URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [bfd/] [merge.c] - Rev 859
Go to most recent revision | Compare with Previous | Blame | View Log
/* SEC_MERGE support. Copyright 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc. Written by Jakub Jelinek <jakub@redhat.com>. This file is part of BFD, the Binary File Descriptor library. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ /* This file contains support for merging duplicate entities within sections, as used in ELF SHF_MERGE. */ #include "sysdep.h" #include "bfd.h" #include "libbfd.h" #include "hashtab.h" #include "libiberty.h" struct sec_merge_sec_info; /* An entry in the section merge hash table. */ struct sec_merge_hash_entry { struct bfd_hash_entry root; /* Length of this entry. This includes the zero terminator. */ unsigned int len; /* Start of this string needs to be aligned to alignment octets (not 1 << align). */ unsigned int alignment; union { /* Index within the merged section. */ bfd_size_type index; /* Entry this is a suffix of (if alignment is 0). */ struct sec_merge_hash_entry *suffix; } u; /* Which section is it in. */ struct sec_merge_sec_info *secinfo; /* Next entity in the hash table. */ struct sec_merge_hash_entry *next; }; /* The section merge hash table. */ struct sec_merge_hash { struct bfd_hash_table table; /* Next available index. */ bfd_size_type size; /* First entity in the SEC_MERGE sections of this type. */ struct sec_merge_hash_entry *first; /* Last entity in the SEC_MERGE sections of this type. */ struct sec_merge_hash_entry *last; /* Entity size. */ unsigned int entsize; /* Are entries fixed size or zero terminated strings? */ bfd_boolean strings; }; struct sec_merge_info { /* Chain of sec_merge_infos. */ struct sec_merge_info *next; /* Chain of sec_merge_sec_infos. */ struct sec_merge_sec_info *chain; /* A hash table used to hold section content. */ struct sec_merge_hash *htab; }; struct sec_merge_sec_info { /* Chain of sec_merge_sec_infos. */ struct sec_merge_sec_info *next; /* The corresponding section. */ asection *sec; /* Pointer to merge_info pointing to us. */ void **psecinfo; /* A hash table used to hold section content. */ struct sec_merge_hash *htab; /* First string in this section. */ struct sec_merge_hash_entry *first_str; /* Original section content. */ unsigned char contents[1]; }; /* Routine to create an entry in a section merge hashtab. */ static struct bfd_hash_entry * sec_merge_hash_newfunc (struct bfd_hash_entry *entry, struct bfd_hash_table *table, const char *string) { /* Allocate the structure if it has not already been allocated by a subclass. */ if (entry == NULL) entry = (struct bfd_hash_entry *) bfd_hash_allocate (table, sizeof (struct sec_merge_hash_entry)); if (entry == NULL) return NULL; /* Call the allocation method of the superclass. */ entry = bfd_hash_newfunc (entry, table, string); if (entry != NULL) { /* Initialize the local fields. */ struct sec_merge_hash_entry *ret = (struct sec_merge_hash_entry *) entry; ret->u.suffix = NULL; ret->alignment = 0; ret->secinfo = NULL; ret->next = NULL; } return entry; } /* Look up an entry in a section merge hash table. */ static struct sec_merge_hash_entry * sec_merge_hash_lookup (struct sec_merge_hash *table, const char *string, unsigned int alignment, bfd_boolean create) { const unsigned char *s; unsigned long hash; unsigned int c; struct sec_merge_hash_entry *hashp; unsigned int len, i; unsigned int _index; hash = 0; len = 0; s = (const unsigned char *) string; if (table->strings) { if (table->entsize == 1) { while ((c = *s++) != '\0') { hash += c + (c << 17); hash ^= hash >> 2; ++len; } hash += len + (len << 17); } else { for (;;) { for (i = 0; i < table->entsize; ++i) if (s[i] != '\0') break; if (i == table->entsize) break; for (i = 0; i < table->entsize; ++i) { c = *s++; hash += c + (c << 17); hash ^= hash >> 2; } ++len; } hash += len + (len << 17); len *= table->entsize; } hash ^= hash >> 2; len += table->entsize; } else { for (i = 0; i < table->entsize; ++i) { c = *s++; hash += c + (c << 17); hash ^= hash >> 2; } len = table->entsize; } _index = hash % table->table.size; for (hashp = (struct sec_merge_hash_entry *) table->table.table[_index]; hashp != NULL; hashp = (struct sec_merge_hash_entry *) hashp->root.next) { if (hashp->root.hash == hash && len == hashp->len && memcmp (hashp->root.string, string, len) == 0) { /* If the string we found does not have at least the required alignment, we need to insert another copy. */ if (hashp->alignment < alignment) { if (create) { /* Mark the less aligned copy as deleted. */ hashp->len = 0; hashp->alignment = 0; } break; } return hashp; } } if (! create) return NULL; hashp = ((struct sec_merge_hash_entry *) bfd_hash_insert (&table->table, string, hash)); if (hashp == NULL) return NULL; hashp->len = len; hashp->alignment = alignment; return hashp; } /* Create a new hash table. */ static struct sec_merge_hash * sec_merge_init (unsigned int entsize, bfd_boolean strings) { struct sec_merge_hash *table; table = (struct sec_merge_hash *) bfd_malloc (sizeof (struct sec_merge_hash)); if (table == NULL) return NULL; if (! bfd_hash_table_init_n (&table->table, sec_merge_hash_newfunc, sizeof (struct sec_merge_hash_entry), 16699)) { free (table); return NULL; } table->size = 0; table->first = NULL; table->last = NULL; table->entsize = entsize; table->strings = strings; return table; } /* Get the index of an entity in a hash table, adding it if it is not already present. */ static struct sec_merge_hash_entry * sec_merge_add (struct sec_merge_hash *tab, const char *str, unsigned int alignment, struct sec_merge_sec_info *secinfo) { struct sec_merge_hash_entry *entry; entry = sec_merge_hash_lookup (tab, str, alignment, TRUE); if (entry == NULL) return NULL; if (entry->secinfo == NULL) { tab->size++; entry->secinfo = secinfo; if (tab->first == NULL) tab->first = entry; else tab->last->next = entry; tab->last = entry; } return entry; } static bfd_boolean sec_merge_emit (bfd *abfd, struct sec_merge_hash_entry *entry) { struct sec_merge_sec_info *secinfo = entry->secinfo; asection *sec = secinfo->sec; char *pad = NULL; bfd_size_type off = 0; int alignment_power = sec->output_section->alignment_power; if (alignment_power) { pad = (char *) bfd_zmalloc ((bfd_size_type) 1 << alignment_power); if (pad == NULL) return FALSE; } for (; entry != NULL && entry->secinfo == secinfo; entry = entry->next) { const char *str; bfd_size_type len; len = -off & (entry->alignment - 1); if (len != 0) { if (bfd_bwrite (pad, len, abfd) != len) goto err; off += len; } str = entry->root.string; len = entry->len; if (bfd_bwrite (str, len, abfd) != len) goto err; off += len; } /* Trailing alignment needed? */ off = sec->size - off; if (off != 0 && bfd_bwrite (pad, off, abfd) != off) goto err; if (pad != NULL) free (pad); return TRUE; err: if (pad != NULL) free (pad); return FALSE; } /* Register a SEC_MERGE section as a candidate for merging. This function is called for all non-dynamic SEC_MERGE input sections. */ bfd_boolean _bfd_add_merge_section (bfd *abfd, void **psinfo, asection *sec, void **psecinfo) { struct sec_merge_info *sinfo; struct sec_merge_sec_info *secinfo; unsigned int align; bfd_size_type amt; if ((abfd->flags & DYNAMIC) != 0 || (sec->flags & SEC_MERGE) == 0) abort (); if (sec->size == 0 || (sec->flags & SEC_EXCLUDE) != 0 || sec->entsize == 0) return TRUE; if ((sec->flags & SEC_RELOC) != 0) { /* We aren't prepared to handle relocations in merged sections. */ return TRUE; } align = sec->alignment_power; if ((sec->entsize < (unsigned) 1 << align && ((sec->entsize & (sec->entsize - 1)) || !(sec->flags & SEC_STRINGS))) || (sec->entsize > (unsigned) 1 << align && (sec->entsize & (((unsigned) 1 << align) - 1)))) { /* Sanity check. If string character size is smaller than alignment, then we require character size to be a power of 2, otherwise character size must be integer multiple of alignment. For non-string constants, alignment must be smaller than or equal to entity size and entity size must be integer multiple of alignment. */ return TRUE; } for (sinfo = (struct sec_merge_info *) *psinfo; sinfo; sinfo = sinfo->next) if ((secinfo = sinfo->chain) && ! ((secinfo->sec->flags ^ sec->flags) & (SEC_MERGE | SEC_STRINGS)) && secinfo->sec->entsize == sec->entsize && secinfo->sec->alignment_power == sec->alignment_power && secinfo->sec->output_section == sec->output_section) break; if (sinfo == NULL) { /* Initialize the information we need to keep track of. */ sinfo = (struct sec_merge_info *) bfd_alloc (abfd, sizeof (struct sec_merge_info)); if (sinfo == NULL) goto error_return; sinfo->next = (struct sec_merge_info *) *psinfo; sinfo->chain = NULL; *psinfo = sinfo; sinfo->htab = sec_merge_init (sec->entsize, (sec->flags & SEC_STRINGS)); if (sinfo->htab == NULL) goto error_return; } /* Read the section from abfd. */ amt = sizeof (struct sec_merge_sec_info) - 1 + sec->size; if (sec->flags & SEC_STRINGS) /* Some versions of gcc may emit a string without a zero terminator. See http://gcc.gnu.org/ml/gcc-patches/2006-06/msg01004.html Allocate space for an extra zero. */ amt += sec->entsize; *psecinfo = bfd_alloc (abfd, amt); if (*psecinfo == NULL) goto error_return; secinfo = (struct sec_merge_sec_info *) *psecinfo; if (sinfo->chain) { secinfo->next = sinfo->chain->next; sinfo->chain->next = secinfo; } else secinfo->next = secinfo; sinfo->chain = secinfo; secinfo->sec = sec; secinfo->psecinfo = psecinfo; secinfo->htab = sinfo->htab; secinfo->first_str = NULL; sec->rawsize = sec->size; if (sec->flags & SEC_STRINGS) memset (secinfo->contents + sec->size, 0, sec->entsize); if (! bfd_get_section_contents (sec->owner, sec, secinfo->contents, 0, sec->size)) goto error_return; return TRUE; error_return: *psecinfo = NULL; return FALSE; } /* Record one section into the hash table. */ static bfd_boolean record_section (struct sec_merge_info *sinfo, struct sec_merge_sec_info *secinfo) { asection *sec = secinfo->sec; struct sec_merge_hash_entry *entry; bfd_boolean nul; unsigned char *p, *end; bfd_vma mask, eltalign; unsigned int align, i; align = sec->alignment_power; end = secinfo->contents + sec->size; nul = FALSE; mask = ((bfd_vma) 1 << align) - 1; if (sec->flags & SEC_STRINGS) { for (p = secinfo->contents; p < end; ) { eltalign = p - secinfo->contents; eltalign = ((eltalign ^ (eltalign - 1)) + 1) >> 1; if (!eltalign || eltalign > mask) eltalign = mask + 1; entry = sec_merge_add (sinfo->htab, (char *) p, (unsigned) eltalign, secinfo); if (! entry) goto error_return; p += entry->len; if (sec->entsize == 1) { while (p < end && *p == 0) { if (!nul && !((p - secinfo->contents) & mask)) { nul = TRUE; entry = sec_merge_add (sinfo->htab, "", (unsigned) mask + 1, secinfo); if (! entry) goto error_return; } p++; } } else { while (p < end) { for (i = 0; i < sec->entsize; i++) if (p[i] != '\0') break; if (i != sec->entsize) break; if (!nul && !((p - secinfo->contents) & mask)) { nul = TRUE; entry = sec_merge_add (sinfo->htab, (char *) p, (unsigned) mask + 1, secinfo); if (! entry) goto error_return; } p += sec->entsize; } } } } else { for (p = secinfo->contents; p < end; p += sec->entsize) { entry = sec_merge_add (sinfo->htab, (char *) p, 1, secinfo); if (! entry) goto error_return; } } return TRUE; error_return: for (secinfo = sinfo->chain; secinfo; secinfo = secinfo->next) *secinfo->psecinfo = NULL; return FALSE; } static int strrevcmp (const void *a, const void *b) { struct sec_merge_hash_entry *A = *(struct sec_merge_hash_entry **) a; struct sec_merge_hash_entry *B = *(struct sec_merge_hash_entry **) b; unsigned int lenA = A->len; unsigned int lenB = B->len; const unsigned char *s = (const unsigned char *) A->root.string + lenA - 1; const unsigned char *t = (const unsigned char *) B->root.string + lenB - 1; int l = lenA < lenB ? lenA : lenB; while (l) { if (*s != *t) return (int) *s - (int) *t; s--; t--; l--; } return lenA - lenB; } /* Like strrevcmp, but for the case where all strings have the same alignment > entsize. */ static int strrevcmp_align (const void *a, const void *b) { struct sec_merge_hash_entry *A = *(struct sec_merge_hash_entry **) a; struct sec_merge_hash_entry *B = *(struct sec_merge_hash_entry **) b; unsigned int lenA = A->len; unsigned int lenB = B->len; const unsigned char *s = (const unsigned char *) A->root.string + lenA - 1; const unsigned char *t = (const unsigned char *) B->root.string + lenB - 1; int l = lenA < lenB ? lenA : lenB; int tail_align = (lenA & (A->alignment - 1)) - (lenB & (A->alignment - 1)); if (tail_align != 0) return tail_align; while (l) { if (*s != *t) return (int) *s - (int) *t; s--; t--; l--; } return lenA - lenB; } static inline int is_suffix (const struct sec_merge_hash_entry *A, const struct sec_merge_hash_entry *B) { if (A->len <= B->len) /* B cannot be a suffix of A unless A is equal to B, which is guaranteed not to be equal by the hash table. */ return 0; return memcmp (A->root.string + (A->len - B->len), B->root.string, B->len) == 0; } /* This is a helper function for _bfd_merge_sections. It attempts to merge strings matching suffixes of longer strings. */ static void merge_strings (struct sec_merge_info *sinfo) { struct sec_merge_hash_entry **array, **a, *e; struct sec_merge_sec_info *secinfo; bfd_size_type size, amt; unsigned int alignment = 0; /* Now sort the strings */ amt = sinfo->htab->size * sizeof (struct sec_merge_hash_entry *); array = (struct sec_merge_hash_entry **) bfd_malloc (amt); if (array == NULL) goto alloc_failure; for (e = sinfo->htab->first, a = array; e; e = e->next) if (e->alignment) { *a++ = e; /* Adjust the length to not include the zero terminator. */ e->len -= sinfo->htab->entsize; if (alignment != e->alignment) { if (alignment == 0) alignment = e->alignment; else alignment = (unsigned) -1; } } sinfo->htab->size = a - array; if (sinfo->htab->size != 0) { qsort (array, (size_t) sinfo->htab->size, sizeof (struct sec_merge_hash_entry *), (alignment != (unsigned) -1 && alignment > sinfo->htab->entsize ? strrevcmp_align : strrevcmp)); /* Loop over the sorted array and merge suffixes */ e = *--a; e->len += sinfo->htab->entsize; while (--a >= array) { struct sec_merge_hash_entry *cmp = *a; cmp->len += sinfo->htab->entsize; if (e->alignment >= cmp->alignment && !((e->len - cmp->len) & (cmp->alignment - 1)) && is_suffix (e, cmp)) { cmp->u.suffix = e; cmp->alignment = 0; } else e = cmp; } } alloc_failure: if (array) free (array); /* Now assign positions to the strings we want to keep. */ size = 0; secinfo = sinfo->htab->first->secinfo; for (e = sinfo->htab->first; e; e = e->next) { if (e->secinfo != secinfo) { secinfo->sec->size = size; secinfo = e->secinfo; } if (e->alignment) { if (e->secinfo->first_str == NULL) { e->secinfo->first_str = e; size = 0; } size = (size + e->alignment - 1) & ~((bfd_vma) e->alignment - 1); e->u.index = size; size += e->len; } } secinfo->sec->size = size; if (secinfo->sec->alignment_power != 0) { bfd_size_type align = (bfd_size_type) 1 << secinfo->sec->alignment_power; secinfo->sec->size = (secinfo->sec->size + align - 1) & -align; } /* And now adjust the rest, removing them from the chain (but not hashtable) at the same time. */ for (a = &sinfo->htab->first, e = *a; e; e = e->next) if (e->alignment) a = &e->next; else { *a = e->next; if (e->len) { e->secinfo = e->u.suffix->secinfo; e->alignment = e->u.suffix->alignment; e->u.index = e->u.suffix->u.index + (e->u.suffix->len - e->len); } } } /* This function is called once after all SEC_MERGE sections are registered with _bfd_merge_section. */ bfd_boolean _bfd_merge_sections (bfd *abfd, struct bfd_link_info *info ATTRIBUTE_UNUSED, void *xsinfo, void (*remove_hook) (bfd *, asection *)) { struct sec_merge_info *sinfo; for (sinfo = (struct sec_merge_info *) xsinfo; sinfo; sinfo = sinfo->next) { struct sec_merge_sec_info * secinfo; if (! sinfo->chain) continue; /* Move sinfo->chain to head of the chain, terminate it. */ secinfo = sinfo->chain; sinfo->chain = secinfo->next; secinfo->next = NULL; /* Record the sections into the hash table. */ for (secinfo = sinfo->chain; secinfo; secinfo = secinfo->next) if (secinfo->sec->flags & SEC_EXCLUDE) { *secinfo->psecinfo = NULL; if (remove_hook) (*remove_hook) (abfd, secinfo->sec); } else if (! record_section (sinfo, secinfo)) break; if (secinfo) continue; if (sinfo->htab->first == NULL) continue; if (sinfo->htab->strings) merge_strings (sinfo); else { struct sec_merge_hash_entry *e; bfd_size_type size = 0; /* Things are much simpler for non-strings. Just assign them slots in the section. */ secinfo = NULL; for (e = sinfo->htab->first; e; e = e->next) { if (e->secinfo->first_str == NULL) { if (secinfo) secinfo->sec->size = size; e->secinfo->first_str = e; size = 0; } size = (size + e->alignment - 1) & ~((bfd_vma) e->alignment - 1); e->u.index = size; size += e->len; secinfo = e->secinfo; } secinfo->sec->size = size; } /* Finally remove all input sections which have not made it into the hash table at all. */ for (secinfo = sinfo->chain; secinfo; secinfo = secinfo->next) if (secinfo->first_str == NULL) secinfo->sec->flags |= SEC_EXCLUDE | SEC_KEEP; } return TRUE; } /* Write out the merged section. */ bfd_boolean _bfd_write_merged_section (bfd *output_bfd, asection *sec, void *psecinfo) { struct sec_merge_sec_info *secinfo; file_ptr pos; secinfo = (struct sec_merge_sec_info *) psecinfo; if (!secinfo) return FALSE; if (secinfo->first_str == NULL) return TRUE; /* FIXME: octets_per_byte. */ pos = sec->output_section->filepos + sec->output_offset; if (bfd_seek (output_bfd, pos, SEEK_SET) != 0) return FALSE; if (! sec_merge_emit (output_bfd, secinfo->first_str)) return FALSE; return TRUE; } /* Adjust an address in the SEC_MERGE section. Given OFFSET within *PSEC, this returns the new offset in the adjusted SEC_MERGE section and writes the new section back into *PSEC. */ bfd_vma _bfd_merged_section_offset (bfd *output_bfd ATTRIBUTE_UNUSED, asection **psec, void *psecinfo, bfd_vma offset) { struct sec_merge_sec_info *secinfo; struct sec_merge_hash_entry *entry; unsigned char *p; asection *sec = *psec; secinfo = (struct sec_merge_sec_info *) psecinfo; if (!secinfo) return offset; if (offset >= sec->rawsize) { if (offset > sec->rawsize) { (*_bfd_error_handler) (_("%s: access beyond end of merged section (%ld)"), bfd_get_filename (sec->owner), (long) offset); } return secinfo->first_str ? sec->size : 0; } if (secinfo->htab->strings) { if (sec->entsize == 1) { p = secinfo->contents + offset - 1; while (p >= secinfo->contents && *p) --p; ++p; } else { p = secinfo->contents + (offset / sec->entsize) * sec->entsize; p -= sec->entsize; while (p >= secinfo->contents) { unsigned int i; for (i = 0; i < sec->entsize; ++i) if (p[i] != '\0') break; if (i == sec->entsize) break; p -= sec->entsize; } p += sec->entsize; } } else { p = secinfo->contents + (offset / sec->entsize) * sec->entsize; } entry = sec_merge_hash_lookup (secinfo->htab, (char *) p, 0, FALSE); if (!entry) { if (! secinfo->htab->strings) abort (); /* This should only happen if somebody points into the padding after a NUL character but before next entity. */ if (*p) abort (); if (! secinfo->htab->first) abort (); entry = secinfo->htab->first; p = (secinfo->contents + (offset / sec->entsize + 1) * sec->entsize - entry->len); } *psec = entry->secinfo->sec; return entry->u.index + (secinfo->contents + offset - p); }
Go to most recent revision | Compare with Previous | Blame | View Log