1 /*
2  * Copyright (c) 2022, MediaTek Inc. All rights reserved.
3  *
4  * SPDX-License-Identifier: BSD-3-Clause
5  */
6 
7 #include <mtk_iommu_plat.h>
8 #include <mtk_mmap_pool.h>
9 #include <platform_def.h>
10 
11 /* mm iommu */
12 #define SMI_L0_ID		(0)
13 #define SMI_L1_ID		(1)
14 #define SMI_L2_ID		(2)
15 #define SMI_L3_ID		(3)
16 #define SMI_L4_ID		(4)
17 #define SMI_L5_ID		(5)
18 #define SMI_L6_ID		(6)
19 #define SMI_L7_ID		(7)
20 #define SMI_L9_ID		(8)
21 #define SMI_L10_ID		(9)
22 #define SMI_L11A_ID		(10)
23 #define SMI_L11B_ID		(11)
24 #define SMI_L11C_ID		(12)
25 #define SMI_L12_ID		(13)
26 #define SMI_L13_ID		(14)
27 #define SMI_L14_ID		(15)
28 #define SMI_L15_ID		(16)
29 #define SMI_L16A_ID		(17)
30 #define SMI_L16B_ID		(18)
31 #define SMI_L17A_ID		(19)
32 #define SMI_L17B_ID		(20)
33 #define SMI_L19_ID		(21)
34 #define SMI_L21_ID		(22)
35 #define SMI_L23_ID		(23)
36 #define SMI_L27_ID		(24)
37 #define SMI_L28_ID		(25)
38 
39 /* infra iommu */
40 #define PERI_MST_PROT		(0x710)
41 #define PERICFG_AO_IOMMU_1	(0x714)
42 #define MMU_DEV_PCIE_0		(0)
43 #define IFR_CFG_GROUP_NUM	(1)
44 
45 static struct mtk_smi_larb_config mt8188_larb_cfg[SMI_LARB_NUM] = {
46 	[SMI_L0_ID] = LARB_CFG_ENTRY(SMI_LARB_0_BASE, 7, 0),
47 	[SMI_L1_ID] = LARB_CFG_ENTRY(SMI_LARB_1_BASE, 7, 0),
48 	[SMI_L2_ID] = LARB_CFG_ENTRY(SMI_LARB_2_BASE, 5, 0),
49 	[SMI_L3_ID] = LARB_CFG_ENTRY(SMI_LARB_3_BASE, 7, 0),
50 	[SMI_L4_ID] = LARB_CFG_ENTRY(SMI_LARB_4_BASE, 7, 0),
51 	[SMI_L5_ID] = LARB_CFG_ENTRY(SMI_LARB_5_BASE, 8, 0),
52 	[SMI_L6_ID] = LARB_CFG_ENTRY(SMI_LARB_6_BASE, 4, 0),
53 	[SMI_L7_ID] = LARB_CFG_ENTRY(SMI_LARB_7_BASE, 3, 0),
54 	[SMI_L9_ID] = LARB_CFG_ENTRY(SMI_LARB_9_BASE, 25, 0),
55 	[SMI_L10_ID] = LARB_CFG_ENTRY(SMI_LARB_10_BASE, 20, 0),
56 	[SMI_L11A_ID] = LARB_CFG_ENTRY(SMI_LARB_11A_BASE, 30, 0),
57 	[SMI_L11B_ID] = LARB_CFG_ENTRY(SMI_LARB_11B_BASE, 30, 0),
58 	[SMI_L11C_ID] = LARB_CFG_ENTRY(SMI_LARB_11C_BASE, 30, 0),
59 	[SMI_L12_ID] = LARB_CFG_ENTRY(SMI_LARB_12_BASE, 16, 0),
60 	[SMI_L13_ID] = LARB_CFG_ENTRY(SMI_LARB_13_BASE, 24, 0),
61 	[SMI_L14_ID] = LARB_CFG_ENTRY(SMI_LARB_14_BASE, 23, 0),
62 	[SMI_L15_ID] = LARB_CFG_ENTRY(SMI_LARB_15_BASE, 19, 0),
63 	[SMI_L16A_ID] = LARB_CFG_ENTRY(SMI_LARB_16A_BASE, 17, 0),
64 	[SMI_L16B_ID] = LARB_CFG_ENTRY(SMI_LARB_16B_BASE, 17, 0),
65 	[SMI_L17A_ID] = LARB_CFG_ENTRY(SMI_LARB_17A_BASE, 7, 0),
66 	[SMI_L17B_ID] = LARB_CFG_ENTRY(SMI_LARB_17B_BASE, 7, 0),
67 	/* venc nbm ports (5/6/11/15/16/17) to sram */
68 	[SMI_L19_ID] = LARB_CFG_ENTRY_WITH_PATH(SMI_LARB_19_BASE, 27, 0, 0x38860),
69 	[SMI_L21_ID] = LARB_CFG_ENTRY(SMI_LARB_21_BASE, 11, 0),
70 	[SMI_L23_ID] = LARB_CFG_ENTRY(SMI_LARB_23_BASE, 9, 0),
71 	[SMI_L27_ID] = LARB_CFG_ENTRY(SMI_LARB_27_BASE, 4, 0),
72 	[SMI_L28_ID] = LARB_CFG_ENTRY(SMI_LARB_28_BASE, 0, 0),
73 };
74 
75 static bool is_protected;
76 
77 static uint32_t mt8188_ifr_mst_cfg_base[IFR_CFG_GROUP_NUM] = {
78 	PERICFG_AO_BASE,
79 };
80 static uint32_t mt8188_ifr_mst_cfg_offs[IFR_CFG_GROUP_NUM] = {
81 	PERICFG_AO_IOMMU_1,
82 };
83 static struct mtk_ifr_mst_config mt8188_ifr_mst_cfg[MMU_DEV_NUM] = {
84 	[MMU_DEV_PCIE_0] = IFR_MST_CFG_ENTRY(0, 18),
85 };
86 
87 struct mtk_smi_larb_config *g_larb_cfg = &mt8188_larb_cfg[0];
88 struct mtk_ifr_mst_config *g_ifr_mst_cfg = &mt8188_ifr_mst_cfg[0];
89 uint32_t *g_ifr_mst_cfg_base = &mt8188_ifr_mst_cfg_base[0];
90 uint32_t *g_ifr_mst_cfg_offs = &mt8188_ifr_mst_cfg_offs[0];
91 
92 /* Protect infra iommu enable setting registers as secure access. */
mtk_infra_iommu_enable_protect(void)93 void mtk_infra_iommu_enable_protect(void)
94 {
95 	if (!is_protected) {
96 		mmio_write_32(PERICFG_AO_BASE + PERI_MST_PROT, 0xffffffff);
97 		is_protected = true;
98 	}
99 }
100