Zephyr API Documentation 4.0.99
A Scalable Open Source RTOS
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arm_mmu.h
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1/*
2 * Copyright 2019 Broadcom
3 * The term "Broadcom" refers to Broadcom Inc. and/or its subsidiaries.
4 *
5 * SPDX-License-Identifier: Apache-2.0
6 */
7#ifndef ZEPHYR_INCLUDE_ARCH_ARM64_ARM_MMU_H_
8#define ZEPHYR_INCLUDE_ARCH_ARM64_ARM_MMU_H_
9
10#ifndef _ASMLANGUAGE
11#include <stdint.h>
12#include <stdlib.h>
13#endif
14
15/* Following Memory types supported through MAIR encodings can be passed
16 * by user through "attrs"(attributes) field of specified memory region.
17 * As MAIR supports such 8 encodings, we will reserve attrs[2:0];
18 * so that we can provide encodings upto 7 if needed in future.
19 */
20#define MT_TYPE_MASK 0x7U
21#define MT_TYPE(attr) (attr & MT_TYPE_MASK)
22#define MT_DEVICE_nGnRnE 0U
23#define MT_DEVICE_nGnRE 1U
24#define MT_DEVICE_GRE 2U
25#define MT_NORMAL_NC 3U
26#define MT_NORMAL 4U
27#define MT_NORMAL_WT 5U
28
29#define MEMORY_ATTRIBUTES ((0x00 << (MT_DEVICE_nGnRnE * 8)) | \
30 (0x04 << (MT_DEVICE_nGnRE * 8)) | \
31 (0x0c << (MT_DEVICE_GRE * 8)) | \
32 (0x44 << (MT_NORMAL_NC * 8)) | \
33 (0xffUL << (MT_NORMAL * 8)) | \
34 (0xbbUL << (MT_NORMAL_WT * 8)))
35
36/* More flags from user's perspective are supported using remaining bits
37 * of "attrs" field, i.e. attrs[31:3], underlying code will take care
38 * of setting PTE fields correctly.
39 *
40 * current usage of attrs[31:3] is:
41 * attrs[3] : Access Permissions
42 * attrs[4] : Memory access from secure/ns state
43 * attrs[5] : Execute Permissions privileged mode (PXN)
44 * attrs[6] : Execute Permissions unprivileged mode (UXN)
45 * attrs[7] : Mirror RO/RW permissions to EL0
46 * attrs[8] : Overwrite existing mapping if any
47 * attrs[9] : non-Global mapping (nG)
48 * attrs[10]: Paged-out mapping
49 *
50 */
51#define MT_PERM_SHIFT 3U
52#define MT_SEC_SHIFT 4U
53#define MT_P_EXECUTE_SHIFT 5U
54#define MT_U_EXECUTE_SHIFT 6U
55#define MT_RW_AP_SHIFT 7U
56#define MT_NO_OVERWRITE_SHIFT 8U
57#define MT_NON_GLOBAL_SHIFT 9U
58#define MT_PAGED_OUT_SHIFT 10U
59
60#define MT_RO (0U << MT_PERM_SHIFT)
61#define MT_RW (1U << MT_PERM_SHIFT)
62
63#define MT_RW_AP_ELx (1U << MT_RW_AP_SHIFT)
64#define MT_RW_AP_EL_HIGHER (0U << MT_RW_AP_SHIFT)
65
66#define MT_SECURE (0U << MT_SEC_SHIFT)
67#define MT_NS (1U << MT_SEC_SHIFT)
68
69#define MT_P_EXECUTE (0U << MT_P_EXECUTE_SHIFT)
70#define MT_P_EXECUTE_NEVER (1U << MT_P_EXECUTE_SHIFT)
71
72#define MT_U_EXECUTE (0U << MT_U_EXECUTE_SHIFT)
73#define MT_U_EXECUTE_NEVER (1U << MT_U_EXECUTE_SHIFT)
74
75#define MT_NO_OVERWRITE (1U << MT_NO_OVERWRITE_SHIFT)
76
77#define MT_G (0U << MT_NON_GLOBAL_SHIFT)
78#define MT_NG (1U << MT_NON_GLOBAL_SHIFT)
79
80#define MT_PAGED_OUT (1U << MT_PAGED_OUT_SHIFT)
81
82#define MT_P_RW_U_RW (MT_RW | MT_RW_AP_ELx | MT_P_EXECUTE_NEVER | MT_U_EXECUTE_NEVER)
83#define MT_P_RW_U_NA (MT_RW | MT_RW_AP_EL_HIGHER | MT_P_EXECUTE_NEVER | MT_U_EXECUTE_NEVER)
84#define MT_P_RO_U_RO (MT_RO | MT_RW_AP_ELx | MT_P_EXECUTE_NEVER | MT_U_EXECUTE_NEVER)
85#define MT_P_RO_U_NA (MT_RO | MT_RW_AP_EL_HIGHER | MT_P_EXECUTE_NEVER | MT_U_EXECUTE_NEVER)
86#define MT_P_RO_U_RX (MT_RO | MT_RW_AP_ELx | MT_P_EXECUTE_NEVER | MT_U_EXECUTE)
87#define MT_P_RX_U_RX (MT_RO | MT_RW_AP_ELx | MT_P_EXECUTE | MT_U_EXECUTE)
88#define MT_P_RX_U_NA (MT_RO | MT_RW_AP_EL_HIGHER | MT_P_EXECUTE | MT_U_EXECUTE_NEVER)
89
90#ifdef CONFIG_ARMV8_A_NS
91#define MT_DEFAULT_SECURE_STATE MT_NS
92#else
93#define MT_DEFAULT_SECURE_STATE MT_SECURE
94#endif
95
96/* Definitions used by arch_page_info_get() */
97#define ARCH_DATA_PAGE_LOADED BIT(0)
98#define ARCH_DATA_PAGE_ACCESSED BIT(1)
99#define ARCH_DATA_PAGE_DIRTY BIT(2)
100#define ARCH_DATA_PAGE_NOT_MAPPED BIT(3)
101
102/*
103 * Special unpaged "location" tags (highest possible descriptor physical
104 * address values unlikely to conflict with backing store locations)
105 */
106#define ARCH_UNPAGED_ANON_ZERO 0x0000fffffffff000
107#define ARCH_UNPAGED_ANON_UNINIT 0x0000ffffffffe000
108
109#ifndef _ASMLANGUAGE
110
111/* Region definition data structure */
112struct arm_mmu_region {
113 /* Region Base Physical Address */
115 /* Region Base Virtual Address */
117 /* Region size */
118 size_t size;
119 /* Region Name */
120 const char *name;
121 /* Region Attributes */
123};
124
125/* MMU configuration data structure */
126struct arm_mmu_config {
127 /* Number of regions */
128 unsigned int num_regions;
129 /* Regions */
130 const struct arm_mmu_region *mmu_regions;
131};
132
137
138/* Convenience macros to represent the ARMv8-A-specific
139 * configuration for memory access permission and
140 * cache-ability attribution.
141 */
142
143#define MMU_REGION_ENTRY(_name, _base_pa, _base_va, _size, _attrs) \
144 {\
145 .name = _name, \
146 .base_pa = _base_pa, \
147 .base_va = _base_va, \
148 .size = _size, \
149 .attrs = _attrs, \
150 }
151
152#define MMU_REGION_FLAT_ENTRY(name, adr, sz, attrs) \
153 MMU_REGION_ENTRY(name, adr, adr, sz, attrs)
154
155/*
156 * @brief Auto generate mmu region entry for node_id
157 *
158 * Example usage:
159 *
160 * @code{.c}
161 * DT_FOREACH_STATUS_OKAY_VARGS(nxp_imx_gpio,
162 * MMU_REGION_DT_FLAT_ENTRY,
163 * (MT_DEVICE_nGnRnE | MT_P_RW_U_NA | MT_NS))
164 * @endcode
165 *
166 * @note Since devicetree_generated.h does not include
167 * node_id##_P_reg_FOREACH_PROP_ELEM* definitions,
168 * we can't automate dts node with multiple reg
169 * entries.
170 */
171#define MMU_REGION_DT_FLAT_ENTRY(node_id, attrs) \
172 MMU_REGION_FLAT_ENTRY(DT_NODE_FULL_NAME(node_id), \
173 DT_REG_ADDR(node_id), \
174 DT_REG_SIZE(node_id), \
175 attrs),
176
177/*
178 * @brief Auto generate mmu region entry for status = "okay"
179 * nodes compatible to a driver
180 *
181 * Example usage:
182 *
183 * @code{.c}
184 * MMU_REGION_DT_COMPAT_FOREACH_FLAT_ENTRY(nxp_imx_gpio,
185 * (MT_DEVICE_nGnRnE | MT_P_RW_U_NA | MT_NS))
186 * @endcode
187 *
188 * @note This is a wrapper of @ref MMU_REGION_DT_FLAT_ENTRY
189 */
190#define MMU_REGION_DT_COMPAT_FOREACH_FLAT_ENTRY(compat, attr) \
191 DT_FOREACH_STATUS_OKAY_VARGS(compat, \
192 MMU_REGION_DT_FLAT_ENTRY, attr)
193
194/* Kernel macros for memory attribution
195 * (access permissions and cache-ability).
196 *
197 * The macros are to be stored in k_mem_partition_attr_t
198 * objects. The format of a k_mem_partition_attr_t object
199 * is an uint32_t composed by permission and attribute flags
200 * located in include/arch/arm64/arm_mmu.h
201 */
202
203/* Read-Write access permission attributes */
204#define K_MEM_PARTITION_P_RW_U_RW ((k_mem_partition_attr_t) \
205 {MT_P_RW_U_RW})
206#define K_MEM_PARTITION_P_RW_U_NA ((k_mem_partition_attr_t) \
207 {MT_P_RW_U_NA})
208#define K_MEM_PARTITION_P_RO_U_RO ((k_mem_partition_attr_t) \
209 {MT_P_RO_U_RO})
210#define K_MEM_PARTITION_P_RO_U_NA ((k_mem_partition_attr_t) \
211 {MT_P_RO_U_NA})
212/* Execution-allowed attributes */
213#define K_MEM_PARTITION_P_RX_U_RX ((k_mem_partition_attr_t) \
214 {MT_P_RX_U_RX})
215/* Typedef for the k_mem_partition attribute */
217
218/* Reference to the MMU configuration.
219 *
220 * This struct is defined and populated for each SoC (in the SoC definition),
221 * and holds the build-time configuration information for the fixed MMU
222 * regions enabled during kernel initialization.
223 */
224extern const struct arm_mmu_config mmu_config;
225
226#endif /* _ASMLANGUAGE */
227
228#endif /* ZEPHYR_INCLUDE_ARCH_ARM64_ARM_MMU_H_ */
uint32_t k_mem_partition_attr_t
Definition arch.h:346
const struct arm_mmu_config mmu_config
__UINT32_TYPE__ uint32_t
Definition stdint.h:90
__UINT64_TYPE__ uint64_t
Definition stdint.h:91
__UINTPTR_TYPE__ uintptr_t
Definition stdint.h:105
Definition arm_mmu.h:124
const struct arm_mmu_region * mmu_regions
Definition arm_mmu.h:128
unsigned int num_regions
Definition arm_mmu.h:128
Definition arm_mmu.h:133
uint64_t ttbr0
Definition arm_mmu.h:135
uint64_t * base_xlat_table
Definition arm_mmu.h:134
Definition arm_mmu.h:110
uintptr_t base_va
Definition arm_mmu.h:114
size_t size
Definition arm_mmu.h:116
uintptr_t base_pa
Definition arm_mmu.h:112
const char * name
Definition arm_mmu.h:118
uint32_t attrs
Definition arm_mmu.h:120
uint32_t attrs
Definition arm_mmu.h:216