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[/] [open8_urisc/] [trunk/] [gnu/] [binutils/] [binutils/] [elfcomm.c] - Rev 299
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/* elfcomm.c -- common code for ELF format file. Copyright 2010 Free Software Foundation, Inc. Originally developed by Eric Youngdale <eric@andante.jic.com> Modifications by Nick Clifton <nickc@redhat.com> This file is part of GNU Binutils. 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. */ #include "sysdep.h" #include "libiberty.h" #include "filenames.h" #include "bfd.h" #include "aout/ar.h" #include "bucomm.h" #include "elfcomm.h" void error (const char *message, ...) { va_list args; va_start (args, message); fprintf (stderr, _("%s: Error: "), program_name); vfprintf (stderr, message, args); va_end (args); } void warn (const char *message, ...) { va_list args; va_start (args, message); fprintf (stderr, _("%s: Warning: "), program_name); vfprintf (stderr, message, args); va_end (args); } void (*byte_put) (unsigned char *, elf_vma, int); void byte_put_little_endian (unsigned char * field, elf_vma value, int size) { switch (size) { case 8: field[7] = (((value >> 24) >> 24) >> 8) & 0xff; field[6] = ((value >> 24) >> 24) & 0xff; field[5] = ((value >> 24) >> 16) & 0xff; field[4] = ((value >> 24) >> 8) & 0xff; /* Fall through. */ case 4: field[3] = (value >> 24) & 0xff; /* Fall through. */ case 3: field[2] = (value >> 16) & 0xff; /* Fall through. */ case 2: field[1] = (value >> 8) & 0xff; /* Fall through. */ case 1: field[0] = value & 0xff; break; default: error (_("Unhandled data length: %d\n"), size); abort (); } } void byte_put_big_endian (unsigned char * field, elf_vma value, int size) { switch (size) { case 8: field[7] = value & 0xff; field[6] = (value >> 8) & 0xff; field[5] = (value >> 16) & 0xff; field[4] = (value >> 24) & 0xff; value >>= 16; value >>= 16; /* Fall through. */ case 4: field[3] = value & 0xff; value >>= 8; /* Fall through. */ case 3: field[2] = value & 0xff; value >>= 8; /* Fall through. */ case 2: field[1] = value & 0xff; value >>= 8; /* Fall through. */ case 1: field[0] = value & 0xff; break; default: error (_("Unhandled data length: %d\n"), size); abort (); } } elf_vma (*byte_get) (unsigned char *, int); elf_vma byte_get_little_endian (unsigned char *field, int size) { switch (size) { case 1: return *field; case 2: return ((unsigned int) (field[0])) | (((unsigned int) (field[1])) << 8); case 3: return ((unsigned long) (field[0])) | (((unsigned long) (field[1])) << 8) | (((unsigned long) (field[2])) << 16); case 4: return ((unsigned long) (field[0])) | (((unsigned long) (field[1])) << 8) | (((unsigned long) (field[2])) << 16) | (((unsigned long) (field[3])) << 24); case 8: if (sizeof (elf_vma) == 8) return ((elf_vma) (field[0])) | (((elf_vma) (field[1])) << 8) | (((elf_vma) (field[2])) << 16) | (((elf_vma) (field[3])) << 24) | (((elf_vma) (field[4])) << 32) | (((elf_vma) (field[5])) << 40) | (((elf_vma) (field[6])) << 48) | (((elf_vma) (field[7])) << 56); else if (sizeof (elf_vma) == 4) /* We want to extract data from an 8 byte wide field and place it into a 4 byte wide field. Since this is a little endian source we can just use the 4 byte extraction code. */ return ((unsigned long) (field[0])) | (((unsigned long) (field[1])) << 8) | (((unsigned long) (field[2])) << 16) | (((unsigned long) (field[3])) << 24); default: error (_("Unhandled data length: %d\n"), size); abort (); } } elf_vma byte_get_big_endian (unsigned char *field, int size) { switch (size) { case 1: return *field; case 2: return ((unsigned int) (field[1])) | (((int) (field[0])) << 8); case 3: return ((unsigned long) (field[2])) | (((unsigned long) (field[1])) << 8) | (((unsigned long) (field[0])) << 16); case 4: return ((unsigned long) (field[3])) | (((unsigned long) (field[2])) << 8) | (((unsigned long) (field[1])) << 16) | (((unsigned long) (field[0])) << 24); case 8: if (sizeof (elf_vma) == 8) return ((elf_vma) (field[7])) | (((elf_vma) (field[6])) << 8) | (((elf_vma) (field[5])) << 16) | (((elf_vma) (field[4])) << 24) | (((elf_vma) (field[3])) << 32) | (((elf_vma) (field[2])) << 40) | (((elf_vma) (field[1])) << 48) | (((elf_vma) (field[0])) << 56); else if (sizeof (elf_vma) == 4) { /* Although we are extracing data from an 8 byte wide field, we are returning only 4 bytes of data. */ field += 4; return ((unsigned long) (field[3])) | (((unsigned long) (field[2])) << 8) | (((unsigned long) (field[1])) << 16) | (((unsigned long) (field[0])) << 24); } default: error (_("Unhandled data length: %d\n"), size); abort (); } } elf_vma byte_get_signed (unsigned char *field, int size) { elf_vma x = byte_get (field, size); switch (size) { case 1: return (x ^ 0x80) - 0x80; case 2: return (x ^ 0x8000) - 0x8000; case 4: return (x ^ 0x80000000) - 0x80000000; case 8: return x; default: abort (); } } /* Return the high-order 32-bits and the low-order 32-bits of an 8-byte value separately. */ void byte_get_64 (unsigned char *field, elf_vma *high, elf_vma *low) { if (byte_get == byte_get_big_endian) { *high = byte_get_big_endian (field, 4); *low = byte_get_big_endian (field + 4, 4); } else { *high = byte_get_little_endian (field + 4, 4); *low = byte_get_little_endian (field, 4); } return; } /* Return the path name for a proxy entry in a thin archive, adjusted relative to the path name of the thin archive itself if necessary. Always returns a pointer to malloc'ed memory. */ char * adjust_relative_path (const char *file_name, const char *name, int name_len) { char * member_file_name; const char * base_name = lbasename (file_name); /* This is a proxy entry for a thin archive member. If the extended name table contains an absolute path name, or if the archive is in the current directory, use the path name as given. Otherwise, we need to find the member relative to the directory where the archive is located. */ if (IS_ABSOLUTE_PATH (name) || base_name == file_name) { member_file_name = (char *) malloc (name_len + 1); if (member_file_name == NULL) { error (_("Out of memory\n")); return NULL; } memcpy (member_file_name, name, name_len); member_file_name[name_len] = '\0'; } else { /* Concatenate the path components of the archive file name to the relative path name from the extended name table. */ size_t prefix_len = base_name - file_name; member_file_name = (char *) malloc (prefix_len + name_len + 1); if (member_file_name == NULL) { error (_("Out of memory\n")); return NULL; } memcpy (member_file_name, file_name, prefix_len); memcpy (member_file_name + prefix_len, name, name_len); member_file_name[prefix_len + name_len] = '\0'; } return member_file_name; } /* Read the symbol table and long-name table from an archive. */ int setup_archive (struct archive_info *arch, const char *file_name, FILE *file, bfd_boolean is_thin_archive, bfd_boolean read_symbols) { size_t got; unsigned long size; arch->file_name = strdup (file_name); arch->file = file; arch->index_num = 0; arch->index_array = NULL; arch->sym_table = NULL; arch->sym_size = 0; arch->longnames = NULL; arch->longnames_size = 0; arch->nested_member_origin = 0; arch->is_thin_archive = is_thin_archive; arch->next_arhdr_offset = SARMAG; /* Read the first archive member header. */ if (fseek (file, SARMAG, SEEK_SET) != 0) { error (_("%s: failed to seek to first archive header\n"), file_name); return 1; } got = fread (&arch->arhdr, 1, sizeof arch->arhdr, file); if (got != sizeof arch->arhdr) { if (got == 0) return 0; error (_("%s: failed to read archive header\n"), file_name); return 1; } /* See if this is the archive symbol table. */ if (const_strneq (arch->arhdr.ar_name, "/ ") || const_strneq (arch->arhdr.ar_name, "/SYM64/ ")) { size = strtoul (arch->arhdr.ar_size, NULL, 10); size = size + (size & 1); arch->next_arhdr_offset += sizeof arch->arhdr + size; if (read_symbols) { unsigned long i; /* A buffer used to hold numbers read in from an archive index. These are always 4 bytes long and stored in big-endian format. */ #define SIZEOF_AR_INDEX_NUMBERS 4 unsigned char integer_buffer[SIZEOF_AR_INDEX_NUMBERS]; unsigned char * index_buffer; /* Check the size of the archive index. */ if (size < SIZEOF_AR_INDEX_NUMBERS) { error (_("%s: the archive index is empty\n"), file_name); return 1; } /* Read the numer of entries in the archive index. */ got = fread (integer_buffer, 1, sizeof integer_buffer, file); if (got != sizeof (integer_buffer)) { error (_("%s: failed to read archive index\n"), file_name); return 1; } arch->index_num = byte_get_big_endian (integer_buffer, sizeof integer_buffer); size -= SIZEOF_AR_INDEX_NUMBERS; /* Read in the archive index. */ if (size < arch->index_num * SIZEOF_AR_INDEX_NUMBERS) { error (_("%s: the archive index is supposed to have %ld entries, but the size in the header is too small\n"), file_name, arch->index_num); return 1; } index_buffer = (unsigned char *) malloc (arch->index_num * SIZEOF_AR_INDEX_NUMBERS); if (index_buffer == NULL) { error (_("Out of memory whilst trying to read archive symbol index\n")); return 1; } got = fread (index_buffer, SIZEOF_AR_INDEX_NUMBERS, arch->index_num, file); if (got != arch->index_num) { free (index_buffer); error (_("%s: failed to read archive index\n"), file_name); return 1; } size -= arch->index_num * SIZEOF_AR_INDEX_NUMBERS; /* Convert the index numbers into the host's numeric format. */ arch->index_array = (long unsigned int *) malloc (arch->index_num * sizeof (* arch->index_array)); if (arch->index_array == NULL) { free (index_buffer); error (_("Out of memory whilst trying to convert the archive symbol index\n")); return 1; } for (i = 0; i < arch->index_num; i++) arch->index_array[i] = byte_get_big_endian ((unsigned char *) (index_buffer + (i * SIZEOF_AR_INDEX_NUMBERS)), SIZEOF_AR_INDEX_NUMBERS); free (index_buffer); /* The remaining space in the header is taken up by the symbol table. */ if (size < 1) { error (_("%s: the archive has an index but no symbols\n"), file_name); return 1; } arch->sym_table = (char *) malloc (size); arch->sym_size = size; if (arch->sym_table == NULL) { error (_("Out of memory whilst trying to read archive index symbol table\n")); return 1; } got = fread (arch->sym_table, 1, size, file); if (got != size) { error (_("%s: failed to read archive index symbol table\n"), file_name); return 1; } } else { if (fseek (file, size, SEEK_CUR) != 0) { error (_("%s: failed to skip archive symbol table\n"), file_name); return 1; } } /* Read the next archive header. */ got = fread (&arch->arhdr, 1, sizeof arch->arhdr, file); if (got != sizeof arch->arhdr) { if (got == 0) return 0; error (_("%s: failed to read archive header following archive index\n"), file_name); return 1; } } else if (read_symbols) printf (_("%s has no archive index\n"), file_name); if (const_strneq (arch->arhdr.ar_name, "// ")) { /* This is the archive string table holding long member names. */ arch->longnames_size = strtoul (arch->arhdr.ar_size, NULL, 10); arch->next_arhdr_offset += sizeof arch->arhdr + arch->longnames_size; arch->longnames = (char *) malloc (arch->longnames_size); if (arch->longnames == NULL) { error (_("Out of memory reading long symbol names in archive\n")); return 1; } if (fread (arch->longnames, arch->longnames_size, 1, file) != 1) { free (arch->longnames); arch->longnames = NULL; error (_("%s: failed to read long symbol name string table\n"), file_name); return 1; } if ((arch->longnames_size & 1) != 0) getc (file); } return 0; } /* Open and setup a nested archive, if not already open. */ int setup_nested_archive (struct archive_info *nested_arch, const char *member_file_name) { FILE * member_file; /* Have we already setup this archive? */ if (nested_arch->file_name != NULL && streq (nested_arch->file_name, member_file_name)) return 0; /* Close previous file and discard cached information. */ if (nested_arch->file != NULL) fclose (nested_arch->file); release_archive (nested_arch); member_file = fopen (member_file_name, "rb"); if (member_file == NULL) return 1; return setup_archive (nested_arch, member_file_name, member_file, FALSE, FALSE); } /* Release the memory used for the archive information. */ void release_archive (struct archive_info * arch) { if (arch->file_name != NULL) free (arch->file_name); if (arch->index_array != NULL) free (arch->index_array); if (arch->sym_table != NULL) free (arch->sym_table); if (arch->longnames != NULL) free (arch->longnames); } /* Get the name of an archive member from the current archive header. For simple names, this will modify the ar_name field of the current archive header. For long names, it will return a pointer to the longnames table. For nested archives, it will open the nested archive and get the name recursively. NESTED_ARCH is a single-entry cache so we don't keep rereading the same information from a nested archive. */ char * get_archive_member_name (struct archive_info *arch, struct archive_info *nested_arch) { unsigned long j, k; if (arch->arhdr.ar_name[0] == '/') { /* We have a long name. */ char *endp; char *member_file_name; char *member_name; arch->nested_member_origin = 0; k = j = strtoul (arch->arhdr.ar_name + 1, &endp, 10); if (arch->is_thin_archive && endp != NULL && * endp == ':') arch->nested_member_origin = strtoul (endp + 1, NULL, 10); while ((j < arch->longnames_size) && (arch->longnames[j] != '\n') && (arch->longnames[j] != '\0')) j++; if (arch->longnames[j-1] == '/') j--; arch->longnames[j] = '\0'; if (!arch->is_thin_archive || arch->nested_member_origin == 0) return arch->longnames + k; /* This is a proxy for a member of a nested archive. Find the name of the member in that archive. */ member_file_name = adjust_relative_path (arch->file_name, arch->longnames + k, j - k); if (member_file_name != NULL && setup_nested_archive (nested_arch, member_file_name) == 0) { member_name = get_archive_member_name_at (nested_arch, arch->nested_member_origin, NULL); if (member_name != NULL) { free (member_file_name); return member_name; } } free (member_file_name); /* Last resort: just return the name of the nested archive. */ return arch->longnames + k; } /* We have a normal (short) name. */ for (j = 0; j < sizeof (arch->arhdr.ar_name); j++) if (arch->arhdr.ar_name[j] == '/') { arch->arhdr.ar_name[j] = '\0'; return arch->arhdr.ar_name; } /* The full ar_name field is used. Don't rely on ar_date starting with a zero byte. */ { char *name = xmalloc (sizeof (arch->arhdr.ar_name) + 1); memcpy (name, arch->arhdr.ar_name, sizeof (arch->arhdr.ar_name)); name[sizeof (arch->arhdr.ar_name)] = '\0'; return name; } } /* Get the name of an archive member at a given OFFSET within an archive ARCH. */ char * get_archive_member_name_at (struct archive_info *arch, unsigned long offset, struct archive_info *nested_arch) { size_t got; if (fseek (arch->file, offset, SEEK_SET) != 0) { error (_("%s: failed to seek to next file name\n"), arch->file_name); return NULL; } got = fread (&arch->arhdr, 1, sizeof arch->arhdr, arch->file); if (got != sizeof arch->arhdr) { error (_("%s: failed to read archive header\n"), arch->file_name); return NULL; } if (memcmp (arch->arhdr.ar_fmag, ARFMAG, 2) != 0) { error (_("%s: did not find a valid archive header\n"), arch->file_name); return NULL; } return get_archive_member_name (arch, nested_arch); } /* Construct a string showing the name of the archive member, qualified with the name of the containing archive file. For thin archives, we use square brackets to denote the indirection. For nested archives, we show the qualified name of the external member inside the square brackets (e.g., "thin.a[normal.a(foo.o)]"). */ char * make_qualified_name (struct archive_info * arch, struct archive_info * nested_arch, const char *member_name) { size_t len; char * name; len = strlen (arch->file_name) + strlen (member_name) + 3; if (arch->is_thin_archive && arch->nested_member_origin != 0) len += strlen (nested_arch->file_name) + 2; name = (char *) malloc (len); if (name == NULL) { error (_("Out of memory\n")); return NULL; } if (arch->is_thin_archive && arch->nested_member_origin != 0) snprintf (name, len, "%s[%s(%s)]", arch->file_name, nested_arch->file_name, member_name); else if (arch->is_thin_archive) snprintf (name, len, "%s[%s]", arch->file_name, member_name); else snprintf (name, len, "%s(%s)", arch->file_name, member_name); return name; }
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