Rev 3485 | Go to most recent revision | Details | Compare with Previous | Last modification | View Log | RSS feed
Rev | Author | Line No. | Line |
---|---|---|---|
132 | vana | 1 | # |
2071 | jermar | 2 | # Copyright (c) 2001-2004 Jakub Jermar |
132 | vana | 3 | # All rights reserved. |
4 | # |
||
5 | # Redistribution and use in source and binary forms, with or without |
||
6 | # modification, are permitted provided that the following conditions |
||
7 | # are met: |
||
8 | # |
||
9 | # - Redistributions of source code must retain the above copyright |
||
10 | # notice, this list of conditions and the following disclaimer. |
||
11 | # - Redistributions in binary form must reproduce the above copyright |
||
12 | # notice, this list of conditions and the following disclaimer in the |
||
13 | # documentation and/or other materials provided with the distribution. |
||
14 | # - The name of the author may not be used to endorse or promote products |
||
15 | # derived from this software without specific prior written permission. |
||
16 | # |
||
17 | # THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
||
18 | # IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
||
19 | # OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
||
20 | # IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
||
21 | # INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
||
22 | # NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
||
23 | # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
||
24 | # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
||
25 | # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
||
26 | # THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
||
27 | # |
||
28 | |||
29 | ## very low and hardware-level functions |
||
30 | |||
2613 | jermar | 31 | # Mask for interrupts 0 - 31 (bits 0 - 31) where 0 means that int has no error |
32 | # word and 1 means interrupt with error word |
||
33 | #define ERROR_WORD_INTERRUPT_LIST 0x00027d00 |
||
132 | vana | 34 | |
35 | .text |
||
36 | |||
37 | .global paging_on |
||
38 | .global enable_l_apic_in_msr |
||
39 | .global interrupt_handlers |
||
3043 | jermar | 40 | .global memsetb |
41 | .global memsetw |
||
1288 | jermar | 42 | .global memcpy |
43 | .global memcpy_from_uspace |
||
44 | .global memcpy_from_uspace_failover_address |
||
45 | .global memcpy_to_uspace |
||
46 | .global memcpy_to_uspace_failover_address |
||
132 | vana | 47 | |
1288 | jermar | 48 | |
3043 | jermar | 49 | # Wrapper for generic memsetb |
50 | memsetb: |
||
51 | jmp _memsetb |
||
52 | |||
53 | # Wrapper for generic memsetw |
||
54 | memsetw: |
||
55 | jmp _memsetw |
||
56 | |||
57 | |||
1288 | jermar | 58 | #define MEMCPY_DST 4 |
59 | #define MEMCPY_SRC 8 |
||
60 | #define MEMCPY_SIZE 12 |
||
61 | |||
62 | /** Copy memory to/from userspace. |
||
63 | * |
||
64 | * This is almost conventional memcpy(). |
||
65 | * The difference is that there is a failover part |
||
66 | * to where control is returned from a page fault |
||
67 | * if the page fault occurs during copy_from_uspace() |
||
68 | * or copy_to_uspace(). |
||
69 | * |
||
70 | * @param MEMCPY_DST(%esp) Destination address. |
||
71 | * @param MEMCPY_SRC(%esp) Source address. |
||
72 | * @param MEMCPY_SIZE(%esp) Size. |
||
73 | * |
||
3274 | jermar | 74 | * @return MEMCPY_DST(%esp) on success and 0 on failure. |
1288 | jermar | 75 | */ |
76 | memcpy: |
||
77 | memcpy_from_uspace: |
||
78 | memcpy_to_uspace: |
||
2613 | jermar | 79 | movl %edi, %edx /* save %edi */ |
80 | movl %esi, %eax /* save %esi */ |
||
1288 | jermar | 81 | |
82 | movl MEMCPY_SIZE(%esp), %ecx |
||
2613 | jermar | 83 | shrl $2, %ecx /* size / 4 */ |
1288 | jermar | 84 | |
85 | movl MEMCPY_DST(%esp), %edi |
||
86 | movl MEMCPY_SRC(%esp), %esi |
||
87 | |||
2613 | jermar | 88 | rep movsl /* copy whole words */ |
1288 | jermar | 89 | |
90 | movl MEMCPY_SIZE(%esp), %ecx |
||
2613 | jermar | 91 | andl $3, %ecx /* size % 4 */ |
1288 | jermar | 92 | jz 0f |
93 | |||
2613 | jermar | 94 | rep movsb /* copy the rest byte by byte */ |
1288 | jermar | 95 | |
96 | 0: |
||
97 | movl %edx, %edi |
||
98 | movl %eax, %esi |
||
3274 | jermar | 99 | movl MEMCPY_DST(%esp), %eax /* MEMCPY_DST(%esp), success */ |
1288 | jermar | 100 | ret |
101 | |||
102 | /* |
||
103 | * We got here from as_page_fault() after the memory operations |
||
104 | * above had caused a page fault. |
||
105 | */ |
||
106 | memcpy_from_uspace_failover_address: |
||
107 | memcpy_to_uspace_failover_address: |
||
108 | movl %edx, %edi |
||
109 | movl %eax, %esi |
||
2613 | jermar | 110 | xorl %eax, %eax /* return 0, failure */ |
1288 | jermar | 111 | ret |
112 | |||
132 | vana | 113 | ## Turn paging on |
114 | # |
||
115 | # Enable paging and write-back caching in CR0. |
||
116 | # |
||
117 | paging_on: |
||
2613 | jermar | 118 | movl %cr0, %edx |
119 | orl $(1 << 31), %edx # paging on |
||
120 | # clear Cache Disable and not Write Though |
||
121 | andl $~((1 << 30) | (1 << 29)), %edx |
||
316 | jermar | 122 | movl %edx,%cr0 |
132 | vana | 123 | jmp 0f |
124 | 0: |
||
125 | ret |
||
126 | |||
127 | |||
128 | ## Enable local APIC |
||
129 | # |
||
130 | # Enable local APIC in MSR. |
||
131 | # |
||
132 | enable_l_apic_in_msr: |
||
133 | movl $0x1b, %ecx |
||
134 | rdmsr |
||
2613 | jermar | 135 | orl $(1 << 11), %eax |
136 | orl $(0xfee00000), %eax |
||
132 | vana | 137 | wrmsr |
138 | ret |
||
139 | |||
1100 | palkovsky | 140 | # Clear nested flag |
141 | # overwrites %ecx |
||
142 | .macro CLEAR_NT_FLAG |
||
143 | pushfl |
||
144 | pop %ecx |
||
2613 | jermar | 145 | and $0xffffbfff, %ecx |
1100 | palkovsky | 146 | push %ecx |
147 | popfl |
||
148 | .endm |
||
132 | vana | 149 | |
3485 | jermar | 150 | /* |
151 | * The SYSENTER syscall mechanism can be used for syscalls with |
||
152 | * four or fewer arguments. To pass these four arguments, we |
||
153 | * use four registers: EDX, ECX, EBX, ESI. The syscall number |
||
154 | * is passed in EAX. We use EDI to remember the return address |
||
155 | * and EBP to remember the stack. The INT-based syscall mechanism |
||
156 | * can actually handle six arguments plus the syscall number |
||
157 | * entirely in registers. |
||
158 | */ |
||
159 | .global sysenter_handler |
||
160 | sysenter_handler: |
||
3631 | jermar | 161 | sti |
3485 | jermar | 162 | pushl %ebp # remember user stack |
163 | pushl %edi # remember return user address |
||
164 | |||
165 | pushl %gs # remember TLS |
||
166 | |||
167 | pushl %eax # syscall number |
||
168 | subl $8, %esp # unused sixth and fifth argument |
||
169 | pushl %esi # fourth argument |
||
170 | pushl %ebx # third argument |
||
171 | pushl %ecx # second argument |
||
172 | pushl %edx # first argument |
||
173 | |||
174 | movw $16, %ax |
||
175 | movw %ax, %ds |
||
176 | movw %ax, %es |
||
177 | |||
178 | cld |
||
179 | call syscall_handler |
||
180 | addl $28, %esp # remove arguments from stack |
||
181 | |||
182 | pop %gs # restore TLS |
||
183 | |||
184 | pop %edx # prepare return EIP for SYSEXIT |
||
185 | pop %ecx # prepare userspace ESP for SYSEXIT |
||
186 | |||
187 | sysexit # return to userspace |
||
188 | |||
189 | |||
132 | vana | 190 | ## Declare interrupt handlers |
191 | # |
||
192 | # Declare interrupt handlers for n interrupt |
||
193 | # vectors starting at vector i. |
||
194 | # |
||
195 | # The handlers setup data segment registers |
||
576 | palkovsky | 196 | # and call exc_dispatch(). |
132 | vana | 197 | # |
1278 | palkovsky | 198 | #define INTERRUPT_ALIGN 64 |
132 | vana | 199 | .macro handler i n |
958 | jermar | 200 | |
2613 | jermar | 201 | .ifeq \i - 0x30 # Syscall handler |
202 | pushl %ds |
||
203 | pushl %es |
||
204 | pushl %fs |
||
205 | pushl %gs |
||
1100 | palkovsky | 206 | |
2613 | jermar | 207 | # |
208 | # Push syscall arguments onto the stack |
||
209 | # |
||
210 | # NOTE: The idea behind the order of arguments passed in registers is to |
||
211 | # use all scratch registers first and preserved registers next. |
||
212 | # An optimized libc syscall wrapper can make use of this setup. |
||
213 | # |
||
214 | pushl %eax |
||
215 | pushl %ebp |
||
216 | pushl %edi |
||
217 | pushl %esi |
||
218 | pushl %ebx |
||
219 | pushl %ecx |
||
220 | pushl %edx |
||
1100 | palkovsky | 221 | |
222 | # we must fill the data segment registers |
||
2613 | jermar | 223 | movw $16, %ax |
224 | movw %ax, %ds |
||
225 | movw %ax, %es |
||
1100 | palkovsky | 226 | |
2784 | jermar | 227 | cld |
1100 | palkovsky | 228 | sti |
2613 | jermar | 229 | # syscall_handler(edx, ecx, ebx, esi, edi, ebp, eax) |
230 | call syscall_handler |
||
1100 | palkovsky | 231 | cli |
2613 | jermar | 232 | addl $28, %esp # clean-up of parameters |
1100 | palkovsky | 233 | |
2613 | jermar | 234 | popl %gs |
235 | popl %fs |
||
236 | popl %es |
||
237 | popl %ds |
||
1100 | palkovsky | 238 | |
239 | CLEAR_NT_FLAG |
||
240 | iret |
||
241 | .else |
||
1008 | jermar | 242 | /* |
1021 | jermar | 243 | * This macro distinguishes between two versions of ia32 exceptions. |
244 | * One version has error word and the other does not have it. |
||
245 | * The latter version fakes the error word on the stack so that the |
||
246 | * handlers and istate_t can be the same for both types. |
||
1008 | jermar | 247 | */ |
2613 | jermar | 248 | .iflt \i - 32 |
1021 | jermar | 249 | .if (1 << \i) & ERROR_WORD_INTERRUPT_LIST |
1100 | palkovsky | 250 | /* |
251 | * With error word, do nothing |
||
1021 | jermar | 252 | */ |
253 | .else |
||
254 | /* |
||
255 | * Version without error word, |
||
256 | */ |
||
257 | subl $4, %esp |
||
258 | .endif |
||
259 | .else |
||
260 | /* |
||
261 | * Version without error word, |
||
262 | */ |
||
263 | subl $4, %esp |
||
1100 | palkovsky | 264 | .endif |
265 | |||
2613 | jermar | 266 | pushl %ds |
267 | pushl %es |
||
268 | pushl %fs |
||
269 | pushl %gs |
||
132 | vana | 270 | |
1100 | palkovsky | 271 | #ifdef CONFIG_DEBUG_ALLREGS |
2613 | jermar | 272 | pushl %ebx |
273 | pushl %ebp |
||
274 | pushl %edi |
||
275 | pushl %esi |
||
1100 | palkovsky | 276 | #else |
2613 | jermar | 277 | subl $16, %esp |
1100 | palkovsky | 278 | #endif |
2613 | jermar | 279 | pushl %edx |
280 | pushl %ecx |
||
281 | pushl %eax |
||
1100 | palkovsky | 282 | |
132 | vana | 283 | # we must fill the data segment registers |
2613 | jermar | 284 | movw $16, %ax |
285 | movw %ax, %ds |
||
286 | movw %ax, %es |
||
132 | vana | 287 | |
2784 | jermar | 288 | cld |
289 | |||
1100 | palkovsky | 290 | pushl %esp # *istate |
291 | pushl $(\i) # intnum |
||
292 | call exc_dispatch # excdispatch(intnum, *istate) |
||
2613 | jermar | 293 | addl $8, %esp # Clear arguments from stack |
132 | vana | 294 | |
1100 | palkovsky | 295 | CLEAR_NT_FLAG # Modifies %ecx |
296 | |||
2613 | jermar | 297 | popl %eax |
298 | popl %ecx |
||
299 | popl %edx |
||
1100 | palkovsky | 300 | #ifdef CONFIG_DEBUG_ALLREGS |
2613 | jermar | 301 | popl %esi |
302 | popl %edi |
||
303 | popl %ebp |
||
304 | popl %ebx |
||
1100 | palkovsky | 305 | #else |
2613 | jermar | 306 | addl $16, %esp |
1100 | palkovsky | 307 | #endif |
308 | |||
2613 | jermar | 309 | popl %gs |
310 | popl %fs |
||
311 | popl %es |
||
312 | popl %ds |
||
132 | vana | 313 | |
2613 | jermar | 314 | addl $4, %esp # Skip error word, no matter whether real or fake. |
316 | jermar | 315 | iret |
1100 | palkovsky | 316 | .endif |
132 | vana | 317 | |
1100 | palkovsky | 318 | .align INTERRUPT_ALIGN |
2613 | jermar | 319 | .if (\n- \i) - 1 |
320 | handler "(\i + 1)", \n |
||
132 | vana | 321 | .endif |
322 | .endm |
||
323 | |||
324 | # keep in sync with pm.h !!! |
||
2613 | jermar | 325 | IDT_ITEMS = 64 |
1100 | palkovsky | 326 | .align INTERRUPT_ALIGN |
132 | vana | 327 | interrupt_handlers: |
328 | h_start: |
||
1100 | palkovsky | 329 | handler 0 IDT_ITEMS |
132 | vana | 330 | h_end: |
331 | |||
332 | .data |
||
333 | .global interrupt_handler_size |
||
334 | |||
2613 | jermar | 335 | interrupt_handler_size: .long (h_end - h_start) / IDT_ITEMS |