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Yann Gautier4b0c72a2018-07-16 10:54:09 +02001/*
2 * Copyright (c) 2015-2018, ARM Limited and Contributors. All rights reserved.
3 *
4 * SPDX-License-Identifier: BSD-3-Clause
5 */
6
7#ifndef PLATFORM_DEF_H
8#define PLATFORM_DEF_H
9
10#include <arch.h>
11#include <common_def.h>
12#include <gic_common.h>
13#include <utils_def.h>
14#include "../stm32mp1_def.h"
15
16/*******************************************************************************
17 * Generic platform constants
18 ******************************************************************************/
19
20/* Size of cacheable stacks */
Yann Gautier9d135e42018-07-16 19:36:06 +020021#if defined(IMAGE_BL32)
22#define PLATFORM_STACK_SIZE 0x600
23#else
Yann Gautier4b0c72a2018-07-16 10:54:09 +020024#define PLATFORM_STACK_SIZE 0xC00
Yann Gautier9d135e42018-07-16 19:36:06 +020025#endif
Yann Gautier4b0c72a2018-07-16 10:54:09 +020026
27/* SSBL = second stage boot loader */
28#define BL33_IMAGE_NAME "ssbl"
Yann Gautier8244e1d2018-10-15 09:36:58 +020029#define BL33_BINARY_TYPE U(0x0)
Yann Gautier4b0c72a2018-07-16 10:54:09 +020030
31#define STM32MP1_PRIMARY_CPU U(0x0)
32
33#define PLATFORM_CACHE_LINE_SIZE 64
34#define PLATFORM_CLUSTER_COUNT ULL(1)
35#define PLATFORM_CLUSTER0_CORE_COUNT U(2)
36#define PLATFORM_CLUSTER1_CORE_COUNT U(0)
37#define PLATFORM_CORE_COUNT (PLATFORM_CLUSTER1_CORE_COUNT + \
38 PLATFORM_CLUSTER0_CORE_COUNT)
39#define PLATFORM_MAX_CPUS_PER_CLUSTER 2
40
41#define MAX_IO_DEVICES 4
42#define MAX_IO_HANDLES 4
Yann Gautier8244e1d2018-10-15 09:36:58 +020043#define MAX_IO_BLOCK_DEVICES 1
Yann Gautier4b0c72a2018-07-16 10:54:09 +020044
45/*******************************************************************************
46 * BL2 specific defines.
47 ******************************************************************************/
48/*
49 * Put BL2 just below BL3-1. BL2_BASE is calculated using the current BL2 debug
50 * size plus a little space for growth.
51 */
52#define BL2_BASE STM32MP1_BL2_BASE
53#define BL2_LIMIT (STM32MP1_BL2_BASE + \
54 STM32MP1_BL2_SIZE)
55
56/*******************************************************************************
57 * BL32 specific defines.
58 ******************************************************************************/
59#define BL32_BASE STM32MP1_BL32_BASE
60#define BL32_LIMIT (STM32MP1_BL32_BASE + \
61 STM32MP1_BL32_SIZE)
62
63/*******************************************************************************
64 * BL33 specific defines.
65 ******************************************************************************/
66#define BL33_BASE STM32MP1_BL33_BASE
67
68/*
69 * Load address of BL33 for this platform port
70 */
71#define PLAT_STM32MP1_NS_IMAGE_OFFSET BL33_BASE
72
73/*******************************************************************************
74 * DTB specific defines.
75 ******************************************************************************/
76#define DTB_BASE STM32MP1_DTB_BASE
77#define DTB_LIMIT (STM32MP1_DTB_BASE + \
78 STM32MP1_DTB_SIZE)
79
80/*******************************************************************************
81 * Platform specific page table and MMU setup constants
82 ******************************************************************************/
83#define PLAT_PHY_ADDR_SPACE_SIZE (1ULL << 32)
84#define PLAT_VIRT_ADDR_SPACE_SIZE (1ULL << 32)
85
86/*******************************************************************************
87 * Declarations and constants to access the mailboxes safely. Each mailbox is
88 * aligned on the biggest cache line size in the platform. This is known only
89 * to the platform as it might have a combination of integrated and external
90 * caches. Such alignment ensures that two maiboxes do not sit on the same cache
91 * line at any cache level. They could belong to different cpus/clusters &
92 * get written while being protected by different locks causing corruption of
93 * a valid mailbox address.
94 ******************************************************************************/
95#define CACHE_WRITEBACK_SHIFT 6
96#define CACHE_WRITEBACK_GRANULE (U(1) << CACHE_WRITEBACK_SHIFT)
97
98/*
99 * Secure Interrupt: based on the standard ARM mapping
100 */
101#define ARM_IRQ_SEC_PHY_TIMER U(29)
102
103#define ARM_IRQ_SEC_SGI_0 U(8)
104#define ARM_IRQ_SEC_SGI_1 U(9)
105#define ARM_IRQ_SEC_SGI_2 U(10)
106#define ARM_IRQ_SEC_SGI_3 U(11)
107#define ARM_IRQ_SEC_SGI_4 U(12)
108#define ARM_IRQ_SEC_SGI_5 U(13)
109#define ARM_IRQ_SEC_SGI_6 U(14)
110#define ARM_IRQ_SEC_SGI_7 U(15)
111
112#define STM32MP1_IRQ_TZC400 U(36)
113#define STM32MP1_IRQ_TAMPSERRS U(229)
114#define STM32MP1_IRQ_AXIERRIRQ U(244)
115
116/*
117 * Define a list of Group 1 Secure and Group 0 interrupts as per GICv3
118 * terminology. On a GICv2 system or mode, the lists will be merged and treated
119 * as Group 0 interrupts.
120 */
121#define PLATFORM_G1S_PROPS(grp) \
122 INTR_PROP_DESC(ARM_IRQ_SEC_PHY_TIMER, \
123 GIC_HIGHEST_SEC_PRIORITY, \
124 grp, GIC_INTR_CFG_LEVEL), \
125 INTR_PROP_DESC(STM32MP1_IRQ_TAMPSERRS, \
126 GIC_HIGHEST_SEC_PRIORITY, \
127 grp, GIC_INTR_CFG_LEVEL), \
128 INTR_PROP_DESC(STM32MP1_IRQ_AXIERRIRQ, \
129 GIC_HIGHEST_SEC_PRIORITY, \
130 grp, GIC_INTR_CFG_LEVEL), \
131 INTR_PROP_DESC(STM32MP1_IRQ_TZC400, \
132 GIC_HIGHEST_SEC_PRIORITY, \
133 grp, GIC_INTR_CFG_LEVEL), \
134 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_1, \
135 GIC_HIGHEST_SEC_PRIORITY, \
136 grp, GIC_INTR_CFG_EDGE), \
137 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_2, \
138 GIC_HIGHEST_SEC_PRIORITY, \
139 grp, GIC_INTR_CFG_EDGE), \
140 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_3, \
141 GIC_HIGHEST_SEC_PRIORITY, \
142 grp, GIC_INTR_CFG_EDGE), \
143 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_4, \
144 GIC_HIGHEST_SEC_PRIORITY, \
145 grp, GIC_INTR_CFG_EDGE), \
146 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_5, \
147 GIC_HIGHEST_SEC_PRIORITY, \
148 grp, GIC_INTR_CFG_EDGE), \
149 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_7, \
150 GIC_HIGHEST_SEC_PRIORITY, \
151 grp, GIC_INTR_CFG_EDGE)
152
153#define PLATFORM_G0_PROPS(grp) \
154 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_0, \
155 GIC_HIGHEST_SEC_PRIORITY, \
156 grp, GIC_INTR_CFG_EDGE), \
157 INTR_PROP_DESC(ARM_IRQ_SEC_SGI_6, \
158 GIC_HIGHEST_SEC_PRIORITY, \
159 grp, GIC_INTR_CFG_EDGE)
160
161/*
162 * Power
163 */
164#define PLAT_MAX_PWR_LVL U(1)
165
166/* Local power state for power domains in Run state. */
167#define ARM_LOCAL_STATE_RUN U(0)
168/* Local power state for retention. Valid only for CPU power domains */
169#define ARM_LOCAL_STATE_RET U(1)
170/* Local power state for power-down. Valid for CPU and cluster power domains */
171#define ARM_LOCAL_STATE_OFF U(2)
172/*
173 * This macro defines the deepest retention state possible.
174 * A higher state id will represent an invalid or a power down state.
175 */
176#define PLAT_MAX_RET_STATE ARM_LOCAL_STATE_RET
177/*
178 * This macro defines the deepest power down states possible. Any state ID
179 * higher than this is invalid.
180 */
181#define PLAT_MAX_OFF_STATE ARM_LOCAL_STATE_OFF
182
183/*******************************************************************************
184 * Size of the per-cpu data in bytes that should be reserved in the generic
185 * per-cpu data structure for the FVP port.
186 ******************************************************************************/
187#define PLAT_PCPU_DATA_SIZE 2
188
189#endif /* PLATFORM_DEF_H */