source: trunk/hal/x86_64/hal_boot.h @ 50

Last change on this file since 50 was 47, checked in by max@…, 7 years ago

Use mcmodel=large, in order to have a kernel image that is located at the
beginning of each cluster in virtual memory, as discussed with Alain. The
performance cost will be taken care of later.

Now, the active kernel is located at 0xfffff00000000000, and the base of
the clusters is 0xffff800000000000.

File size: 4.8 KB
Line 
1/*
2 * hal_boot.h - General values used by the boot procedure
3 *
4 * Copyright (c) 2017 Maxime Villard
5 *
6 * This file is part of ALMOS-MKH.
7 *
8 * ALMOS-MKH is free software; you can redistribute it and/or modify it
9 * under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; version 2.0 of the License.
11 *
12 * ALMOS-MKH is distributed in the hope that it will be useful, but
13 * WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15 * General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License
18 * along with ALMOS-MKH.; if not, write to the Free Software Foundation,
19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
20 */
21
22#define PAGE_SIZE       4096
23#define PGOFSET         (PAGE_SIZE-1)
24#define PGSHIFT         12
25
26#define KERNBASE        0xfffff00000000000
27#define KERNBASE_HI     0xfffff000
28#define KERNBASE_LO     0x00000000
29
30#define KERNTEXTOFF     0xfffff00000200000
31#define KERNTEXTOFF_HI  0xfffff000
32#define KERNTEXTOFF_LO  0x00200000
33
34/* -------------------------------------------------------------------------- */
35
36#define ASM_ALIGN_TEXT  .align 16
37#define ASM_ENTRY(x) \
38        .text; ASM_ALIGN_TEXT; .globl x; .type x,@function; x:
39
40/* -------------------------------------------------------------------------- */
41
42#define PSL_MBO         0x00000002
43
44#define STKPAGES        4
45#define STKSIZE         (PAGE_SIZE * STKPAGES)
46
47#define NKL4_KIMG_ENTRIES       1
48#define NKL3_KIMG_ENTRIES       1
49#define NKL2_KIMG_ENTRIES       32
50
51/* -------------------------------------------------------------------------- */
52
53#define L1_SHIFT        12
54#define L2_SHIFT        21
55#define L3_SHIFT        30
56#define L4_SHIFT        39
57#define NBPD_L1         (1UL << L1_SHIFT) /* # bytes mapped by L1 ent (4K) */
58#define NBPD_L2         (1UL << L2_SHIFT) /* # bytes mapped by L2 ent (2MB) */
59#define NBPD_L3         (1UL << L3_SHIFT) /* # bytes mapped by L3 ent (1G) */
60#define NBPD_L4         (1UL << L4_SHIFT) /* # bytes mapped by L4 ent (512G) */
61
62#define L4_MASK         0x0000ff8000000000
63#define L3_MASK         0x0000007fc0000000
64#define L2_MASK         0x000000003fe00000
65#define L1_MASK         0x00000000001ff000
66
67#define L4_FRAME        L4_MASK
68#define L3_FRAME        (L4_FRAME|L3_MASK)
69#define L2_FRAME        (L3_FRAME|L2_MASK)
70#define L1_FRAME        (L2_FRAME|L1_MASK)
71
72#define PDE_SIZE        8
73
74/* PDE/PTE bits. */
75#define PG_V            0x0000000000000001      /* valid */
76#define PG_RO           0x0000000000000000      /* read-only */
77#define PG_RW           0x0000000000000002      /* read-write */
78#define PG_u            0x0000000000000004      /* user accessible */
79#define PG_PROT         0x0000000000000006
80#define PG_WT           0x0000000000000008      /* write-through */
81#define PG_N            0x0000000000000010      /* non-cacheable */
82#define PG_U            0x0000000000000020      /* used */
83#define PG_M            0x0000000000000040      /* modified */
84#define PG_PAT          0x0000000000000080      /* PAT (on pte) */
85#define PG_PS           0x0000000000000080      /* 2MB page size (on pde) */
86#define PG_G            0x0000000000000100      /* not flushed */
87#define PG_AVAIL1       0x0000000000000200
88#define PG_AVAIL2       0x0000000000000400
89#define PG_AVAIL3       0x0000000000000800
90#define PG_LGPAT        0x0000000000001000      /* PAT on large pages */
91#define PG_FRAME        0x000ffffffffff000
92#define PG_NX           0x8000000000000000
93
94#define PG_2MFRAME      0x000fffffffe00000      /* large (2M) page frame mask */
95#define PG_1GFRAME      0x000fffffc0000000      /* large (1G) page frame mask */
96#define PG_LGFRAME      PG_2MFRAME
97
98/* Short forms of protection codes. */
99#define PG_KR           0x0000000000000000      /* kernel read-only */
100#define PG_KW           0x0000000000000002      /* kernel read-write */
101
102/* -------------------------------------------------------------------------- */
103
104#define IOM_BEGIN       0x0a0000                /* Start of I/O Memory "hole" */
105#define IOM_END         0x100000                /* End of I/O Memory "hole" */
106#define IOM_SIZE        (IOM_END - IOM_BEGIN)
107
108/* -------------------------------------------------------------------------- */
109
110#define L4_SLOT_PTE             255
111#define L4_SLOT_KERNBASE        480
112
113/*
114 * L3 = (KERNBASE % NBPD_L4) / NBPD_L3
115 * L2 = (KERNBASE % NBPD_L3) / NBPD_L2
116 */
117#define L3_SLOT_KERNBASE        0
118#define L2_SLOT_KERNBASE        0
119
120#define PDIR_SLOT_PTE   L4_SLOT_PTE
121
122#define PTE_BASE        ((pt_entry_t *)(L4_SLOT_PTE * NBPD_L4))
123#define L1_BASE PTE_BASE
124#define L2_BASE ((pt_entry_t *)((char *)L1_BASE + L4_SLOT_PTE * NBPD_L3))
125#define L3_BASE ((pt_entry_t *)((char *)L2_BASE + L4_SLOT_PTE * NBPD_L2))
126#define L4_BASE ((pt_entry_t *)((char *)L3_BASE + L4_SLOT_PTE * NBPD_L1))
127
128#define NPDPG   (PAGE_SIZE / sizeof (pt_entry_t))
129
130/* -------------------------------------------------------------------------- */
131
132#define KERNEL_VA_SIZE          (NKL2_KIMG_ENTRIES * NBPD_L2)
133#define CLUSTERS_BASE_VA        0xffff800000000000
134
135/* These parameters are configurable. */
136#define CLUSTER_VA_SIZE 0x100000000 /* 4GB */
137#define CLUSTER_PA_SIZE 0x200000000 /* 8GB */
138
139/* Macros to get the VA ranges for a cluster */
140#define CLUSTER_MIN_VA(n) \
141        (CLUSTERS_BASE_VA + n * CLUSTER_VA_SIZE)
142#define CLUSTER_MAX_VA(n) \
143        (CLUSTER_MIN_VA(n) + CLUSTER_VA_SIZE)
144
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