188 lines
5.9 KiB
C
Executable file
188 lines
5.9 KiB
C
Executable file
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (c) 2020 MediaTek Inc.
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*/
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#ifndef __M4U_PGTABLE_H__
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#define __M4U_PGTABLE_H__
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#include "m4u_reg.h"
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/* ================================================================= */
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/* 2 level pagetable: pgd -> pte */
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#define F_PTE_TYPE_MSK F_MSK(1, 0)
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#define F_PTE_TYPE_SET(val) F_VAL(val, 1, 0)
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#define F_PTE_TYPE_GET(regval) F_MSK_SHIFT(regval, 1, 0)
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#define F_PTE_TYPE_LARGE (0x1)
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#define F_PTE_TYPE_SMALL (0x2)
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#define F_PTE_B_BIT F_BIT_SET(2)
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#define F_PTE_C_BIT F_BIT_SET(3)
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#define F_PTE_BIT33_BIT F_BIT_SET(4)
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#define F_PTE_TEX_MSK F_MSK(8, 6)
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#define F_PTE_TEX_SET(val) F_VAL(val, 8, 6)
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#define F_PTE_TEX_GET(regval) F_MSK_SHIFT(regval, 8, 6)
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#define F_PTE_BIT32_BIT F_BIT_SET(9)
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#define F_PTE_S_BIT F_BIT_SET(10)
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#define F_PTE_NG_BIT F_BIT_SET(11)
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#define F_PTE_PA_LARGE_MSK F_MSK(31, 16)
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#define F_PTE_PA_LARGE_SET(val) F_VAL(val, 31, 16)
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#define F_PTE_PA_LARGE_GET(regval) F_MSK_SHIFT(regval, 31, 16)
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#define F_PTE_PA_SMALL_MSK F_MSK(31, 12)
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#define F_PTE_PA_SMALL_SET(val) F_VAL(val, 31, 12)
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#define F_PTE_PA_SMALL_GET(regval) F_MSK_SHIFT(regval, 31, 12)
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#define F_PTE_TYPE_IS_LARGE_PAGE(pte) \
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((imu_pte_val(pte)&0x3) == F_PTE_TYPE_LARGE)
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#define F_PTE_TYPE_IS_SMALL_PAGE(pte) \
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((imu_pte_val(pte)&0x3) == F_PTE_TYPE_SMALL)
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#define F_PGD_TYPE_PAGE (0x1)
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#define F_PGD_TYPE_PAGE_MSK (0x3)
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#define F_PGD_TYPE_SECTION (0x2)
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#define F_PGD_TYPE_SUPERSECTION (0x2|(1<<18))
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#define F_PGD_TYPE_SECTION_MSK (0x3|(1<<18))
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#define F_PGD_TYPE_IS_PAGE(pgd) ((imu_pgd_val(pgd)&3) == 1)
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#define F_PGD_TYPE_IS_SECTION(pgd) \
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(F_PGD_TYPE_IS_PAGE(pgd) ? 0 : \
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((imu_pgd_val(pgd)&F_PGD_TYPE_SECTION_MSK) == \
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F_PGD_TYPE_SECTION))
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#define F_PGD_TYPE_IS_SUPERSECTION(pgd) \
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(F_PGD_TYPE_IS_PAGE(pgd) ? 0 : \
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((imu_pgd_val(pgd)&F_PGD_TYPE_SECTION_MSK) == \
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F_PGD_TYPE_SUPERSECTION))
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#define F_PGD_B_BIT F_BIT_SET(2)
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#define F_PGD_C_BIT F_BIT_SET(3)
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#define F_PGD_BIT33_BIT F_BIT_SET(4)
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#define F_PGD_AP_MSK F_MSK(11, 10)
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#define F_PGD_AP_SET(val) F_VAL(val, 11, 10)
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#define F_PGD_AP_GET(regval) F_MSK_SHIFT(regval, 11, 10)
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#define F_PGD_TEX_MSK F_MSK(14, 12)
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#define F_PGD_TEX_SET(val) F_VAL(val, 14, 12)
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#define F_PGD_TEX_GET(regval) F_MSK_SHIFT(regval, 14, 12)
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#define F_PGD_BIT32_BIT F_BIT_SET(9)
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#define F_PGD_S_BIT F_BIT_SET(16)
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#define F_PGD_NG_BIT F_BIT_SET(17)
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#define F_PGD_NS_BIT_PAGE(ns) F_BIT_VAL(ns, 3)
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#define F_PGD_NS_BIT_SECTION(ns) F_BIT_VAL(ns, 19)
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#define F_PGD_NS_BIT_SUPERSECTION(ns) F_BIT_VAL(ns, 19)
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#define F_PGD_PA_PAGETABLE_MSK F_MSK(31, 10)
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#define F_PGD_PA_PAGETABLE_SET(val) F_VAL(val, 31, 10)
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#define F_PGD_PA_SECTION_MSK F_MSK(31, 20)
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#define F_PGD_PA_SECTION_SET(val) F_VAL(val, 31, 20)
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#define F_PGD_PA_SUPERSECTION_MSK F_MSK(31, 24)
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#define F_PGD_PA_SUPERSECTION_SET(val) F_VAL(val, 31, 24)
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/* pagetable walk */
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#define IMU_PGDIR_SHIFT 20
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#define IMU_PAGE_SHIFT 12
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#define IMU_PTRS_PER_PGD 4096
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#define IMU_PTRS_PER_PTE 256
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#define IMU_BYTES_PER_PTE (IMU_PTRS_PER_PTE*sizeof(unsigned int))
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#define MMU_PT_TYPE_SUPERSECTION (1<<4)
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#define MMU_PT_TYPE_SECTION (1<<3)
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#define MMU_PT_TYPE_LARGE_PAGE (1<<2)
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#define MMU_PT_TYPE_SMALL_PAGE (1<<1)
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#define MMU_SMALL_PAGE_SIZE (SZ_4K)
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#define MMU_LARGE_PAGE_SIZE (SZ_64K)
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#define MMU_SECTION_SIZE (SZ_1M)
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#define MMU_SUPERSECTION_SIZE (SZ_16M)
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struct imu_pte_t {
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unsigned int imu_pte;
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};
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struct imu_pgd_t {
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unsigned int imu_pgd;
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};
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#define imu_pte_val(x) ((x).imu_pte)
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#define imu_pgd_val(x) ((x).imu_pgd)
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#define __imu_pte(x) ((struct imu_pte_t){(x)})
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#define __imu_pgd(x) ((struct imu_pgd_t){(x)})
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#define imu_pte_none(pte) (!imu_pte_val(pte))
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#define imu_pte_type(pte) (imu_pte_val(pte)&0x3)
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#define imu_pgd_index(addr) ((addr) >> IMU_PGDIR_SHIFT)
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#define imu_pgd_offset(domain, addr) ((domain)->pgd + imu_pgd_index(addr))
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#define imu_pte_index(addr) (((addr)>>IMU_PAGE_SHIFT) & \
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(IMU_PTRS_PER_PTE - 1))
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#define imu_pte_offset_map(pgd, addr) (imu_pte_map(pgd) + imu_pte_index(addr))
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extern int gM4U_4G_DRAM_Mode;
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static inline struct imu_pte_t *imu_pte_map(struct imu_pgd_t *pgd)
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{
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unsigned int pte_pa = imu_pgd_val(*pgd);
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if (gM4U_4G_DRAM_Mode) {
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if (pte_pa < 0x40000000)
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return (struct imu_pte_t *)(__va((pte_pa &
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F_PGD_PA_PAGETABLE_MSK) + 0x100000000L));
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else
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return (struct imu_pte_t *)(__va(pte_pa &
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F_PGD_PA_PAGETABLE_MSK));
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} else {
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phys_addr_t pte_pa_new = pte_pa & F_PGD_PA_PAGETABLE_MSK;
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if (pte_pa & F_PGD_BIT32_BIT)
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pte_pa_new |= 0x100000000L;
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if (pte_pa & F_PGD_BIT33_BIT)
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pte_pa_new |= 0x200000000L;
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return (struct imu_pte_t *)(__va(pte_pa_new));
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}
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}
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static inline int imu_pte_unmap(struct imu_pte_t *pte)
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{
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return 0;
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}
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static inline unsigned int imu_pgd_entry_pa(struct imu_pgd_t pgd)
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{
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if (F_PGD_TYPE_IS_PAGE(pgd))
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return imu_pgd_val(pgd) & F_PGD_PA_PAGETABLE_MSK;
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else if (F_PGD_TYPE_IS_SECTION(pgd))
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return imu_pgd_val(pgd) & F_PGD_PA_SECTION_MSK;
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else if (F_PGD_TYPE_IS_SUPERSECTION(pgd))
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return imu_pgd_val(pgd) & F_PGD_PA_SUPERSECTION_MSK;
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else
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return 0;
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}
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static inline struct imu_pgd_t *imu_supersection_start(
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struct imu_pgd_t *pgd)
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{
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return (struct imu_pgd_t *) (
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round_down((unsigned long)pgd, (16 * 4)));
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}
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static inline struct imu_pte_t *imu_largepage_start(
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struct imu_pte_t *pte)
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{
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return (struct imu_pte_t *) (round_down((unsigned long)pte, (16 * 4)));
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}
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static inline unsigned long long m4u_calc_next_mva(
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unsigned long long addr, unsigned long long end,
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unsigned int size)
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{
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/* addr + size may equal 0x100000000*/
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unsigned long long __boundary =
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(addr + (unsigned long long)size) &
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(~((unsigned long long)size-1));
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unsigned long long min = min_t(unsigned long long, __boundary, end);
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return min;
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}
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#endif
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