esp-idf/components/soc/esp32h2/include/soc/trace_reg.h
2022-11-29 18:55:12 +08:00

220 lines
8.0 KiB
C

/**
* SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#pragma once
#include <stdint.h>
#include "soc/soc.h"
#ifdef __cplusplus
extern "C" {
#endif
/** TRACE_MEM_START_ADDR_REG register
* mem start addr
*/
#define TRACE_MEM_START_ADDR_REG (DR_REG_TRACE_BASE + 0x0)
/** TRACE_MEM_STAET_ADDR : R/W; bitpos: [31:0]; default: 0;
* The start address of trace memory
*/
#define TRACE_MEM_STAET_ADDR 0xFFFFFFFFU
#define TRACE_MEM_STAET_ADDR_M (TRACE_MEM_STAET_ADDR_V << TRACE_MEM_STAET_ADDR_S)
#define TRACE_MEM_STAET_ADDR_V 0xFFFFFFFFU
#define TRACE_MEM_STAET_ADDR_S 0
/** TRACE_MEM_END_ADDR_REG register
* mem end addr
*/
#define TRACE_MEM_END_ADDR_REG (DR_REG_TRACE_BASE + 0x4)
/** TRACE_MEM_END_ADDR : R/W; bitpos: [31:0]; default: 4294967295;
* The end address of trace memory
*/
#define TRACE_MEM_END_ADDR 0xFFFFFFFFU
#define TRACE_MEM_END_ADDR_M (TRACE_MEM_END_ADDR_V << TRACE_MEM_END_ADDR_S)
#define TRACE_MEM_END_ADDR_V 0xFFFFFFFFU
#define TRACE_MEM_END_ADDR_S 0
/** TRACE_MEM_CURRENT_ADDR_REG register
* mem current addr
*/
#define TRACE_MEM_CURRENT_ADDR_REG (DR_REG_TRACE_BASE + 0x8)
/** TRACE_MEM_CURRENT_ADDR : RO; bitpos: [31:0]; default: 0;
* current_mem_addr,indicate that next writing addr
*/
#define TRACE_MEM_CURRENT_ADDR 0xFFFFFFFFU
#define TRACE_MEM_CURRENT_ADDR_M (TRACE_MEM_CURRENT_ADDR_V << TRACE_MEM_CURRENT_ADDR_S)
#define TRACE_MEM_CURRENT_ADDR_V 0xFFFFFFFFU
#define TRACE_MEM_CURRENT_ADDR_S 0
/** TRACE_MEM_ADDR_UPDATE_REG register
* mem addr update
*/
#define TRACE_MEM_ADDR_UPDATE_REG (DR_REG_TRACE_BASE + 0xc)
/** TRACE_MEM_CURRENT_ADDR_UPDATE : WT; bitpos: [0]; default: 0;
* when set this reg, the current_mem_addr will update to start_addr
*/
#define TRACE_MEM_CURRENT_ADDR_UPDATE (BIT(0))
#define TRACE_MEM_CURRENT_ADDR_UPDATE_M (TRACE_MEM_CURRENT_ADDR_UPDATE_V << TRACE_MEM_CURRENT_ADDR_UPDATE_S)
#define TRACE_MEM_CURRENT_ADDR_UPDATE_V 0x00000001U
#define TRACE_MEM_CURRENT_ADDR_UPDATE_S 0
/** TRACE_FIFO_STATUS_REG register
* fifo status register
*/
#define TRACE_FIFO_STATUS_REG (DR_REG_TRACE_BASE + 0x10)
/** TRACE_FIFO_EMPTY : RO; bitpos: [0]; default: 1;
* 1 indicate that fifo is empty
*/
#define TRACE_FIFO_EMPTY (BIT(0))
#define TRACE_FIFO_EMPTY_M (TRACE_FIFO_EMPTY_V << TRACE_FIFO_EMPTY_S)
#define TRACE_FIFO_EMPTY_V 0x00000001U
#define TRACE_FIFO_EMPTY_S 0
/** TRACE_WORK_STATUS : RO; bitpos: [1]; default: 0;
* mem_full interrupt status
*/
#define TRACE_WORK_STATUS (BIT(1))
#define TRACE_WORK_STATUS_M (TRACE_WORK_STATUS_V << TRACE_WORK_STATUS_S)
#define TRACE_WORK_STATUS_V 0x00000001U
#define TRACE_WORK_STATUS_S 1
/** TRACE_INTR_ENA_REG register
* interrupt enable register
*/
#define TRACE_INTR_ENA_REG (DR_REG_TRACE_BASE + 0x14)
/** TRACE_FIFO_OVERFLOW_INTR_ENA : R/W; bitpos: [0]; default: 0;
* Set 1 enable fifo_overflow interrupt
*/
#define TRACE_FIFO_OVERFLOW_INTR_ENA (BIT(0))
#define TRACE_FIFO_OVERFLOW_INTR_ENA_M (TRACE_FIFO_OVERFLOW_INTR_ENA_V << TRACE_FIFO_OVERFLOW_INTR_ENA_S)
#define TRACE_FIFO_OVERFLOW_INTR_ENA_V 0x00000001U
#define TRACE_FIFO_OVERFLOW_INTR_ENA_S 0
/** TRACE_MEM_FULL_INTR_ENA : R/W; bitpos: [1]; default: 0;
* Set 1 enable mem_full interrupt
*/
#define TRACE_MEM_FULL_INTR_ENA (BIT(1))
#define TRACE_MEM_FULL_INTR_ENA_M (TRACE_MEM_FULL_INTR_ENA_V << TRACE_MEM_FULL_INTR_ENA_S)
#define TRACE_MEM_FULL_INTR_ENA_V 0x00000001U
#define TRACE_MEM_FULL_INTR_ENA_S 1
/** TRACE_INTR_RAW_REG register
* interrupt status register
*/
#define TRACE_INTR_RAW_REG (DR_REG_TRACE_BASE + 0x18)
/** TRACE_FIFO_OVERFLOW_INTR_RAW : RO; bitpos: [0]; default: 0;
* fifo_overflow interrupt status
*/
#define TRACE_FIFO_OVERFLOW_INTR_RAW (BIT(0))
#define TRACE_FIFO_OVERFLOW_INTR_RAW_M (TRACE_FIFO_OVERFLOW_INTR_RAW_V << TRACE_FIFO_OVERFLOW_INTR_RAW_S)
#define TRACE_FIFO_OVERFLOW_INTR_RAW_V 0x00000001U
#define TRACE_FIFO_OVERFLOW_INTR_RAW_S 0
/** TRACE_MEM_FULL_INTR_RAW : RO; bitpos: [1]; default: 0;
* mem_full interrupt status
*/
#define TRACE_MEM_FULL_INTR_RAW (BIT(1))
#define TRACE_MEM_FULL_INTR_RAW_M (TRACE_MEM_FULL_INTR_RAW_V << TRACE_MEM_FULL_INTR_RAW_S)
#define TRACE_MEM_FULL_INTR_RAW_V 0x00000001U
#define TRACE_MEM_FULL_INTR_RAW_S 1
/** TRACE_INTR_CLR_REG register
* interrupt clear register
*/
#define TRACE_INTR_CLR_REG (DR_REG_TRACE_BASE + 0x1c)
/** TRACE_FIFO_OVERFLOW_INTR_CLR : WT; bitpos: [0]; default: 0;
* Set 1 clr fifo overflow interrupt
*/
#define TRACE_FIFO_OVERFLOW_INTR_CLR (BIT(0))
#define TRACE_FIFO_OVERFLOW_INTR_CLR_M (TRACE_FIFO_OVERFLOW_INTR_CLR_V << TRACE_FIFO_OVERFLOW_INTR_CLR_S)
#define TRACE_FIFO_OVERFLOW_INTR_CLR_V 0x00000001U
#define TRACE_FIFO_OVERFLOW_INTR_CLR_S 0
/** TRACE_MEM_FULL_INTR_CLR : WT; bitpos: [1]; default: 0;
* Set 1 clr mem full interrupt
*/
#define TRACE_MEM_FULL_INTR_CLR (BIT(1))
#define TRACE_MEM_FULL_INTR_CLR_M (TRACE_MEM_FULL_INTR_CLR_V << TRACE_MEM_FULL_INTR_CLR_S)
#define TRACE_MEM_FULL_INTR_CLR_V 0x00000001U
#define TRACE_MEM_FULL_INTR_CLR_S 1
/** TRACE_TRIGGER_REG register
* trigger register
*/
#define TRACE_TRIGGER_REG (DR_REG_TRACE_BASE + 0x20)
/** TRACE_TRIGGER_ON : WT; bitpos: [0]; default: 0;
* [0] set 1 start trace.
*/
#define TRACE_TRIGGER_ON (BIT(0))
#define TRACE_TRIGGER_ON_M (TRACE_TRIGGER_ON_V << TRACE_TRIGGER_ON_S)
#define TRACE_TRIGGER_ON_V 0x00000001U
#define TRACE_TRIGGER_ON_S 0
/** TRACE_TRIGGER_OFF : WT; bitpos: [1]; default: 0;
* set 1 stop trace.
*/
#define TRACE_TRIGGER_OFF (BIT(1))
#define TRACE_TRIGGER_OFF_M (TRACE_TRIGGER_OFF_V << TRACE_TRIGGER_OFF_S)
#define TRACE_TRIGGER_OFF_V 0x00000001U
#define TRACE_TRIGGER_OFF_S 1
/** TRACE_MEM_LOOP : R/W; bitpos: [2]; default: 1;
* if this reg is 1, trace will loop wrtie trace_mem. If is 0, when mem_current_addr
* at mem_end_addr, it will stop at the mem_end_addr
*/
#define TRACE_MEM_LOOP (BIT(2))
#define TRACE_MEM_LOOP_M (TRACE_MEM_LOOP_V << TRACE_MEM_LOOP_S)
#define TRACE_MEM_LOOP_V 0x00000001U
#define TRACE_MEM_LOOP_S 2
/** TRACE_RESTART_ENA : R/W; bitpos: [3]; default: 1;
* enable encoder auto-restart, when lost package, the encoder will end, if enable
* auto-restart, when fifo empty, encoder will restart and send a sync package.
*/
#define TRACE_RESTART_ENA (BIT(3))
#define TRACE_RESTART_ENA_M (TRACE_RESTART_ENA_V << TRACE_RESTART_ENA_S)
#define TRACE_RESTART_ENA_V 0x00000001U
#define TRACE_RESTART_ENA_S 3
/** TRACE_RESYNC_PROLONGED_REG register
* resync configuration register
*/
#define TRACE_RESYNC_PROLONGED_REG (DR_REG_TRACE_BASE + 0x24)
/** TRACE_RESYNC_PROLONGED : R/W; bitpos: [23:0]; default: 128;
* count number, when count to this value, send a sync package
*/
#define TRACE_RESYNC_PROLONGED 0x00FFFFFFU
#define TRACE_RESYNC_PROLONGED_M (TRACE_RESYNC_PROLONGED_V << TRACE_RESYNC_PROLONGED_S)
#define TRACE_RESYNC_PROLONGED_V 0x00FFFFFFU
#define TRACE_RESYNC_PROLONGED_S 0
/** TRACE_RESYNC_MODE : R/W; bitpos: [24]; default: 0;
* resyc mode sel: 0: default, cycle count 1: package num count
*/
#define TRACE_RESYNC_MODE (BIT(24))
#define TRACE_RESYNC_MODE_M (TRACE_RESYNC_MODE_V << TRACE_RESYNC_MODE_S)
#define TRACE_RESYNC_MODE_V 0x00000001U
#define TRACE_RESYNC_MODE_S 24
/** TRACE_CLOCK_GATE_REG register
* Clock gate control register
*/
#define TRACE_CLOCK_GATE_REG (DR_REG_TRACE_BASE + 0x28)
/** TRACE_CLK_EN : R/W; bitpos: [0]; default: 1;
* The bit is used to enable clock gate when access all registers in this module.
*/
#define TRACE_CLK_EN (BIT(0))
#define TRACE_CLK_EN_M (TRACE_CLK_EN_V << TRACE_CLK_EN_S)
#define TRACE_CLK_EN_V 0x00000001U
#define TRACE_CLK_EN_S 0
/** TRACE_DATE_REG register
* Version control register
*/
#define TRACE_DATE_REG (DR_REG_TRACE_BASE + 0x3fc)
/** TRACE_DATE : R/W; bitpos: [27:0]; default: 35663920;
* version control register. Note that this default value stored is the latest date
* when the hardware logic was updated.
*/
#define TRACE_DATE 0x0FFFFFFFU
#define TRACE_DATE_M (TRACE_DATE_V << TRACE_DATE_S)
#define TRACE_DATE_V 0x0FFFFFFFU
#define TRACE_DATE_S 0
#ifdef __cplusplus
}
#endif