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grlib_regs.h
238 lines | 9.4 KiB | text/x-c | CLexer
#ifndef GRLIB_REGS_H_INCLUDED
#define GRLIB_REGS_H_INCLUDED
#define NB_GPTIMER 3
#include <stdint.h>
struct apbuart_regs_str{
volatile unsigned int data;
volatile unsigned int status;
volatile unsigned int ctrl;
volatile unsigned int scaler;
volatile unsigned int fifoDebug;
};
struct grgpio_regs_str{
volatile int io_port_data_register;
int io_port_output_register;
int io_port_direction_register;
int interrupt_mak_register;
int interrupt_polarity_register;
int interrupt_edge_register;
int bypass_register;
int reserved;
// 0x20-0x3c interrupt map register(s)
};
typedef struct {
volatile unsigned int counter;
volatile unsigned int reload;
volatile unsigned int ctrl;
volatile unsigned int unused;
} timer_regs_t;
//*************
//*************
// GPTIMER_REGS
#define GPTIMER_CLEAR_IRQ 0x00000010 // clear pending IRQ if any
#define GPTIMER_LD 0x00000004 // LD load value from the reload register
#define GPTIMER_EN 0x00000001 // EN enable the timer
#define GPTIMER_EN_MASK 0xfffffffe // EN enable the timer
#define GPTIMER_RS 0x00000002 // RS restart
#define GPTIMER_IE 0x00000008 // IE interrupt enable
#define GPTIMER_IE_MASK 0xffffffef // IE interrupt enable
typedef struct {
volatile unsigned int scaler_value;
volatile unsigned int scaler_reload;
volatile unsigned int conf;
volatile unsigned int unused0;
timer_regs_t timer[NB_GPTIMER];
} gptimer_regs_t;
//*********************
//*********************
// TIME_MANAGEMENT_REGS
#define VAL_SOFTWARE_RESET 0x02 // [0010] software reset
#define VAL_LFR_SYNCHRONIZED 0x80000000
#define BIT_SYNCHRONIZATION 31
#define COARSE_TIME_MASK 0x7fffffff
#define SYNC_BIT_MASK 0x7f
#define SYNC_BIT 0x80
#define BIT_CAL_RELOAD 0x00000010
#define MASK_CAL_RELOAD 0xffffffef // [1110 1111]
#define BIT_CAL_ENABLE 0x00000040
#define MASK_CAL_ENABLE 0xffffffbf // [1011 1111]
#define BIT_SET_INTERLEAVED 0x00000020 // [0010 0000]
#define MASK_SET_INTERLEAVED 0xffffffdf // [1101 1111]
#define BIT_SOFT_RESET 0x00000004 // [0100]
#define MASK_SOFT_RESET 0xfffffffb // [1011]
typedef struct {
volatile int ctrl; // bit 0 forces the load of the coarse_time_load value and resets the fine_time
// bit 1 is the soft reset for the time management module
// bit 2 is the soft reset for the waveform picker and the spectral matrix modules, set to 1 after HW reset
volatile int coarse_time_load;
volatile int coarse_time;
volatile int fine_time;
// TEMPERATURES
volatile int temp_pcb; // SEL1 = 0 SEL0 = 0
volatile int temp_fpga; // SEL1 = 0 SEL0 = 1
volatile int temp_scm; // SEL1 = 1 SEL0 = 0
// CALIBRATION
volatile unsigned int calDACCtrl;
volatile unsigned int calPrescaler;
volatile unsigned int calDivisor;
volatile unsigned int calDataPtr;
volatile unsigned int calData;
} time_management_regs_t;
//*********************
//*********************
// WAVEFORM_PICKER_REGS
#define BITS_WFP_STATUS_F3 0xc0 // [1100 0000] check the f3 full bits
#define BIT_WFP_BUF_F3_0 0x40 // [0100 0000] f3 buffer 0 is full
#define BIT_WFP_BUF_F3_1 0x80 // [1000 0000] f3 buffer 1 is full
#define RST_WFP_F3_0 0x00008840 // [1000 1000 0100 0000]
#define RST_WFP_F3_1 0x00008880 // [1000 1000 1000 0000]
#define BITS_WFP_STATUS_F2 0x30 // [0011 0000] get the status bits for f2
#define SHIFT_WFP_STATUS_F2 4
#define BIT_WFP_BUF_F2_0 0x10 // [0001 0000] f2 buffer 0 is full
#define BIT_WFP_BUF_F2_1 0x20 // [0010 0000] f2 buffer 1 is full
#define RST_WFP_F2_0 0x00004410 // [0100 0100 0001 0000]
#define RST_WFP_F2_1 0x00004420 // [0100 0100 0010 0000]
#define BITS_WFP_STATUS_F1 0x0c // [0000 1100] check the f1 full bits
#define BIT_WFP_BUF_F1_0 0x04 // [0000 0100] f1 buffer 0 is full
#define BIT_WFP_BUF_F1_1 0x08 // [0000 1000] f1 buffer 1 is full
#define RST_WFP_F1_0 0x00002204 // [0010 0010 0000 0100] f1 bits = 0
#define RST_WFP_F1_1 0x00002208 // [0010 0010 0000 1000] f1 bits = 0
#define BITS_WFP_STATUS_F0 0x03 // [0000 0011] check the f0 full bits
#define RST_WFP_F0_0 0x00001101 // [0001 0001 0000 0001]
#define RST_WFP_F0_1 0x00001102 // [0001 0001 0000 0010]
#define BIT_WFP_BUFFER_0 0x01
#define BIT_WFP_BUFFER_1 0x02
#define RST_BITS_RUN_BURST_EN 0x80 // [1000 0000] burst f2, f1, f0 enable f3, f2, f1, f0
#define BITS_WFP_ENABLE_ALL 0x0f // [0000 1111] enable f3, f2, f1, f0
#define BITS_WFP_ENABLE_BURST 0x0c // [0000 1100] enable f3, f2
#define RUN_BURST_ENABLE_SBM2 0x60 // [0110 0000] enable f2 and f1 burst
#define RUN_BURST_ENABLE_BURST 0x40 // [0100 0000] f2 burst enabled
#define DFLT_WFP_NB_DATA_BY_BUFFER 0xa7f // 0x30 *** 2688 - 1 => nb samples -1
#define DFLT_WFP_SNAPSHOT_PARAM 0xa80 // 0x34 *** 2688 => nb samples
#define DFLT_WFP_BUFFER_LENGTH 0x1f8 // buffer length in burst = 3 * 2688 / 16 = 504 = 0x1f8
#define DFLT_WFP_DELTA_F0_2 0x30 // 48 = 11 0000, max 7 bits
// PDB >= 0.1.28, 0x80000f54
typedef struct{
int data_shaping; // 0x00 00 *** R2 R1 R0 SP1 SP0 BW
int run_burst_enable; // 0x04 01 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
int addr_data_f0_0; // 0x08
int addr_data_f0_1; // 0x0c
int addr_data_f1_0; // 0x10
int addr_data_f1_1; // 0x14
int addr_data_f2_0; // 0x18
int addr_data_f2_1; // 0x1c
int addr_data_f3_0; // 0x20
int addr_data_f3_1; // 0x24
volatile int status; // 0x28
volatile int delta_snapshot; // 0x2c
int delta_f0; // 0x30
int delta_f0_2; // 0x34
int delta_f1; // 0x38
int delta_f2; // 0x3c
int nb_data_by_buffer; // 0x40 number of samples in a buffer = 2688
int snapshot_param; // 0x44
int start_date; // 0x48
//
volatile unsigned int f0_0_coarse_time; // 0x4c
volatile unsigned int f0_0_fine_time; // 0x50
volatile unsigned int f0_1_coarse_time; // 0x54
volatile unsigned int f0_1_fine_time; // 0x58
//
volatile unsigned int f1_0_coarse_time; // 0x5c
volatile unsigned int f1_0_fine_time; // 0x60
volatile unsigned int f1_1_coarse_time; // 0x64
volatile unsigned int f1_1_fine_time; // 0x68
//
volatile unsigned int f2_0_coarse_time; // 0x6c
volatile unsigned int f2_0_fine_time; // 0x70
volatile unsigned int f2_1_coarse_time; // 0x74
volatile unsigned int f2_1_fine_time; // 0x78
//
volatile unsigned int f3_0_coarse_time; // 0x7c => 0x7c + 0xf54 = 0xd0
volatile unsigned int f3_0_fine_time; // 0x80
volatile unsigned int f3_1_coarse_time; // 0x84
volatile unsigned int f3_1_fine_time; // 0x88
//
unsigned int buffer_length; // 0x8c = buffer length in burst 2688 / 16 = 168
//
volatile int16_t v_dummy; // 0x90
volatile int16_t v; // 0x90
volatile int16_t e1_dummy; // 0x94
volatile int16_t e1; // 0x94
volatile int16_t e2_dummy; // 0x98
volatile int16_t e2; // 0x98
} waveform_picker_regs_0_1_18_t;
//*********************
//*********************
// SPECTRAL_MATRIX_REGS
#define BITS_STATUS_F0 0x03 // [0011]
#define BITS_STATUS_F1 0x0c // [1100]
#define BITS_STATUS_F2 0x30 // [0011 0000]
#define BITS_HK_AA_SM 0x780 // [0111 1000 0000]
#define BITS_SM_ERR 0x7c0 // [0111 1100 0000]
#define BITS_STATUS_REG 0x7ff // [0111 1111 1111]
#define BIT_READY_0 0x1 // [01]
#define BIT_READY_1 0x2 // [10]
#define BIT_READY_0_1 0x3 // [11]
#define BIT_STATUS_F1_0 0x04 // [0100]
#define BIT_STATUS_F1_1 0x08 // [1000]
#define BIT_STATUS_F2_0 0x10 // [0001 0000]
#define BIT_STATUS_F2_1 0x20 // [0010 0000]
#define DEFAULT_MATRIX_LENGTH 0xc8 // 25 * 128 / 16 = 200 = 0xc8
#define BIT_IRQ_ON_NEW_MATRIX 0x01
#define MASK_IRQ_ON_NEW_MATRIX 0xfffffffe
#define BIT_IRQ_ON_ERROR 0x02
#define MASK_IRQ_ON_ERROR 0xfffffffd
typedef struct {
volatile int config; // 0x00
volatile int status; // 0x04
volatile int f0_0_address; // 0x08
volatile int f0_1_address; // 0x0C
//
volatile int f1_0_address; // 0x10
volatile int f1_1_address; // 0x14
volatile int f2_0_address; // 0x18
volatile int f2_1_address; // 0x1C
//
volatile unsigned int f0_0_coarse_time; // 0x20
volatile unsigned int f0_0_fine_time; // 0x24
volatile unsigned int f0_1_coarse_time; // 0x28
volatile unsigned int f0_1_fine_time; // 0x2C
//
volatile unsigned int f1_0_coarse_time; // 0x30
volatile unsigned int f1_0_fine_time; // 0x34
volatile unsigned int f1_1_coarse_time; // 0x38
volatile unsigned int f1_1_fine_time; // 0x3C
//
volatile unsigned int f2_0_coarse_time; // 0x40
volatile unsigned int f2_0_fine_time; // 0x44
volatile unsigned int f2_1_coarse_time; // 0x48
volatile unsigned int f2_1_fine_time; // 0x4C
//
unsigned int matrix_length; // 0x50, length of a spectral matrix in burst 3200 / 16 = 200 = 0xc8
} spectral_matrix_regs_t;
#endif // GRLIB_REGS_H_INCLUDED