Contributors: 2
Author Tokens Token Proportion Commits Commit Proportion
Greentime Hu 456 99.78% 1 50.00%
Nishad Kamdar 1 0.22% 1 50.00%
Total 457 2


/* SPDX-License-Identifier: GPL-2.0 */
// Copyright (C) 2005-2017 Andes Technology Corporation

#ifndef L2_CACHE_H
#define L2_CACHE_H

/* CCTL_CMD_OP */
#define L2_CA_CONF_OFF		0x0
#define L2_IF_CONF_OFF		0x4
#define L2CC_SETUP_OFF		0x8
#define L2CC_PROT_OFF		0xC
#define L2CC_CTRL_OFF		0x10
#define L2_INT_EN_OFF           0x20
#define L2_STA_OFF              0x24
#define RDERR_ADDR_OFF		0x28
#define WRERR_ADDR_OFF		0x2c
#define EVDPTERR_ADDR_OFF	0x30
#define IMPL3ERR_ADDR_OFF	0x34
#define L2_CNT0_CTRL_OFF        0x40
#define L2_EVNT_CNT0_OFF        0x44
#define L2_CNT1_CTRL_OFF        0x48
#define L2_EVNT_CNT1_OFF        0x4c
#define L2_CCTL_CMD_OFF		0x60
#define L2_CCTL_STATUS_OFF	0x64
#define L2_LINE_TAG_OFF		0x68
#define L2_LINE_DPT_OFF		0x70

#define CCTL_CMD_L2_IX_INVAL    0x0
#define CCTL_CMD_L2_PA_INVAL    0x1
#define CCTL_CMD_L2_IX_WB       0x2
#define CCTL_CMD_L2_PA_WB       0x3
#define CCTL_CMD_L2_PA_WBINVAL  0x5
#define CCTL_CMD_L2_SYNC        0xa

/* CCTL_CMD_TYPE */
#define CCTL_SINGLE_CMD         0
#define CCTL_BLOCK_CMD          0x10
#define CCTL_ALL_CMD		0x10

/******************************************************************************
 * L2_CA_CONF (Cache architecture configuration)
 *****************************************************************************/
#define L2_CA_CONF_offL2SET		0
#define L2_CA_CONF_offL2WAY		4
#define L2_CA_CONF_offL2CLSZ            8
#define L2_CA_CONF_offL2DW		11
#define L2_CA_CONF_offL2PT		14
#define L2_CA_CONF_offL2VER		16

#define L2_CA_CONF_mskL2SET	(0xFUL << L2_CA_CONF_offL2SET)
#define L2_CA_CONF_mskL2WAY	(0xFUL << L2_CA_CONF_offL2WAY)
#define L2_CA_CONF_mskL2CLSZ    (0x7UL << L2_CA_CONF_offL2CLSZ)
#define L2_CA_CONF_mskL2DW	(0x7UL << L2_CA_CONF_offL2DW)
#define L2_CA_CONF_mskL2PT	(0x3UL << L2_CA_CONF_offL2PT)
#define L2_CA_CONF_mskL2VER	(0xFFFFUL << L2_CA_CONF_offL2VER)

/******************************************************************************
 * L2CC_SETUP (L2CC Setup register)
 *****************************************************************************/
#define L2CC_SETUP_offPART              0
#define L2CC_SETUP_mskPART              (0x3UL << L2CC_SETUP_offPART)
#define L2CC_SETUP_offDDLATC            4
#define L2CC_SETUP_mskDDLATC            (0x3UL << L2CC_SETUP_offDDLATC)
#define L2CC_SETUP_offTDLATC            8
#define L2CC_SETUP_mskTDLATC            (0x3UL << L2CC_SETUP_offTDLATC)

/******************************************************************************
 * L2CC_PROT (L2CC Protect register)
 *****************************************************************************/
#define L2CC_PROT_offMRWEN              31
#define L2CC_PROT_mskMRWEN      (0x1UL << L2CC_PROT_offMRWEN)

/******************************************************************************
 * L2_CCTL_STATUS_Mn (The L2CCTL command working status for Master n)
 *****************************************************************************/
#define L2CC_CTRL_offEN                 31
#define L2CC_CTRL_mskEN                 (0x1UL << L2CC_CTRL_offEN)

/******************************************************************************
 * L2_CCTL_STATUS_Mn (The L2CCTL command working status for Master n)
 *****************************************************************************/
#define L2_CCTL_STATUS_offCMD_COMP      31
#define L2_CCTL_STATUS_mskCMD_COMP      (0x1 << L2_CCTL_STATUS_offCMD_COMP)

extern void __iomem *atl2c_base;
#include <linux/smp.h>
#include <asm/io.h>
#include <asm/bitfield.h>

#define L2C_R_REG(offset)               readl(atl2c_base + offset)
#define L2C_W_REG(offset, value)        writel(value, atl2c_base + offset)

#define L2_CMD_RDY()    \
        do{;}while((L2C_R_REG(L2_CCTL_STATUS_OFF) & L2_CCTL_STATUS_mskCMD_COMP) == 0)

static inline unsigned long L2_CACHE_SET(void)
{
	return 64 << ((L2C_R_REG(L2_CA_CONF_OFF) & L2_CA_CONF_mskL2SET) >>
		      L2_CA_CONF_offL2SET);
}

static inline unsigned long L2_CACHE_WAY(void)
{
	return 1 +
	    ((L2C_R_REG(L2_CA_CONF_OFF) & L2_CA_CONF_mskL2WAY) >>
	     L2_CA_CONF_offL2WAY);
}

static inline unsigned long L2_CACHE_LINE_SIZE(void)
{

	return 4 << ((L2C_R_REG(L2_CA_CONF_OFF) & L2_CA_CONF_mskL2CLSZ) >>
		     L2_CA_CONF_offL2CLSZ);
}

static inline unsigned long GET_L2CC_CTRL_CPU(unsigned long cpu)
{
	if (cpu == smp_processor_id())
		return L2C_R_REG(L2CC_CTRL_OFF);
	return L2C_R_REG(L2CC_CTRL_OFF + (cpu << 8));
}

static inline void SET_L2CC_CTRL_CPU(unsigned long cpu, unsigned long val)
{
	if (cpu == smp_processor_id())
		L2C_W_REG(L2CC_CTRL_OFF, val);
	else
		L2C_W_REG(L2CC_CTRL_OFF + (cpu << 8), val);
}

static inline unsigned long GET_L2CC_STATUS_CPU(unsigned long cpu)
{
	if (cpu == smp_processor_id())
		return L2C_R_REG(L2_CCTL_STATUS_OFF);
	return L2C_R_REG(L2_CCTL_STATUS_OFF + (cpu << 8));
}
#endif