xref: /freebsd/contrib/elftoolchain/libelf/elf_update.c (revision cc68614da8232d8baaca0ae0d0dd8f890f06623e)
1 /*-
2  * Copyright (c) 2006-2011 Joseph Koshy
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  * 1. Redistributions of source code must retain the above copyright
9  *    notice, this list of conditions and the following disclaimer.
10  * 2. Redistributions in binary form must reproduce the above copyright
11  *    notice, this list of conditions and the following disclaimer in the
12  *    documentation and/or other materials provided with the distribution.
13  *
14  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
15  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
16  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
17  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
18  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
20  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
21  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
22  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
23  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
24  * SUCH DAMAGE.
25  */
26 
27 #include <sys/param.h>
28 #include <sys/stat.h>
29 
30 #include <assert.h>
31 #include <errno.h>
32 #include <gelf.h>
33 #include <libelf.h>
34 #include <stdlib.h>
35 #include <string.h>
36 #include <unistd.h>
37 
38 #include "_libelf.h"
39 
40 #if	ELFTC_HAVE_MMAP
41 #include <sys/mman.h>
42 #endif
43 
44 ELFTC_VCSID("$Id: elf_update.c 3763 2019-06-28 21:43:27Z emaste $");
45 
46 /*
47  * Layout strategy:
48  *
49  * - Case 1: ELF_F_LAYOUT is asserted
50  *     In this case the application has full control over where the
51  *     section header table, program header table, and section data
52  *     will reside.   The library only perform error checks.
53  *
54  * - Case 2: ELF_F_LAYOUT is not asserted
55  *
56  *     The library will do the object layout using the following
57  *     ordering:
58  *     - The executable header is placed first, are required by the
59  *     	 ELF specification.
60  *     - The program header table is placed immediately following the
61  *       executable header.
62  *     - Section data, if any, is placed after the program header
63  *       table, aligned appropriately.
64  *     - The section header table, if needed, is placed last.
65  *
66  *     There are two sub-cases to be taken care of:
67  *
68  *     - Case 2a: e->e_cmd == ELF_C_READ or ELF_C_RDWR
69  *
70  *       In this sub-case, the underlying ELF object may already have
71  *       content in it, which the application may have modified.  The
72  *       library will retrieve content from the existing object as
73  *       needed.
74  *
75  *     - Case 2b: e->e_cmd == ELF_C_WRITE
76  *
77  *       The ELF object is being created afresh in this sub-case;
78  *       there is no pre-existing content in the underlying ELF
79  *       object.
80  */
81 
82 /*
83  * The types of extents in an ELF object.
84  */
85 enum elf_extent {
86 	ELF_EXTENT_EHDR,
87 	ELF_EXTENT_PHDR,
88 	ELF_EXTENT_SECTION,
89 	ELF_EXTENT_SHDR
90 };
91 
92 /*
93  * A extent descriptor, used when laying out an ELF object.
94  */
95 struct _Elf_Extent {
96 	SLIST_ENTRY(_Elf_Extent) ex_next;
97 	uint64_t	ex_start; /* Start of the region. */
98 	uint64_t	ex_size;  /* The size of the region. */
99 	enum elf_extent	ex_type;  /* Type of region. */
100 	void		*ex_desc; /* Associated descriptor. */
101 };
102 
103 SLIST_HEAD(_Elf_Extent_List, _Elf_Extent);
104 
105 /*
106  * Compute the extents of a section, by looking at the data
107  * descriptors associated with it.  The function returns 1
108  * if successful, or zero if an error was detected.
109  */
110 static int
111 _libelf_compute_section_extents(Elf *e, Elf_Scn *s, off_t rc)
112 {
113 	Elf_Data *d;
114 	size_t fsz, msz;
115 	int ec, elftype;
116 	uint32_t sh_type;
117 	uint64_t d_align;
118 	Elf32_Shdr *shdr32;
119 	Elf64_Shdr *shdr64;
120 	struct _Libelf_Data *ld;
121 	uint64_t scn_size, scn_alignment;
122 	uint64_t sh_align, sh_entsize, sh_offset, sh_size;
123 
124 	ec = e->e_class;
125 
126 	shdr32 = &s->s_shdr.s_shdr32;
127 	shdr64 = &s->s_shdr.s_shdr64;
128 	if (ec == ELFCLASS32) {
129 		sh_type    = shdr32->sh_type;
130 		sh_align   = (uint64_t) shdr32->sh_addralign;
131 		sh_entsize = (uint64_t) shdr32->sh_entsize;
132 		sh_offset  = (uint64_t) shdr32->sh_offset;
133 		sh_size    = (uint64_t) shdr32->sh_size;
134 	} else {
135 		sh_type    = shdr64->sh_type;
136 		sh_align   = shdr64->sh_addralign;
137 		sh_entsize = shdr64->sh_entsize;
138 		sh_offset  = shdr64->sh_offset;
139 		sh_size    = shdr64->sh_size;
140 	}
141 
142 	assert(sh_type != SHT_NULL && sh_type != SHT_NOBITS);
143 
144 	elftype = _libelf_xlate_shtype(sh_type);
145 	if (elftype < ELF_T_FIRST || elftype > ELF_T_LAST) {
146 		LIBELF_SET_ERROR(SECTION, 0);
147 		return (0);
148 	}
149 
150 	if (sh_align == 0)
151 		sh_align = _libelf_falign(elftype, ec);
152 
153 	/*
154 	 * Compute the section's size and alignment using the data
155 	 * descriptors associated with the section.
156 	 */
157 	if (STAILQ_EMPTY(&s->s_data)) {
158 		/*
159 		 * The section's content (if any) has not been read in
160 		 * yet.  If section is not dirty marked dirty, we can
161 		 * reuse the values in the 'sh_size' and 'sh_offset'
162 		 * fields of the section header.
163 		 */
164 		if ((s->s_flags & ELF_F_DIRTY) == 0) {
165 			/*
166 			 * If the library is doing the layout, then we
167 			 * compute the new start offset for the
168 			 * section based on the current offset and the
169 			 * section's alignment needs.
170 			 *
171 			 * If the application is doing the layout, we
172 			 * can use the value in the 'sh_offset' field
173 			 * in the section header directly.
174 			 */
175 			if (e->e_flags & ELF_F_LAYOUT)
176 				goto updatedescriptor;
177 			else
178 				goto computeoffset;
179 		}
180 
181 		/*
182 		 * Otherwise, we need to bring in the section's data
183 		 * from the underlying ELF object.
184 		 */
185 		if (e->e_cmd != ELF_C_WRITE && elf_getdata(s, NULL) == NULL)
186 			return (0);
187 	}
188 
189 	/*
190 	 * Loop through the section's data descriptors.
191 	 */
192 	scn_size = 0L;
193 	scn_alignment = 0;
194 	STAILQ_FOREACH(ld, &s->s_data, d_next)  {
195 
196 		d = &ld->d_data;
197 
198 		/*
199 		 * The data buffer's type is known.
200 		 */
201 		if (d->d_type >= ELF_T_NUM) {
202 			LIBELF_SET_ERROR(DATA, 0);
203 			return (0);
204 		}
205 
206 		/*
207 		 * The data buffer's version is supported.
208 		 */
209 		if (d->d_version != e->e_version) {
210 			LIBELF_SET_ERROR(VERSION, 0);
211 			return (0);
212 		}
213 
214 		/*
215 		 * The buffer's alignment is non-zero and a power of
216 		 * two.
217 		 */
218 		if ((d_align = d->d_align) == 0 ||
219 		    (d_align & (d_align - 1))) {
220 			LIBELF_SET_ERROR(DATA, 0);
221 			return (0);
222 		}
223 
224 		/*
225 		 * The data buffer's ELF type, ELF class and ELF version
226 		 * should be supported.
227 		 */
228 		if ((msz = _libelf_msize(d->d_type, ec, e->e_version)) == 0)
229 			return (0);
230 
231 		/*
232 		 * The buffer's size should be a multiple of the
233 		 * memory size of the underlying type.
234 		 */
235 		if (d->d_size % msz) {
236 			LIBELF_SET_ERROR(DATA, 0);
237 			return (0);
238 		}
239 
240 		/*
241 		 * If the application is controlling layout, then the
242 		 * d_offset field should be compatible with the
243 		 * buffer's specified alignment.
244 		 */
245 		if ((e->e_flags & ELF_F_LAYOUT) &&
246 		    (d->d_off & (d_align - 1))) {
247 			LIBELF_SET_ERROR(LAYOUT, 0);
248 			return (0);
249 		}
250 
251 		/*
252 		 * Compute the section's size.
253 		 */
254 		if (e->e_flags & ELF_F_LAYOUT) {
255 			if ((uint64_t) d->d_off + d->d_size > scn_size)
256 				scn_size = d->d_off + d->d_size;
257 		} else {
258 			scn_size = roundup2(scn_size, d->d_align);
259 			d->d_off = scn_size;
260 			fsz = _libelf_fsize(d->d_type, ec, d->d_version,
261 			    (size_t) d->d_size / msz);
262 			scn_size += fsz;
263 		}
264 
265 		/*
266 		 * The section's alignment is the maximum alignment
267 		 * needed for its data buffers.
268 		 */
269 		if (d_align > scn_alignment)
270 			scn_alignment = d_align;
271 	}
272 
273 
274 	/*
275 	 * If the application is requesting full control over the
276 	 * layout of the section, check the section's specified size,
277 	 * offsets and alignment for sanity.
278 	 */
279 	if (e->e_flags & ELF_F_LAYOUT) {
280 		if (scn_alignment > sh_align ||
281 		    sh_offset % sh_align ||
282 		    sh_size < scn_size ||
283 		    sh_offset % _libelf_falign(elftype, ec)) {
284 			LIBELF_SET_ERROR(LAYOUT, 0);
285 			return (0);
286 		}
287 		goto updatedescriptor;
288 	}
289 
290 	/*
291 	 * Otherwise, compute the values in the section header.
292 	 *
293 	 * The section alignment is the maximum alignment for any of
294 	 * its contained data descriptors.
295 	 */
296 	if (scn_alignment > sh_align)
297 		sh_align = scn_alignment;
298 
299 	/*
300 	 * If the section entry size is zero, try and fill in an
301 	 * appropriate entry size.  Per the elf(5) manual page
302 	 * sections without fixed-size entries should have their
303 	 * 'sh_entsize' field set to zero.
304 	 */
305 	if (sh_entsize == 0 &&
306 	    (sh_entsize = _libelf_fsize(elftype, ec, e->e_version,
307 		(size_t) 1)) == 1)
308 		sh_entsize = 0;
309 
310 	sh_size = scn_size;
311 
312 computeoffset:
313 	/*
314 	 * Compute the new offset for the section based on
315 	 * the section's alignment needs.
316 	 */
317 	sh_offset = roundup((uint64_t) rc, sh_align);
318 
319 	/*
320 	 * Update the section header.
321 	 */
322 	if (ec == ELFCLASS32) {
323 		shdr32->sh_addralign = (uint32_t) sh_align;
324 		shdr32->sh_entsize   = (uint32_t) sh_entsize;
325 		shdr32->sh_offset    = (uint32_t) sh_offset;
326 		shdr32->sh_size      = (uint32_t) sh_size;
327 	} else {
328 		shdr64->sh_addralign = sh_align;
329 		shdr64->sh_entsize   = sh_entsize;
330 		shdr64->sh_offset    = sh_offset;
331 		shdr64->sh_size      = sh_size;
332 	}
333 
334 updatedescriptor:
335 	/*
336 	 * Update the section descriptor.
337 	 */
338 	s->s_size = sh_size;
339 	s->s_offset = sh_offset;
340 
341 	return (1);
342 }
343 
344 /*
345  * Free a list of extent descriptors.
346  */
347 
348 static void
349 _libelf_release_extents(struct _Elf_Extent_List *extents)
350 {
351 	struct _Elf_Extent *ex;
352 
353 	while ((ex = SLIST_FIRST(extents)) != NULL) {
354 		SLIST_REMOVE_HEAD(extents, ex_next);
355 		free(ex);
356 	}
357 }
358 
359 /*
360  * Check if an extent 's' defined by [start..start+size) is free.
361  * This routine assumes that the given extent list is sorted in order
362  * of ascending extent offsets.
363  */
364 
365 static int
366 _libelf_extent_is_unused(struct _Elf_Extent_List *extents,
367     const uint64_t start, const uint64_t size, struct _Elf_Extent **prevt)
368 {
369 	uint64_t tmax, tmin;
370 	struct _Elf_Extent *t, *pt;
371 	const uint64_t smax = start + size;
372 
373 	/* First, look for overlaps with existing extents. */
374 	pt = NULL;
375 	SLIST_FOREACH(t, extents, ex_next) {
376 		tmin = t->ex_start;
377 		tmax = tmin + t->ex_size;
378 
379 		if (tmax <= start) {
380 			/*
381 			 * 't' lies entirely before 's': ...| t |...| s |...
382 			 */
383 			pt = t;
384 			continue;
385 		} else if (smax <= tmin) {
386 			/*
387 			 * 's' lies entirely before 't', and after 'pt':
388 			 *      ...| pt |...| s |...| t |...
389 			 */
390 			assert(pt == NULL ||
391 			    pt->ex_start + pt->ex_size <= start);
392 			break;
393 		} else
394 			/* 's' and 't' overlap. */
395 			return (0);
396 	}
397 
398 	if (prevt)
399 		*prevt = pt;
400 	return (1);
401 }
402 
403 /*
404  * Insert an extent into the list of extents.
405  */
406 
407 static int
408 _libelf_insert_extent(struct _Elf_Extent_List *extents, int type,
409     uint64_t start, uint64_t size, void *desc)
410 {
411 	struct _Elf_Extent *ex, *prevt;
412 
413 	assert(type >= ELF_EXTENT_EHDR && type <= ELF_EXTENT_SHDR);
414 
415 	prevt = NULL;
416 
417 	/*
418 	 * If the requested range overlaps with an existing extent,
419 	 * signal an error.
420 	 */
421 	if (!_libelf_extent_is_unused(extents, start, size, &prevt)) {
422 		LIBELF_SET_ERROR(LAYOUT, 0);
423 		return (0);
424 	}
425 
426 	/* Allocate and fill in a new extent descriptor. */
427 	if ((ex = malloc(sizeof(struct _Elf_Extent))) == NULL) {
428 		LIBELF_SET_ERROR(RESOURCE, errno);
429 		return (0);
430 	}
431 	ex->ex_start = start;
432 	ex->ex_size = size;
433 	ex->ex_desc = desc;
434 	ex->ex_type = type;
435 
436 	/* Insert the region descriptor into the list. */
437 	if (prevt)
438 		SLIST_INSERT_AFTER(prevt, ex, ex_next);
439 	else
440 		SLIST_INSERT_HEAD(extents, ex, ex_next);
441 	return (1);
442 }
443 
444 /*
445  * Recompute section layout.
446  */
447 
448 static off_t
449 _libelf_resync_sections(Elf *e, off_t rc, struct _Elf_Extent_List *extents)
450 {
451 	int ec;
452 	Elf_Scn *s;
453 	size_t sh_type;
454 
455 	ec = e->e_class;
456 
457 	/*
458 	 * Make a pass through sections, computing the extent of each
459 	 * section.
460 	 */
461 	RB_FOREACH(s, scntree, &e->e_u.e_elf.e_scn) {
462 		if (ec == ELFCLASS32)
463 			sh_type = s->s_shdr.s_shdr32.sh_type;
464 		else
465 			sh_type = s->s_shdr.s_shdr64.sh_type;
466 
467 		if (sh_type == SHT_NOBITS || sh_type == SHT_NULL)
468 			continue;
469 
470 		if (_libelf_compute_section_extents(e, s, rc) == 0)
471 			return ((off_t) -1);
472 
473 		if (s->s_size == 0)
474 			continue;
475 
476 		if (!_libelf_insert_extent(extents, ELF_EXTENT_SECTION,
477 		    s->s_offset, s->s_size, s))
478 			return ((off_t) -1);
479 
480 		if ((size_t) rc < s->s_offset + s->s_size)
481 			rc = (off_t) (s->s_offset + s->s_size);
482 	}
483 
484 	return (rc);
485 }
486 
487 /*
488  * Recompute the layout of the ELF object and update the internal data
489  * structures associated with the ELF descriptor.
490  *
491  * Returns the size in bytes the ELF object would occupy in its file
492  * representation.
493  *
494  * After a successful call to this function, the following structures
495  * are updated:
496  *
497  * - The ELF header is updated.
498  * - All extents in the ELF object are sorted in order of ascending
499  *   addresses.  Sections have their section header table entries
500  *   updated.  An error is signalled if an overlap was detected among
501  *   extents.
502  * - Data descriptors associated with sections are checked for valid
503  *   types, offsets and alignment.
504  *
505  * After a resync_elf() successfully returns, the ELF descriptor is
506  * ready for being handed over to _libelf_write_elf().
507  */
508 
509 static off_t
510 _libelf_resync_elf(Elf *e, struct _Elf_Extent_List *extents)
511 {
512 	int ec, eh_class;
513 	unsigned int eh_byteorder, eh_version;
514 	size_t align, fsz;
515 	size_t phnum, shnum;
516 	off_t rc, phoff, shoff;
517 	void *ehdr, *phdr;
518 	Elf32_Ehdr *eh32;
519 	Elf64_Ehdr *eh64;
520 
521 	rc = 0;
522 
523 	ec = e->e_class;
524 
525 	assert(ec == ELFCLASS32 || ec == ELFCLASS64);
526 
527 	/*
528 	 * Prepare the EHDR.
529 	 */
530 	if ((ehdr = _libelf_ehdr(e, ec, 0)) == NULL)
531 		return ((off_t) -1);
532 
533 	eh32 = ehdr;
534 	eh64 = ehdr;
535 
536 	if (ec == ELFCLASS32) {
537 		eh_byteorder = eh32->e_ident[EI_DATA];
538 		eh_class     = eh32->e_ident[EI_CLASS];
539 		phoff        = (off_t) eh32->e_phoff;
540 		shoff        = (off_t) eh32->e_shoff;
541 		eh_version   = eh32->e_version;
542 	} else {
543 		eh_byteorder = eh64->e_ident[EI_DATA];
544 		eh_class     = eh64->e_ident[EI_CLASS];
545 		phoff        = (off_t) eh64->e_phoff;
546 		shoff        = (off_t) eh64->e_shoff;
547 		eh_version   = eh64->e_version;
548 	}
549 
550 	if (phoff < 0 || shoff < 0) {
551 		LIBELF_SET_ERROR(HEADER, 0);
552 		return ((off_t) -1);
553 	}
554 
555 	if (eh_version == EV_NONE)
556 		eh_version = EV_CURRENT;
557 
558 	if (eh_version != e->e_version) {	/* always EV_CURRENT */
559 		LIBELF_SET_ERROR(VERSION, 0);
560 		return ((off_t) -1);
561 	}
562 
563 	if (eh_class != e->e_class) {
564 		LIBELF_SET_ERROR(CLASS, 0);
565 		return ((off_t) -1);
566 	}
567 
568 	if (e->e_cmd != ELF_C_WRITE && eh_byteorder != e->e_byteorder) {
569 		LIBELF_SET_ERROR(HEADER, 0);
570 		return ((off_t) -1);
571 	}
572 
573 	shnum = e->e_u.e_elf.e_nscn;
574 	phnum = e->e_u.e_elf.e_nphdr;
575 
576 	e->e_byteorder = eh_byteorder;
577 
578 #define	INITIALIZE_EHDR(E,EC,V)	do {					\
579 		unsigned int _version = (unsigned int) (V);		\
580 		(E)->e_ident[EI_MAG0] = ELFMAG0;			\
581 		(E)->e_ident[EI_MAG1] = ELFMAG1;			\
582 		(E)->e_ident[EI_MAG2] = ELFMAG2;			\
583 		(E)->e_ident[EI_MAG3] = ELFMAG3;			\
584 		(E)->e_ident[EI_CLASS] = (unsigned char) (EC);		\
585 		(E)->e_ident[EI_VERSION] = (_version & 0xFFU);		\
586 		(E)->e_ehsize = (uint16_t) _libelf_fsize(ELF_T_EHDR,	\
587 		    (EC), _version, (size_t) 1);			\
588 		(E)->e_phentsize = (uint16_t) ((phnum == 0) ? 0 :	\
589 		    _libelf_fsize(ELF_T_PHDR, (EC), _version,		\
590 			(size_t) 1));					\
591 		(E)->e_shentsize = (uint16_t) _libelf_fsize(ELF_T_SHDR,	\
592 		    (EC), _version, (size_t) 1);			\
593 	} while (0)
594 
595 	if (ec == ELFCLASS32)
596 		INITIALIZE_EHDR(eh32, ec, eh_version);
597 	else
598 		INITIALIZE_EHDR(eh64, ec, eh_version);
599 
600 	(void) elf_flagehdr(e, ELF_C_SET, ELF_F_DIRTY);
601 
602 	rc += (off_t) _libelf_fsize(ELF_T_EHDR, ec, eh_version, (size_t) 1);
603 
604 	if (!_libelf_insert_extent(extents, ELF_EXTENT_EHDR, 0, (uint64_t) rc,
605 		ehdr))
606 		return ((off_t) -1);
607 
608 	/*
609 	 * Compute the layout the program header table, if one is
610 	 * present.  The program header table needs to be aligned to a
611 	 * `natural' boundary.
612 	 */
613 	if (phnum) {
614 		fsz = _libelf_fsize(ELF_T_PHDR, ec, eh_version, phnum);
615 		align = _libelf_falign(ELF_T_PHDR, ec);
616 
617 		if (e->e_flags & ELF_F_LAYOUT) {
618 			/*
619 			 * Check offsets for sanity.
620 			 */
621 			if (rc > phoff) {
622 				LIBELF_SET_ERROR(LAYOUT, 0);
623 				return ((off_t) -1);
624 			}
625 
626 			if (phoff % (off_t) align) {
627 				LIBELF_SET_ERROR(LAYOUT, 0);
628 				return ((off_t) -1);
629 			}
630 
631 		} else
632 			phoff = roundup(rc, (off_t) align);
633 
634 		rc = phoff + (off_t) fsz;
635 
636 		phdr = _libelf_getphdr(e, ec);
637 
638 		if (!_libelf_insert_extent(extents, ELF_EXTENT_PHDR,
639 			(uint64_t) phoff, fsz, phdr))
640 			return ((off_t) -1);
641 	} else
642 		phoff = 0;
643 
644 	/*
645 	 * Compute the layout of the sections associated with the
646 	 * file.
647 	 */
648 
649 	if (e->e_cmd != ELF_C_WRITE &&
650 	    (e->e_flags & LIBELF_F_SHDRS_LOADED) == 0 &&
651 	    _libelf_load_section_headers(e, ehdr) == 0)
652 		return ((off_t) -1);
653 
654 	if ((rc = _libelf_resync_sections(e, rc, extents)) < 0)
655 		return ((off_t) -1);
656 
657 	/*
658 	 * Compute the space taken up by the section header table, if
659 	 * one is needed.
660 	 *
661 	 * If ELF_F_LAYOUT has been asserted, the application may have
662 	 * placed the section header table in between existing
663 	 * sections, so the net size of the file need not increase due
664 	 * to the presence of the section header table.
665 	 *
666 	 * If the library is responsible for laying out the object,
667 	 * the section header table is placed after section data.
668 	 */
669 	if (shnum) {
670 		fsz = _libelf_fsize(ELF_T_SHDR, ec, eh_version, shnum);
671 		align = _libelf_falign(ELF_T_SHDR, ec);
672 
673 		if (e->e_flags & ELF_F_LAYOUT) {
674 			if (shoff % (off_t) align) {
675 				LIBELF_SET_ERROR(LAYOUT, 0);
676 				return ((off_t) -1);
677 			}
678 		} else
679 			shoff = roundup(rc, (off_t) align);
680 
681 		if (shoff + (off_t) fsz > rc)
682 			rc = shoff + (off_t) fsz;
683 
684 		if (!_libelf_insert_extent(extents, ELF_EXTENT_SHDR,
685 			(uint64_t) shoff, fsz, NULL))
686 			return ((off_t) -1);
687 	} else
688 		shoff = 0;
689 
690 	/*
691 	 * Set the fields of the Executable Header that could potentially use
692 	 * extended numbering.
693 	 */
694 	_libelf_setphnum(e, ehdr, ec, phnum);
695 	_libelf_setshnum(e, ehdr, ec, shnum);
696 
697 	/*
698 	 * Update the `e_phoff' and `e_shoff' fields if the library is
699 	 * doing the layout.
700 	 */
701 	if ((e->e_flags & ELF_F_LAYOUT) == 0) {
702 		if (ec == ELFCLASS32) {
703 			eh32->e_phoff = (uint32_t) phoff;
704 			eh32->e_shoff = (uint32_t) shoff;
705 		} else {
706 			eh64->e_phoff = (uint64_t) phoff;
707 			eh64->e_shoff = (uint64_t) shoff;
708 		}
709 	}
710 
711 	return (rc);
712 }
713 
714 /*
715  * Write out the contents of an ELF section.
716  */
717 
718 static off_t
719 _libelf_write_scn(Elf *e, unsigned char *nf, struct _Elf_Extent *ex)
720 {
721 	off_t rc;
722 	int ec, em;
723 	Elf_Scn *s;
724 	int elftype;
725 	Elf_Data *d, dst;
726 	uint32_t sh_type;
727 	struct _Libelf_Data *ld;
728 	uint64_t sh_off, sh_size;
729 	size_t fsz, msz, nobjects;
730 
731 	assert(ex->ex_type == ELF_EXTENT_SECTION);
732 
733 	s = ex->ex_desc;
734 	rc = (off_t) ex->ex_start;
735 
736 	if ((ec = e->e_class) == ELFCLASS32) {
737 		sh_type = s->s_shdr.s_shdr32.sh_type;
738 		sh_size = (uint64_t) s->s_shdr.s_shdr32.sh_size;
739 	} else {
740 		sh_type = s->s_shdr.s_shdr64.sh_type;
741 		sh_size = s->s_shdr.s_shdr64.sh_size;
742 	}
743 
744 	/*
745 	 * Ignore sections that do not allocate space in the file.
746 	 */
747 	if (sh_type == SHT_NOBITS || sh_type == SHT_NULL || sh_size == 0)
748 		return (rc);
749 
750 	elftype = _libelf_xlate_shtype(sh_type);
751 	assert(elftype >= ELF_T_FIRST && elftype <= ELF_T_LAST);
752 
753 	sh_off = s->s_offset;
754 	assert(sh_off % _libelf_falign(elftype, ec) == 0);
755 
756 	em = _libelf_elfmachine(e);
757 #if 0
758 	assert(em >= EM_NONE && em < EM__LAST__);
759 #endif
760 
761 	/*
762 	 * If the section has a `rawdata' descriptor, and the section
763 	 * contents have not been modified, use its contents directly.
764 	 * The `s_rawoff' member contains the offset into the original
765 	 * file, while `s_offset' contains its new location in the
766 	 * destination.
767 	 */
768 
769 	if (STAILQ_EMPTY(&s->s_data)) {
770 
771 		if ((d = elf_rawdata(s, NULL)) == NULL)
772 			return ((off_t) -1);
773 
774 		STAILQ_FOREACH(ld, &s->s_rawdata, d_next) {
775 
776 			d = &ld->d_data;
777 
778 			if ((uint64_t) rc < sh_off + d->d_off)
779 				(void) memset(nf + rc,
780 				    LIBELF_PRIVATE(fillchar),
781 				    (size_t) (sh_off + d->d_off -
782 					(uint64_t) rc));
783 			rc = (off_t) (sh_off + d->d_off);
784 
785 			assert(d->d_buf != NULL);
786 			assert(d->d_type == ELF_T_BYTE);
787 			assert(d->d_version == e->e_version);
788 
789 			(void) memcpy(nf + rc,
790 			    e->e_rawfile + s->s_rawoff + d->d_off,
791 			    (size_t) d->d_size);
792 
793 			rc += (off_t) d->d_size;
794 		}
795 
796 		return (rc);
797 	}
798 
799 	/*
800 	 * Iterate over the set of data descriptors for this section.
801 	 * The prior call to _libelf_resync_elf() would have setup the
802 	 * descriptors for this step.
803 	 */
804 
805 	dst.d_version = e->e_version;
806 
807 	STAILQ_FOREACH(ld, &s->s_data, d_next) {
808 
809 		d = &ld->d_data;
810 
811 		if ((msz = _libelf_msize(d->d_type, ec, e->e_version)) == 0)
812 			return ((off_t) -1);
813 
814 		if ((uint64_t) rc < sh_off + d->d_off)
815 			(void) memset(nf + rc,
816 			    LIBELF_PRIVATE(fillchar),
817 			    (size_t) (sh_off + d->d_off - (uint64_t) rc));
818 
819 		rc = (off_t) (sh_off + d->d_off);
820 
821 		assert(d->d_buf != NULL);
822 		assert(d->d_version == e->e_version);
823 		assert(d->d_size % msz == 0);
824 		assert(msz != 0);
825 
826 		nobjects = (size_t) (d->d_size / msz);
827 
828 		fsz = _libelf_fsize(d->d_type, ec, e->e_version, nobjects);
829 
830 		dst.d_buf    = nf + rc;
831 		dst.d_size   = fsz;
832 
833 		if (_libelf_xlate(&dst, d, e->e_byteorder, ec, em, ELF_TOFILE)
834 		    == NULL)
835 			return ((off_t) -1);
836 
837 		rc += (off_t) fsz;
838 	}
839 
840 	return (rc);
841 }
842 
843 /*
844  * Write out an ELF Executable Header.
845  */
846 
847 static off_t
848 _libelf_write_ehdr(Elf *e, unsigned char *nf, struct _Elf_Extent *ex)
849 {
850 	int ec, em;
851 	void *ehdr;
852 	size_t fsz, msz;
853 	Elf_Data dst, src;
854 
855 	assert(ex->ex_type == ELF_EXTENT_EHDR);
856 	assert(ex->ex_start == 0); /* Ehdr always comes first. */
857 
858 	ec = e->e_class;
859 
860 	ehdr = _libelf_ehdr(e, ec, 0);
861 	assert(ehdr != NULL);
862 
863 	fsz = _libelf_fsize(ELF_T_EHDR, ec, e->e_version, (size_t) 1);
864 	if ((msz = _libelf_msize(ELF_T_EHDR, ec, e->e_version)) == 0)
865 		return ((off_t) -1);
866 
867 	em = _libelf_elfmachine(e);
868 
869 	(void) memset(&dst, 0, sizeof(dst));
870 	(void) memset(&src, 0, sizeof(src));
871 
872 	src.d_buf     = ehdr;
873 	src.d_size    = msz;
874 	src.d_type    = ELF_T_EHDR;
875 	src.d_version = dst.d_version = e->e_version;
876 
877 	dst.d_buf     = nf;
878 	dst.d_size    = fsz;
879 
880 	if (_libelf_xlate(&dst, &src, e->e_byteorder, ec, em, ELF_TOFILE) ==
881 	    NULL)
882 		return ((off_t) -1);
883 
884 	return ((off_t) fsz);
885 }
886 
887 /*
888  * Write out an ELF program header table.
889  */
890 
891 static off_t
892 _libelf_write_phdr(Elf *e, unsigned char *nf, struct _Elf_Extent *ex)
893 {
894 	int ec, em;
895 	void *ehdr;
896 	Elf32_Ehdr *eh32;
897 	Elf64_Ehdr *eh64;
898 	Elf_Data dst, src;
899 	size_t fsz, msz, phnum;
900 	uint64_t phoff;
901 
902 	assert(ex->ex_type == ELF_EXTENT_PHDR);
903 
904 	ec = e->e_class;
905 
906 	ehdr = _libelf_ehdr(e, ec, 0);
907 	assert(ehdr != NULL);
908 
909 	phnum = e->e_u.e_elf.e_nphdr;
910 	assert(phnum > 0);
911 
912 	if (ec == ELFCLASS32) {
913 		eh32 = (Elf32_Ehdr *) ehdr;
914 		phoff = (uint64_t) eh32->e_phoff;
915 	} else {
916 		eh64 = (Elf64_Ehdr *) ehdr;
917 		phoff = eh64->e_phoff;
918 	}
919 
920 	em = _libelf_elfmachine(e);
921 
922 	assert(phoff > 0);
923 	assert(ex->ex_start == phoff);
924 	assert(phoff % _libelf_falign(ELF_T_PHDR, ec) == 0);
925 
926 	(void) memset(&dst, 0, sizeof(dst));
927 	(void) memset(&src, 0, sizeof(src));
928 
929 	if ((msz = _libelf_msize(ELF_T_PHDR, ec, e->e_version)) == 0)
930 		return ((off_t) -1);
931 	fsz = _libelf_fsize(ELF_T_PHDR, ec, e->e_version, phnum);
932 	assert(fsz > 0);
933 
934 	src.d_buf = _libelf_getphdr(e, ec);
935 	src.d_version = dst.d_version = e->e_version;
936 	src.d_type = ELF_T_PHDR;
937 	src.d_size = phnum * msz;
938 
939 	dst.d_size = fsz;
940 	dst.d_buf = nf + ex->ex_start;
941 
942 	if (_libelf_xlate(&dst, &src, e->e_byteorder, ec, em, ELF_TOFILE) ==
943 	    NULL)
944 		return ((off_t) -1);
945 
946 	return ((off_t) (phoff + fsz));
947 }
948 
949 /*
950  * Write out an ELF section header table.
951  */
952 
953 static off_t
954 _libelf_write_shdr(Elf *e, unsigned char *nf, struct _Elf_Extent *ex)
955 {
956 	int ec, em;
957 	void *ehdr;
958 	Elf_Scn *scn;
959 	uint64_t shoff;
960 	Elf32_Ehdr *eh32;
961 	Elf64_Ehdr *eh64;
962 	size_t fsz, msz, nscn;
963 	Elf_Data dst, src;
964 
965 	assert(ex->ex_type == ELF_EXTENT_SHDR);
966 
967 	ec = e->e_class;
968 
969 	ehdr = _libelf_ehdr(e, ec, 0);
970 	assert(ehdr != NULL);
971 
972 	nscn = e->e_u.e_elf.e_nscn;
973 
974 	if (ec == ELFCLASS32) {
975 		eh32 = (Elf32_Ehdr *) ehdr;
976 		shoff = (uint64_t) eh32->e_shoff;
977 	} else {
978 		eh64 = (Elf64_Ehdr *) ehdr;
979 		shoff = eh64->e_shoff;
980 	}
981 
982 	em = _libelf_elfmachine(e);
983 
984 	assert(nscn > 0);
985 	assert(shoff % _libelf_falign(ELF_T_SHDR, ec) == 0);
986 	assert(ex->ex_start == shoff);
987 
988 	(void) memset(&dst, 0, sizeof(dst));
989 	(void) memset(&src, 0, sizeof(src));
990 
991 	if ((msz = _libelf_msize(ELF_T_SHDR, ec, e->e_version)) == 0)
992 		return ((off_t) -1);
993 
994 	src.d_type = ELF_T_SHDR;
995 	src.d_size = msz;
996 	src.d_version = dst.d_version = e->e_version;
997 
998 	fsz = _libelf_fsize(ELF_T_SHDR, ec, e->e_version, (size_t) 1);
999 
1000 	RB_FOREACH(scn, scntree, &e->e_u.e_elf.e_scn) {
1001 		if (ec == ELFCLASS32)
1002 			src.d_buf = &scn->s_shdr.s_shdr32;
1003 		else
1004 			src.d_buf = &scn->s_shdr.s_shdr64;
1005 
1006 		dst.d_size = fsz;
1007 		dst.d_buf = nf + ex->ex_start + scn->s_ndx * fsz;
1008 
1009 		if (_libelf_xlate(&dst, &src, e->e_byteorder, ec, em,
1010 			ELF_TOFILE) == NULL)
1011 			return ((off_t) -1);
1012 	}
1013 
1014 	return ((off_t) (ex->ex_start + nscn * fsz));
1015 }
1016 
1017 /*
1018  * Write out the file image.
1019  *
1020  * The original file could have been mapped in with an ELF_C_RDWR
1021  * command and the application could have added new content or
1022  * re-arranged its sections before calling elf_update().  Consequently
1023  * its not safe to work `in place' on the original file.  So we
1024  * malloc() the required space for the updated ELF object and build
1025  * the object there and write it out to the underlying file at the
1026  * end.  Note that the application may have opened the underlying file
1027  * in ELF_C_RDWR and only retrieved/modified a few sections.  We take
1028  * care to avoid translating file sections unnecessarily.
1029  *
1030  * Gaps in the coverage of the file by the file's sections will be
1031  * filled with the fill character set by elf_fill(3).
1032  */
1033 
1034 static off_t
1035 _libelf_write_elf(Elf *e, off_t newsize, struct _Elf_Extent_List *extents)
1036 {
1037 	off_t nrc, rc;
1038 	Elf_Scn *scn, *tscn;
1039 	struct _Elf_Extent *ex;
1040 	unsigned char *newfile;
1041 
1042 	assert(e->e_kind == ELF_K_ELF);
1043 	assert(e->e_cmd == ELF_C_RDWR || e->e_cmd == ELF_C_WRITE);
1044 	assert(e->e_fd >= 0);
1045 
1046 	if ((newfile = malloc((size_t) newsize)) == NULL) {
1047 		LIBELF_SET_ERROR(RESOURCE, errno);
1048 		return ((off_t) -1);
1049 	}
1050 
1051 	nrc = rc = 0;
1052 	SLIST_FOREACH(ex, extents, ex_next) {
1053 
1054 		/* Fill inter-extent gaps. */
1055 		if (ex->ex_start > (size_t) rc)
1056 			(void) memset(newfile + rc, LIBELF_PRIVATE(fillchar),
1057 			    (size_t) (ex->ex_start - (uint64_t) rc));
1058 
1059 		switch (ex->ex_type) {
1060 		case ELF_EXTENT_EHDR:
1061 			if ((nrc = _libelf_write_ehdr(e, newfile, ex)) < 0)
1062 				goto error;
1063 			break;
1064 
1065 		case ELF_EXTENT_PHDR:
1066 			if ((nrc = _libelf_write_phdr(e, newfile, ex)) < 0)
1067 				goto error;
1068 			break;
1069 
1070 		case ELF_EXTENT_SECTION:
1071 			if ((nrc = _libelf_write_scn(e, newfile, ex)) < 0)
1072 				goto error;
1073 			break;
1074 
1075 		case ELF_EXTENT_SHDR:
1076 			if ((nrc = _libelf_write_shdr(e, newfile, ex)) < 0)
1077 				goto error;
1078 			break;
1079 
1080 		default:
1081 			assert(0);
1082 			break;
1083 		}
1084 
1085 		assert(ex->ex_start + ex->ex_size == (size_t) nrc);
1086 		assert(rc < nrc);
1087 
1088 		rc = nrc;
1089 	}
1090 
1091 	assert(rc == newsize);
1092 
1093 	/*
1094 	 * For regular files, throw away existing file content and
1095 	 * unmap any existing mappings.
1096 	 */
1097 	if ((e->e_flags & LIBELF_F_SPECIAL_FILE) == 0) {
1098 		if (ftruncate(e->e_fd, (off_t) 0) < 0 ||
1099 		    lseek(e->e_fd, (off_t) 0, SEEK_SET)) {
1100 			LIBELF_SET_ERROR(IO, errno);
1101 			goto error;
1102 		}
1103 #if	ELFTC_HAVE_MMAP
1104 		if (e->e_flags & LIBELF_F_RAWFILE_MMAP) {
1105 			assert(e->e_rawfile != NULL);
1106 			assert(e->e_cmd == ELF_C_RDWR);
1107 			if (munmap(e->e_rawfile, (size_t) e->e_rawsize) < 0) {
1108 				LIBELF_SET_ERROR(IO, errno);
1109 				goto error;
1110 			}
1111 		}
1112 #endif
1113 	}
1114 
1115 	/*
1116 	 * Write out the new contents.
1117 	 */
1118 	if (write(e->e_fd, newfile, (size_t) newsize) != newsize) {
1119 		LIBELF_SET_ERROR(IO, errno);
1120 		goto error;
1121 	}
1122 
1123 	/*
1124 	 * For files opened in ELF_C_RDWR mode, set up the new 'raw'
1125 	 * contents.
1126 	 */
1127 	if (e->e_cmd == ELF_C_RDWR) {
1128 		assert(e->e_rawfile != NULL);
1129 		assert((e->e_flags & LIBELF_F_RAWFILE_MALLOC) ||
1130 		    (e->e_flags & LIBELF_F_RAWFILE_MMAP));
1131 		if (e->e_flags & LIBELF_F_RAWFILE_MALLOC) {
1132 			assert((e->e_flags & LIBELF_F_RAWFILE_MMAP) == 0);
1133 			free(e->e_rawfile);
1134 			e->e_rawfile = newfile;
1135 			newfile = NULL;
1136 		}
1137 #if	ELFTC_HAVE_MMAP
1138 		else if (e->e_flags & LIBELF_F_RAWFILE_MMAP) {
1139 			assert((e->e_flags & LIBELF_F_RAWFILE_MALLOC) == 0);
1140 			if ((e->e_rawfile = mmap(NULL, (size_t) newsize,
1141 			    PROT_READ, MAP_PRIVATE, e->e_fd, (off_t) 0)) ==
1142 			    MAP_FAILED) {
1143 				LIBELF_SET_ERROR(IO, errno);
1144 				goto error;
1145 			}
1146 		}
1147 #endif	/* ELFTC_HAVE_MMAP */
1148 
1149 		/* Record the new size of the file. */
1150 		e->e_rawsize = newsize;
1151 	} else {
1152 		/* File opened in ELF_C_WRITE mode. */
1153 		assert(e->e_rawfile == NULL);
1154 	}
1155 
1156 	/*
1157 	 * Reset flags, remove existing section descriptors and
1158 	 * {E,P}HDR pointers so that a subsequent elf_get{e,p}hdr()
1159 	 * and elf_getscn() will function correctly.
1160 	 */
1161 
1162 	e->e_flags &= ~ELF_F_DIRTY;
1163 
1164 	RB_FOREACH_SAFE(scn, scntree, &e->e_u.e_elf.e_scn, tscn)
1165 		_libelf_release_scn(scn);
1166 
1167 	if (e->e_class == ELFCLASS32) {
1168 		free(e->e_u.e_elf.e_ehdr.e_ehdr32);
1169 		if (e->e_u.e_elf.e_phdr.e_phdr32)
1170 			free(e->e_u.e_elf.e_phdr.e_phdr32);
1171 
1172 		e->e_u.e_elf.e_ehdr.e_ehdr32 = NULL;
1173 		e->e_u.e_elf.e_phdr.e_phdr32 = NULL;
1174 	} else {
1175 		free(e->e_u.e_elf.e_ehdr.e_ehdr64);
1176 		if (e->e_u.e_elf.e_phdr.e_phdr64)
1177 			free(e->e_u.e_elf.e_phdr.e_phdr64);
1178 
1179 		e->e_u.e_elf.e_ehdr.e_ehdr64 = NULL;
1180 		e->e_u.e_elf.e_phdr.e_phdr64 = NULL;
1181 	}
1182 
1183 	/* Free the temporary buffer. */
1184 	if (newfile)
1185 		free(newfile);
1186 
1187 	return (rc);
1188 
1189  error:
1190 	free(newfile);
1191 
1192 	return ((off_t) -1);
1193 }
1194 
1195 /*
1196  * Update an ELF object.
1197  */
1198 
1199 off_t
1200 elf_update(Elf *e, Elf_Cmd c)
1201 {
1202 	int ec;
1203 	off_t rc;
1204 	struct _Elf_Extent_List extents;
1205 
1206 	rc = (off_t) -1;
1207 
1208 	if (e == NULL || e->e_kind != ELF_K_ELF ||
1209 	    (c != ELF_C_NULL && c != ELF_C_WRITE)) {
1210 		LIBELF_SET_ERROR(ARGUMENT, 0);
1211 		return (rc);
1212 	}
1213 
1214 	if ((ec = e->e_class) != ELFCLASS32 && ec != ELFCLASS64) {
1215 		LIBELF_SET_ERROR(CLASS, 0);
1216 		return (rc);
1217 	}
1218 
1219 	if (e->e_version == EV_NONE)
1220 		e->e_version = EV_CURRENT;
1221 
1222 	if (c == ELF_C_WRITE && e->e_cmd == ELF_C_READ) {
1223 		LIBELF_SET_ERROR(MODE, 0);
1224 		return (rc);
1225 	}
1226 
1227 	SLIST_INIT(&extents);
1228 
1229 	if ((rc = _libelf_resync_elf(e, &extents)) < 0)
1230 		goto done;
1231 
1232 	if (c == ELF_C_NULL)
1233 		goto done;
1234 
1235 	if (e->e_fd < 0) {
1236 		rc = (off_t) -1;
1237 		LIBELF_SET_ERROR(SEQUENCE, 0);
1238 		goto done;
1239 	}
1240 
1241 	rc = _libelf_write_elf(e, rc, &extents);
1242 
1243 done:
1244 	_libelf_release_extents(&extents);
1245 	e->e_flags &= ~LIBELF_F_SHDRS_LOADED;
1246 	return (rc);
1247 }
1248