biostramp.S revision 1.10
1 1.10 christos /* $NetBSD: biostramp.S,v 1.10 2001/12/14 20:30:10 christos Exp $ */ 2 1.5 jtc 3 1.1 jtk /*- 4 1.5 jtc * Copyright (c) 1996 The NetBSD Foundation, Inc. 5 1.5 jtc * All rights reserved. 6 1.5 jtc * 7 1.5 jtc * This code is derived from software contributed to The NetBSD Foundation 8 1.5 jtc * by John Kohl. 9 1.1 jtk * 10 1.1 jtk * Redistribution and use in source and binary forms, with or without 11 1.1 jtk * modification, are permitted provided that the following conditions 12 1.1 jtk * are met: 13 1.1 jtk * 1. Redistributions of source code must retain the above copyright 14 1.1 jtk * notice, this list of conditions and the following disclaimer. 15 1.1 jtk * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 jtk * notice, this list of conditions and the following disclaimer in the 17 1.1 jtk * documentation and/or other materials provided with the distribution. 18 1.1 jtk * 3. All advertising materials mentioning features or use of this software 19 1.1 jtk * must display the following acknowledgement: 20 1.5 jtc * This product includes software developed by the NetBSD 21 1.5 jtc * Foundation, Inc. and its contributors. 22 1.5 jtc * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.5 jtc * contributors may be used to endorse or promote products derived 24 1.5 jtc * from this software without specific prior written permission. 25 1.1 jtk * 26 1.5 jtc * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.5 jtc * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.5 jtc * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.6 jtc * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.6 jtc * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.5 jtc * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.5 jtc * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.5 jtc * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.5 jtc * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.5 jtc * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.1 jtk * POSSIBILITY OF SUCH DAMAGE. 37 1.1 jtk */ 38 1.1 jtk 39 1.1 jtk /* 40 1.1 jtk * biostramp.S: provide a means for NetBSD to call BIOS interrupts 41 1.1 jtk * by switching to real mode, calling it, and switching 42 1.1 jtk * back to protected & paging mode. 43 1.1 jtk */ 44 1.1 jtk 45 1.1 jtk /* 46 1.1 jtk * Micro$haft's book on i386/i486 programming says you should do the following 47 1.1 jtk * to return to real mode from protected mode: 48 1.1 jtk * 49 1.1 jtk * 1) disable paging, by jumping to code with identical virtual and physical 50 1.1 jtk * addresses, clearing PG in CR0, and zeroing CR3 (PDBR). 51 1.1 jtk * 52 1.1 jtk * 2) segment descriptors must be byte-granular with limit 64k-1, def32 = 0, 53 1.1 jtk * (i.e. 16-bit data accesses and/or 80286 instructions) 54 1.1 jtk * CS must be executable; DS,ES,FS,GS should be writable 55 1.1 jtk * 56 1.1 jtk * 3) disable interrupts, load IDTR with original value (base 0, limit 1023) 57 1.1 jtk * 58 1.1 jtk * 4) clear PE in CR0, execute FAR jump to load CS. 59 1.1 jtk * 60 1.1 jtk * 5) load SP, and off you go 61 1.1 jtk * 62 1.1 jtk */ 63 1.1 jtk 64 1.1 jtk #include "assym.h" 65 1.4 jtk 66 1.4 jtk #include <i386/include/param.h> 67 1.4 jtk #include <i386/include/specialreg.h> 68 1.4 jtk #include <i386/include/segments.h> 69 1.4 jtk #include <i386/include/apmvar.h> 70 1.4 jtk #include <i386/include/psl.h> 71 1.4 jtk #include <i386/include/asm.h> 72 1.4 jtk 73 1.3 mycroft #define addr32 .byte 0x67 74 1.3 mycroft #define data32 .byte 0x66 75 1.1 jtk 76 1.1 jtk .set MYBASE,NBPG 77 1.1 jtk .set MYSCRATCH,NBPG+NBPG 78 1.1 jtk .set CR3_ADDR,(MYSCRATCH-4) 79 1.1 jtk .set IDTR_SAVE_ADDR,CR3_ADDR-6 80 1.1 jtk .set GDTR_SAVE_ADDR,IDTR_SAVE_ADDR-6 81 1.1 jtk .set GDTR_LOCAL_ADDR,GDTR_SAVE_ADDR-6 82 1.1 jtk .set STACK_PTR_ADDR,GDTR_LOCAL_ADDR-4 83 1.1 jtk .set BASE_PTR_ADDR,STACK_PTR_ADDR-4 84 1.1 jtk .set FUNCTION_ADDR,(BASE_PTR_ADDR-2) 85 1.1 jtk .set GDT_COPY_ADDR,(FUNCTION_ADDR-NGDT*8) 86 1.7 jtk .set EAX_REGADDR,(GDT_COPY_ADDR-4) 87 1.7 jtk .set EBX_REGADDR,(EAX_REGADDR-4) 88 1.7 jtk .set ECX_REGADDR,(EBX_REGADDR-4) 89 1.7 jtk .set EDX_REGADDR,(ECX_REGADDR-4) 90 1.7 jtk .set ESI_REGADDR,(EDX_REGADDR-4) 91 1.7 jtk .set EDI_REGADDR,(ESI_REGADDR-4) 92 1.7 jtk .set EFLAGS_REGADDR,(EDI_REGADDR-4) 93 1.9 jdolecek .set ES_REGADDR, (EFLAGS_REGADDR-4) 94 1.9 jdolecek .set ENDREGADDR,(ES_REGADDR-4) 95 1.1 jtk 96 1.9 jdolecek .set REALSTACK,ENDREGADDR-20 # leave a red zone? 97 1.1 jtk 98 1.1 jtk #define COPY_FLAGS (PSL_C|PSL_PF|PSL_AF|PSL_Z|PSL_N|PSL_D|PSL_V) 99 1.1 jtk 100 1.1 jtk /* 101 1.7 jtk * do_bios_call(int function, struct bioscall *regs) 102 1.1 jtk */ 103 1.1 jtk 104 1.1 jtk ENTRY(do_bios_call) 105 1.1 jtk pushl %ebp 106 1.1 jtk movl %esp,%ebp /* set up frame ptr */ 107 1.1 jtk pushl %esi 108 1.1 jtk pushl %edi 109 1.1 jtk pushl %ebx 110 1.1 jtk pushl %ds 111 1.1 jtk pushl %es 112 1.1 jtk pushl %fs 113 1.1 jtk pushl %gs 114 1.1 jtk 115 1.1 jtk # copy data to where the real-mode hook can handle it 116 1.1 jtk movl 8(%ebp),%eax 117 1.1 jtk movw %ax,FUNCTION_ADDR 118 1.1 jtk movl 12(%ebp),%ebx 119 1.7 jtk movl BIOSCALLREG_EAX(%ebx),%eax 120 1.7 jtk movl %eax,EAX_REGADDR 121 1.7 jtk movl BIOSCALLREG_EBX(%ebx),%eax 122 1.7 jtk movl %eax,EBX_REGADDR 123 1.7 jtk movl BIOSCALLREG_ECX(%ebx),%eax 124 1.7 jtk movl %eax,ECX_REGADDR 125 1.7 jtk movl BIOSCALLREG_EDX(%ebx),%eax 126 1.7 jtk movl %eax,EDX_REGADDR 127 1.7 jtk movl BIOSCALLREG_ESI(%ebx),%eax 128 1.7 jtk movl %eax,ESI_REGADDR 129 1.7 jtk movl BIOSCALLREG_EDI(%ebx),%eax 130 1.7 jtk movl %eax,EDI_REGADDR 131 1.1 jtk # merge current flags with certain provided flags 132 1.7 jtk movl BIOSCALLREG_EFLAGS(%ebx),%ecx 133 1.1 jtk pushfl 134 1.1 jtk popl %eax 135 1.1 jtk andl $~(COPY_FLAGS|PSL_I),%eax 136 1.1 jtk andl $COPY_FLAGS,%ecx 137 1.1 jtk orl %ecx,%eax 138 1.7 jtk movl %eax,EFLAGS_REGADDR 139 1.9 jdolecek movl $0, ES_REGADDR 140 1.1 jtk 141 1.1 jtk # save flags, disable interrupts, do real mode stuff 142 1.1 jtk pushfl 143 1.1 jtk 144 1.1 jtk # save GDT 145 1.1 jtk sgdt GDTR_SAVE_ADDR 146 1.1 jtk 147 1.1 jtk # copy the GDT to local area 148 1.1 jtk movl GDTR_SAVE_ADDR+2,%esi 149 1.1 jtk movl $GDT_COPY_ADDR,%edi 150 1.1 jtk movl $(NGDT*8),%ecx 151 1.1 jtk cld 152 1.1 jtk rep 153 1.1 jtk movsb 154 1.1 jtk movw $(NGDT*8)-1,GDTR_LOCAL_ADDR 155 1.1 jtk movl $GDT_COPY_ADDR,GDTR_LOCAL_ADDR+2 156 1.1 jtk 157 1.1 jtk # install GDT copy 158 1.1 jtk lgdt GDTR_LOCAL_ADDR 159 1.1 jtk 160 1.1 jtk cli 161 1.1 jtk 162 1.1 jtk # save IDT 163 1.1 jtk sidt IDTR_SAVE_ADDR 164 1.1 jtk 165 1.1 jtk # set up new stack: save old ones, create new segs 166 1.1 jtk movl %esp,STACK_PTR_ADDR 167 1.1 jtk movl %ebp,BASE_PTR_ADDR 168 1.1 jtk movl $REALSTACK,%esp 169 1.1 jtk movl $0,%ebp # leave no trace, there is none. 170 1.1 jtk 171 1.1 jtk # save CR3 172 1.1 jtk movl %cr3,%eax 173 1.1 jtk movl %eax,CR3_ADDR 174 1.1 jtk 175 1.1 jtk # turn off paging 176 1.1 jtk movl %cr0,%eax 177 1.1 jtk andl $~(CR0_PG),%eax 178 1.1 jtk movl %eax,%cr0 179 1.1 jtk 180 1.1 jtk # flush TLB, drop PDBR 181 1.1 jtk xorl %eax,%eax 182 1.1 jtk movl %eax,%cr3 183 1.1 jtk 184 1.1 jtk ## load 16-bit segment descriptors 185 1.1 jtk movw $GSEL(GBIOSDATA_SEL,SEL_KPL),%bx 186 1.1 jtk movw %bx,%ds 187 1.1 jtk movw %bx,%es 188 1.1 jtk movw %bx,%fs 189 1.1 jtk movw %bx,%gs 190 1.1 jtk 191 1.1 jtk ljmp $GSEL(GBIOSCODE_SEL,SEL_KPL),$x16+MYBASE 192 1.1 jtk 193 1.1 jtk x16: 194 1.1 jtk # turn off protected mode--yikes! 195 1.1 jtk mov %cr0,%eax 196 1.1 jtk data32 197 1.1 jtk and $~CR0_PE,%eax 198 1.1 jtk mov %eax,%cr0 199 1.1 jtk 200 1.1 jtk # need inter-segment jump to reload real-mode CS 201 1.1 jtk data32 202 1.1 jtk ljmp $(MYBASE>>4),$xreal 203 1.1 jtk 204 1.1 jtk xreal: # really in real mode now 205 1.1 jtk # set up segment selectors. Note: everything is now relative 206 1.1 jtk # to zero-base in this file, except %ss. 207 1.1 jtk # data items in our scratch area need to reflect MYADDR 208 1.10 christos xorl %eax,%eax 209 1.1 jtk movw %ax,%ss 210 1.1 jtk 211 1.1 jtk movw %cs,%ax 212 1.1 jtk movw %ax,%es 213 1.1 jtk movw %ax,%fs 214 1.1 jtk movw %ax,%gs 215 1.1 jtk movw %ax,%ds 216 1.1 jtk 217 1.1 jtk ## load IDT, now that we are here. 218 1.1 jtk addr32 219 1.1 jtk lidt IDT_bios 220 1.1 jtk 221 1.1 jtk # Don't forget that we're in real mode, with 16-bit default data. 222 1.7 jtk # all these movl's are really movw's, and movw's are movl's! 223 1.1 jtk addr32 224 1.10 christos movw EDI_REGADDR-MYBASE,%di 225 1.1 jtk addr32 226 1.10 christos movw ESI_REGADDR-MYBASE,%si 227 1.1 jtk addr32 228 1.10 christos movw EDX_REGADDR-MYBASE,%dx 229 1.1 jtk addr32 230 1.10 christos movw ECX_REGADDR-MYBASE,%cx 231 1.1 jtk addr32 232 1.10 christos movw EBX_REGADDR-MYBASE,%bx 233 1.1 jtk addr32 234 1.1 jtk movb FUNCTION_ADDR-MYBASE,%al 235 1.1 jtk addr32 236 1.1 jtk movb %al,intaddr+1 # self modifying code, yuck. no indirect interrupt instruction! 237 1.1 jtk # long jump to flush processor cache to reflect code modification 238 1.1 jtk data32 239 1.1 jtk ljmp $(MYBASE>>4),$flushit 240 1.1 jtk flushit: 241 1.1 jtk addr32 242 1.10 christos movw EFLAGS_REGADDR-MYBASE,%ax 243 1.1 jtk pushl %eax 244 1.1 jtk popfl 245 1.1 jtk addr32 246 1.10 christos movw EAX_REGADDR-MYBASE,%ax 247 1.1 jtk 248 1.1 jtk intaddr: 249 1.1 jtk int $0xff 250 1.1 jtk 251 1.1 jtk # save results 252 1.1 jtk pushf 253 1.1 jtk addr32 254 1.10 christos movw %ax,EAX_REGADDR-MYBASE 255 1.1 jtk addr32 256 1.10 christos movw %bx,EBX_REGADDR-MYBASE 257 1.1 jtk addr32 258 1.10 christos movw %cx,ECX_REGADDR-MYBASE 259 1.1 jtk addr32 260 1.10 christos movw %dx,EDX_REGADDR-MYBASE 261 1.1 jtk addr32 262 1.10 christos movw %si,ESI_REGADDR-MYBASE 263 1.1 jtk addr32 264 1.10 christos movw %di,EDI_REGADDR-MYBASE 265 1.10 christos pop %ax 266 1.1 jtk addr32 267 1.10 christos movw %ax,EFLAGS_REGADDR-MYBASE 268 1.9 jdolecek addr32 269 1.9 jdolecek movw %es,ES_REGADDR-MYBASE 270 1.1 jtk 271 1.1 jtk # and return to protected mode 272 1.1 jtk cli # just to be sure 273 1.1 jtk 274 1.1 jtk mov %cr0,%eax 275 1.1 jtk data32 276 1.1 jtk or $CR0_PE,%eax 277 1.1 jtk mov %eax,%cr0 278 1.1 jtk 279 1.1 jtk # long jump to 32-bit code segment 280 1.1 jtk data32 281 1.1 jtk ljmp $GSEL(GCODE_SEL,SEL_KPL),$x32+MYBASE 282 1.1 jtk x32: 283 1.1 jtk #back in 32-bit mode/protected mode (but not paging yet). 284 1.1 jtk # Reload the segment registers & IDT 285 1.1 jtk 286 1.1 jtk movw $GSEL(GDATA_SEL,SEL_KPL),%bx 287 1.1 jtk movw %bx,%ds 288 1.1 jtk movw %bx,%ss 289 1.1 jtk movw %bx,%es 290 1.1 jtk 291 1.1 jtk # reload PDBR 292 1.1 jtk movl CR3_ADDR,%eax 293 1.1 jtk movl %eax,%cr3 294 1.1 jtk movl %cr0,%eax 295 1.1 jtk orl $CR0_PG,%eax 296 1.1 jtk movl %eax,%cr0 297 1.1 jtk 298 1.1 jtk # reload system copy of GDT 299 1.1 jtk lgdt GDTR_SAVE_ADDR 300 1.1 jtk 301 1.1 jtk # restore protected-mode stack 302 1.1 jtk movl STACK_PTR_ADDR,%esp 303 1.1 jtk movl BASE_PTR_ADDR,%ebp 304 1.1 jtk 305 1.1 jtk #restore protected-mode IDT 306 1.1 jtk lidt IDTR_SAVE_ADDR 307 1.1 jtk 308 1.1 jtk # copy back arguments from holding pen 309 1.1 jtk 310 1.1 jtk movl 12(%ebp),%ebx 311 1.7 jtk movl EAX_REGADDR,%eax 312 1.7 jtk movl %eax,BIOSCALLREG_EAX(%ebx) 313 1.7 jtk movl EBX_REGADDR,%eax 314 1.7 jtk movl %eax,BIOSCALLREG_EBX(%ebx) 315 1.7 jtk movl ECX_REGADDR,%eax 316 1.7 jtk movl %eax,BIOSCALLREG_ECX(%ebx) 317 1.7 jtk movl EDX_REGADDR,%eax 318 1.7 jtk movl %eax,BIOSCALLREG_EDX(%ebx) 319 1.7 jtk movl ESI_REGADDR,%eax 320 1.7 jtk movl %eax,BIOSCALLREG_ESI(%ebx) 321 1.7 jtk movl EDI_REGADDR,%eax 322 1.7 jtk movl %eax,BIOSCALLREG_EDI(%ebx) 323 1.7 jtk movl EFLAGS_REGADDR,%eax 324 1.7 jtk movl %eax,BIOSCALLREG_EFLAGS(%ebx) 325 1.9 jdolecek movl ES_REGADDR, %eax 326 1.9 jdolecek movl %eax,BIOSCALLREG_ES(%ebx) 327 1.1 jtk 328 1.1 jtk # finish up, restore registers, and return 329 1.1 jtk popfl 330 1.1 jtk popl %gs 331 1.1 jtk popl %fs 332 1.1 jtk popl %es 333 1.1 jtk popl %ds # see above 334 1.1 jtk popl %ebx 335 1.1 jtk popl %edi 336 1.1 jtk popl %esi 337 1.1 jtk leave 338 1.1 jtk ret 339 1.1 jtk 340 1.8 kleink #ifdef __ELF__ 341 1.8 kleink .align 16 342 1.8 kleink #else 343 1.1 jtk .align 4 344 1.8 kleink #endif 345 1.1 jtk IDT_bios: # BIOS IDT descriptor (real-mode) 346 1.1 jtk .word 1023 347 1.1 jtk .long 0 348
Indexes created Wed Oct 01 07:09:59 GMT 2025