COUNTER_MODE_CMD = 15,
/* --- ABORT channel tune */
MXL_HYDRA_ABORT_TUNE_CMD = 16, /* Abort current tune command. */
/* --SWM/FSK command IDs-- */
MXL_HYDRA_FSK_RESET_CMD = 17,
MXL_HYDRA_FSK_MSG_CMD = 18,
MXL_HYDRA_FSK_SET_OP_MODE_CMD = 19,
/* --DiSeqC command IDs-- */
MXL_HYDRA_DISEQC_MSG_CMD = 20,
MXL_HYDRA_DISEQC_COPY_MSG_TO_MAILBOX = 21,
MXL_HYDRA_DISEQC_CFG_MSG_CMD = 22,
/* --- FFT Debug Command IDs-- */
MXL_HYDRA_REQ_FFT_SPECTRUM_CMD = 23,
/* -- Demod scramblle code */
MXL_HYDRA_DEMOD_SCRAMBLE_CODE_CMD = 24,
/* ---For host to know how many commands in total */
MXL_HYDRA_LAST_HOST_CMD = 25,
MXL_HYDRA_DEMOD_INTR_TYPE_CMD = 47,
MXL_HYDRA_DEV_INTR_CLEAR_CMD = 48,
MXL_HYDRA_TUNER_SPECTRUM_REQ_CMD = 53,
MXL_HYDRA_TUNER_ACTIVATE_CMD = 55,
MXL_HYDRA_DEV_CFG_POWER_MODE_CMD = 56,
MXL_HYDRA_DEV_XTAL_CAP_CMD = 57,
MXL_HYDRA_DEV_CFG_SKU_CMD = 58,
MXL_HYDRA_TUNER_SPECTRUM_MIN_GAIN_CMD = 59,
MXL_HYDRA_DISEQC_CONT_TONE_CFG = 60,
MXL_HYDRA_DEV_RF_WAKE_UP_CMD = 61,
MXL_HYDRA_DEMOD_CFG_EQ_CTRL_PARAM_CMD = 62,
MXL_HYDRA_DEMOD_FREQ_OFFSET_SEARCH_RANGE_CMD = 63,
MXL_HYDRA_DEV_REQ_PWR_FROM_ADCRSSI_CMD = 64,
MXL_XCPU_PID_FLT_CFG_CMD = 65,
MXL_XCPU_SHMEM_TEST_CMD = 66,
MXL_XCPU_ABORT_TUNE_CMD = 67,
MXL_XCPU_CHAN_TUNE_CMD = 68,
MXL_XCPU_FLT_BOND_HDRS_CMD = 69,
MXL_HYDRA_DEV_BROADCAST_WAKE_UP_CMD = 70,
MXL_HYDRA_FSK_CFG_FSK_FREQ_CMD = 71,
MXL_HYDRA_FSK_POWER_DOWN_CMD = 72,
MXL_XCPU_CLEAR_CB_STATS_CMD = 73,
MXL_XCPU_CHAN_BOND_RESTART_CMD = 74
};
#define MXL_ENABLE_BIG_ENDIAN (0)
#define MXL_HYDRA_OEM_MAX_BLOCK_WRITE_LENGTH 248
#define MXL_HYDRA_OEM_MAX_CMD_BUFF_LEN (248)
#define MXL_HYDRA_CAP_MIN 10
#define MXL_HYDRA_CAP_MAX 33
#define MXL_HYDRA_PLID_REG_READ 0xFB /* Read register PLID */
#define MXL_HYDRA_PLID_REG_WRITE 0xFC /* Write register PLID */
#define MXL_HYDRA_PLID_CMD_READ 0xFD /* Command Read PLID */
#define MXL_HYDRA_PLID_CMD_WRITE 0xFE /* Command Write PLID */
#define MXL_HYDRA_REG_SIZE_IN_BYTES 4 /* Hydra register size in bytes */
#define MXL_HYDRA_I2C_HDR_SIZE (2 * sizeof(u8)) /* PLID + LEN(0xFF) */
#define MXL_HYDRA_CMD_HEADER_SIZE (MXL_HYDRA_REG_SIZE_IN_BYTES + MXL_HYDRA_I2C_HDR_SIZE)
#define MXL_HYDRA_SKU_ID_581 0
#define MXL_HYDRA_SKU_ID_584 1
#define MXL_HYDRA_SKU_ID_585 2
#define MXL_HYDRA_SKU_ID_544 3
#define MXL_HYDRA_SKU_ID_561 4
#define MXL_HYDRA_SKU_ID_582 5
#define MXL_HYDRA_SKU_ID_568 6
/* macro for register write data buffer size
* (PLID + LEN (0xFF) + RegAddr + RegData)
*/
#define MXL_HYDRA_REG_WRITE_LEN (MXL_HYDRA_I2C_HDR_SIZE + (2 * MXL_HYDRA_REG_SIZE_IN_BYTES))
/* macro to extract a single byte from 4-byte(32-bit) data */
#define GET_BYTE(x, n) (((x) >> (8*(n))) & 0xFF)
#define MAX_CMD_DATA 512
#define MXL_GET_REG_MASK_32(lsb_loc, num_of_bits) ((0xFFFFFFFF >> (32 - (num_of_bits))) << (lsb_loc))
#define FW_DL_SIGN (0xDEADBEEF)
#define MBIN_FORMAT_VERSION '1'
#define MBIN_FILE_HEADER_ID 'M'
#define MBIN_SEGMENT_HEADER_ID 'S'
#define MBIN_MAX_FILE_LENGTH (1<<23)
struct MBIN_FILE_HEADER_T {
u8 id;
u8 fmt_version;
u8 header_len;
u8 num_segments;
u8 entry_address[4];
u8 image_size24[3];
u8 image_checksum;
u8 reserved[4];
};
struct MBIN_FILE_T {
struct MBIN_FILE_HEADER_T header;
u8 data[1];
};
struct MBIN_SEGMENT_HEADER_T {
u8 id;
u8 len24[3];
u8 address[4];
};
struct MBIN_SEGMENT_T {
struct MBIN_SEGMENT_HEADER_T header;
u8 data[1];
};
enum MXL_CMD_TYPE_E { MXL_CMD_WRITE = 0, MXL_CMD_READ };
#define BUILD_HYDRA_CMD(cmd_id, req_type, size, data_ptr, cmd_buff) \
do { \
cmd_buff[0] = ((req_type == MXL_CMD_WRITE) ? MXL_HYDRA_PLID_CMD_WRITE : MXL_HYDRA_PLID_CMD_READ); \
cmd_buff[1] = (size > 251) ? 0xff : (u8) (size + 4); \
cmd_buff[2] = size; \
cmd_buff[3] = cmd_id; \
cmd_buff[4] = 0x00; \
cmd_buff[5] = 0x00; \
convert_endian(MXL_ENABLE_BIG_ENDIAN, size, (u8 *)data_ptr); \
memcpy((void *)&cmd_buff[6], data_ptr, size); \
} while (0)
struct MXL_REG_FIELD_T {
u32 reg_addr;
u8 lsb_pos;
u8 num_of_bits;
};
struct MXL_DEV_CMD_DATA_T {
u32 data_size;
u8 data[MAX_CMD_DATA];
};
enum MXL_HYDRA_SKU_TYPE_E {
MXL_HYDRA_SKU_TYPE_MIN = 0x00,
MXL_HYDRA_SKU_TYPE_581 = 0x00,
MXL_HYDRA_SKU_TYPE_584 = 0x01,
MXL_HYDRA_SKU_TYPE_585 = 0x02,
MXL_HYDRA_SKU_TYPE_544 = 0x03,
MXL_HYDRA_SKU_TYPE_561 = 0x04,
MXL_HYDRA_SKU_TYPE_5XX = 0x05,
MXL_HYDRA_SKU_TYPE_5YY = 0x06,
MXL_HYDRA_SKU_TYPE_511 = 0x07,
MXL_HYDRA_SKU_TYPE_561_DE = 0x08,
MXL_HYDRA_SKU_TYPE_582 = 0x09,
MXL_HYDRA_SKU_TYPE_541 = 0x0A,
MXL_HYDRA_SKU_TYPE_568 = 0x0B,
MXL_HYDRA_SKU_TYPE_542 = 0x0C,
MXL_HYDRA_SKU_TYPE_MAX = 0x0D,
};
struct MXL_HYDRA_SKU_COMMAND_T {
enum MXL_HYDRA_SKU_TYPE_E sku_type;
};
enum MXL_HYDRA_DEMOD_ID_E {
MXL_HYDRA_DEMOD_ID_0 = 0,
MXL_HYDRA_DEMOD_ID_1,
MXL_HYDRA_DEMOD_ID_2,
MXL_HYDRA_DEMOD_ID_3,
MXL_HYDRA_DEMOD_ID_4,
MXL_HYDRA_DEMOD_ID_5,
MXL_HYDRA_DEMOD_ID_6,
MXL_HYDRA_DEMOD_ID_7,
MXL_HYDRA_DEMOD_MAX
};
#define MXL_DEMOD_SCRAMBLE_SEQ_LEN 12
#define MAX_STEP_SIZE_24_XTAL_102_05_KHZ 195
#define MAX_STEP_SIZE_24_XTAL_204_10_KHZ 215
#define MAX_STEP_SIZE_24_XTAL_306_15_KHZ 203
#define MAX_STEP_SIZE_24_XTAL_408_20_KHZ 177
#define MAX_STEP_SIZE_27_XTAL_102_05_KHZ 195
#define MAX_STEP_SIZE_27_XTAL_204_10_KHZ 215
#define MAX_STEP_SIZE_27_XTAL_306_15_KHZ 203
#define MAX_STEP_SIZE_27_XTAL_408_20_KHZ 177
#define MXL_HYDRA_SPECTRUM_MIN_FREQ_KHZ 300000
#define MXL_HYDRA_SPECTRUM_MAX_FREQ_KHZ 2350000
enum MXL_DEMOD_CHAN_PARAMS_OFFSET_E {
DMD_STANDARD_ADDR = 0,
DMD_SPECTRUM_INVERSION_ADDR,
DMD_SPECTRUM_ROLL_OFF_ADDR,
DMD_SYMBOL_RATE_ADDR,
DMD_MODULATION_SCHEME_ADDR,
DMD_FEC_CODE_RATE_ADDR,
DMD_SNR_ADDR,
DMD_FREQ_OFFSET_ADDR,
DMD_CTL_FREQ_OFFSET_ADDR,
DMD_STR_FREQ_OFFSET_ADDR,
DMD_FTL_FREQ_OFFSET_ADDR,
DMD_STR_NBC_SYNC_LOCK_ADDR,
DMD_CYCLE_SLIP_COUNT_ADDR,
DMD_DISPLAY_IQ_ADDR,
DMD_DVBS2_CRC_ERRORS_ADDR,
DMD_DVBS2_PER_COUNT_ADDR,
DMD_DVBS2_PER_WINDOW_ADDR,
DMD_DVBS_CORR_RS_ERRORS_ADDR,
DMD_DVBS_UNCORR_RS_ERRORS_ADDR,
DMD_DVBS_BER_COUNT_ADDR,
DMD_DVBS_BER_WINDOW_ADDR,
DMD_TUNER_ID_ADDR,
DMD_DVBS2_PILOT_ON_OFF_ADDR,
DMD_FREQ_SEARCH_RANGE_IN_KHZ_ADDR,
MXL_DEMOD_CHAN_PARAMS_BUFF_SIZE,
};
enum MXL_HYDRA_TUNER_ID_E {
MXL_HYDRA_TUNER_ID_0 = 0,
MXL_HYDRA_TUNER_ID_1,
MXL_HYDRA_TUNER_ID_2,
MXL_HYDRA_TUNER_ID_3,
MXL_HYDRA_TUNER_MAX
};
enum MXL_HYDRA_BCAST_STD_E {
MXL_HYDRA_DSS = 0,
MXL_HYDRA_DVBS,
MXL_HYDRA_DVBS2,
};
enum MXL_HYDRA_FEC_E {
MXL_HYDRA_FEC_AUTO = 0,
MXL_HYDRA_FEC_1_2,
MXL_HYDRA_FEC_3_5,
MXL_HYDRA_FEC_2_3,
MXL_HYDRA_FEC_3_4,
MXL_HYDRA_FEC_4_5,
MXL_HYDRA_FEC_5_6,
MXL_HYDRA_FEC_6_7,
MXL_HYDRA_FEC_7_8,
MXL_HYDRA_FEC_8_9,
MXL_HYDRA_FEC_9_10,
};
enum MXL_HYDRA_MODULATION_E {
MXL_HYDRA_MOD_AUTO = 0,
MXL_HYDRA_MOD_QPSK,
MXL_HYDRA_MOD_8PSK
};
enum MXL_HYDRA_SPECTRUM_E {
MXL_HYDRA_SPECTRUM_AUTO = 0,
MXL_HYDRA_SPECTRUM_INVERTED,
MXL_HYDRA_SPECTRUM_NON_INVERTED,
};
enum MXL_HYDRA_ROLLOFF_E {
MXL_HYDRA_ROLLOFF_AUTO = 0,
MXL_HYDRA_ROLLOFF_0_20,
MXL_HYDRA_ROLLOFF_0_25,
MXL_HYDRA_ROLLOFF_0_35
};
enum MXL_HYDRA_PILOTS_E {
MXL_HYDRA_PILOTS_OFF = 0,
MXL_HYDRA_PILOTS_ON,
MXL_HYDRA_PILOTS_AUTO
};
enum MXL_HYDRA_CONSTELLATION_SRC_E {
MXL_HYDRA_FORMATTER = 0,
MXL_HYDRA_LEGACY_FEC,
MXL_HYDRA_FREQ_RECOVERY,
MXL_HYDRA_NBC,
MXL_HYDRA_CTL,
MXL_HYDRA_EQ,
};
struct MXL_HYDRA_DEMOD_LOCK_T {
int agc_lock; /* AGC lock info */
int fec_lock; /* Demod FEC block lock info */
};
struct MXL_HYDRA_DEMOD_STATUS_DVBS_T {
u32 rs_errors; /* RS decoder err counter */
u32 ber_window; /* Ber Windows */
u32 ber_count; /* BER count */
u32 ber_window_iter1; /* Ber Windows - post viterbi */
u32 ber_count_iter1; /* BER count - post viterbi */
};
struct MXL_HYDRA_DEMOD_STATUS_DSS_T {
u32 rs_errors; /* RS decoder err counter */
u32 ber_window; /* Ber Windows */
u32 ber_count; /* BER count */
};
struct MXL_HYDRA_DEMOD_STATUS_DVBS2_T {
u32 crc_errors; /* CRC error counter */
u32 packet_error_count; /* Number of packet errors */
u32 total_packets; /* Total packets */
};
struct MXL_HYDRA_DEMOD_STATUS_T {
enum MXL_HYDRA_BCAST_STD_E standard_mask; /* Standard DVB-S, DVB-S2 or DSS */
union {
struct MXL_HYDRA_DEMOD_STATUS_DVBS_T demod_status_dvbs; /* DVB-S demod status */
struct MXL_HYDRA_DEMOD_STATUS_DVBS2_T demod_status_dvbs2; /* DVB-S2 demod status */
struct MXL_HYDRA_DEMOD_STATUS_DSS_T demod_status_dss; /* DSS demod status */
} u;
};
struct MXL_HYDRA_DEMOD_SIG_OFFSET_INFO_T {
s32 carrier_offset_in_hz; /* CRL offset info */
s32 symbol_offset_in_symbol; /* SRL offset info */
};
struct MXL_HYDRA_DEMOD_SCRAMBLE_INFO_T {
u8 scramble_sequence[MXL_DEMOD_SCRAMBLE_SEQ_LEN]; /* scramble sequence */
u32 scramble_code; /* scramble gold code */
};
enum MXL_HYDRA_SPECTRUM_STEP_SIZE_E {
MXL_HYDRA_STEP_SIZE_24_XTAL_102_05KHZ, /* 102.05 KHz for 24 MHz XTAL */
MXL_HYDRA_STEP_SIZE_24_XTAL_204_10KHZ, /* 204.10 KHz for 24 MHz XTAL */
MXL_HYDRA_STEP_SIZE_24_XTAL_306_15KHZ, /* 306.15 KHz for 24 MHz XTAL */
MXL_HYDRA_STEP_SIZE_24_XTAL_408_20KHZ, /* 408.20 KHz for 24 MHz XTAL */
MXL_HYDRA_STEP_SIZE_27_XTAL_102_05KHZ, /* 102.05 KHz for 27 MHz XTAL */
MXL_HYDRA_STEP_SIZE_27_XTAL_204_35KHZ, /* 204.35 KHz for 27 MHz XTAL */
MXL_HYDRA_STEP_SIZE_27_XTAL_306_52KHZ, /* 306.52 KHz for 27 MHz XTAL */
MXL_HYDRA_STEP_SIZE_27_XTAL_408_69KHZ, /* 408.69 KHz for 27 MHz XTAL */
};
enum MXL_HYDRA_SPECTRUM_RESOLUTION_E {
MXL_HYDRA_SPECTRUM_RESOLUTION_00_1_DB, /* 0.1 dB */
MXL_HYDRA_SPECTRUM_RESOLUTION_01_0_DB, /* 1.0 dB */
MXL_HYDRA_SPECTRUM_RESOLUTION_05_0_DB, /* 5.0 dB */
MXL_HYDRA_SPECTRUM_RESOLUTION_10_0_DB, /* 10 dB */
};
enum MXL_HYDRA_SPECTRUM_ERROR_CODE_E {
MXL_SPECTRUM_NO_ERROR,
MXL_SPECTRUM_INVALID_PARAMETER,
MXL_SPECTRUM_INVALID_STEP_SIZE,
MXL_SPECTRUM_BW_CANNOT_BE_COVERED,
MXL_SPECTRUM_DEMOD_BUSY,
MXL_SPECTRUM_TUNER_NOT_ENABLED,
};
struct MXL_HYDRA_SPECTRUM_REQ_T {
u32 tuner_index; /* TUNER Ctrl: one of MXL58x_TUNER_ID_E */
u32 demod_index; /* DEMOD Ctrl: one of MXL58x_DEMOD_ID_E */
enum MXL_HYDRA_SPECTRUM_STEP_SIZE_E step_size_in_khz;
u32 starting_freq_ink_hz;
u32 total_steps;
enum MXL_HYDRA_SPECTRUM_RESOLUTION_E spectrum_division;
};
enum MXL_HYDRA_SEARCH_FREQ_OFFSET_TYPE_E {
MXL_HYDRA_SEARCH_MAX_OFFSET = 0, /* DMD searches for max freq offset (i.e. 5MHz) */
MXL_HYDRA_SEARCH_BW_PLUS_ROLLOFF, /* DMD searches for BW + ROLLOFF/2 */
};
struct MXL58X_CFG_FREQ_OFF_SEARCH_RANGE_T {
u32 demod_index;
enum MXL_HYDRA_SEARCH_FREQ_OFFSET_TYPE_E search_type;
};
/* there are two slices
* slice0 - TS0, TS1, TS2 & TS3
* slice1 - TS4, TS5, TS6 & TS7
*/
#define MXL_HYDRA_TS_SLICE_MAX 2
#define MAX_FIXED_PID_NUM 32
#define MXL_HYDRA_NCO_CLK 418 /* 418 MHz */
#define MXL_HYDRA_MAX_TS_CLOCK 139 /* 139 MHz */
#define MXL_HYDRA_TS_FIXED_PID_FILT_SIZE 32
#define MXL_HYDRA_SHARED_PID_FILT_SIZE_DEFAULT 33 /* Shared PID filter size in 1-1 mux mode */
#define MXL_HYDRA_SHARED_PID_FILT_SIZE_2_TO_1 66 /* Shared PID filter size in 2-1 mux mode */
#define MXL_HYDRA_SHARED_PID_FILT_SIZE_4_TO_1 132 /* Shared PID filter size in 4-1 mux mode */
enum MXL_HYDRA_PID_BANK_TYPE_E {
MXL_HYDRA_SOFTWARE_PID_BANK = 0,
MXL_HYDRA_HARDWARE_PID_BANK,
};
enum MXL_HYDRA_TS_MUX_MODE_E {
MXL_HYDRA_TS_MUX_PID_REMAP = 0,
MXL_HYDRA_TS_MUX_PREFIX_EXTRA_HEADER = 1,
};
enum MXL_HYDRA_TS_MUX_TYPE_E {
MXL_HYDRA_TS_MUX_DISABLE = 0, /* No Mux ( 1 TSIF to 1 TSIF) */
MXL_HYDRA_TS_MUX_2_TO_1, /* Mux 2 TSIF to 1 TSIF */
MXL_HYDRA_TS_MUX_4_TO_1, /* Mux 4 TSIF to 1 TSIF */
};
enum MXL_HYDRA_TS_GROUP_E {
MXL_HYDRA_TS_GROUP_0_3 = 0, /* TS group 0 to 3 (TS0, TS1, TS2 & TS3) */
MXL_HYDRA_TS_GROUP_4_7, /* TS group 0 to 3 (TS4, TS5, TS6 & TS7) */
};
enum MXL_HYDRA_TS_PID_FLT_CTRL_E {
MXL_HYDRA_TS_PIDS_ALLOW_ALL = 0, /* Allow all pids */
MXL_HYDRA_TS_PIDS_DROP_ALL, /* Drop all pids */
MXL_HYDRA_TS_INVALIDATE_PID_FILTER, /* Delete current PD filter in the device */
};
enum MXL_HYDRA_TS_PID_TYPE_E {
MXL_HYDRA_TS_PID_FIXED = 0,
MXL_HYDRA_TS_PID_REGULAR,
};
struct MXL_HYDRA_TS_PID_T {
u16 original_pid; /* pid from TS */
u16 remapped_pid; /* remapped pid */
enum MXL_BOOL_E enable; /* enable or disable pid */
enum MXL_BOOL_E allow_or_drop; /* allow or drop pid */
enum MXL_BOOL_E enable_pid_remap; /* enable or disable pid remap */
u8 bond_id; /* Bond ID in A0 always 0 - Only for 568 Sku */
u8 dest_id; /* Output port ID for the PID - Only for 568 Sku */
};
struct MXL_HYDRA_TS_MUX_PREFIX_HEADER_T {
enum MXL_BOOL_E enable;
u8 num_byte;
u8 header[12];
};
enum MXL_HYDRA_PID_FILTER_BANK_E {
MXL_HYDRA_PID_BANK_A = 0,
MXL_HYDRA_PID_BANK_B,
};
enum MXL_HYDRA_MPEG_DATA_FMT_E {
MXL_HYDRA_MPEG_SERIAL_MSB_1ST = 0,
MXL_HYDRA_MPEG_SERIAL_LSB_1ST,
MXL_HYDRA_MPEG_SYNC_WIDTH_BIT = 0,
MXL_HYDRA_MPEG_SYNC_WIDTH_BYTE
};
enum MXL_HYDRA_MPEG_MODE_E {
MXL_HYDRA_MPEG_MODE_SERIAL_4_WIRE = 0, /* MPEG 4 Wire serial mode */
MXL_HYDRA_MPEG_MODE_SERIAL_3_WIRE, /* MPEG 3 Wire serial mode */
MXL_HYDRA_MPEG_MODE_SERIAL_2_WIRE, /* MPEG 2 Wire serial mode */
MXL_HYDRA_MPEG_MODE_PARALLEL /* MPEG parallel mode - valid only for MxL581 */
};
enum MXL_HYDRA_MPEG_CLK_TYPE_E {
MXL_HYDRA_MPEG_CLK_CONTINUOUS = 0, /* Continuous MPEG clock */
MXL_HYDRA_MPEG_CLK_GAPPED, /* Gapped (gated) MPEG clock */
};
enum MXL_HYDRA_MPEG_CLK_FMT_E {
MXL_HYDRA_MPEG_ACTIVE_LOW = 0,
MXL_HYDRA_MPEG_ACTIVE_HIGH,
MXL_HYDRA_MPEG_CLK_NEGATIVE = 0,
MXL_HYDRA_MPEG_CLK_POSITIVE,
MXL_HYDRA_MPEG_CLK_IN_PHASE = 0,
MXL_HYDRA_MPEG_CLK_INVERTED,
};
enum MXL_HYDRA_MPEG_CLK_PHASE_E {
MXL_HYDRA_MPEG_CLK_PHASE_SHIFT_0_DEG = 0,
MXL_HYDRA_MPEG_CLK_PHASE_SHIFT_90_DEG,
MXL_HYDRA_MPEG_CLK_PHASE_SHIFT_180_DEG,
MXL_HYDRA_MPEG_CLK_PHASE_SHIFT_270_DEG
};
enum MXL_HYDRA_MPEG_ERR_INDICATION_E {
MXL_HYDRA_MPEG_ERR_REPLACE_SYNC = 0,
MXL_HYDRA_MPEG_ERR_REPLACE_VALID,
MXL_HYDRA_MPEG_ERR_INDICATION_DISABLED
};
struct MXL_HYDRA_MPEGOUT_PARAM_T {
int enable; /* Enable or Disable MPEG OUT */
enum MXL_HYDRA_MPEG_CLK_TYPE_E mpeg_clk_type; /* Continuous or gapped */
enum MXL_HYDRA_MPEG_CLK_FMT_E mpeg_clk_pol; /* MPEG Clk polarity */
u8 max_mpeg_clk_rate; /* Max MPEG Clk rate (0 - 104 MHz, 139 MHz) */
enum MXL_HYDRA_MPEG_CLK_PHASE_E mpeg_clk_phase; /* MPEG Clk phase */
enum MXL_HYDRA_MPEG_DATA_FMT_E lsb_or_msb_first; /* LSB first or MSB first in TS transmission */
enum MXL_HYDRA_MPEG_DATA_FMT_E mpeg_sync_pulse_width; /* MPEG SYNC pulse width (1-bit or 1-byte) */
enum MXL_HYDRA_MPEG_CLK_FMT_E mpeg_valid_pol; /* MPEG VALID polarity */
enum MXL_HYDRA_MPEG_CLK_FMT_E mpeg_sync_pol; /* MPEG SYNC polarity */
enum MXL_HYDRA_MPEG_MODE_E mpeg_mode; /* config 4/3/2-wire serial or parallel TS out */
enum MXL_HYDRA_MPEG_ERR_INDICATION_E mpeg_error_indication; /* Enable or Disable MPEG error indication */
};
enum MXL_HYDRA_EXT_TS_IN_ID_E {
MXL_HYDRA_EXT_TS_IN_0 = 0,
MXL_HYDRA_EXT_TS_IN_1,
MXL_HYDRA_EXT_TS_IN_2,
MXL_HYDRA_EXT_TS_IN_3,
MXL_HYDRA_EXT_TS_IN_MAX
};
enum MXL_HYDRA_TS_OUT_ID_E {
MXL_HYDRA_TS_OUT_0 = 0,
MXL_HYDRA_TS_OUT_1,
MXL_HYDRA_TS_OUT_2,
MXL_HYDRA_TS_OUT_3,
MXL_HYDRA_TS_OUT_4,
MXL_HYDRA_TS_OUT_5,
MXL_HYDRA_TS_OUT_6,
MXL_HYDRA_TS_OUT_7,
MXL_HYDRA_TS_OUT_MAX
};
enum MXL_HYDRA_TS_DRIVE_STRENGTH_E {
MXL_HYDRA_TS_DRIVE_STRENGTH_1X = 0,
MXL_HYDRA_TS_DRIVE_STRENGTH_2X,
MXL_HYDRA_TS_DRIVE_STRENGTH_3X,
MXL_HYDRA_TS_DRIVE_STRENGTH_4X,
MXL_HYDRA_TS_DRIVE_STRENGTH_5X,
MXL_HYDRA_TS_DRIVE_STRENGTH_6X,
MXL_HYDRA_TS_DRIVE_STRENGTH_7X,
MXL_HYDRA_TS_DRIVE_STRENGTH_8X
};
enum MXL_HYDRA_DEVICE_E {
MXL_HYDRA_DEVICE_581 = 0,
MXL_HYDRA_DEVICE_584,
MXL_HYDRA_DEVICE_585,
MXL_HYDRA_DEVICE_544,
MXL_HYDRA_DEVICE_561,
MXL_HYDRA_DEVICE_TEST,
MXL_HYDRA_DEVICE_582,
MXL_HYDRA_DEVICE_541,
MXL_HYDRA_DEVICE_568,
MXL_HYDRA_DEVICE_542,
MXL_HYDRA_DEVICE_541S,
MXL_HYDRA_DEVICE_561S,
MXL_HYDRA_DEVICE_581S,
MXL_HYDRA_DEVICE_MAX
};
/* Demod IQ data */
struct MXL_HYDRA_DEMOD_IQ_SRC_T {
u32 demod_id;
u32 source_of_iq; /* == 0, it means I/Q comes from Formatter
* == 1, Legacy FEC
* == 2, Frequency Recovery
* == 3, NBC
* == 4, CTL
* == 5, EQ
* == 6, FPGA
*/
};
struct MXL_HYDRA_DEMOD_ABORT_TUNE_T {
u32 demod_id;
};
struct MXL_HYDRA_TUNER_CMD {
u8 tuner_id;
u8 enable;
};
/* Demod Para for Channel Tune */
struct MXL_HYDRA_DEMOD_PARAM_T {
u32 tuner_index;
u32 demod_index;
u32 frequency_in_hz; /* Frequency */
u32 standard; /* one of MXL_HYDRA_BCAST_STD_E */
u32 spectrum_inversion; /* Input : Spectrum inversion. */
u32 roll_off; /* rollOff (alpha) factor */
u32 symbol_rate_in_hz; /* Symbol rate */
u32 pilots; /* TRUE = pilots enabled */
u32 modulation_scheme; /* Input : Modulation Scheme is one of MXL_HYDRA_MODULATION_E */
u32 fec_code_rate; /* Input : Forward error correction rate. Is one of MXL_HYDRA_FEC_E */
u32 max_carrier_offset_in_mhz; /* Maximum carrier freq offset in MHz. Same as freqSearchRangeKHz, but in unit of MHz. */
};
struct MXL_HYDRA_DEMOD_SCRAMBLE_CODE_T {
u32 demod_index;
u8 scramble_sequence[12]; /* scramble sequence */
u32 scramble_code; /* scramble gold code */
};
struct MXL_INTR_CFG_T {
u32 intr_type;
u32 intr_duration_in_nano_secs;
u32 intr_mask;
};
struct MXL_HYDRA_POWER_MODE_CMD {
u8 power_mode; /* enumeration values are defined in MXL_HYDRA_PWR_MODE_E (device API.h) */
};
struct MXL_HYDRA_RF_WAKEUP_PARAM_T {
u32 time_interval_in_seconds; /* in seconds */
u32 tuner_index;
s32 rssi_threshold;
};
struct MXL_HYDRA_RF_WAKEUP_CFG_T {
u32 tuner_count;
struct MXL_HYDRA_RF_WAKEUP_PARAM_T params;
};
enum MXL_HYDRA_AUX_CTRL_MODE_E {
MXL_HYDRA_AUX_CTRL_MODE_FSK = 0, /* Select FSK controller */
MXL_HYDRA_AUX_CTRL_MODE_DISEQC, /* Select DiSEqC controller */
};
enum MXL_HYDRA_DISEQC_OPMODE_E {
MXL_HYDRA_DISEQC_ENVELOPE_MODE = 0,
MXL_HYDRA_DISEQC_TONE_MODE,
};
enum MXL_HYDRA_DISEQC_VER_E {
MXL_HYDRA_DISEQC_1_X = 0, /* Config DiSEqC 1.x mode */
MXL_HYDRA_DISEQC_2_X, /* Config DiSEqC 2.x mode */
MXL_HYDRA_DISEQC_DISABLE /* Disable DiSEqC */
};
enum MXL_HYDRA_DISEQC_CARRIER_FREQ_E {
MXL_HYDRA_DISEQC_CARRIER_FREQ_22KHZ = 0, /* DiSEqC signal frequency of 22 KHz */
MXL_HYDRA_DISEQC_CARRIER_FREQ_33KHZ, /* DiSEqC signal frequency of 33 KHz */
MXL_HYDRA_DISEQC_CARRIER_FREQ_44KHZ /* DiSEqC signal frequency of 44 KHz */
};
enum MXL_HYDRA_DISEQC_ID_E {
MXL_HYDRA_DISEQC_ID_0 = 0,
MXL_HYDRA_DISEQC_ID_1,
MXL_HYDRA_DISEQC_ID_2,
MXL_HYDRA_DISEQC_ID_3
};
enum MXL_HYDRA_FSK_OP_MODE_E {
MXL_HYDRA_FSK_CFG_TYPE_39KPBS = 0, /* 39.0kbps */
MXL_HYDRA_FSK_CFG_TYPE_39_017KPBS, /* 39.017kbps */
MXL_HYDRA_FSK_CFG_TYPE_115_2KPBS /* 115.2kbps */
};
struct MXL58X_DSQ_OP_MODE_T {
u32 diseqc_id; /* DSQ 0, 1, 2 or 3 */
u32 op_mode; /* Envelope mode (0) or internal tone mode (1) */
u32 version; /* 0: 1.0, 1: 1.1, 2: Disable */
u32 center_freq; /* 0: 22KHz, 1: 33KHz and 2: 44 KHz */
};
struct MXL_HYDRA_DISEQC_CFG_CONT_TONE_T {
u32 diseqc_id;
u32 cont_tone_flag; /* 1: Enable , 0: Disable */
};