2 Copyright © 1995-2011, The AROS Development Team. All rights reserved.
5 Desc: Code to dynamically load ELF executables
8 1997/12/13: Changed filename to internalloadseg_elf.c
9 Original file was created by digulla.
14 #include <aros/config.h>
15 #include <aros/kernel.h>
16 #include <exec/memory.h>
17 #include <proto/exec.h>
19 #include <dos/dosasl.h>
20 #include <proto/dos.h>
21 #include <proto/arossupport.h>
22 #include <proto/kernel.h>
23 #include <aros/asmcall.h>
24 #include "internalloadseg.h"
25 #include "dos_intern.h"
27 #include <aros/debug.h>
31 #include <aros/macros.h>
38 } __attribute__((packed
));
40 #define BPTR2HUNK(bptr) ((struct hunk *)((void *)bptr - offsetof(struct hunk, next)))
41 #define HUNK2BPTR(hunk) MKBADDR(&hunk->next)
43 static int elf_read_block
50 struct DosLibrary
*DOSBase
53 UBYTE
*buf
= (UBYTE
*)buffer
;
56 if (ilsSeek(file
, offset
, OFFSET_BEGINNING
) < 0)
61 subsize
= ilsRead(file
, buf
, size
);
66 SetIoErr(ERROR_BAD_HUNK
);
78 static void *load_block
84 struct DosLibrary
*DOSBase
87 D(bug("[ELF Loader] Load Block\n"));
88 D(bug("[ELF Loader] (size=%d)\n",size
));
89 D(bug("[ELF Loader] (funcarray=0x%x)\n",funcarray
));
90 D(bug("[ELF Loader] (funcarray[1]=0x%x)\n",funcarray
[1]));
91 void *block
= ilsAllocMem(size
, MEMF_ANY
);
94 if (elf_read_block(file
, offset
, block
, size
, funcarray
, DOSBase
))
97 ilsFreeMem(block
, size
);
100 SetIoErr(ERROR_NO_FREE_STORE
);
105 static ULONG
read_shnum(BPTR file
, struct elfheader
*eh
, SIPTR
*funcarray
, struct DosLibrary
*DOSBase
)
107 ULONG shnum
= eh
->shnum
;
109 /* the ELF header only uses 16 bits to store the count of section headers,
110 * so it can't handle more than 65535 headers. if the count is 0, and an
111 * offset is defined, then the real count can be found in the first
112 * section header (which always exists).
114 * similarly, if the string table index is SHN_XINDEX, then the actual
115 * index is found in the first section header also.
117 * see the System V ABI 2001-04-24 draft for more details.
123 if (eh
->shoff
== 0) {
124 SetIoErr(ERROR_NOT_EXECUTABLE
);
128 if (!elf_read_block(file
, eh
->shoff
, &sh
, sizeof(sh
), funcarray
, DOSBase
))
131 /* wider section header count is in the size field */
134 /* sanity, if they're still invalid then this isn't elf */
136 SetIoErr(ERROR_NOT_EXECUTABLE
);
142 static void register_elf(BPTR file
, BPTR hunks
, struct elfheader
*eh
, struct sheader
*sh
, struct DosLibrary
*DOSBase
)
144 #ifdef KrnRegisterModule
145 APTR KernelBase
= OpenResource("kernel.resource");
151 if (NameFromFH(file
, buffer
, sizeof(buffer
))) {
152 char *nameptr
= buffer
;
153 // struct ELF_DebugInfo dbg = {eh, sh};
155 /* gdb support needs full paths */
156 #if !AROS_MODULES_DEBUG
157 /* First, go through the name, till end of the string */
159 /* Now, go back until either ":" or "/" is found */
160 while(nameptr
> buffer
&& nameptr
[-1] != ':' && nameptr
[-1] != '/')
163 KrnRegisterModule(nameptr
, sh
, &eh
);
164 //KrnRegisterModule(nameptr, hunks, DEBUG_ELF, &dbg);
170 static int load_header(BPTR file
, struct elfheader
*eh
, SIPTR
*funcarray
, struct DosLibrary
*DOSBase
) {
171 ilsSeek(file
, OFFSET_BEGINNING
, 0);
172 if (!elf_read_block(file
, 0, eh
, sizeof(struct elfheader
), funcarray
, DOSBase
))
175 if (eh
->ident
[0] != 0x7f || eh
->ident
[1] != 'E' ||
176 eh
->ident
[2] != 'L' || eh
->ident
[3] != 'F') {
177 D(bug("[ELF Loader] Not an ELF object\n"));
178 SetIoErr(ERROR_NOT_EXECUTABLE
);
181 D(bug("[ELF Loader] ELF object\n"));
183 /* WANT_CLASS should be defined for your target */
184 if (eh
->ident
[EI_CLASS
] != AROS_ELF_CLASS
||
185 eh
->ident
[EI_VERSION
] != EV_CURRENT
||
186 eh
->type
!= ET_REL
||
187 eh
->ident
[EI_DATA
] != AROS_ELF_DATA
||
188 eh
->machine
!= AROS_ELF_MACHINE
)
190 D(bug("[ELF Loader] Object is of wrong type\n"));
191 D(bug("[ELF Loader] EI_CLASS is %d - should be %d\n", eh
->ident
[EI_CLASS
] , AROS_ELF_CLASS
));
192 D(bug("[ELF Loader] EI_VERSION is %d - should be %d\n", eh
->ident
[EI_VERSION
], EV_CURRENT
));
193 D(bug("[ELF Loader] type is %d - should be %d\n", eh
->type
, ET_REL
));
194 D(bug("[ELF Loader] EI_DATA is %d - should be %d\n", eh
->ident
[EI_DATA
] , AROS_ELF_DATA
));
195 D(bug("[ELF Loader] machine is %d - should be %d\n", eh
->machine
, AROS_ELF_MACHINE
));
197 SetIoErr(ERROR_NOT_EXECUTABLE
);
207 BPTR
**next_hunk_ptr
,
211 struct DosLibrary
*DOSBase
220 /* The size of the hunk is the size of the section, plus
221 the size of the hunk structure, plus the size of the alignment (if necessary)*/
222 hunk_size
= sh
->size
+ sizeof(struct hunk
);
226 hunk_size
+= sh
->addralign
;
228 /* Also create space for a trampoline, if necessary */
229 if (sh
->flags
& SHF_EXECINSTR
)
230 hunk_size
+= sizeof(struct FullJumpVec
);
233 hunk
= ilsAllocMem(hunk_size
, MEMF_ANY
| (sh
->type
== SHT_NOBITS
) ? MEMF_CLEAR
: 0);
237 hunk
->size
= hunk_size
;
239 /* In case we are required to honour alignment, and If this section contains
240 executable code, create a trampoline to its beginning, so that even if the
241 alignment requirements make the actual code go much after the end of the
242 hunk structure, the code can still be reached in the usual way. */
245 if (sh
->flags
& SHF_EXECINSTR
)
247 sh
->addr
= (char *)AROS_ROUNDUP2
249 (IPTR
)hunk
->data
+ sizeof(struct FullJumpVec
), sh
->addralign
251 __AROS_SET_FULLJMP((struct FullJumpVec
*)hunk
->data
, sh
->addr
);
254 sh
->addr
= (char *)AROS_ROUNDUP2((IPTR
)hunk
->data
, sh
->addralign
);
257 sh
->addr
= hunk
->data
;
259 /* Link the previous one with the new one */
260 BPTR2HUNK(*next_hunk_ptr
)->next
= HUNK2BPTR(hunk
);
262 D(bug("[dos] hunk @ %p, size=%08x, addr @ %p\n", hunk
, hunk
->size
, sh
->addr
));
264 /* Update the pointer to the previous one, which is now the current one */
265 *next_hunk_ptr
= &hunk
->next
;
267 if (sh
->type
!= SHT_NOBITS
)
268 return elf_read_block(file
, sh
->offset
, sh
->addr
, sh
->size
, funcarray
, DOSBase
);
274 SetIoErr(ERROR_NO_FREE_STORE
);
281 struct elfheader
*eh
,
284 struct sheader
*symtab_shndx
,
285 struct DosLibrary
*DOSBase
288 struct sheader
*shrel
= &sh
[shrel_idx
];
289 struct sheader
*shsymtab
= &sh
[SHINDEX(shrel
->link
)];
290 struct sheader
*toreloc
= &sh
[SHINDEX(shrel
->info
)];
292 struct symbol
*symtab
= (struct symbol
*)shsymtab
->addr
;
293 struct relo
*rel
= (struct relo
*)shrel
->addr
;
296 * Ignore relocs if the target section has no allocation. that can happen
297 * eg. with a .debug PROGBITS and a .rel.debug section
299 if (!(toreloc
->flags
& SHF_ALLOC
))
302 ULONG numrel
= shrel
->size
/ shrel
->entsize
;
305 struct symbol
*SysBase_sym
= NULL
;
307 for (i
=0; i
<numrel
; i
++, rel
++)
316 * R_ARM_V4BX are actually special marks for the linker.
317 * They even never have a target (shindex == SHN_UNDEF),
318 * so we simply ignore them before doing any checks.
320 if (ELF_R_TYPE(rel
->info
) == R_ARM_V4BX
)
324 sym
= &symtab
[ELF_R_SYM(rel
->info
)];
325 p
= toreloc
->addr
+ rel
->offset
;
327 if (sym
->shindex
!= SHN_XINDEX
)
328 shindex
= sym
->shindex
;
331 if (symtab_shndx
== NULL
) {
332 D(bug("[ELF Loader] got symbol with shndx 0xfff, but there's no symtab shndx table\n"));
333 SetIoErr(ERROR_BAD_HUNK
);
336 shindex
= ((ULONG
*)symtab_shndx
->addr
)[ELF_R_SYM(rel
->info
)];
339 DB2(bug("[ELF Loader] Processing symbol %s\n", sh
[SHINDEX(shsymtab
->link
)].addr
+ sym
->name
));
345 D(bug("[ELF Loader] Undefined symbol '%s'\n",
346 (STRPTR
)sh
[SHINDEX(shsymtab
->link
)].addr
+ sym
->name
));
347 SetIoErr(ERROR_BAD_HUNK
);
351 D(bug("[ELF Loader] COMMON symbol '%s'\n",
352 (STRPTR
)sh
[SHINDEX(shsymtab
->link
)].addr
+ sym
->name
));
353 SetIoErr(ERROR_BAD_HUNK
);
358 if (SysBase_sym
== NULL
)
360 if (strncmp((STRPTR
)sh
[SHINDEX(shsymtab
->link
)].addr
+ sym
->name
, "SysBase", 8) == 0)
369 if (SysBase_sym
== sym
)
371 SysBase_yes
: s
= (IPTR
)&SysBase
;
374 SysBase_no
: s
= sym
->value
;
378 s
= (IPTR
)sh
[SHINDEX(shindex
)].addr
+ sym
->value
;
381 switch (ELF_R_TYPE(rel
->info
))
383 #if defined(__i386__)
385 case R_386_32
: /* 32bit absolute */
389 case R_386_PC32
: /* 32bit PC relative */
396 #elif defined(__x86_64__)
397 case R_X86_64_64
: /* 64bit direct/absolute */
398 *(UQUAD
*)p
= s
+ rel
->addend
;
401 case R_X86_64_PC32
: /* PC relative 32 bit signed */
402 *(ULONG
*)p
= s
+ rel
->addend
- (IPTR
) p
;
406 *(ULONG
*)p
= (UQUAD
)s
+ (UQUAD
)rel
->addend
;
410 *(LONG
*)p
= (QUAD
)s
+ (QUAD
)rel
->addend
;
413 case R_X86_64_NONE
: /* No reloc */
416 #elif defined(__mc68000__)
419 *p
= s
+ rel
->addend
;
423 *p
= s
+ rel
->addend
- (ULONG
)p
;
429 #elif defined(__ppc__) || defined(__powerpc__)
432 *p
= s
+ rel
->addend
;
435 case R_PPC_ADDR16_LO
:
437 unsigned short *c
= (unsigned short *) p
;
438 *c
= (s
+ rel
->addend
) & 0xffff;
442 case R_PPC_ADDR16_HA
:
444 unsigned short *c
= (unsigned short *) p
;
445 ULONG temp
= s
+ rel
->addend
;
447 if ((temp
& 0x8000) != 0)
454 unsigned short *c
= (unsigned short *) p
;
455 *c
= (s
+ rel
->addend
- (ULONG
) p
) & 0xffff;
461 unsigned short *c
= (unsigned short *) p
;
462 ULONG temp
= s
+ rel
->addend
- (ULONG
) p
;
464 if ((temp
& 0x8000) != 0)
471 *p
|= (s
+ rel
->addend
- (ULONG
) p
) & 0x3fffffc;
475 *p
= s
+ rel
->addend
- (ULONG
) p
;
481 #elif defined(__arm__)
486 /* On ARM the 24 bit offset is shifted by 2 to the right */
487 signed long offset
= (*p
& 0x00ffffff) << 2;
488 /* If highest bit set, make offset negative */
489 if (offset
& 0x02000000)
490 offset
-= 0x04000000;
492 offset
+= s
- (uint32_t)p
;
496 *p
|= offset
& 0x00ffffff;
500 case R_ARM_MOVW_ABS_NC
:
503 signed long offset
= *p
;
504 offset
= ((offset
& 0xf0000) >> 4) | (offset
& 0xfff);
505 offset
= (offset
^ 0x8000) - 0x8000;
509 if (ELF_R_TYPE(rel
->info
) == R_ARM_MOVT_ABS
)
513 *p
|= ((offset
& 0xf000) << 4) | (offset
& 0x0fff);
525 # error Your architecture is not supported
529 D(bug("[ELF Loader] Unrecognized relocation type %d %d\n", i
, ELF_R_TYPE(rel
->info
)));
530 SetIoErr(ERROR_BAD_HUNK
);
538 BPTR InternalLoadSeg_ELF
543 LONG
*stack __unused
,
544 struct DosLibrary
*DOSBase
549 struct sheader
*symtab_shndx
= NULL
;
551 BPTR
*next_hunk_ptr
= &hunks
;
553 BOOL exec_hunk_seen
= FALSE
;
556 /* load and validate ELF header */
557 if (!load_header(file
, &eh
, funcarray
, DOSBase
))
560 int_shnum
= read_shnum(file
, &eh
, funcarray
, DOSBase
);
564 /* load section headers */
565 if (!(sh
= load_block(file
, eh
.shoff
, int_shnum
* eh
.shentsize
, funcarray
, DOSBase
)))
568 /* Iterate over the section headers in order to do some stuff... */
569 for (i
= 0; i
< int_shnum
; i
++)
572 Load the symbol and string table(s).
574 NOTICE: the ELF standard, at the moment (Nov 2002) explicitely states
575 that only one symbol table per file is allowed. However, it
576 also states that this may change in future... we already handle it.
578 if (sh
[i
].type
== SHT_SYMTAB
|| sh
[i
].type
== SHT_STRTAB
|| sh
[i
].type
== SHT_SYMTAB_SHNDX
)
580 sh
[i
].addr
= load_block(file
, sh
[i
].offset
, sh
[i
].size
, funcarray
, DOSBase
);
584 if (sh
[i
].type
== SHT_SYMTAB_SHNDX
) {
585 if (symtab_shndx
== NULL
)
586 symtab_shndx
= &sh
[i
];
588 D(bug("[ELF Loader] file contains multiple symtab shndx tables. only using the first one\n"));
592 /* Load the section in memory if needed, and make an hunk out of it */
593 if (sh
[i
].flags
& SHF_ALLOC
)
597 /* Only allow alignment if this is an executable hunk
598 or if an executable hunk has been loaded already,
599 so to avoid the situation in which a data hunk has its
600 content displaced from the hunk's header in case it's the
601 first hunk (this happens with Keymaps, for instance). */
602 if (sh
[i
].flags
& SHF_EXECINSTR
)
603 exec_hunk_seen
= TRUE
;
605 if (!load_hunk(file
, &next_hunk_ptr
, &sh
[i
], funcarray
, exec_hunk_seen
, DOSBase
))
612 /* Relocate the sections */
613 for (i
= 0; i
< int_shnum
; i
++)
615 /* Does this relocation section refer to a hunk? If so, addr must be != 0 */
616 if ((sh
[i
].type
== AROS_ELF_REL
) && sh
[SHINDEX(sh
[i
].info
)].addr
)
618 sh
[i
].addr
= load_block(file
, sh
[i
].offset
, sh
[i
].size
, funcarray
, DOSBase
);
619 if (!sh
[i
].addr
|| !relocate(&eh
, sh
, i
, symtab_shndx
, DOSBase
))
622 ilsFreeMem(sh
[i
].addr
, sh
[i
].size
);
627 /* Everything is loaded now. Register the module at kernel.resource */
628 register_elf(file
, hunks
, &eh
, sh
, DOSBase
);
633 /* There were some errors, deallocate The hunks */
635 InternalUnLoadSeg(hunks
, (VOID_FUNC
)funcarray
[2]);
640 /* Clear the caches to let the CPU see the new data and instructions */
645 struct hunk
*hunk
= BPTR2HUNK(BADDR(curr
));
647 CacheClearE(hunk
->data
, hunk
->size
, CACRF_ClearD
| CACRF_ClearI
);
653 /* deallocate the symbol tables */
654 for (i
= 0; i
< int_shnum
; i
++)
656 if (((sh
[i
].type
== SHT_SYMTAB
) || (sh
[i
].type
== SHT_STRTAB
)) && (sh
[i
].addr
!= NULL
))
657 ilsFreeMem(sh
[i
].addr
, sh
[i
].size
);
660 /* Free the section headers */
661 ilsFreeMem(sh
, int_shnum
* eh
.shentsize
);