kernel_samsung_a34x-permissive/drivers/misc/mediatek/dramc/mt6765/mtk_dramc.h
2024-04-28 15:49:01 +02:00

196 lines
5.5 KiB
C
Executable file

/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2019 MediaTek Inc.
* Author: Sagy Shih <sagy.shih@mediatek.com>
*/
#ifndef __DRAMC_H__
#define __DRAMC_H__
/* Feature options */
/* #define LAST_DRAMC */
#define SW_ZQCS
#define SW_TX_TRACKING
/* #define DVFS_READY */
#ifdef CONFIG_MTK_EMI
#define EMI_READY
#endif
/* #define RUNTIME_SHMOO */
#if defined(CONFIG_MTK_ENG_BUILD)
#define DRAMC_MEMTEST_DEBUG_SUPPORT
#endif
/* Registers define */
#define PDEF_DRAMC0_CHA_REG_0E4 IOMEM((DRAMC_AO_CHA_BASE_ADDR + 0x00e4))
#define PDEF_DRAMC0_CHA_REG_010 IOMEM((DRAMC_AO_CHA_BASE_ADDR + 0x0010))
#define PDEF_DRAMC0_CHA_REG_028 IOMEM((DRAMC_AO_CHA_BASE_ADDR + 0x0028))
#define PDEF_DRAMC0_CHA_REG_0C8 IOMEM((DRAMC_AO_CHA_BASE_ADDR + 0x00c8))
#define PDEF_DRAMC0_CHA_REG_22C IOMEM((DRAMC_AO_CHA_BASE_ADDR + 0x022C))
#define PDEF_SPM_AP_SEMAPHORE IOMEM((SLEEP_BASE_ADDR + 0x428))
#ifdef DVFS_READY
#define PDEF_SPM_TX_TIMESTAMP IOMEM((SLEEP_BASE_ADDR + 0x618))
#define PDEF_SYS_TIMER IOMEM((SYS_TIMER_BASE_ADDR + 0x8))
#endif
/* Define */
#define DUAL_FREQ_HIGH 900
#define DUAL_FREQ_LOW 650
#define DATA_RATE_THRESHOLD 15
#define MPLL_CON0_OFFSET 0x280
#define MPLL_CON1_OFFSET 0x284
#define MEMPLL5_OFFSET 0x614
#define DRAMC_ACTIM1 (0x1e8)
#define TB_DRAM_SPEED
#define DUAL_FREQ_DIFF_RLWL /* If defined, need to set MR2 in dramcinit.*/
#define DMA_GDMA_LEN_MAX_MASK (0x000FFFFF)
#define DMA_GSEC_EN_BIT (0x00000001)
#define DMA_INT_EN_BIT (0x00000001)
#define DMA_INT_FLAG_CLR_BIT (0x00000000)
#define LPDDR3_MODE_REG_2_LOW 0x00140002 /*RL6 WL3.*/
#define LPDDR2_MODE_REG_2_LOW 0x00040002 /*RL6 WL3.*/
#define PATTERN1 0x5A5A5A5A
#define PATTERN2 0xA5A5A5A5
#define DRAMC_AO_RKCFG (dramc_ao_chx_base+0x034)
#define DRAMC_AO_PD_CTRL (dramc_ao_chx_base+0x038)
#define DRAMC_AO_MRS (dramc_ao_chx_base+0x05C)
#define DRAMC_AO_SPCMD (dramc_ao_chx_base+0x060)
#define DRAMC_AO_SPCMDCTRL (dramc_ao_chx_base+0x064)
#define DRAMC_AO_DQSOSCR (dramc_ao_chx_base+0x0C8)
#define DRAMC_AO_SHUSTATUS (dramc_ao_chx_base+0x0E4)
#define DRAMC_AO_DQSOSCTHRD (dramc_ao_chx_base+0x854)
#define DRAMC_AO_CKECTRL (dramc_ao_chx_base+0x024)
#define DRAMC_AO_DQSOSC_PRD (dramc_ao_chx_base+0x868)
#define DRAMC_AO_SHU1RK0_PI (dramc_ao_chx_base+0xA0C)
#define DRAMC_AO_SHU1RK0_DQSOSC (dramc_ao_chx_base+0xA10)
#define DRAMC_AO_SHU1RK1_PI (dramc_ao_chx_base+0xB0C)
#define DRAMC_AO_SHU1RK1_DQSOSC (dramc_ao_chx_base+0xB10)
#define DRAMC_NAO_MISC_STATUSA (dramc_nao_chx_base+0x80)
#define DRAMC_NAO_SPCMDRESP (dramc_nao_chx_base+0x88)
#define DRAMC_NAO_MRR_STATUS (dramc_nao_chx_base+0x8C)
#define DDRPHY_SHU1_R0_B0_DQ7 (ddrphy_chx_base+0xE1C)
#define DDRPHY_SHU1_R0_B1_DQ7 (ddrphy_chx_base+0xE6C)
#define DDRPHY_SHU1_R1_B0_DQ7 (ddrphy_chx_base+0xF1C)
#define DDRPHY_SHU1_R1_B1_DQ7 (ddrphy_chx_base+0xF6C)
enum TX_RESULT {
TX_DONE = 0,
TX_TIMEOUT_MRR_ENABLE,
TX_TIMEOUT_MRR_DISABLE,
TX_TIMEOUT_DQSOSC,
TX_TIMEOUT_DDRPHY,
TX_FAIL_DATA_RATE,
TX_FAIL_VARIATION
};
extern void __iomem *mt_emi_base_get(void);
unsigned int mt_dramc_chn_get(unsigned int emi_cona);
unsigned int mt_dramc_chp_get(unsigned int emi_cona);
phys_addr_t mt_dramc_rankbase_get(unsigned int rank);
unsigned int mt_dramc_ta_support_ranks(void);
#ifdef LAST_DRAMC
#define LAST_DRAMC_SRAM_MGR
#define LAST_DRAMC_IP_BASED
#define LASTDRAMC_KEY 0xD8A3
#define DBG_INFO_TYPE_MAX 3
#define DRAMC_STORAGE_API_ERR_OFFSET (28)
#define STORAGE_READ_API_MASK (0xf)
#define ERR_PL_UPDATED (0x4)
phys_addr_t mt_dramc_ta_reserve_addr(unsigned int rank);
#endif
#ifdef DRAMC_MEMTEST_DEBUG_SUPPORT
unsigned int read_dram_mode_reg_by_rank(
unsigned int mr_index, unsigned int *mr_value,
unsigned int rank, unsigned int channel);
#endif
/* Sysfs config */
/*We use GPT to measurement how many clk pass in 100us*/
#ifdef CONFIG_MTK_MEMORY_LOWPOWER
extern int __init acquire_buffer_from_memory_lowpower(phys_addr_t *addr);
#else
static inline int acquire_buffer_from_memory_lowpower(phys_addr_t *addr)
{
return -3;
}
#endif
/* DRAMC API config */
void *mt_dramc_chn_base_get(int channel);
void *mt_dramc_nao_chn_base_get(int channel);
void *mt_ddrphy_chn_base_get(int channel);
void *mt_ddrphy_nao_chn_base_get(int channel);
/*void get_mempll_table_info(u32 *high_addr, u32 *low_addr, u32 *num);*/
unsigned int get_dram_data_rate(void);
unsigned int read_dram_temperature(unsigned char channel);
/*void sync_hw_gating_value(void);*/
/*unsigned int is_one_pll_mode(void);*/
int dram_steps_freq(unsigned int step);
unsigned int get_shuffle_status(void);
int get_ddr_type(void);
unsigned char get_ddr_mr(unsigned int index);
int get_emi_ch_num(void);
int dram_can_support_fh(void);
unsigned int ucDram_Register_Read(unsigned int u4reg_addr);
unsigned int lpDram_Register_Read(unsigned int Reg_base, unsigned int Offset);
int enter_pasr_dpd_config(unsigned char segment_rank0,
unsigned char segment_rank1);
int exit_pasr_dpd_config(void);
void del_zqcs_timer(void);
void add_zqcs_timer(void);
enum DDRTYPE {
TYPE_LPDDR3 = 1,
TYPE_LPDDR4,
TYPE_LPDDR4X
};
enum DRAM_MODE {
NORMAL_MODE = 0,
BYTE_MODE,
R0_NORMAL_R1_BYTE,
R0_BYTE_R1_NORMAL
};
#define PDEF_DRAMC0_CHA_REG_01C IOMEM((DRAMC_AO_CHA_BASE_ADDR + 0x001c))
enum RANK_MODE {
RANK_NORMAL = 0,
RANK_BYTE
};
enum {
DRAM_OK = 0,
DRAM_FAIL
}; /* DRAM status type */
enum {
DRAMC_NAO_CHA = 0,
DRAMC_NAO_CHB,
DRAMC_AO_CHA,
DRAMC_AO_CHB,
PHY_NAO_CHA,
PHY_NAO_CHB,
PHY_AO_CHA,
PHY_AO_CHB
}; /* RegBase */
enum RANKNUM {
SINGLE_RANK = 1,
DUAL_RANK,
};
enum {
CHANNEL_A = 0,
CHANNEL_B,
CHANNEL_MAX
}; /* DRAM_CHANNEL_T */
#endif /*__WDT_HW_H__*/