kernel_samsung_a34x-permissive/drivers/misc/mediatek/eccci/mt6768/cldma_reg.h
2024-04-28 15:49:01 +02:00

263 lines
11 KiB
C
Executable file

/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#ifndef __CLDMA_REG_H__
#define __CLDMA_REG_H__
#include <mt-plat/sync_write.h>
/* INFRA */
#define INFRA_RST0_REG_PD (0x0150)/* rgu reset cldma reg */
#define INFRA_RST1_REG_PD (0x0154)/* rgu clear cldma reset reg */
#define CLDMA_PD_RST_MASK (1 << 2)
#define INFRA_RST0_REG_AO (0x0140)
#define INFRA_RST1_REG_AO (0x0144)
#define CLDMA_AO_RST_MASK (1 << 6)
#define INFRA_CLDMA_CTRL_REG (0x0C00)
#define CLDMA_IP_BUSY_MASK (1 << 1)
#define INFRA_AP2MD_DUMMY_REG (0x370)
#define INFRA_AP2MD_DUMMY_BIT 0
#define INFRA_MD2PERI_PROT_EN (0x250)
#define INFRA_MD2PERI_PROT_RDY (0x258)
#define INFRA_MD2PERI_PROT_SET (0x2A8)
#define INFRA_MD2PERI_PROT_CLR (0x2AC)
#define INFRA_MD2PERI_PROT_BIT 6
#define INFRA_PERI2MD_PROT_EN (0x220)
#define INFRA_PERI2MD_PROT_RDY (0x228)
#define INFRA_PERI2MD_PROT_SET (0x2A0)
#define INFRA_PERI2MD_PROT_CLR (0x2A4)
#define INFRA_PERI2MD_PROT_BIT 7
#define INFRA_AO_MD_SRCCLKENA (0xF0C) /* SRC CLK ENA */
/*=====================CLDMA_AO_UL_CFG: 10014004-1001402C=====================*/
/* The start address of first TGPD descriptor for power-down back-up. */
#define CLDMA_AP_UL_START_ADDR_BK_0 (0x0004)
#define CLDMA_AP_UL_START_ADDR_BK_1 (0x0008)
#define CLDMA_AP_UL_START_ADDR_BK_2 (0x000C)
#define CLDMA_AP_UL_START_ADDR_BK_3 (0x0010)
#define CLDMA_AP_UL_START_ADDR_BK_4MSB (0x0014)
/* The address of current processing TGPD descriptor for power-down back-up. */
#define CLDMA_AP_UL_CURRENT_ADDR_BK_0 (0x0018)
#define CLDMA_AP_UL_CURRENT_ADDR_BK_1 (0x001C)
#define CLDMA_AP_UL_CURRENT_ADDR_BK_2 (0x0020)
#define CLDMA_AP_UL_CURRENT_ADDR_BK_3 (0x0024)
#define CLDMA_AP_UL_CURRENT_ADDR_BK_4MSB (0x0028)
/*==================CLDMA_AO_DL_CFG:10014400-1001441C=========================*/
/* Operation Configuration */
#define CLDMA_AP_SO_CFG (0x0400)
/* The start address of first RGPD descriptor */
#define CLDMA_AP_SO_START_ADDR_0 (0x0404)
/* The address of current processing RGPD descriptor. */
#define CLDMA_AP_SO_CURRENT_ADDR_0 (0x0408)
/* MSB 4 bits(35~32) of first RGPD */
#define CLDMA_AP_SO_START_ADDR_4MSB (0x040C)
/* MSB 4 bits(35~32) of current processing RGPD*/
#define CLDMA_AP_SO_CURRENT_ADDR_4MSB (0x0410)
/* SME OUT SBDMA operation status. */
#define CLDMA_AP_SO_STATUS (0x0414)
/* maximu MTU size */
#define CLDMA_AP_DL_MTU_SIZE (0x0418)
/*================CLDMA_AO_MISC: 10014800-1001480C===========================*/
/* Level 2 Interrupt Mask Register (RX Part) */
#define CLDMA_AP_L2RIMR0 (0x0800)
/* Level 2 Interrupt Mask Clear Register (RX Part) */
#define CLDMA_AP_L2RIMCR0 (0x0804)
/* Level 2 Interrupt Mask Set Register (RX Part) */
#define CLDMA_AP_L2RIMSR0 (0x0808)
/*==============CLDMA_PD_UL_CFG: 1021B000-1021B070==========================*/
/* The start address of first TGPD descriptor */
#define CLDMA_AP_UL_START_ADDR_0 (0x0000)
/* The start address of first TGPD descriptor */
#define CLDMA_AP_UL_START_ADDR_1 (0x0004)
/* The start address of first TGPD descriptor */
#define CLDMA_AP_UL_START_ADDR_2 (0x0008)
/* The start address of first TGPD descriptor */
#define CLDMA_AP_UL_START_ADDR_3 (0x000C)
#define CLDMA_AP_UL_START_ADDR_4MSB (0x0010)
/* The address of current processing TGPD descriptor. */
#define CLDMA_AP_UL_CURRENT_ADDR_0 (0x0014)
/* The address of current processing TGPD descriptor. */
#define CLDMA_AP_UL_CURRENT_ADDR_1 (0x0018)
/* The address of current processing TGPD descriptor. */
#define CLDMA_AP_UL_CURRENT_ADDR_2 (0x001C)
/* The address of current processing TGPD descriptor. */
#define CLDMA_AP_UL_CURRENT_ADDR_3 (0x0020)
/* The last updated address[35:32] 4MSB BIT of TGPD */
#define CLDMA_AP_UL_CURR_ADDR_4MSB (0x0024)
/* UL SBDMA operation status. */
#define CLDMA_AP_UL_STATUS (0x0028)
/* UL START SBDMA command. */
#define CLDMA_AP_UL_START_CMD (0x0030)
/* UL RESUME SBDMA command. */
#define CLDMA_AP_UL_RESUME_CMD (0x0034)
/* UL STOP SBDMA command. */
#define CLDMA_AP_UL_STOP_CMD (0x0038)
#define CLDMA_AP_UL_ERROR (0x003C)/* ERROR */
/* Operation Configuration */
#define CLDMA_AP_UL_CFG (0x0040)
/* The address of last updated TGPD descriptor. */
#define CLDMA_AP_UL_LAST_UPDATE_ADDR_0 (0x0044)
/* The address of last updated TGPD descriptor. */
#define CLDMA_AP_UL_LAST_UPDATE_ADDR_1 (0x0048)
/* The address of last updated TGPD descriptor. */
#define CLDMA_AP_UL_LAST_UPDATE_ADDR_2 (0x004C)
/* The address of last updated TGPD descriptor. */
#define CLDMA_AP_UL_LAST_UPDATE_ADDR_3 (0x0050)
/* The last updated address[35:32] 4MSB BIT of TGPD */
#define CLDMA_AP_UL_LAST_UPDATE_ADDR_4MSB (0x0054)
#define CLDMA_AP_UL_DEBUG_0 (0x0060)
#define CLDMA_AP_UL_DEBUG_1 (0x0064)
#define CLDMA_AP_UL_DEBUG_2 (0x0068)
#define CLDMA_AP_UL_DEBUG_3 (0x006C)
/*=================CLDMA_PD_DL_CFG:1021B400-1021B420==========================*/
#define CLDMA_AP_SO_ERROR (0x0400)/* ERROR */
/* SME OUT SBDMA START command. */
#define CLDMA_AP_SO_START_CMD (0x0404)
/* SO OUTDMA RESUME command. */
#define CLDMA_AP_SO_RESUME_CMD (0x0408)
/* SO OUTDMA STOP command. */
#define CLDMA_AP_SO_STOP_CMD (0x040C)
#define CLDMA_AP_DL_DEBUG_0 (0x0410)
#define CLDMA_AP_DL_DEBUG_1 (0x0414)
#define CLDMA_AP_DL_DEBUG_2 (0x0418)
#define CLDMA_AP_DL_DEBUG_3 (0x041C)
/*==================CLDMA_PD_AP_CFG: 1021B800-1021B8CC=======================*/
/* Level 2 Interrupt Status and Acknowledgment Register (TX Part) */
#define CLDMA_AP_L2TISAR0 (0x0800)
/* Level 2 Interrupt Mask Register (TX Part) */
#define CLDMA_AP_L2TIMR0 (0x0804)
/* Level 2 Interrupt Mask Clear Register (TX Part) */
#define CLDMA_AP_L2TIMCR0 (0x0808)
/* Level 2 Interrupt Mask Set Register (TX Part) */
#define CLDMA_AP_L2TIMSR0 (0x080C)
/* Level 3 Interrupt Status and Acknowledgment Register (TX Part) */
#define CLDMA_AP_L3TISAR0 (0x0810)
/* Level 3 Interrupt Status and Acknowledgment Register (TX Part) */
#define CLDMA_AP_L3TISAR1 (0x0814)
/* Level 3 Interrupt Mask Register (TX Part) */
#define CLDMA_AP_L3TIMR0 (0x0818)
/* Level 3 Interrupt Mask Register (TX Part) */
#define CLDMA_AP_L3TIMR1 (0x081C)
/* Level 3 Interrupt Mask Clear Register (TX Part) */
#define CLDMA_AP_L3TIMCR0 (0x0820)
/* Level 3 Interrupt Mask Clear Register (TX Part) */
#define CLDMA_AP_L3TIMCR1 (0x0824)
/* Level 3 Interrupt Mask Set Register (TX Part) */
#define CLDMA_AP_L3TIMSR0 (0x0828)
/* Level 3 Interrupt Mask Set Register (TX Part) */
#define CLDMA_AP_L3TIMSR1 (0x082C)
/* Level 2 Interrupt Status and Acknowledgment Register (RX Part) */
#define CLDMA_AP_L2RISAR0 (0x0830)
/* Level 2 Interrupt Status and Acknowledgment Register (RX Part) */
#define CLDMA_AP_L2RISAR1 (0x0834)
/* Level 3 Interrupt Status and Acknowledgment Register (RX Part) */
#define CLDMA_AP_L3RISAR0 (0x0838)
/* Level 3 Interrupt Status and Acknowledgment Register (RX Part) */
#define CLDMA_AP_L3RISAR1 (0x083C)
/* Level 3 Interrupt Mask Register (RX Part) */
#define CLDMA_AP_L3RIMR0 (0x0840)
/* Level 3 Interrupt Mask Register (RX Part) */
#define CLDMA_AP_L3RIMR1 (0x0844)
/* Level 3 Interrupt Mask Clear Register (RX Part) */
#define CLDMA_AP_L3RIMCR0 (0x0848)
/* Level 3 Interrupt Mask Clear Register (RX Part) */
#define CLDMA_AP_L3RIMCR1 (0x084C)
/* Level 3 Interrupt MaskSet Register (RX Part) */
#define CLDMA_AP_L3RIMSR0 (0x0850)
/* Level 3 Interrupt Mask Set Register (RX Part) */
#define CLDMA_AP_L3RIMSR1 (0x0854)
#define CLDMA_AP_AXI_MI (0x0858)
#define CLDMA_AP_CLDMA_IP_BUSY (0x0860) /* CLDMA IP busy */
/*Hardware DVFS control Register*/
#define CLDMA_AP_HW_DVFS_CTRL (0x0864)
#define CLDMA_AP_QOS (0x0868)
#define CLDMA_AP_DMA_ERR (0x0870) /* exception status */
#define CLDMA_AP_DMA_ERR_MASK (0x0874) /* exception mask */
#define CLDMA_AP_DEBUG0 (0x0878)
/*assistant macros*/
#define CLDMA_AP_TQSAR(i) (CLDMA_AP_UL_START_ADDR_0 + (4 * (i)))
#define CLDMA_AP_TQCPR(i) (CLDMA_AP_UL_CURRENT_ADDR_0 + (4 * (i)))
#define CLDMA_AP_RQSAR(i) (CLDMA_AP_SO_START_ADDR_0 + (4 * (i)))
#define CLDMA_AP_RQCPR(i) (CLDMA_AP_SO_CURRENT_ADDR_0 + (4 * (i)))
#define CLDMA_AP_TQSABAK(i) (CLDMA_AP_UL_START_ADDR_BK_0 + (4 * (i)))
#define CLDMA_AP_TQCPBAK(i) (CLDMA_AP_UL_CURRENT_ADDR_BK_0 + (4 * (i)))
#define cldma_write32(b, a, v) mt_reg_sync_writel(v, (b)+(a))
#define cldma_write16(b, a, v) mt_reg_sync_writew(v, (b)+(a))
#define cldma_write8(b, a, v) mt_reg_sync_writeb(v, (b)+(a))
#define cldma_read32(b, a) ioread32((void __iomem *)((b)+(a)))
#define cldma_read16(b, a) ioread16((void __iomem *)((b)+(a)))
#define cldma_read8(b, a) ioread8((void __iomem *)((b)+(a)))
/*bitmap*/
#define CLDMA_BM_INT_ALL 0xFFFFFFFF
/* L2 interrupt */
/* error occurred on the specified queue, check L3 for detail */
#define CLDMA_TX_INT_ERROR 0x00000F00
/* when there is no GPD to be transmitted on the specified queue */
#define CLDMA_TX_INT_QUEUE_EMPTY 0x000000F0
#define CLDMA_TX_QE_OFFSET 4
/* when the transmission if the GPD on the specified queue is done */
#define CLDMA_TX_INT_DONE 0x0000000F
/* error occurred on the specified queue, check L3 for detail */
#define CLDMA_RX_INT_ERROR 0x00000004
/* when there is no GPD to be transmitted on the specified queue */
#define CLDMA_RX_INT_QUEUE_EMPTY 0x00000002
#define CLDMA_RX_QE_OFFSET 1
/* when the transmission if the GPD on the specified queue is done */
#define CLDMA_RX_INT_DONE 0x00000001
#define CLDMA_BM_ALL_QUEUE 0x0F /* all queues */
static inline void cldma_reg_set_4msb_val(
void *base, unsigned int reg_4msb_offset, int idx, dma_addr_t addr)
{
#ifdef CONFIG_ARCH_DMA_ADDR_T_64BIT
unsigned int val = 0;
val = cldma_read32(base, reg_4msb_offset);
val &= ~(0xF << (idx * 4)); /*clear 0xF << i*4 bit */
val |= (((addr >> 32) & 0xF) << (idx * 4)); /*set 4msb bit*/
cldma_write32(base, reg_4msb_offset, val);
#endif
}
static inline unsigned int cldma_reg_get_4msb_val(
void *base, unsigned int reg_4msb_offset, int idx)
{
unsigned int val = 0;
#ifdef CONFIG_ARCH_DMA_ADDR_T_64BIT
val = cldma_read32(base, reg_4msb_offset);
val &= (0xF << (idx * 4)); /*clear no need bit, keep 0xF << i*4 bit */
val >>= (idx * 4); /* get 4msb bit*/
#endif
return val;
}
static inline void cldma_reg_set_tx_start_addr(
void *base, int idx, dma_addr_t addr)
{
cldma_write32(base, CLDMA_AP_TQSAR(idx), (u32)addr);
cldma_reg_set_4msb_val(base, CLDMA_AP_UL_START_ADDR_4MSB, idx, addr);
}
static inline void cldma_reg_set_tx_start_addr_bk(
void *base, int idx, dma_addr_t addr)
{
/*Set start bak address in power on domain*/
cldma_write32(base, CLDMA_AP_TQSABAK(idx), (u32)addr);
cldma_reg_set_4msb_val(base, CLDMA_AP_UL_START_ADDR_BK_4MSB, idx, addr);
}
static inline void cldma_reg_set_rx_start_addr(
void *base, int idx, dma_addr_t addr)
{
cldma_write32(base, CLDMA_AP_RQSAR(idx), (u32)addr);
cldma_reg_set_4msb_val(base, CLDMA_AP_SO_START_ADDR_4MSB, idx, addr);
}
#endif /* __CLDMA_REG_H__ */