wok view linld/stuff/src/LOAD.CPP @ rev 23471

updated python-cheetah (2.4.3 -> 2.4.4)
author Hans-G?nter Theisgen
date Sun Apr 05 14:34:55 2020 +0100 (2020-04-05)
parents 53c1379e13fa
children 3d19917d3a03
line source
1 // This file is distributed under GPL
3 #include "crtl.h"
4 #include "common.h"
6 /***************
7 Memory layout assumed by kernel boot process
8 --------------------------------------------
9 Note: claims that kernel setup is relocatable are
10 still not 100% valid:
11 bzImage decompressing trashes 10000-8ffff range,
12 so rm loader -> pm kernel info is lost if it was here...
13 So I had to stick to 90000.
15 10000000+------------------------+ <- 256m
16 | initrd | initrd is at top of mem, but
17 | | not higher than 256m
18 +------------------------+
19 +------------------------+
20 | bzImage | bzImage is at 1m
21 | | VCPI/XMS/64k offset tricks used...
22 00100000+------------------------+ <- 1m
23 | video, BIOS etc | Do not use.
24 000A0000+------------------------+
25 | Reserved for BIOS | Do not use. Reserved for BIOS EBDA.
26 0009A000+------------------------+ <- stack top for kernel rm code
27 | Cmdline |
28 00098000+------------------------+ <- heap top for kernel rm code
29 | Kernel setup | The kernel real-mode code.
30 00090200+------------------------+
31 | Kernel boot sector | The kernel legacy boot sector.
32 00090000+------------------------+
33 | Zapped by ungzip | Historically zImages were loaded here
34 | (zImage once was here) | bzImages use this space for ungzipping
35 00010000+------------------------+
36 | Boot loader | <- Boot sector entry point 0000:7C00
37 00001000+------------------------+
38 | Reserved for MBR/BIOS |
39 00000800+------------------------+
40 | Typically used by MBR |
41 00000600+------------------------+
42 | BIOS use only |
43 00000000+------------------------+
44 */
46 struct kernelparams_t {
47 s8 setup_sects; // 01F1 The size of the setup in sectors
48 // boot sector is NOT included here
49 u16 ro_flag; // 01F2 If set, the root is mounted readonly
50 u16 syssize; // 01F4 DO NOT USE - for bootsect.S use only:
51 // size of pm part of kernel
52 // (in 16 byte units, rounded up)
53 u16 swap_dev; // 01F6 DO NOT USE - obsolete
54 u16 ram_size; // 01F8 DO NOT USE - for bootsect.S use only:
55 // if nonzero then kernel
56 // (driver/block/ramdisk.c: rd_load())
57 // will try to load the contents for the ramdisk
58 // from the "root_dev" which MUST then have the
59 // floppyMAJOR
60 // The file-system on that floppy must be MINIX
61 // If rd_load() succeeds it sets the root_dev
62 // to the ramdisk for mounting it
63 u16 vid_mode; // 01FA Video mode control
64 u16 root_dev; // 01FC Default root device number
65 u16 boot_flag; // 01FE 0xAA55 magic number
66 u16 jump; // 0200 Jump instruction
67 u32 header; // 0202 Magic signature "HdrS"
68 u16 version; // 0206 Boot protocol version supported
69 u16 realmode_switch_ofs; // 0208 Hook called just before rm->pm
70 u16 realmode_switch_seg;
71 u16 start_sys_seg; // 020E
72 u16 kernel_version; // 020C Points to kernel version string
73 u8 type_of_loader; // 0210 Boot loader identifier
74 u8 loadflags; // 0211 Boot protocol option flags
75 u16 setup_move_size;// 0212 Move to high memory size (used with hooks)
76 u32 code32_start; // 0214 Boot loader hook (see below)
77 u32 initrd_buf; // 0218 initrd load address (set by boot loader)
78 u32 initrd_size; // 021C initrd size (set by boot loader)
79 u32 bootsect_kludge;// 0220 DO NOT USE - for bootsect.S use only
80 u16 heap_end_ptr; // 0224 Free memory after setup end
81 u16 pad1; // 0226 Unused
82 u32 cmd_line_ptr; // 0228 32-bit pointer to the kernel command line
83 u8 pad30[0x400-0x22c]; // 022C
84 // 02D0 up to 32 20-byte mem info structs from
85 // int 0x15 fn 0xe820
86 }; //__attribute((packed));
88 struct first1k_t {
89 // these two set by rm setup:
90 u16 curr_curs; // 0000 saved cursor position
91 u16 ext_mem_size; // 0002 extended memory size in Kb (from int 0x15 fn 0x88)
92 u8 pad00[0x20-4];
93 // old-style cmdline (not used in LINLD (yet?))
94 u32 cl_magic_ofs;
95 //u16 cl_magic; // 0020 commandline magic number (=0xA33F)
96 //u16 cl_ofs; // 0022 commandline offset
97 u8 pad10[0x80-0x24];
98 // these two set by rm setup:
99 u8 hd0_disk_par[16]; // 0080 hd0-disk-parameter from intvector 0x41
100 u8 hd1_disk_par[16]; // 0090 hd1-disk-parameter from intvector 0x46
101 u8 pad20[0x01e0-0xa0];
102 // this is set by rm setup:
103 u32 alt_mem_size; // 01E0 extended memory size in Kb (from int 0x15 fn 0xe801)
104 u8 pad28[0x01f1-0x1e4];
105 struct kernelparams_t params;
106 }; //__attribute((packed));
108 #if sizeof(first1k_t)!=0x400
109 #error BUG: Bad first1k
110 #endif
112 const u32 HdrS = 'H' + ('d'<<8) + (u32('r')<<16) + (u32('S')<<24);
114 #ifdef NO386
115 extern "C" u16 topseg();
116 #else
117 #define topseg() 0x9000
118 #endif
119 static u16 rm_size;
120 static u8* rm_buf; // @ = @rm_size + 2, see A20.ASM
121 struct image_himem imgs[2];
123 static const char kernel_file_error[] = "Can't use kernel file";
124 #define not_kernel "Not a kernel"
125 void load_kernel() {
127 struct image_himem *m = &pm;
128 #define _rm_buf(m) (((u8**)(m))[-1])
129 #define _rm_size (((u16*)(m))[-2])
130 {
131 struct kernelparams_t *kernelparams;
132 kernelparams = &(((first1k_t*) (_rm_buf(m) = (u8 *)heap_top))->params);
133 #define first1k ((first1k_t*)((u8 *)kernelparams-0x1F1))
135 // Open kernel, read first kb, check it
136 m->errmsg = kernel_file_error;
137 open_image(m, kernel_name);
139 do {
140 readrm(m, 0x200);
141 rewind(m->fd);
142 if(kernelparams->setup_sects == 0) {
143 #if 1
144 if(* (int *) &first1k->pad10[0x3F-0x24] == 0x3AE8) {
145 extern u16 csip_hilo;
146 csip_hilo=0x0042;
147 }
148 else
149 #endif
150 kernelparams->setup_sects=4;
151 }
152 if((kernelparams->setup_sects)>=(_32k/512) || // 0th sector not counted
153 kernelparams->boot_flag != 0xAA55)
154 die(not_kernel);
155 _rm_size=0x200*(kernelparams->setup_sects+1);
156 m->size -= _rm_size;
157 m->chunk_size -= _rm_size;
159 // Read remaining rm loader
160 if (readrm(m, _rm_size) == _rm_size) break;
161 die(kernel_file_error);
162 } while (0);
164 // Tell rm loader some info
166 if((int)vid_mode) kernelparams->vid_mode = vid_mode;
167 if((int)root_dev) kernelparams->root_dev = root_dev;
169 if(kernelparams->header == HdrS) { // starting linux 1.3.73
170 if(kernelparams->loadflags & 1) { // zImage as pre 1.3.73
171 extern void far last_ditch();
172 kernelparams->realmode_switch_ofs = (u16) last_ditch;
173 kernelparams->realmode_switch_seg = _CS;
174 m->fallback = base_himem;
175 pm_low--;
177 // Hook on int15 to work around fn 88 DOS breakage
178 hook_int15_88(); // break _ES
179 }
180 if (kernelparams->kernel_version)
181 strcpy(version_string,(char *) first1k+kernelparams->kernel_version+0x200);
182 kernelparams->type_of_loader = 0xff; // kernel do not know us (yet :-)
183 if(kernelparams->version >= 0x201) {
184 // * offset limit of the setup heap
185 // heap_end_ptr appears to be relative to the start of setup (ofs 0x0200)
186 kernelparams->heap_end_ptr = _32k-0x0200;
187 kernelparams->loadflags |= 0x80; // says to rm loader it's ok to use heap
188 // * if we will ever stop moving ourself to 0x90000
189 // we must say setup.S how much to move
190 //kernelparams->setup_move_size = _32k;
191 if(kernelparams->version >= 0x202) { // starting linux 2.4.0-test3-pre3
192 kernelparams->cmd_line_ptr = (((u32)(topseg()+0x0800))<<4);
193 goto cmd_line_ok;
194 }
195 }
196 }
197 first1k->cl_magic_ofs = 0x8000A33F;
198 }
200 cmd_line_ok:
202 // Move setup & Check and enable A20 if needed
203 moverm(&_rm_size); // break _ES
205 // Read remaining kernel (pm part)
206 // Try to load kernel high, maybe even blindly storing it
207 // in unallocated memory as a last resort
209 load_image(m);
210 }
212 // Read initrd if needed
213 void load_initrd() {
214 struct image_himem *m = &initrd;
215 if (((int)initrd_name | m->fd) == 0) return; // !initrd_name && !m->fd
216 #if defined(__BORLANDC__) && defined(NO386)
217 #pragma option -3
218 asm{
219 .386p
220 }
221 #endif
222 m->errmsg = "Can't use initrd file";
224 open_image(m, initrd_name);
226 if ((m->fallback=(memtop()-m->size)&(~PAGE_MASK))-m[-1].fallback < m[-1].size) {
227 close(m->fd);
228 puts(m->errmsg);
229 return;
230 }
232 load_image(m);
234 if (*version_string) {
235 initrd_desc[0] = m->fallback;
236 initrd_desc[1] = m->size;
237 }
238 }