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+/*-
+ * This code is derived from software copyrighted by the Free Software
+ * Foundation.
+ *
+ * Modified 1991 by Donn Seeley at UUNET Technologies, Inc.
+ */
+
+#ifndef lint
+static char sccsid[] = "@(#)ld.c 8.1 (Berkeley) 6/6/93";
+#endif /* not lint */
+
+/* Linker `ld' for GNU
+ Copyright (C) 1988 Free Software Foundation, Inc.
+
+ 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 1, 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., 675 Mass Ave, Cambridge, MA 02139, USA. */
+
+/* Written by Richard Stallman with some help from Eric Albert.
+ Set, indirect, and warning symbol features added by Randy Smith. */
+
+/* Define how to initialize system-dependent header fields. */
+
+#include <ar.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+#include <sys/file.h>
+#include <sys/time.h>
+#include <sys/resource.h>
+#include <fcntl.h>
+#include <a.out.h>
+#include <stab.h>
+#include <string.h>
+
+/* symseg.h defines the obsolete GNU debugging format; we should nuke it. */
+#define CORE_ADDR unsigned long /* For symseg.h */
+#include "symseg.h"
+
+#define N_SET_MAGIC(exec, val) ((exec).a_magic = val)
+
+/* If compiled with GNU C, use the built-in alloca */
+#ifdef __GNUC__
+#define alloca __builtin_alloca
+#endif
+
+#define min(a,b) ((a) < (b) ? (a) : (b))
+
+/* Macro to control the number of undefined references printed */
+#define MAX_UREFS_PRINTED 10
+
+/* Size of a page; obtained from the operating system. */
+
+int page_size;
+
+/* Name this program was invoked by. */
+
+char *progname;
+
+/* System dependencies */
+
+/* Define this to specify the default executable format. */
+
+#ifndef DEFAULT_MAGIC
+#define DEFAULT_MAGIC ZMAGIC
+#endif
+
+#if defined(hp300) || defined(luna68k)
+#define INITIALIZE_HEADER outheader.a_mid = MID_HP300
+#endif
+
+#ifdef sparc
+#ifndef sun
+#define sun 1
+#endif
+#define INITIALIZE_HEADER \
+ (outheader.a_mid = MID_SUN_SPARC, outheader.a_toolversion = 1)
+#endif
+
+/*
+ * Ok. Following are the relocation information macros. If your
+ * system should not be able to use the default set (below), you must
+ * define the following:
+
+ * relocation_info: This must be typedef'd (or #define'd) to the type
+ * of structure that is stored in the relocation info section of your
+ * a.out files. Often this is defined in the a.out.h for your system.
+ *
+ * RELOC_ADDRESS (rval): Offset into the current section of the
+ * <whatever> to be relocated. *Must be an lvalue*.
+ *
+ * RELOC_EXTERN_P (rval): Is this relocation entry based on an
+ * external symbol (1), or was it fully resolved upon entering the
+ * loader (0) in which case some combination of the value in memory
+ * (if RELOC_MEMORY_ADD_P) and the extra (if RELOC_ADD_EXTRA) contains
+ * what the value of the relocation actually was. *Must be an lvalue*.
+ *
+ * RELOC_TYPE (rval): If this entry was fully resolved upon
+ * entering the loader, what type should it be relocated as?
+ *
+ * RELOC_SYMBOL (rval): If this entry was not fully resolved upon
+ * entering the loader, what is the index of it's symbol in the symbol
+ * table? *Must be a lvalue*.
+ *
+ * RELOC_MEMORY_ADD_P (rval): This should return true if the final
+ * relocation value output here should be added to memory, or if the
+ * section of memory described should simply be set to the relocation
+ * value.
+ *
+ * RELOC_ADD_EXTRA (rval): (Optional) This macro, if defined, gives
+ * an extra value to be added to the relocation value based on the
+ * individual relocation entry. *Must be an lvalue if defined*.
+ *
+ * RELOC_PCREL_P (rval): True if the relocation value described is
+ * pc relative.
+ *
+ * RELOC_VALUE_RIGHTSHIFT (rval): Number of bits right to shift the
+ * final relocation value before putting it where it belongs.
+ *
+ * RELOC_TARGET_SIZE (rval): log to the base 2 of the number of
+ * bytes of size this relocation entry describes; 1 byte == 0; 2 bytes
+ * == 1; 4 bytes == 2, and etc. This is somewhat redundant (we could
+ * do everything in terms of the bit operators below), but having this
+ * macro could end up producing better code on machines without fancy
+ * bit twiddling. Also, it's easier to understand/code big/little
+ * endian distinctions with this macro.
+ *
+ * RELOC_TARGET_BITPOS (rval): The starting bit position within the
+ * object described in RELOC_TARGET_SIZE in which the relocation value
+ * will go.
+ *
+ * RELOC_TARGET_BITSIZE (rval): How many bits are to be replaced
+ * with the bits of the relocation value. It may be assumed by the
+ * code that the relocation value will fit into this many bits. This
+ * may be larger than RELOC_TARGET_SIZE if such be useful.
+ *
+ *
+ * Things I haven't implemented
+ * ----------------------------
+ *
+ * Values for RELOC_TARGET_SIZE other than 0, 1, or 2.
+ *
+ * Pc relative relocation for External references.
+ *
+ *
+ */
+
+/* The following #if has been modifed for cross compilation */
+/* It originally read: #if defined(sun) && defined(sparc) */
+/* Marc Ullman, Stanford University Nov. 1 1989 */
+#if defined(sun) && (TARGET == SUN4)
+/* Sparc (Sun 4) macros */
+#undef relocation_info
+#define relocation_info reloc_info_sparc
+#define RELOC_ADDRESS(r) ((r)->r_address)
+#define RELOC_EXTERN_P(r) ((r)->r_extern)
+#define RELOC_TYPE(r) ((r)->r_index)
+#define RELOC_SYMBOL(r) ((r)->r_index)
+#define RELOC_MEMORY_SUB_P(r) 0
+#define RELOC_MEMORY_ADD_P(r) 0
+#define RELOC_ADD_EXTRA(r) ((r)->r_addend)
+#define RELOC_PCREL_P(r) \
+ ((r)->r_type >= RELOC_DISP8 && (r)->r_type <= RELOC_WDISP22)
+#define RELOC_VALUE_RIGHTSHIFT(r) (reloc_target_rightshift[(r)->r_type])
+#define RELOC_TARGET_SIZE(r) (reloc_target_size[(r)->r_type])
+#define RELOC_TARGET_BITPOS(r) 0
+#define RELOC_TARGET_BITSIZE(r) (reloc_target_bitsize[(r)->r_type])
+
+/* Note that these are very dependent on the order of the enums in
+ enum reloc_type (in a.out.h); if they change the following must be
+ changed */
+/* Also note that the last few may be incorrect; I have no information */
+static int reloc_target_rightshift[] = {
+ 0, 0, 0, 0, 0, 0, 2, 2, 10, 0, 0, 0, 0, 0, 0,
+};
+static int reloc_target_size[] = {
+ 0, 1, 2, 0, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+};
+static int reloc_target_bitsize[] = {
+ 8, 16, 32, 8, 16, 32, 30, 22, 22, 22, 13, 10, 32, 32, 16,
+};
+
+#define MAX_ALIGNMENT (sizeof (double))
+#endif
+
+/* Default macros */
+#ifndef RELOC_ADDRESS
+#define RELOC_ADDRESS(r) ((r)->r_address)
+#define RELOC_EXTERN_P(r) ((r)->r_extern)
+#define RELOC_TYPE(r) ((r)->r_symbolnum)
+#define RELOC_SYMBOL(r) ((r)->r_symbolnum)
+#define RELOC_MEMORY_SUB_P(r) 0
+#define RELOC_MEMORY_ADD_P(r) 1
+#undef RELOC_ADD_EXTRA
+#define RELOC_PCREL_P(r) ((r)->r_pcrel)
+#define RELOC_VALUE_RIGHTSHIFT(r) 0
+#define RELOC_TARGET_SIZE(r) ((r)->r_length)
+#define RELOC_TARGET_BITPOS(r) 0
+#define RELOC_TARGET_BITSIZE(r) 32
+#endif
+
+#ifndef MAX_ALIGNMENT
+#define MAX_ALIGNMENT (sizeof (int))
+#endif
+
+#ifdef nounderscore
+#define LPREFIX '.'
+#else
+#define LPREFIX 'L'
+#endif
+
+#ifndef TEXT_START
+#define TEXT_START(x) N_TXTADDR(x)
+#endif
+
+/* Special global symbol types understood by GNU LD. */
+
+/* The following type indicates the definition of a symbol as being
+ an indirect reference to another symbol. The other symbol
+ appears as an undefined reference, immediately following this symbol.
+
+ Indirection is asymmetrical. The other symbol's value will be used
+ to satisfy requests for the indirect symbol, but not vice versa.
+ If the other symbol does not have a definition, libraries will
+ be searched to find a definition.
+
+ So, for example, the following two lines placed in an assembler
+ input file would result in an object file which would direct gnu ld
+ to resolve all references to symbol "foo" as references to symbol
+ "bar".
+
+ .stabs "_foo",11,0,0,0
+ .stabs "_bar",1,0,0,0
+
+ Note that (11 == (N_INDR | N_EXT)) and (1 == (N_UNDF | N_EXT)). */
+
+#ifndef N_INDR
+#define N_INDR 0xa
+#endif
+
+/* The following symbols refer to set elements. These are expected
+ only in input to the loader; they should not appear in loader
+ output (unless relocatable output is requested). To be recognized
+ by the loader, the input symbols must have their N_EXT bit set.
+ All the N_SET[ATDB] symbols with the same name form one set. The
+ loader collects all of these elements at load time and outputs a
+ vector for each name.
+ Space (an array of 32 bit words) is allocated for the set in the
+ data section, and the n_value field of each set element value is
+ stored into one word of the array.
+ The first word of the array is the length of the set (number of
+ elements). The last word of the vector is set to zero for possible
+ use by incremental loaders. The array is ordered by the linkage
+ order; the first symbols which the linker encounters will be first
+ in the array.
+
+ In C syntax this looks like:
+
+ struct set_vector {
+ unsigned int length;
+ unsigned int vector[length];
+ unsigned int always_zero;
+ };
+
+ Before being placed into the array, each element is relocated
+ according to its type. This allows the loader to create an array
+ of pointers to objects automatically. N_SETA type symbols will not
+ be relocated.
+
+ The address of the set is made into an N_SETV symbol
+ whose name is the same as the name of the set.
+ This symbol acts like a N_DATA global symbol
+ in that it can satisfy undefined external references.
+
+ For the purposes of determining whether or not to load in a library
+ file, set element definitions are not considered "real
+ definitions"; they will not cause the loading of a library
+ member.
+
+ If relocatable output is requested, none of this processing is
+ done. The symbols are simply relocated and passed through to the
+ output file.
+
+ So, for example, the following three lines of assembler code
+ (whether in one file or scattered between several different ones)
+ will produce a three element vector (total length is five words;
+ see above), referenced by the symbol "_xyzzy", which will have the
+ addresses of the routines _init1, _init2, and _init3.
+
+ *NOTE*: If symbolic addresses are used in the n_value field of the
+ defining .stabs, those symbols must be defined in the same file as
+ that containing the .stabs.
+
+ .stabs "_xyzzy",23,0,0,_init1
+ .stabs "_xyzzy",23,0,0,_init2
+ .stabs "_xyzzy",23,0,0,_init3
+
+ Note that (23 == (N_SETT | N_EXT)). */
+
+#ifndef N_SETA
+#define N_SETA 0x14 /* Absolute set element symbol */
+#endif /* This is input to LD, in a .o file. */
+
+#ifndef N_SETT
+#define N_SETT 0x16 /* Text set element symbol */
+#endif /* This is input to LD, in a .o file. */
+
+#ifndef N_SETD
+#define N_SETD 0x18 /* Data set element symbol */
+#endif /* This is input to LD, in a .o file. */
+
+#ifndef N_SETB
+#define N_SETB 0x1A /* Bss set element symbol */
+#endif /* This is input to LD, in a .o file. */
+
+/* Macros dealing with the set element symbols defined in a.out.h */
+#define SET_ELEMENT_P(x) ((x)>=N_SETA&&(x)<=(N_SETB|N_EXT))
+#define TYPE_OF_SET_ELEMENT(x) ((x)-N_SETA+N_ABS)
+
+#ifndef N_SETV
+#define N_SETV 0x1C /* Pointer to set vector in data area. */
+#endif /* This is output from LD. */
+
+/* If a this type of symbol is encountered, its name is a warning
+ message to print each time the symbol referenced by the next symbol
+ table entry is referenced.
+
+ This feature may be used to allow backwards compatibility with
+ certain functions (eg. gets) but to discourage programmers from
+ their use.
+
+ So if, for example, you wanted to have ld print a warning whenever
+ the function "gets" was used in their C program, you would add the
+ following to the assembler file in which gets is defined:
+
+ .stabs "Obsolete function \"gets\" referenced",30,0,0,0
+ .stabs "_gets",1,0,0,0
+
+ These .stabs do not necessarily have to be in the same file as the
+ gets function, they simply must exist somewhere in the compilation. */
+
+#ifndef N_WARNING
+#define N_WARNING 0x1E /* Warning message to print if symbol
+ included */
+#endif /* This is input to ld */
+
+#ifndef __GNU_STAB__
+
+/* Line number for the data section. This is to be used to describe
+ the source location of a variable declaration. */
+#ifndef N_DSLINE
+#define N_DSLINE (N_SLINE+N_DATA-N_TEXT)
+#endif
+
+/* Line number for the bss section. This is to be used to describe
+ the source location of a variable declaration. */
+#ifndef N_BSLINE
+#define N_BSLINE (N_SLINE+N_BSS-N_TEXT)
+#endif
+
+#endif /* not __GNU_STAB__ */
+
+/* Symbol table */
+
+/* Global symbol data is recorded in these structures,
+ one for each global symbol.
+ They are found via hashing in 'symtab', which points to a vector of buckets.
+ Each bucket is a chain of these structures through the link field. */
+
+typedef
+ struct glosym
+ {
+ /* Pointer to next symbol in this symbol's hash bucket. */
+ struct glosym *link;
+ /* Name of this symbol. */
+ char *name;
+ /* Value of this symbol as a global symbol. */
+ long value;
+ /* Chain of external 'nlist's in files for this symbol, both defs
+ and refs. */
+ struct nlist *refs;
+ /* Any warning message that might be associated with this symbol
+ from an N_WARNING symbol encountered. */
+ char *warning;
+ /* Nonzero means definitions of this symbol as common have been seen,
+ and the value here is the largest size specified by any of them. */
+ int max_common_size;
+ /* For relocatable_output, records the index of this global sym in the
+ symbol table to be written, with the first global sym given index 0.*/
+ int def_count;
+ /* Nonzero means a definition of this global symbol is known to exist.
+ Library members should not be loaded on its account. */
+ char defined;
+ /* Nonzero means a reference to this global symbol has been seen
+ in a file that is surely being loaded.
+ A value higher than 1 is the n_type code for the symbol's
+ definition. */
+ char referenced;
+ /* A count of the number of undefined references printed for a
+ specific symbol. If a symbol is unresolved at the end of
+ digest_symbols (and the loading run is supposed to produce
+ relocatable output) do_file_warnings keeps track of how many
+ unresolved reference error messages have been printed for
+ each symbol here. When the number hits MAX_UREFS_PRINTED,
+ messages stop. */
+ unsigned char undef_refs;
+ /* 1 means that this symbol has multiple definitions. 2 means
+ that it has multiple definitions, and some of them are set
+ elements, one of which has been printed out already. */
+ unsigned char multiply_defined;
+ /* Nonzero means print a message at all refs or defs of this symbol */
+ char trace;
+ }
+ symbol;
+
+/* Demangler for C++. */
+extern char *cplus_demangle ();
+
+/* Demangler function to use. */
+char *(*demangler)() = NULL;
+
+/* Number of buckets in symbol hash table */
+#define TABSIZE 1009
+
+/* The symbol hash table: a vector of TABSIZE pointers to struct glosym. */
+symbol *symtab[TABSIZE];
+
+/* Number of symbols in symbol hash table. */
+int num_hash_tab_syms = 0;
+
+/* Count the number of nlist entries that are for local symbols.
+ This count and the three following counts
+ are incremented as as symbols are entered in the symbol table. */
+int local_sym_count;
+
+/* Count number of nlist entries that are for local symbols
+ whose names don't start with L. */
+int non_L_local_sym_count;
+
+/* Count the number of nlist entries for debugger info. */
+int debugger_sym_count;
+
+/* Count the number of global symbols referenced and not defined. */
+int undefined_global_sym_count;
+
+/* Count the number of global symbols multiply defined. */
+int multiple_def_count;
+
+/* Count the number of defined global symbols.
+ Each symbol is counted only once
+ regardless of how many different nlist entries refer to it,
+ since the output file will need only one nlist entry for it.
+ This count is computed by `digest_symbols';
+ it is undefined while symbols are being loaded. */
+int defined_global_sym_count;
+
+/* Count the number of symbols defined through common declarations.
+ This count is kept in symdef_library, linear_library, and
+ enter_global_ref. It is incremented when the defined flag is set
+ in a symbol because of a common definition, and decremented when
+ the symbol is defined "for real" (ie. by something besides a common
+ definition). */
+int common_defined_global_count;
+
+/* Count the number of set element type symbols and the number of
+ separate vectors which these symbols will fit into. See the
+ GNU a.out.h for more info.
+ This count is computed by 'enter_file_symbols' */
+int set_symbol_count;
+int set_vector_count;
+
+/* Define a linked list of strings which define symbols which should
+ be treated as set elements even though they aren't. Any symbol
+ with a prefix matching one of these should be treated as a set
+ element.
+
+ This is to make up for deficiencies in many assemblers which aren't
+ willing to pass any stabs through to the loader which they don't
+ understand. */
+struct string_list_element {
+ char *str;
+ struct string_list_element *next;
+};
+
+struct string_list_element *set_element_prefixes;
+
+/* Count the number of definitions done indirectly (ie. done relative
+ to the value of some other symbol. */
+int global_indirect_count;
+
+/* Count the number of warning symbols encountered. */
+int warning_count;
+
+/* Total number of symbols to be written in the output file.
+ Computed by digest_symbols from the variables above. */
+int nsyms;
+
+
+/* Nonzero means ptr to symbol entry for symbol to use as start addr.
+ -e sets this. */
+symbol *entry_symbol;
+
+symbol *edata_symbol; /* the symbol _edata */
+symbol *etext_symbol; /* the symbol _etext */
+symbol *end_symbol; /* the symbol _end */
+
+/* Each input file, and each library member ("subfile") being loaded,
+ has a `file_entry' structure for it.
+
+ For files specified by command args, these are contained in the vector
+ which `file_table' points to.
+
+ For library members, they are dynamically allocated,
+ and chained through the `chain' field.
+ The chain is found in the `subfiles' field of the `file_entry'.
+ The `file_entry' objects for the members have `superfile' fields pointing
+ to the one for the library. */
+
+struct file_entry {
+ /* Name of this file. */
+ char *filename;
+ /* Name to use for the symbol giving address of text start */
+ /* Usually the same as filename, but for a file spec'd with -l
+ this is the -l switch itself rather than the filename. */
+ char *local_sym_name;
+
+ /* Describe the layout of the contents of the file */
+
+ /* The file's a.out header. */
+ struct exec header;
+ /* Offset in file of GDB symbol segment, or 0 if there is none. */
+ int symseg_offset;
+
+ /* Describe data from the file loaded into core */
+
+ /* Symbol table of the file. */
+ struct nlist *symbols;
+ /* Size in bytes of string table. */
+ int string_size;
+ /* Pointer to the string table.
+ The string table is not kept in core all the time,
+ but when it is in core, its address is here. */
+ char *strings;
+
+ /* Next two used only if `relocatable_output' or if needed for */
+ /* output of undefined reference line numbers. */
+
+ /* Text reloc info saved by `write_text' for `coptxtrel'. */
+ struct relocation_info *textrel;
+ /* Data reloc info saved by `write_data' for `copdatrel'. */
+ struct relocation_info *datarel;
+
+ /* Relation of this file's segments to the output file */
+
+ /* Start of this file's text seg in the output file core image. */
+ int text_start_address;
+ /* Start of this file's data seg in the output file core image. */
+ int data_start_address;
+ /* Start of this file's bss seg in the output file core image. */
+ int bss_start_address;
+ /* Offset in bytes in the output file symbol table
+ of the first local symbol for this file. Set by `write_file_symbols'. */
+ int local_syms_offset;
+
+ /* For library members only */
+
+ /* For a library, points to chain of entries for the library members. */
+ struct file_entry *subfiles;
+ /* For a library member, offset of the member within the archive.
+ Zero for files that are not library members. */
+ int starting_offset;
+ /* Size of contents of this file, if library member. */
+ int total_size;
+ /* For library member, points to the library's own entry. */
+ struct file_entry *superfile;
+ /* For library member, points to next entry for next member. */
+ struct file_entry *chain;
+
+ /* 1 if file is a library. */
+ char library_flag;
+
+ /* 1 if file's header has been read into this structure. */
+ char header_read_flag;
+
+ /* 1 means search a set of directories for this file. */
+ char search_dirs_flag;
+
+ /* 1 means this is base file of incremental load.
+ Do not load this file's text or data.
+ Also default text_start to after this file's bss. */
+ char just_syms_flag;
+};
+
+/* Vector of entries for input files specified by arguments.
+ These are all the input files except for members of specified libraries. */
+struct file_entry *file_table;
+
+/* Length of that vector. */
+int number_of_files;
+
+/* When loading the text and data, we can avoid doing a close
+ and another open between members of the same library.
+
+ These two variables remember the file that is currently open.
+ Both are zero if no file is open.
+
+ See `each_file' and `file_close'. */
+
+struct file_entry *input_file;
+int input_desc;
+
+/* The name of the file to write; "a.out" by default. */
+
+char *output_filename;
+
+/* Descriptor for writing that file with `mywrite'. */
+
+int outdesc;
+
+/* Header for that file (filled in by `write_header'). */
+
+struct exec outheader;
+
+#ifdef COFF_ENCAPSULATE
+struct coffheader coffheader;
+int need_coff_header;
+#endif
+
+/* The following are computed by `digest_symbols'. */
+
+int text_size; /* total size of text of all input files. */
+int data_size; /* total size of data of all input files. */
+int bss_size; /* total size of bss of all input files. */
+int text_reloc_size; /* total size of text relocation of all input files. */
+int data_reloc_size; /* total size of data relocation of all input */
+ /* files. */
+
+/* Specifications of start and length of the area reserved at the end
+ of the text segment for the set vectors. Computed in 'digest_symbols' */
+int set_sect_start;
+int set_sect_size;
+
+/* Pointer for in core storage for the above vectors, before they are
+ written. */
+unsigned long *set_vectors;
+
+/* Amount of cleared space to leave between the text and data segments. */
+
+int text_pad;
+
+/* Amount of bss segment to include as part of the data segment. */
+
+int data_pad;
+
+/* Format of __.SYMDEF:
+ First, a longword containing the size of the 'symdef' data that follows.
+ Second, zero or more 'symdef' structures.
+ Third, a longword containing the length of symbol name strings.
+ Fourth, zero or more symbol name strings (each followed by a null). */
+
+struct symdef {
+ int symbol_name_string_index;
+ int library_member_offset;
+};
+
+/* Record most of the command options. */
+
+/* Address we assume the text section will be loaded at.
+ We relocate symbols and text and data for this, but we do not
+ write any padding in the output file for it. */
+int text_start;
+
+/* Offset of default entry-pc within the text section. */
+int entry_offset;
+
+/* Address we decide the data section will be loaded at. */
+int data_start;
+
+/* `text-start' address is normally this much plus a page boundary.
+ This is not a user option; it is fixed for each system. */
+int text_start_alignment;
+
+/* Nonzero if -T was specified in the command line.
+ This prevents text_start from being set later to default values. */
+int T_flag_specified;
+
+/* Nonzero if -Tdata was specified in the command line.
+ This prevents data_start from being set later to default values. */
+int Tdata_flag_specified;
+
+/* Size to pad data section up to.
+ We simply increase the size of the data section, padding with zeros,
+ and reduce the size of the bss section to match. */
+int specified_data_size;
+
+/* Magic number to use for the output file, set by switch. */
+int magic;
+
+/* Nonzero means print names of input files as processed. */
+int trace_files;
+
+/* Which symbols should be stripped (omitted from the output):
+ none, all, or debugger symbols. */
+enum { STRIP_NONE, STRIP_ALL, STRIP_DEBUGGER } strip_symbols;
+
+/* Which local symbols should be omitted:
+ none, all, or those starting with L.
+ This is irrelevant if STRIP_NONE. */
+enum { DISCARD_NONE, DISCARD_ALL, DISCARD_L } discard_locals;
+
+/* Do we want to pad the text to a page boundary? */
+int padtext;
+
+/* 1 => write load map. */
+int write_map;
+
+/* 1 => write relocation into output file so can re-input it later. */
+int relocatable_output;
+
+/* 1 => assign space to common symbols even if `relocatable_output'. */
+int force_common_definition;
+
+/* Standard directories to search for files specified by -l. */
+char *standard_search_dirs[] =
+#ifdef STANDARD_SEARCH_DIRS
+ {STANDARD_SEARCH_DIRS};
+#else
+#ifdef NON_NATIVE
+ {"/usr/local/lib/gnu"};
+#else
+ {"/lib", "/usr/lib", "/usr/local/lib"};
+#endif
+#endif
+
+/* Actual vector of directories to search;
+ this contains those specified with -L plus the standard ones. */
+char **search_dirs;
+
+/* Length of the vector `search_dirs'. */
+int n_search_dirs;
+
+/* Non zero means to create the output executable. */
+/* Cleared by nonfatal errors. */
+int make_executable;
+
+/* Force the executable to be output, even if there are non-fatal
+ errors */
+int force_executable;
+
+/* Keep a list of any symbols referenced from the command line (so
+ that error messages for these guys can be generated). This list is
+ zero terminated. */
+struct glosym **cmdline_references;
+int cl_refs_allocated;
+
+void bcopy (), bzero ();
+int malloc (), realloc ();
+#ifndef alloca
+int alloca ();
+#endif
+int free ();
+
+int xmalloc ();
+int xrealloc ();
+void fatal ();
+void fatal_with_file ();
+void perror_name ();
+void perror_file ();
+void error ();
+
+void digest_symbols ();
+void print_symbols ();
+void load_symbols ();
+void decode_command ();
+void list_undefined_symbols ();
+void list_unresolved_references ();
+void write_output ();
+void write_header ();
+void write_text ();
+void read_file_relocation ();
+void write_data ();
+void write_rel ();
+void write_syms ();
+void write_symsegs ();
+void mywrite ();
+void symtab_init ();
+void padfile ();
+char *concat ();
+char *get_file_name ();
+symbol *getsym (), *getsym_soft ();
+
+int
+main (argc, argv)
+ char **argv;
+ int argc;
+{
+/* Added this to stop ld core-dumping on very large .o files. */
+#ifdef RLIMIT_STACK
+ /* Get rid of any avoidable limit on stack size. */
+ {
+ struct rlimit rlim;
+
+ /* Set the stack limit huge so that alloca does not fail. */
+ getrlimit (RLIMIT_STACK, &rlim);
+ rlim.rlim_cur = rlim.rlim_max;
+ setrlimit (RLIMIT_STACK, &rlim);
+ }
+#endif /* RLIMIT_STACK */
+
+ page_size = getpagesize ();
+ progname = argv[0];
+
+ /* Clear the cumulative info on the output file. */
+
+ text_size = 0;
+ data_size = 0;
+ bss_size = 0;
+ text_reloc_size = 0;
+ data_reloc_size = 0;
+
+ data_pad = 0;
+ text_pad = 0;
+
+ /* Initialize the data about options. */
+
+ specified_data_size = 0;
+ strip_symbols = STRIP_NONE;
+ trace_files = 0;
+ discard_locals = DISCARD_NONE;
+ padtext = 0;
+ entry_symbol = 0;
+ write_map = 0;
+ relocatable_output = 0;
+ force_common_definition = 0;
+ T_flag_specified = 0;
+ Tdata_flag_specified = 0;
+ magic = DEFAULT_MAGIC;
+ make_executable = 1;
+ force_executable = 0;
+ set_element_prefixes = 0;
+
+ /* Initialize the cumulative counts of symbols. */
+
+ local_sym_count = 0;
+ non_L_local_sym_count = 0;
+ debugger_sym_count = 0;
+ undefined_global_sym_count = 0;
+ set_symbol_count = 0;
+ set_vector_count = 0;
+ global_indirect_count = 0;
+ warning_count = 0;
+ multiple_def_count = 0;
+ common_defined_global_count = 0;
+
+ /* Keep a list of symbols referenced from the command line */
+ cl_refs_allocated = 10;
+ cmdline_references
+ = (struct glosym **) xmalloc (cl_refs_allocated
+ * sizeof(struct glosym *));
+ *cmdline_references = 0;
+
+ /* Completely decode ARGV. */
+
+ decode_command (argc, argv);
+
+ /* Create the symbols `etext', `edata' and `end'. */
+
+ if (!relocatable_output)
+ symtab_init ();
+
+ /* Determine whether to count the header as part of
+ the text size, and initialize the text size accordingly.
+ This depends on the kind of system and on the output format selected. */
+
+ N_SET_MAGIC (outheader, magic);
+#ifdef INITIALIZE_HEADER
+ INITIALIZE_HEADER;
+#endif
+
+ text_size = sizeof (struct exec);
+#ifdef COFF_ENCAPSULATE
+ if (relocatable_output == 0 && file_table[0].just_syms_flag == 0)
+ {
+ need_coff_header = 1;
+ /* set this flag now, since it will change the values of N_TXTOFF, etc */
+ N_SET_FLAGS (outheader, N_FLAGS_COFF_ENCAPSULATE);
+ text_size += sizeof (struct coffheader);
+ }
+#endif
+
+ text_size -= N_TXTOFF (outheader);
+
+ if (text_size < 0)
+ text_size = 0;
+ entry_offset = text_size;
+
+ if (!T_flag_specified && !relocatable_output)
+ text_start = TEXT_START (outheader);
+
+ /* The text-start address is normally this far past a page boundary. */
+ text_start_alignment = text_start % page_size;
+
+ /* Load symbols of all input files.
+ Also search all libraries and decide which library members to load. */
+
+ load_symbols ();
+
+ /* Compute where each file's sections go, and relocate symbols. */
+
+ digest_symbols ();
+
+ /* Print error messages for any missing symbols, for any warning
+ symbols, and possibly multiple definitions */
+
+ do_warnings (stderr);
+
+ /* Print a map, if requested. */
+
+ if (write_map) print_symbols (stdout);
+
+ /* Write the output file. */
+
+ if (make_executable || force_executable)
+ write_output ();
+
+ exit (!make_executable);
+}
+
+void decode_option ();
+
+/* Analyze a command line argument.
+ Return 0 if the argument is a filename.
+ Return 1 if the argument is a option complete in itself.
+ Return 2 if the argument is a option which uses an argument.
+
+ Thus, the value is the number of consecutive arguments
+ that are part of options. */
+
+int
+classify_arg (arg)
+ register char *arg;
+{
+ if (*arg != '-') return 0;
+ switch (arg[1])
+ {
+ case 'A':
+ case 'D':
+ case 'e':
+ case 'L':
+ case 'l':
+ case 'o':
+ case 'u':
+ case 'V':
+ case 'y':
+ if (arg[2])
+ return 1;
+ return 2;
+
+ case 'B':
+ if (! strcmp (&arg[2], "static"))
+ return 1;
+
+ case 'T':
+ if (arg[2] == 0)
+ return 2;
+ if (! strcmp (&arg[2], "text"))
+ return 2;
+ if (! strcmp (&arg[2], "data"))
+ return 2;
+ return 1;
+ }
+
+ return 1;
+}
+
+/* Process the command arguments,
+ setting up file_table with an entry for each input file,
+ and setting variables according to the options. */
+
+void
+decode_command (argc, argv)
+ char **argv;
+ int argc;
+{
+ register int i;
+ register struct file_entry *p;
+ char *cp;
+
+ number_of_files = 0;
+ output_filename = "a.out";
+
+ n_search_dirs = 0;
+ search_dirs = (char **) xmalloc (sizeof (char *));
+
+ /* First compute number_of_files so we know how long to make file_table. */
+ /* Also process most options completely. */
+
+ for (i = 1; i < argc; i++)
+ {
+ register int code = classify_arg (argv[i]);
+ if (code)
+ {
+ if (i + code > argc)
+ fatal ("no argument following %s\n", argv[i]);
+
+ decode_option (argv[i], argv[i+1]);
+
+ if (argv[i][1] == 'l' || argv[i][1] == 'A')
+ number_of_files++;
+
+ i += code - 1;
+ }
+ else
+ number_of_files++;
+ }
+
+ if (!number_of_files)
+ fatal ("no input files", 0);
+
+ p = file_table
+ = (struct file_entry *) xmalloc (number_of_files * sizeof (struct file_entry));
+ bzero (p, number_of_files * sizeof (struct file_entry));
+
+ /* Now scan again and fill in file_table. */
+ /* All options except -A and -l are ignored here. */
+
+ for (i = 1; i < argc; i++)
+ {
+ register int code = classify_arg (argv[i]);
+
+ if (code)
+ {
+ char *string;
+ if (code == 2)
+ string = argv[i+1];
+ else
+ string = &argv[i][2];
+
+ if (argv[i][1] == 'A')
+ {
+ if (p != file_table)
+ fatal ("-A specified before an input file other than the first");
+
+ p->filename = string;
+ p->local_sym_name = string;
+ p->just_syms_flag = 1;
+ p++;
+ }
+ if (argv[i][1] == 'l')
+ {
+ if (cp = rindex(string, '/'))
+ {
+ *cp++ = '\0';
+ cp = concat (string, "/lib", cp);
+ p->filename = concat (cp, ".a", "");
+ }
+ else
+ p->filename = concat ("lib", string, ".a");
+
+ p->local_sym_name = concat ("-l", string, "");
+ p->search_dirs_flag = 1;
+ p++;
+ }
+ i += code - 1;
+ }
+ else
+ {
+ p->filename = argv[i];
+ p->local_sym_name = argv[i];
+ p++;
+ }
+ }
+
+ /* Now check some option settings for consistency. */
+
+#ifdef NMAGIC
+ if ((magic == ZMAGIC || magic == NMAGIC)
+#else
+ if ((magic == ZMAGIC)
+#endif
+ && (text_start - text_start_alignment) & (page_size - 1))
+ fatal ("-T argument not multiple of page size, with sharable output", 0);
+
+ /* Append the standard search directories to the user-specified ones. */
+ {
+ int n = sizeof standard_search_dirs / sizeof standard_search_dirs[0];
+ n_search_dirs += n;
+ search_dirs
+ = (char **) xrealloc (search_dirs, n_search_dirs * sizeof (char *));
+ bcopy (standard_search_dirs, &search_dirs[n_search_dirs - n],
+ n * sizeof (char *));
+ }
+}
+
+
+void
+add_cmdline_ref (sp)
+ struct glosym *sp;
+{
+ struct glosym **ptr;
+
+ for (ptr = cmdline_references;
+ ptr < cmdline_references + cl_refs_allocated && *ptr;
+ ptr++)
+ ;
+
+ if (ptr >= cmdline_references + cl_refs_allocated - 1)
+ {
+ int diff = ptr - cmdline_references;
+
+ cl_refs_allocated *= 2;
+ cmdline_references = (struct glosym **)
+ xrealloc (cmdline_references,
+ cl_refs_allocated * sizeof (struct glosym *));
+ ptr = cmdline_references + diff;
+ }
+
+ *ptr++ = sp;
+ *ptr = (struct glosym *) 0;
+}
+
+int
+set_element_prefixed_p (name)
+ char *name;
+{
+ struct string_list_element *p;
+ int i;
+
+ for (p = set_element_prefixes; p; p = p->next)
+ {
+ for (i = 0; p->str[i] != '\0' && (p->str[i] == name[i]); i++)
+ ;
+
+ if (p->str[i] == '\0')
+ return 1;
+ }
+ return 0;
+}
+
+int parse ();
+
+/* Record an option and arrange to act on it later.
+ ARG should be the following command argument,
+ which may or may not be used by this option.
+
+ The `l' and `A' options are ignored here since they actually
+ specify input files. */
+
+void
+decode_option (swt, arg)
+ register char *swt, *arg;
+{
+ /* We get Bstatic from gcc on suns. */
+ if (! strcmp (swt + 1, "Bstatic"))
+ return;
+ if (! strcmp (swt + 1, "Ttext"))
+ {
+ text_start = parse (arg, "%x", "invalid argument to -Ttext");
+ T_flag_specified = 1;
+ return;
+ }
+ if (! strcmp (swt + 1, "Tdata"))
+ {
+ data_start = parse (arg, "%x", "invalid argument to -Tdata");
+ Tdata_flag_specified = 1;
+ return;
+ }
+ if (! strcmp (swt + 1, "noinhibit-exec"))
+ {
+ force_executable = 1;
+ return;
+ }
+
+ if (swt[2] != 0)
+ arg = &swt[2];
+
+ switch (swt[1])
+ {
+ case 'A':
+ return;
+
+ case 'D':
+ specified_data_size = parse (arg, "%x", "invalid argument to -D");
+ return;
+
+ case 'd':
+ force_common_definition = 1;
+ return;
+
+ case 'e':
+ entry_symbol = getsym (arg);
+ if (!entry_symbol->defined && !entry_symbol->referenced)
+ undefined_global_sym_count++;
+ entry_symbol->referenced = 1;
+ add_cmdline_ref (entry_symbol);
+ return;
+
+ case 'l':
+ /* If linking with libg++, use the C++ demangler. */
+ if (arg != NULL && strcmp (arg, "g++") == 0)
+ demangler = cplus_demangle;
+ return;
+
+ case 'L':
+ n_search_dirs++;
+ search_dirs
+ = (char **) xrealloc (search_dirs, n_search_dirs * sizeof (char *));
+ search_dirs[n_search_dirs - 1] = arg;
+ return;
+
+ case 'M':
+ write_map = 1;
+ return;
+
+ case 'N':
+ magic = OMAGIC;
+ return;
+
+#ifdef NMAGIC
+ case 'n':
+ magic = NMAGIC;
+ return;
+#endif
+
+ case 'o':
+ output_filename = arg;
+ return;
+
+ case 'p':
+ padtext = 1;
+ return;
+
+ case 'r':
+ relocatable_output = 1;
+ magic = OMAGIC;
+ text_start = 0;
+ return;
+
+ case 'S':
+ strip_symbols = STRIP_DEBUGGER;
+ return;
+
+ case 's':
+ strip_symbols = STRIP_ALL;
+ return;
+
+ case 'T':
+ text_start = parse (arg, "%x", "invalid argument to -T");
+ T_flag_specified = 1;
+ return;
+
+ case 't':
+ trace_files = 1;
+ return;
+
+ case 'u':
+ {
+ register symbol *sp = getsym (arg);
+ if (!sp->defined && !sp->referenced)
+ undefined_global_sym_count++;
+ sp->referenced = 1;
+ add_cmdline_ref (sp);
+ }
+ return;
+
+ case 'V':
+ {
+ struct string_list_element *new
+ = (struct string_list_element *)
+ xmalloc (sizeof (struct string_list_element));
+
+ new->str = arg;
+ new->next = set_element_prefixes;
+ set_element_prefixes = new;
+ return;
+ }
+
+ case 'X':
+ discard_locals = DISCARD_L;
+ return;
+
+ case 'x':
+ discard_locals = DISCARD_ALL;
+ return;
+
+ case 'y':
+ {
+ register symbol *sp = getsym (&swt[2]);
+ sp->trace = 1;
+ }
+ return;
+
+ case 'z':
+ magic = ZMAGIC;
+ return;
+
+ default:
+ fatal ("invalid command option `%s'", swt);
+ }
+}
+
+/** Convenient functions for operating on one or all files being */
+ /** loaded. */
+void print_file_name ();
+
+/* Call FUNCTION on each input file entry.
+ Do not call for entries for libraries;
+ instead, call once for each library member that is being loaded.
+
+ FUNCTION receives two arguments: the entry, and ARG. */
+
+void
+each_file (function, arg)
+ register void (*function)();
+ register int arg;
+{
+ register int i;
+
+ for (i = 0; i < number_of_files; i++)
+ {
+ register struct file_entry *entry = &file_table[i];
+ if (entry->library_flag)
+ {
+ register struct file_entry *subentry = entry->subfiles;
+ for (; subentry; subentry = subentry->chain)
+ (*function) (subentry, arg);
+ }
+ else
+ (*function) (entry, arg);
+ }
+}
+
+/* Call FUNCTION on each input file entry until it returns a non-zero
+ value. Return this value.
+ Do not call for entries for libraries;
+ instead, call once for each library member that is being loaded.
+
+ FUNCTION receives two arguments: the entry, and ARG. It must be a
+ function returning unsigned long (though this can probably be fudged). */
+
+unsigned long
+check_each_file (function, arg)
+ register unsigned long (*function)();
+ register int arg;
+{
+ register int i;
+ register unsigned long return_val;
+
+ for (i = 0; i < number_of_files; i++)
+ {
+ register struct file_entry *entry = &file_table[i];
+ if (entry->library_flag)
+ {
+ register struct file_entry *subentry = entry->subfiles;
+ for (; subentry; subentry = subentry->chain)
+ if (return_val = (*function) (subentry, arg))
+ return return_val;
+ }
+ else
+ if (return_val = (*function) (entry, arg))
+ return return_val;
+ }
+ return 0;
+}
+
+/* Like `each_file' but ignore files that were just for symbol definitions. */
+
+void
+each_full_file (function, arg)
+ register void (*function)();
+ register int arg;
+{
+ register int i;
+
+ for (i = 0; i < number_of_files; i++)
+ {
+ register struct file_entry *entry = &file_table[i];
+ if (entry->just_syms_flag)
+ continue;
+ if (entry->library_flag)
+ {
+ register struct file_entry *subentry = entry->subfiles;
+ for (; subentry; subentry = subentry->chain)
+ (*function) (subentry, arg);
+ }
+ else
+ (*function) (entry, arg);
+ }
+}
+
+/* Close the input file that is now open. */
+
+void
+file_close ()
+{
+ close (input_desc);
+ input_desc = 0;
+ input_file = 0;
+}
+
+/* Open the input file specified by 'entry', and return a descriptor.
+ The open file is remembered; if the same file is opened twice in a row,
+ a new open is not actually done. */
+
+int
+file_open (entry)
+ register struct file_entry *entry;
+{
+ register int desc;
+
+ if (entry->superfile)
+ return file_open (entry->superfile);
+
+ if (entry == input_file)
+ return input_desc;
+
+ if (input_file) file_close ();
+
+ if (entry->search_dirs_flag)
+ {
+ int i;
+
+ for (i = 0; i < n_search_dirs; i++)
+ {
+ register char *string
+ = concat (search_dirs[i], "/", entry->filename);
+ desc = open (string, O_RDONLY, 0);
+ if (desc > 0)
+ {
+ entry->filename = string;
+ entry->search_dirs_flag = 0;
+ break;
+ }
+ free (string);
+ }
+ }
+ else
+ desc = open (entry->filename, O_RDONLY, 0);
+
+ if (desc > 0)
+ {
+ input_file = entry;
+ input_desc = desc;
+ return desc;
+ }
+
+ perror_file (entry);
+ /* NOTREACHED */
+}
+
+/* Print the filename of ENTRY on OUTFILE (a stdio stream),
+ and then a newline. */
+
+void
+prline_file_name (entry, outfile)
+ struct file_entry *entry;
+ FILE *outfile;
+{
+ print_file_name (entry, outfile);
+ fprintf (outfile, "\n");
+}
+
+/* Print the filename of ENTRY on OUTFILE (a stdio stream). */
+
+void
+print_file_name (entry, outfile)
+ struct file_entry *entry;
+ FILE *outfile;
+{
+ if (entry->superfile)
+ {
+ print_file_name (entry->superfile, outfile);
+ fprintf (outfile, "(%s)", entry->filename);
+ }
+ else
+ fprintf (outfile, "%s", entry->filename);
+}
+
+/* Return the filename of entry as a string (malloc'd for the purpose) */
+
+char *
+get_file_name (entry)
+ struct file_entry *entry;
+{
+ char *result, *supfile;
+ if (entry->superfile)
+ {
+ supfile = get_file_name (entry->superfile);
+ result = (char *) xmalloc (strlen (supfile)
+ + strlen (entry->filename) + 3);
+ sprintf (result, "%s(%s)", supfile, entry->filename);
+ free (supfile);
+ }
+ else
+ {
+ result = (char *) xmalloc (strlen (entry->filename) + 1);
+ strcpy (result, entry->filename);
+ }
+ return result;
+}
+
+/* Medium-level input routines for rel files. */
+
+/* Read a file's header into the proper place in the file_entry.
+ DESC is the descriptor on which the file is open.
+ ENTRY is the file's entry. */
+
+void
+read_header (desc, entry)
+ int desc;
+ register struct file_entry *entry;
+{
+ register int len;
+ struct exec *loc = (struct exec *) &entry->header;
+
+ lseek (desc, entry->starting_offset, 0);
+#ifdef COFF_ENCAPSULATE
+ if (entry->just_syms_flag)
+ lseek (desc, sizeof(coffheader), 1);
+#endif
+ len = read (desc, loc, sizeof (struct exec));
+ if (len != sizeof (struct exec))
+ fatal_with_file ("failure reading header of ", entry);
+ if (N_BADMAG (*loc))
+ fatal_with_file ("bad magic number in ", entry);
+
+ entry->header_read_flag = 1;
+}
+
+/* Read the symbols of file ENTRY into core.
+ Assume it is already open, on descriptor DESC.
+ Also read the length of the string table, which follows the symbol table,
+ but don't read the contents of the string table. */
+
+void
+read_entry_symbols (desc, entry)
+ struct file_entry *entry;
+ int desc;
+{
+ int str_size;
+
+ if (!entry->header_read_flag)
+ read_header (desc, entry);
+
+ entry->symbols = (struct nlist *) xmalloc (entry->header.a_syms);
+
+ lseek (desc, N_SYMOFF (entry->header) + entry->starting_offset, 0);
+ if (entry->header.a_syms != read (desc, entry->symbols, entry->header.a_syms))
+ fatal_with_file ("premature end of file in symbols of ", entry);
+
+ lseek (desc, N_STROFF (entry->header) + entry->starting_offset, 0);
+ if (sizeof str_size != read (desc, &str_size, sizeof str_size))
+ fatal_with_file ("bad string table size in ", entry);
+
+ entry->string_size = str_size;
+}
+
+/* Read the string table of file ENTRY into core.
+ Assume it is already open, on descriptor DESC.
+ Also record whether a GDB symbol segment follows the string table. */
+
+void
+read_entry_strings (desc, entry)
+ struct file_entry *entry;
+ int desc;
+{
+ int buffer;
+
+ if (!entry->header_read_flag)
+ read_header (desc, entry);
+
+ lseek (desc, N_STROFF (entry->header) + entry->starting_offset, 0);
+ if (entry->string_size != read (desc, entry->strings, entry->string_size))
+ fatal_with_file ("premature end of file in strings of ", entry);
+
+ /* While we are here, see if the file has a symbol segment at the end.
+ For a separate file, just try reading some more.
+ For a library member, compare current pos against total size. */
+ if (entry->superfile)
+ {
+ if (entry->total_size == N_STROFF (entry->header) + entry->string_size)
+ return;
+ }
+ else
+ {
+ buffer = read (desc, &buffer, sizeof buffer);
+ if (buffer == 0)
+ return;
+ if (buffer != sizeof buffer)
+ fatal_with_file ("premature end of file in GDB symbol segment of ", entry);
+ }
+ /* Don't try to do anything with symsegs. */
+ return;
+#if 0
+ /* eliminate warning of `statement not reached'. */
+ entry->symseg_offset = N_STROFF (entry->header) + entry->string_size;
+#endif
+}
+
+/* Read in the symbols of all input files. */
+
+void read_file_symbols (), read_entry_symbols (), read_entry_strings ();
+void enter_file_symbols (), enter_global_ref (), search_library ();
+
+void
+load_symbols ()
+{
+ register int i;
+
+ if (trace_files) fprintf (stderr, "Loading symbols:\n\n");
+
+ for (i = 0; i < number_of_files; i++)
+ {
+ register struct file_entry *entry = &file_table[i];
+ read_file_symbols (entry);
+ }
+
+ if (trace_files) fprintf (stderr, "\n");
+}
+
+/* If ENTRY is a rel file, read its symbol and string sections into core.
+ If it is a library, search it and load the appropriate members
+ (which means calling this function recursively on those members). */
+
+void
+read_file_symbols (entry)
+ register struct file_entry *entry;
+{
+ register int desc;
+ register int len;
+ struct exec hdr;
+
+ desc = file_open (entry);
+
+#ifdef COFF_ENCAPSULATE
+ if (entry->just_syms_flag)
+ lseek (desc, sizeof(coffheader),0);
+#endif
+
+ len = read (desc, &hdr, sizeof hdr);
+ if (len != sizeof hdr)
+ fatal_with_file ("failure reading header of ", entry);
+
+ if (!N_BADMAG (hdr))
+ {
+ read_entry_symbols (desc, entry);
+ entry->strings = (char *) alloca (entry->string_size);
+ read_entry_strings (desc, entry);
+ enter_file_symbols (entry);
+ entry->strings = 0;
+ }
+ else
+ {
+ char armag[SARMAG];
+
+ lseek (desc, 0, 0);
+ if (SARMAG != read (desc, armag, SARMAG) || strncmp (armag, ARMAG, SARMAG))
+ fatal_with_file ("malformed input file (not rel or archive) ", entry);
+ entry->library_flag = 1;
+ search_library (desc, entry);
+ }
+
+ file_close ();
+}
+
+/* Enter the external symbol defs and refs of ENTRY in the hash table. */
+
+void
+enter_file_symbols (entry)
+ struct file_entry *entry;
+{
+ register struct nlist
+ *p,
+ *end = entry->symbols + entry->header.a_syms / sizeof (struct nlist);
+
+ if (trace_files) prline_file_name (entry, stderr);
+
+ for (p = entry->symbols; p < end; p++)
+ {
+ if (p->n_type == (N_SETV | N_EXT)) continue;
+ if (set_element_prefixes
+ && set_element_prefixed_p (p->n_un.n_strx + entry->strings))
+ p->n_type += (N_SETA - N_ABS);
+
+ if (SET_ELEMENT_P (p->n_type))
+ {
+ set_symbol_count++;
+ if (!relocatable_output)
+ enter_global_ref (p, p->n_un.n_strx + entry->strings, entry);
+ }
+ else if (p->n_type == N_WARNING)
+ {
+ char *name = p->n_un.n_strx + entry->strings;
+
+ /* Grab the next entry. */
+ p++;
+ if (p->n_type != (N_UNDF | N_EXT))
+ {
+ fprintf (stderr, "%s: Warning symbol found in %s without external reference following.\n",
+ progname, entry->filename);
+ make_executable = 0;
+ p--; /* Process normally. */
+ }
+ else
+ {
+ symbol *sp;
+ char *sname = p->n_un.n_strx + entry->strings;
+ /* Deal with the warning symbol. */
+ enter_global_ref (p, p->n_un.n_strx + entry->strings, entry);
+ sp = getsym (sname);
+ sp->warning = (char *) xmalloc (strlen(name) + 1);
+ strcpy (sp->warning, name);
+ warning_count++;
+ }
+ }
+ else if (p->n_type & N_EXT)
+ enter_global_ref (p, p->n_un.n_strx + entry->strings, entry);
+ else if (p->n_un.n_strx && !(p->n_type & (N_STAB | N_EXT)))
+ {
+ if ((p->n_un.n_strx + entry->strings)[0] != LPREFIX)
+ non_L_local_sym_count++;
+ local_sym_count++;
+ }
+ else debugger_sym_count++;
+ }
+
+ /* Count one for the local symbol that we generate,
+ whose name is the file's name (usually) and whose address
+ is the start of the file's text. */
+
+ local_sym_count++;
+ non_L_local_sym_count++;
+}
+
+/* Enter one global symbol in the hash table.
+ NLIST_P points to the `struct nlist' read from the file
+ that describes the global symbol. NAME is the symbol's name.
+ ENTRY is the file entry for the file the symbol comes from.
+
+ The `struct nlist' is modified by placing it on a chain of
+ all such structs that refer to the same global symbol.
+ This chain starts in the `refs' field of the symbol table entry
+ and is chained through the `n_name'. */
+
+void
+enter_global_ref (nlist_p, name, entry)
+ register struct nlist *nlist_p;
+ char *name;
+ struct file_entry *entry;
+{
+ register symbol *sp = getsym (name);
+ register int type = nlist_p->n_type;
+ int oldref = sp->referenced;
+ int olddef = sp->defined;
+ int com = sp->defined && sp->max_common_size;
+
+ nlist_p->n_un.n_name = (char *) sp->refs;
+ sp->refs = nlist_p;
+
+ sp->referenced = 1;
+ if (type != (N_UNDF | N_EXT) || nlist_p->n_value)
+ {
+ if (!sp->defined || sp->defined == (N_UNDF | N_EXT))
+ sp->defined = type;
+
+ if (oldref && !olddef)
+ /* It used to be undefined and we're defining it. */
+ undefined_global_sym_count--;
+
+ if (!olddef && type == (N_UNDF | N_EXT) && nlist_p->n_value)
+ {
+ /* First definition and it's common. */
+ common_defined_global_count++;
+ sp->max_common_size = nlist_p->n_value;
+ }
+ else if (com && type != (N_UNDF | N_EXT))
+ {
+ /* It used to be common and we're defining it as
+ something else. */
+ common_defined_global_count--;
+ sp->max_common_size = 0;
+ }
+ else if (com && type == (N_UNDF | N_EXT)
+ && sp->max_common_size < nlist_p->n_value)
+ /* It used to be common and this is a new common entry to
+ which we need to pay attention. */
+ sp->max_common_size = nlist_p->n_value;
+
+ /* Are we defining it as a set element? */
+ if (SET_ELEMENT_P (type) && (!olddef || com))
+ set_vector_count++;
+ /* As an indirection? */
+ else if (type == (N_INDR | N_EXT))
+ {
+ /* Indirect symbols value should be modified to point
+ a symbol being equivalenced to. */
+ nlist_p->n_value
+ = (unsigned int) getsym ((nlist_p + 1)->n_un.n_strx
+ + entry->strings);
+ if ((symbol *) nlist_p->n_value == sp)
+ {
+ /* Somebody redefined a symbol to be itself. */
+ fprintf (stderr, "%s: Symbol %s indirected to itself.\n",
+ entry->filename, name);
+ /* Rewrite this symbol as being a global text symbol
+ with value 0. */
+ nlist_p->n_type = sp->defined = N_TEXT | N_EXT;
+ nlist_p->n_value = 0;
+ /* Don't make the output executable. */
+ make_executable = 0;
+ }
+ else
+ global_indirect_count++;
+ }
+ }
+ else
+ if (!oldref)
+#ifndef DOLLAR_KLUDGE
+ undefined_global_sym_count++;
+#else
+ {
+ if (entry->superfile && type == (N_UNDF | N_EXT) && name[1] == '$')
+ {
+ /* This is an (ISI?) $-conditional; skip it */
+ sp->referenced = 0;
+ if (sp->trace)
+ {
+ fprintf (stderr, "symbol %s is a $-conditional ignored in ", sp->name);
+ print_file_name (entry, stderr);
+ fprintf (stderr, "\n");
+ }
+ return;
+ }
+ else
+ undefined_global_sym_count++;
+ }
+#endif
+
+ if (sp == end_symbol && entry->just_syms_flag && !T_flag_specified)
+ text_start = nlist_p->n_value;
+
+ if (sp->trace)
+ {
+ register char *reftype;
+ switch (type & N_TYPE)
+ {
+ case N_UNDF:
+ if (nlist_p->n_value)
+ reftype = "defined as common";
+ else reftype = "referenced";
+ break;
+
+ case N_ABS:
+ reftype = "defined as absolute";
+ break;
+
+ case N_TEXT:
+ reftype = "defined in text section";
+ break;
+
+ case N_DATA:
+ reftype = "defined in data section";
+ break;
+
+ case N_BSS:
+ reftype = "defined in BSS section";
+ break;
+
+ case N_SETT:
+ reftype = "is a text set element";
+ break;
+
+ case N_SETD:
+ reftype = "is a data set element";
+ break;
+
+ case N_SETB:
+ reftype = "is a BSS set element";
+ break;
+
+ case N_SETA:
+ reftype = "is an absolute set element";
+ break;
+
+ case N_SETV:
+ reftype = "defined in data section as vector";
+ break;
+
+ case N_INDR:
+ reftype = (char *) alloca (23
+ + strlen ((nlist_p + 1)->n_un.n_strx
+ + entry->strings));
+ sprintf (reftype, "defined equivalent to %s",
+ (nlist_p + 1)->n_un.n_strx + entry->strings);
+ break;
+
+#ifdef sequent
+ case N_SHUNDF:
+ reftype = "shared undf";
+ break;
+
+/* These conflict with cases above.
+ case N_SHDATA:
+ reftype = "shared data";
+ break;
+
+ case N_SHBSS:
+ reftype = "shared BSS";
+ break;
+*/
+ default:
+ reftype = "I don't know this type";
+ break;
+#endif
+ }
+
+ fprintf (stderr, "symbol %s %s in ", sp->name, reftype);
+ print_file_name (entry, stderr);
+ fprintf (stderr, "\n");
+ }
+}
+
+/* This return 0 if the given file entry's symbol table does *not*
+ contain the nlist point entry, and it returns the files entry
+ pointer (cast to unsigned long) if it does. */
+
+unsigned long
+contains_symbol (entry, n_ptr)
+ struct file_entry *entry;
+ register struct nlist *n_ptr;
+{
+ if (n_ptr >= entry->symbols &&
+ n_ptr < (entry->symbols
+ + (entry->header.a_syms / sizeof (struct nlist))))
+ return (unsigned long) entry;
+ return 0;
+}
+
+
+/* Searching libraries */
+
+struct file_entry *decode_library_subfile ();
+void linear_library (), symdef_library ();
+
+/* Search the library ENTRY, already open on descriptor DESC.
+ This means deciding which library members to load,
+ making a chain of `struct file_entry' for those members,
+ and entering their global symbols in the hash table. */
+
+void
+search_library (desc, entry)
+ int desc;
+ struct file_entry *entry;
+{
+ int member_length;
+ register char *name;
+ register struct file_entry *subentry;
+
+ if (!undefined_global_sym_count) return;
+
+ /* Examine its first member, which starts SARMAG bytes in. */
+ subentry = decode_library_subfile (desc, entry, SARMAG, &member_length);
+ if (!subentry) return;
+
+ name = subentry->filename;
+ free (subentry);
+
+ /* Search via __.SYMDEF if that exists, else linearly. */
+
+ if (!strcmp (name, "__.SYMDEF"))
+ symdef_library (desc, entry, member_length);
+ else
+ linear_library (desc, entry);
+}
+
+/* Construct and return a file_entry for a library member.
+ The library's file_entry is library_entry, and the library is open on DESC.
+ SUBFILE_OFFSET is the byte index in the library of this member's header.
+ We store the length of the member into *LENGTH_LOC. */
+
+struct file_entry *
+decode_library_subfile (desc, library_entry, subfile_offset, length_loc)
+ int desc;
+ struct file_entry *library_entry;
+ int subfile_offset;
+ int *length_loc;
+{
+ int bytes_read;
+ register int namelen;
+ int member_length;
+ register char *name;
+ struct ar_hdr hdr1;
+ register struct file_entry *subentry;
+
+ lseek (desc, subfile_offset, 0);
+
+ bytes_read = read (desc, &hdr1, sizeof hdr1);
+ if (!bytes_read)
+ return 0; /* end of archive */
+
+ if (sizeof hdr1 != bytes_read)
+ fatal_with_file ("malformed library archive ", library_entry);
+
+ if (sscanf (hdr1.ar_size, "%d", &member_length) != 1)
+ fatal_with_file ("malformatted header of archive member in ", library_entry);
+
+ subentry = (struct file_entry *) xmalloc (sizeof (struct file_entry));
+ bzero (subentry, sizeof (struct file_entry));
+
+ for (namelen = 0;
+ namelen < sizeof hdr1.ar_name
+ && hdr1.ar_name[namelen] != 0 && hdr1.ar_name[namelen] != ' '
+ && hdr1.ar_name[namelen] != '/';
+ namelen++);
+
+ name = (char *) xmalloc (namelen+1);
+ strncpy (name, hdr1.ar_name, namelen);
+ name[namelen] = 0;
+
+ subentry->filename = name;
+ subentry->local_sym_name = name;
+ subentry->symbols = 0;
+ subentry->strings = 0;
+ subentry->subfiles = 0;
+ subentry->starting_offset = subfile_offset + sizeof hdr1;
+ subentry->superfile = library_entry;
+ subentry->library_flag = 0;
+ subentry->header_read_flag = 0;
+ subentry->just_syms_flag = 0;
+ subentry->chain = 0;
+ subentry->total_size = member_length;
+
+ (*length_loc) = member_length;
+
+ return subentry;
+}
+
+int subfile_wanted_p ();
+
+/* Search a library that has a __.SYMDEF member.
+ DESC is a descriptor on which the library is open.
+ The file pointer is assumed to point at the __.SYMDEF data.
+ ENTRY is the library's file_entry.
+ MEMBER_LENGTH is the length of the __.SYMDEF data. */
+
+void
+symdef_library (desc, entry, member_length)
+ int desc;
+ struct file_entry *entry;
+ int member_length;
+{
+ int *symdef_data = (int *) xmalloc (member_length);
+ register struct symdef *symdef_base;
+ char *sym_name_base;
+ int number_of_symdefs;
+ int length_of_strings;
+ int not_finished;
+ int bytes_read;
+ register int i;
+ struct file_entry *prev = 0;
+ int prev_offset = 0;
+
+ bytes_read = read (desc, symdef_data, member_length);
+ if (bytes_read != member_length)
+ fatal_with_file ("malformatted __.SYMDEF in ", entry);
+
+ number_of_symdefs = *symdef_data / sizeof (struct symdef);
+ if (number_of_symdefs < 0 ||
+ number_of_symdefs * sizeof (struct symdef) + 2 * sizeof (int) > member_length)
+ fatal_with_file ("malformatted __.SYMDEF in ", entry);
+
+ symdef_base = (struct symdef *) (symdef_data + 1);
+ length_of_strings = *(int *) (symdef_base + number_of_symdefs);
+
+ if (length_of_strings < 0
+ || number_of_symdefs * sizeof (struct symdef) + length_of_strings
+ + 2 * sizeof (int) > member_length)
+ fatal_with_file ("malformatted __.SYMDEF in ", entry);
+
+ sym_name_base = sizeof (int) + (char *) (symdef_base + number_of_symdefs);
+
+ /* Check all the string indexes for validity. */
+
+ for (i = 0; i < number_of_symdefs; i++)
+ {
+ register int index = symdef_base[i].symbol_name_string_index;
+ if (index < 0 || index >= length_of_strings
+ || (index && *(sym_name_base + index - 1)))
+ fatal_with_file ("malformatted __.SYMDEF in ", entry);
+ }
+
+ /* Search the symdef data for members to load.
+ Do this until one whole pass finds nothing to load. */
+
+ not_finished = 1;
+ while (not_finished)
+ {
+ not_finished = 0;
+
+ /* Scan all the symbols mentioned in the symdef for ones that we need.
+ Load the library members that contain such symbols. */
+
+ for (i = 0;
+ (i < number_of_symdefs
+ && (undefined_global_sym_count || common_defined_global_count));
+ i++)
+ if (symdef_base[i].symbol_name_string_index >= 0)
+ {
+ register symbol *sp;
+
+ sp = getsym_soft (sym_name_base
+ + symdef_base[i].symbol_name_string_index);
+
+ /* If we find a symbol that appears to be needed, think carefully
+ about the archive member that the symbol is in. */
+
+ /*
+ * Per Mike Karels' recommendation, we no longer load library
+ * files if the only reference(s) that would be satisfied are
+ * 'common' references. This prevents some problems with name
+ * pollution (e.g. a global common 'utime' linked to a function).
+ */
+ if (sp && sp->referenced && !sp->defined)
+ {
+ int junk;
+ register int j;
+ register int offset = symdef_base[i].library_member_offset;
+ struct file_entry *subentry;
+
+ /* Don't think carefully about any archive member
+ more than once in a given pass. */
+
+ if (prev_offset == offset)
+ continue;
+ prev_offset = offset;
+
+ /* Read the symbol table of the archive member. */
+
+ subentry = decode_library_subfile (desc, entry, offset, &junk);
+ if (subentry == 0)
+ fatal ("invalid offset for %s in symbol table of %s",
+ sym_name_base
+ + symdef_base[i].symbol_name_string_index,
+ entry->filename);
+ read_entry_symbols (desc, subentry);
+ subentry->strings = (char *) malloc (subentry->string_size);
+ read_entry_strings (desc, subentry);
+
+ /* Now scan the symbol table and decide whether to load. */
+
+ if (!subfile_wanted_p (subentry))
+ {
+ free (subentry->symbols);
+ free (subentry);
+ }
+ else
+ {
+ /* This member is needed; load it.
+ Since we are loading something on this pass,
+ we must make another pass through the symdef data. */
+
+ not_finished = 1;
+
+ enter_file_symbols (subentry);
+
+ if (prev)
+ prev->chain = subentry;
+ else entry->subfiles = subentry;
+ prev = subentry;
+
+ /* Clear out this member's symbols from the symdef data
+ so that following passes won't waste time on them. */
+
+ for (j = 0; j < number_of_symdefs; j++)
+ {
+ if (symdef_base[j].library_member_offset == offset)
+ symdef_base[j].symbol_name_string_index = -1;
+ }
+ }
+
+ /* We'll read the strings again if we need them again. */
+ free (subentry->strings);
+ subentry->strings = 0;
+ }
+ }
+ }
+
+ free (symdef_data);
+}
+
+/* Search a library that has no __.SYMDEF.
+ ENTRY is the library's file_entry.
+ DESC is the descriptor it is open on. */
+
+void
+linear_library (desc, entry)
+ int desc;
+ struct file_entry *entry;
+{
+ register struct file_entry *prev = 0;
+ register int this_subfile_offset = SARMAG;
+
+ while (undefined_global_sym_count || common_defined_global_count)
+ {
+ int member_length;
+ register struct file_entry *subentry;
+
+ subentry = decode_library_subfile (desc, entry, this_subfile_offset,
+ &member_length);
+
+ if (!subentry) return;
+
+ read_entry_symbols (desc, subentry);
+ subentry->strings = (char *) alloca (subentry->string_size);
+ read_entry_strings (desc, subentry);
+
+ if (!subfile_wanted_p (subentry))
+ {
+ free (subentry->symbols);
+ free (subentry);
+ }
+ else
+ {
+ enter_file_symbols (subentry);
+
+ if (prev)
+ prev->chain = subentry;
+ else entry->subfiles = subentry;
+ prev = subentry;
+ subentry->strings = 0; /* Since space will dissapear on return */
+ }
+
+ this_subfile_offset += member_length + sizeof (struct ar_hdr);
+ if (this_subfile_offset & 1) this_subfile_offset++;
+ }
+}
+
+/* ENTRY is an entry for a library member.
+ Its symbols have been read into core, but not entered.
+ Return nonzero if we ought to load this member. */
+
+int
+subfile_wanted_p (entry)
+ struct file_entry *entry;
+{
+ register struct nlist *p;
+ register struct nlist *end
+ = entry->symbols + entry->header.a_syms / sizeof (struct nlist);
+#ifdef DOLLAR_KLUDGE
+ register int dollar_cond = 0;
+#endif
+
+ for (p = entry->symbols; p < end; p++)
+ {
+ register int type = p->n_type;
+ register char *name = p->n_un.n_strx + entry->strings;
+
+ /* If the symbol has an interesting definition, we could
+ potentially want it. */
+ if (type & N_EXT
+ && (type != (N_UNDF | N_EXT) || p->n_value
+
+#ifdef DOLLAR_KLUDGE
+ || name[1] == '$'
+#endif
+ )
+ && !SET_ELEMENT_P (type)
+ && !set_element_prefixed_p (name))
+ {
+ register symbol *sp = getsym_soft (name);
+
+#ifdef DOLLAR_KLUDGE
+ if (name[1] == '$')
+ {
+ sp = getsym_soft (&name[2]);
+ dollar_cond = 1;
+ if (!sp) continue;
+ if (sp->referenced)
+ {
+ if (write_map)
+ {
+ print_file_name (entry, stdout);
+ fprintf (stdout, " needed due to $-conditional %s\n", name);
+ }
+ return 1;
+ }
+ continue;
+ }
+#endif
+
+ /* If this symbol has not been hashed, we can't be looking for it. */
+
+ if (!sp) continue;
+
+ /*
+ * We don't load a file if it merely satisfies a common reference
+ * (see explanation above in symdef_library()).
+ */
+ if (sp->referenced && !sp->defined)
+ {
+ /* This is a symbol we are looking for. It is either
+ not yet defined or defined as a common. */
+#ifdef DOLLAR_KLUDGE
+ if (dollar_cond) continue;
+#endif
+ if (type == (N_UNDF | N_EXT))
+ {
+ /* Symbol being defined as common.
+ Remember this, but don't load subfile just for this. */
+
+ /* If it didn't used to be common, up the count of
+ common symbols. */
+ if (!sp->max_common_size)
+ common_defined_global_count++;
+
+ if (sp->max_common_size < p->n_value)
+ sp->max_common_size = p->n_value;
+ if (!sp->defined)
+ undefined_global_sym_count--;
+ sp->defined = 1;
+ continue;
+ }
+
+ if (write_map)
+ {
+ print_file_name (entry, stdout);
+ fprintf (stdout, " needed due to %s\n", sp->name);
+ }
+ return 1;
+ }
+ }
+ }
+
+ return 0;
+}
+
+void consider_file_section_lengths (), relocate_file_addresses ();
+
+/* Having entered all the global symbols and found the sizes of sections
+ of all files to be linked, make all appropriate deductions from this data.
+
+ We propagate global symbol values from definitions to references.
+ We compute the layout of the output file and where each input file's
+ contents fit into it. */
+
+void
+digest_symbols ()
+{
+ register int i;
+ int setv_fill_count;
+
+ if (trace_files)
+ fprintf (stderr, "Digesting symbol information:\n\n");
+
+ /* Compute total size of sections */
+
+ each_file (consider_file_section_lengths, 0);
+
+ /* If necessary, pad text section to full page in the file.
+ Include the padding in the text segment size. */
+
+ if (magic == ZMAGIC)
+ {
+ int text_end = text_size + N_TXTOFF (outheader);
+ text_pad = ((text_end + page_size - 1) & (- page_size)) - text_end;
+ text_size += text_pad;
+ }
+ if (padtext)
+ {
+ int text_end = text_size;
+ text_pad = ((text_end + page_size - 1) & (- page_size)) - text_end;
+ text_size += text_pad;
+ }
+
+#ifdef _N_BASEADDR
+ /* SunOS 4.1 N_TXTADDR depends on the value of outheader.a_entry. */
+ outheader.a_entry = N_PAGSIZ (outheader);
+#endif
+
+ outheader.a_text = text_size;
+#ifdef sequent
+ outheader.a_text += N_ADDRADJ (outheader);
+#endif
+
+ /* Make the data segment address start in memory on a suitable boundary. */
+
+ if (! Tdata_flag_specified)
+ data_start = N_DATADDR (outheader) + text_start - TEXT_START (outheader);
+
+ /* Set up the set element vector */
+
+ if (!relocatable_output)
+ {
+ /* The set sector size is the number of set elements + a word
+ for each symbol for the length word at the beginning of the
+ vector, plus a word for each symbol for a zero at the end of
+ the vector (for incremental linking). */
+ set_sect_size
+ = (2 * set_symbol_count + set_vector_count) * sizeof (unsigned long);
+ set_sect_start = data_start + data_size;
+ data_size += set_sect_size;
+ set_vectors = (unsigned long *) xmalloc (set_sect_size);
+ setv_fill_count = 0;
+ }
+
+ /* Compute start addresses of each file's sections and symbols. */
+
+ each_full_file (relocate_file_addresses, 0);
+
+ /* Now, for each symbol, verify that it is defined globally at most once.
+ Put the global value into the symbol entry.
+ Common symbols are allocated here, in the BSS section.
+ Each defined symbol is given a '->defined' field
+ which is the correct N_ code for its definition,
+ except in the case of common symbols with -r.
+ Then make all the references point at the symbol entry
+ instead of being chained together. */
+
+ defined_global_sym_count = 0;
+
+ for (i = 0; i < TABSIZE; i++)
+ {
+ register symbol *sp;
+ for (sp = symtab[i]; sp; sp = sp->link)
+ {
+ /* For each symbol */
+ register struct nlist *p, *next;
+ int defs = 0, com = sp->max_common_size;
+ struct nlist *first_definition;
+ for (p = sp->refs; p; p = next)
+ {
+ register int type = p->n_type;
+
+ if (SET_ELEMENT_P (type))
+ {
+ if (relocatable_output)
+ fatal ("internal: global ref to set element with -r");
+ if (!defs++)
+ {
+ sp->value = set_sect_start
+ + setv_fill_count++ * sizeof (unsigned long);
+ sp->defined = N_SETV | N_EXT;
+ first_definition = p;
+ }
+ else if ((sp->defined & ~N_EXT) != N_SETV)
+ {
+ sp->multiply_defined = 1;
+ multiple_def_count++;
+ }
+ set_vectors[setv_fill_count++] = p->n_value;
+ }
+ else if ((type & N_EXT) && type != (N_UNDF | N_EXT))
+ {
+ /* non-common definition */
+ if (defs++ && sp->value != p->n_value)
+ {
+ sp->multiply_defined = 1;
+ multiple_def_count++;
+ }
+ sp->value = p->n_value;
+ sp->defined = type;
+ first_definition = p;
+ }
+ next = (struct nlist *) p->n_un.n_name;
+ p->n_un.n_name = (char *) sp;
+ }
+ /* Allocate as common if defined as common and not defined for real */
+ if (com && !defs)
+ {
+ if (!relocatable_output || force_common_definition)
+ {
+ int align = sizeof (int);
+
+ /* Round up to nearest sizeof (int). I don't know
+ whether this is necessary or not (given that
+ alignment is taken care of later), but it's
+ traditional, so I'll leave it in. Note that if
+ this size alignment is ever removed, ALIGN above
+ will have to be initialized to 1 instead of
+ sizeof (int). */
+
+ com = (com + sizeof (int) - 1) & (- sizeof (int));
+
+ while (!(com & align))
+ align <<= 1;
+
+ align = align > MAX_ALIGNMENT ? MAX_ALIGNMENT : align;
+
+ bss_size = ((((bss_size + data_size + data_start)
+ + (align - 1)) & (- align))
+ - data_size - data_start);
+
+ sp->value = data_start + data_size + bss_size;
+ sp->defined = N_BSS | N_EXT;
+ bss_size += com;
+ if (write_map)
+ printf ("Allocating common %s: %x at %x\n",
+ sp->name, com, sp->value);
+ }
+ else
+ {
+ sp->defined = 0;
+ undefined_global_sym_count++;
+ }
+ }
+ /* Set length word at front of vector and zero byte at end.
+ Reverse the vector itself to put it in file order. */
+ if ((sp->defined & ~N_EXT) == N_SETV)
+ {
+ unsigned long length_word_index
+ = (sp->value - set_sect_start) / sizeof (unsigned long);
+ unsigned long i, tmp;
+
+ set_vectors[length_word_index]
+ = setv_fill_count - 1 - length_word_index;
+
+ /* Reverse the vector. */
+ for (i = 1;
+ i < (setv_fill_count - length_word_index - 1) / 2 + 1;
+ i++)
+ {
+ tmp = set_vectors[length_word_index + i];
+ set_vectors[length_word_index + i]
+ = set_vectors[setv_fill_count - i];
+ set_vectors[setv_fill_count - i] = tmp;
+ }
+
+ set_vectors[setv_fill_count++] = 0;
+ }
+ if (sp->defined)
+ defined_global_sym_count++;
+ }
+ }
+
+ if (end_symbol) /* These are null if -r. */
+ {
+ etext_symbol->value = text_size + text_start;
+ edata_symbol->value = data_start + data_size;
+ end_symbol->value = data_start + data_size + bss_size;
+ }
+
+ /* Figure the data_pad now, so that it overlaps with the bss addresses. */
+
+ if (specified_data_size && specified_data_size > data_size)
+ data_pad = specified_data_size - data_size;
+
+ if (magic == ZMAGIC)
+ data_pad = ((data_pad + data_size + page_size - 1) & (- page_size))
+ - data_size;
+
+ bss_size -= data_pad;
+ if (bss_size < 0) bss_size = 0;
+
+ data_size += data_pad;
+}
+
+/* Accumulate the section sizes of input file ENTRY
+ into the section sizes of the output file. */
+
+void
+consider_file_section_lengths (entry)
+ register struct file_entry *entry;
+{
+ if (entry->just_syms_flag)
+ return;
+
+ entry->text_start_address = text_size;
+ /* If there were any vectors, we need to chop them off */
+ text_size += entry->header.a_text;
+ entry->data_start_address = data_size;
+ data_size += entry->header.a_data;
+ entry->bss_start_address = bss_size;
+ bss_size += entry->header.a_bss;
+
+ text_reloc_size += entry->header.a_trsize;
+ data_reloc_size += entry->header.a_drsize;
+}
+
+/* Determine where the sections of ENTRY go into the output file,
+ whose total section sizes are already known.
+ Also relocate the addresses of the file's local and debugger symbols. */
+
+void
+relocate_file_addresses (entry)
+ register struct file_entry *entry;
+{
+ entry->text_start_address += text_start;
+ /* Note that `data_start' and `data_size' have not yet been
+ adjusted for `data_pad'. If they had been, we would get the wrong
+ results here. */
+ entry->data_start_address += data_start;
+ entry->bss_start_address += data_start + data_size;
+
+ {
+ register struct nlist *p;
+ register struct nlist *end
+ = entry->symbols + entry->header.a_syms / sizeof (struct nlist);
+
+ for (p = entry->symbols; p < end; p++)
+ {
+ /* If this belongs to a section, update it by the section's start address */
+ register int type = p->n_type & N_TYPE;
+
+ switch (type)
+ {
+ case N_TEXT:
+ case N_SETT:
+ p->n_value += entry->text_start_address;
+ break;
+ case N_DATA:
+ case N_SETV:
+ case N_SETD:
+ /* A symbol whose value is in the data section
+ is present in the input file as if the data section
+ started at an address equal to the length of the file's text. */
+ p->n_value += entry->data_start_address - entry->header.a_text;
+ break;
+ case N_BSS:
+ case N_SETB:
+ /* likewise for symbols with value in BSS. */
+ p->n_value += entry->bss_start_address
+ - entry->header.a_text - entry->header.a_data;
+ break;
+ }
+ }
+ }
+}
+
+void describe_file_sections (), list_file_locals ();
+
+/* Print a complete or partial map of the output file. */
+
+void
+print_symbols (outfile)
+ FILE *outfile;
+{
+ register int i;
+
+ fprintf (outfile, "\nFiles:\n\n");
+
+ each_file (describe_file_sections, outfile);
+
+ fprintf (outfile, "\nGlobal symbols:\n\n");
+
+ for (i = 0; i < TABSIZE; i++)
+ {
+ register symbol *sp;
+ for (sp = symtab[i]; sp; sp = sp->link)
+ {
+ if (sp->defined == 1)
+ fprintf (outfile, " %s: common, length 0x%x\n", sp->name, sp->max_common_size);
+ if (sp->defined)
+ fprintf (outfile, " %s: 0x%x\n", sp->name, sp->value);
+ else if (sp->referenced)
+ fprintf (outfile, " %s: undefined\n", sp->name);
+ }
+ }
+
+ each_file (list_file_locals, outfile);
+}
+
+void
+describe_file_sections (entry, outfile)
+ struct file_entry *entry;
+ FILE *outfile;
+{
+ fprintf (outfile, " ");
+ print_file_name (entry, outfile);
+ if (entry->just_syms_flag)
+ fprintf (outfile, " symbols only\n", 0);
+ else
+ fprintf (outfile, " text %x(%x), data %x(%x), bss %x(%x) hex\n",
+ entry->text_start_address, entry->header.a_text,
+ entry->data_start_address, entry->header.a_data,
+ entry->bss_start_address, entry->header.a_bss);
+}
+
+void
+list_file_locals (entry, outfile)
+ struct file_entry *entry;
+ FILE *outfile;
+{
+ register struct nlist
+ *p,
+ *end = entry->symbols + entry->header.a_syms / sizeof (struct nlist);
+
+ entry->strings = (char *) alloca (entry->string_size);
+ read_entry_strings (file_open (entry), entry);
+
+ fprintf (outfile, "\nLocal symbols of ");
+ print_file_name (entry, outfile);
+ fprintf (outfile, ":\n\n");
+
+ for (p = entry->symbols; p < end; p++)
+ /* If this is a definition,
+ update it if necessary by this file's start address. */
+ if (!(p->n_type & (N_STAB | N_EXT)))
+ fprintf (outfile, " %s: 0x%x\n",
+ entry->strings + p->n_un.n_strx, p->n_value);
+
+ entry->strings = 0; /* All done with them. */
+}
+
+
+/* Static vars for do_warnings and subroutines of it */
+int list_unresolved_refs; /* List unresolved refs */
+int list_warning_symbols; /* List warning syms */
+int list_multiple_defs; /* List multiple definitions */
+
+/*
+ * Structure for communication between do_file_warnings and it's
+ * helper routines. Will in practice be an array of three of these:
+ * 0) Current line, 1) Next line, 2) Source file info.
+ */
+struct line_debug_entry
+{
+ int line;
+ char *filename;
+ struct nlist *sym;
+};
+
+void qsort ();
+/*
+ * Helper routines for do_file_warnings.
+ */
+
+/* Return an integer less than, equal to, or greater than 0 as per the
+ relation between the two relocation entries. Used by qsort. */
+
+int
+relocation_entries_relation (rel1, rel2)
+ struct relocation_info *rel1, *rel2;
+{
+ return RELOC_ADDRESS(rel1) - RELOC_ADDRESS(rel2);
+}
+
+/* Moves to the next debugging symbol in the file. USE_DATA_SYMBOLS
+ determines the type of the debugging symbol to look for (DSLINE or
+ SLINE). STATE_POINTER keeps track of the old and new locatiosn in
+ the file. It assumes that state_pointer[1] is valid; ie
+ that it.sym points into some entry in the symbol table. If
+ state_pointer[1].sym == 0, this routine should not be called. */
+
+int
+next_debug_entry (use_data_symbols, state_pointer)
+ register int use_data_symbols;
+ /* Next must be passed by reference! */
+ struct line_debug_entry state_pointer[3];
+{
+ register struct line_debug_entry
+ *current = state_pointer,
+ *next = state_pointer + 1,
+ /* Used to store source file */
+ *source = state_pointer + 2;
+ struct file_entry *entry = (struct file_entry *) source->sym;
+
+ current->sym = next->sym;
+ current->line = next->line;
+ current->filename = next->filename;
+
+ while (++(next->sym) < (entry->symbols
+ + entry->header.a_syms/sizeof (struct nlist)))
+ {
+ /* n_type is a char, and N_SOL, N_EINCL and N_BINCL are > 0x80, so
+ * may look negative...therefore, must mask to low bits
+ */
+ switch (next->sym->n_type & 0xff)
+ {
+ case N_SLINE:
+ if (use_data_symbols) continue;
+ next->line = next->sym->n_desc;
+ return 1;
+ case N_DSLINE:
+ if (!use_data_symbols) continue;
+ next->line = next->sym->n_desc;
+ return 1;
+#ifdef HAVE_SUN_STABS
+ case N_EINCL:
+ next->filename = source->filename;
+ continue;
+#endif
+ case N_SO:
+ source->filename = next->sym->n_un.n_strx + entry->strings;
+ source->line++;
+#ifdef HAVE_SUN_STABS
+ case N_BINCL:
+#endif
+ case N_SOL:
+ next->filename
+ = next->sym->n_un.n_strx + entry->strings;
+ default:
+ continue;
+ }
+ }
+ next->sym = (struct nlist *) 0;
+ return 0;
+}
+
+/* Create a structure to save the state of a scan through the debug
+ symbols. USE_DATA_SYMBOLS is set if we should be scanning for
+ DSLINE's instead of SLINE's. entry is the file entry which points
+ at the symbols to use. */
+
+struct line_debug_entry *
+init_debug_scan (use_data_symbols, entry)
+ int use_data_symbols;
+ struct file_entry *entry;
+{
+ struct line_debug_entry
+ *state_pointer
+ = (struct line_debug_entry *)
+ xmalloc (3 * sizeof (struct line_debug_entry));
+ register struct line_debug_entry
+ *current = state_pointer,
+ *next = state_pointer + 1,
+ *source = state_pointer + 2; /* Used to store source file */
+
+ struct nlist *tmp;
+
+ for (tmp = entry->symbols;
+ tmp < (entry->symbols
+ + entry->header.a_syms/sizeof (struct nlist));
+ tmp++)
+ if (tmp->n_type == (int) N_SO)
+ break;
+
+ if (tmp >= (entry->symbols
+ + entry->header.a_syms/sizeof (struct nlist)))
+ {
+ /* I believe this translates to "We lose" */
+ current->filename = next->filename = entry->filename;
+ current->line = next->line = -1;
+ current->sym = next->sym = (struct nlist *) 0;
+ return state_pointer;
+ }
+
+ next->line = source->line = 0;
+ next->filename = source->filename
+ = (tmp->n_un.n_strx + entry->strings);
+ source->sym = (struct nlist *) entry;
+ next->sym = tmp;
+
+ next_debug_entry (use_data_symbols, state_pointer); /* To setup next */
+
+ if (!next->sym) /* No line numbers for this section; */
+ /* setup output results as appropriate */
+ {
+ if (source->line)
+ {
+ current->filename = source->filename = entry->filename;
+ current->line = -1; /* Don't print lineno */
+ }
+ else
+ {
+ current->filename = source->filename;
+ current->line = 0;
+ }
+ return state_pointer;
+ }
+
+
+ next_debug_entry (use_data_symbols, state_pointer); /* To setup current */
+
+ return state_pointer;
+}
+
+/* Takes an ADDRESS (in either text or data space) and a STATE_POINTER
+ which describes the current location in the implied scan through
+ the debug symbols within the file which ADDRESS is within, and
+ returns the source line number which corresponds to ADDRESS. */
+
+int
+address_to_line (address, state_pointer)
+ unsigned long address;
+ /* Next must be passed by reference! */
+ struct line_debug_entry state_pointer[3];
+{
+ struct line_debug_entry
+ *current = state_pointer,
+ *next = state_pointer + 1;
+ struct line_debug_entry *tmp_pointer;
+
+ int use_data_symbols;
+
+ if (next->sym)
+ use_data_symbols = (next->sym->n_type & N_TYPE) == N_DATA;
+ else
+ return current->line;
+
+ /* Go back to the beginning if we've already passed it. */
+ if (current->sym->n_value > address)
+ {
+ tmp_pointer = init_debug_scan (use_data_symbols,
+ (struct file_entry *)
+ ((state_pointer + 2)->sym));
+ state_pointer[0] = tmp_pointer[0];
+ state_pointer[1] = tmp_pointer[1];
+ state_pointer[2] = tmp_pointer[2];
+ free (tmp_pointer);
+ }
+
+ /* If we're still in a bad way, return -1, meaning invalid line. */
+ if (current->sym->n_value > address)
+ return -1;
+
+ while (next->sym
+ && next->sym->n_value <= address
+ && next_debug_entry (use_data_symbols, state_pointer))
+ ;
+ return current->line;
+}
+
+
+/* Macros for manipulating bitvectors. */
+#define BIT_SET_P(bv, index) ((bv)[(index) >> 3] & 1 << ((index) & 0x7))
+#define SET_BIT(bv, index) ((bv)[(index) >> 3] |= 1 << ((index) & 0x7))
+
+/* This routine will scan through the relocation data of file ENTRY,
+ printing out references to undefined symbols and references to
+ symbols defined in files with N_WARNING symbols. If DATA_SEGMENT
+ is non-zero, it will scan the data relocation segment (and use
+ N_DSLINE symbols to track line number); otherwise it will scan the
+ text relocation segment. Warnings will be printed on the output
+ stream OUTFILE. Eventually, every nlist symbol mapped through will
+ be marked in the NLIST_BITVECTOR, so we don't repeat ourselves when
+ we scan the nlists themselves. */
+
+do_relocation_warnings (entry, data_segment, outfile, nlist_bitvector)
+ struct file_entry *entry;
+ int data_segment;
+ FILE *outfile;
+ unsigned char *nlist_bitvector;
+{
+ struct relocation_info
+ *reloc_start = data_segment ? entry->datarel : entry->textrel,
+ *reloc;
+ int reloc_size
+ = ((data_segment ? entry->header.a_drsize : entry->header.a_trsize)
+ / sizeof (struct relocation_info));
+ int start_of_segment
+ = (data_segment ? entry->data_start_address : entry->text_start_address);
+ struct nlist *start_of_syms = entry->symbols;
+ struct line_debug_entry *state_pointer
+ = init_debug_scan (data_segment != 0, entry);
+ register struct line_debug_entry
+ *current = state_pointer;
+ /* Assigned to generally static values; should not be written into. */
+ char *errfmt;
+ /* Assigned to alloca'd values cand copied into; should be freed
+ when done. */
+ char *errmsg;
+ int invalidate_line_number;
+
+ /* We need to sort the relocation info here. Sheesh, so much effort
+ for one lousy error optimization. */
+
+ qsort (reloc_start, reloc_size, sizeof (struct relocation_info),
+ relocation_entries_relation);
+
+ for (reloc = reloc_start;
+ reloc < (reloc_start + reloc_size);
+ reloc++)
+ {
+ register struct nlist *s;
+ register symbol *g;
+
+ /* If the relocation isn't resolved through a symbol, continue */
+ if (!RELOC_EXTERN_P(reloc))
+ continue;
+
+ s = &(entry->symbols[RELOC_SYMBOL(reloc)]);
+
+ /* Local symbols shouldn't ever be used by relocation info, so
+ the next should be safe.
+ This is, of course, wrong. References to local BSS symbols can be
+ the targets of relocation info, and they can (must) be
+ resolved through symbols. However, these must be defined properly,
+ (the assembler would have caught it otherwise), so we can
+ ignore these cases. */
+ if (!(s->n_type & N_EXT))
+ continue;
+
+ g = (symbol *) s->n_un.n_name;
+ errmsg = 0;
+
+ if (!g->defined && list_unresolved_refs) /* Reference */
+ {
+ /* Mark as being noted by relocation warning pass. */
+ SET_BIT (nlist_bitvector, s - start_of_syms);
+
+ if (g->undef_refs >= MAX_UREFS_PRINTED) /* Listed too many */
+ continue;
+
+ /* Undefined symbol which we should mention */
+
+ if (++(g->undef_refs) == MAX_UREFS_PRINTED)
+ {
+ errfmt = "More undefined symbol %s refs follow";
+ invalidate_line_number = 1;
+ }
+ else
+ {
+ errfmt = "Undefined symbol %s referenced from %s segment";
+ invalidate_line_number = 0;
+ }
+ }
+ else /* Defined */
+ {
+ /* Potential symbol warning here */
+ if (!g->warning) continue;
+
+ /* Mark as being noted by relocation warning pass. */
+ SET_BIT (nlist_bitvector, s - start_of_syms);
+
+ errfmt = 0;
+ errmsg = g->warning;
+ invalidate_line_number = 0;
+ }
+
+
+ /* If errfmt == 0, errmsg has already been defined. */
+ if (errfmt != 0)
+ {
+ char *nm;
+
+ if (demangler == NULL || (nm = (*demangler)(g->name)) == NULL)
+ nm = g->name;
+ errmsg = (char *) xmalloc (strlen (errfmt) + strlen (nm) + 1);
+ sprintf (errmsg, errfmt, nm, data_segment ? "data" : "text");
+ if (nm != g->name)
+ free (nm);
+ }
+
+ address_to_line (RELOC_ADDRESS (reloc) + start_of_segment,
+ state_pointer);
+
+ if (current->line >=0)
+ fprintf (outfile, "%s:%d: %s\n", current->filename,
+ invalidate_line_number ? 0 : current->line, errmsg);
+ else
+ fprintf (outfile, "%s: %s\n", current->filename, errmsg);
+
+ if (errfmt != 0)
+ free (errmsg);
+ }
+
+ free (state_pointer);
+}
+
+/* Print on OUTFILE a list of all warnings generated by references
+ and/or definitions in the file ENTRY. List source file and line
+ number if possible, just the .o file if not. */
+
+void
+do_file_warnings (entry, outfile)
+ struct file_entry *entry;
+ FILE *outfile;
+{
+ int number_of_syms = entry->header.a_syms / sizeof (struct nlist);
+ unsigned char *nlist_bitvector
+ = (unsigned char *) alloca ((number_of_syms >> 3) + 1);
+ struct line_debug_entry *text_scan, *data_scan;
+ int i;
+ char *errfmt, *file_name;
+ int line_number;
+ int dont_allow_symbol_name;
+
+ bzero (nlist_bitvector, (number_of_syms >> 3) + 1);
+
+ /* Read in the files strings if they aren't available */
+ if (!entry->strings)
+ {
+ int desc;
+
+ entry->strings = (char *) alloca (entry->string_size);
+ desc = file_open (entry);
+ read_entry_strings (desc, entry);
+ }
+
+ read_file_relocation (entry);
+
+ /* Do text warnings based on a scan through the relocation info. */
+ do_relocation_warnings (entry, 0, outfile, nlist_bitvector);
+
+ /* Do data warnings based on a scan through the relocation info. */
+ do_relocation_warnings (entry, 1, outfile, nlist_bitvector);
+
+ /* Scan through all of the nlist entries in this file and pick up
+ anything that the scan through the relocation stuff didn't. */
+
+ text_scan = init_debug_scan (0, entry);
+ data_scan = init_debug_scan (1, entry);
+
+ for (i = 0; i < number_of_syms; i++)
+ {
+ struct nlist *s;
+ struct glosym *g;
+
+ s = entry->symbols + i;
+
+ if (!(s->n_type & N_EXT))
+ continue;
+
+ g = (symbol *) s->n_un.n_name;
+ dont_allow_symbol_name = 0;
+
+ if (list_multiple_defs && g->multiply_defined)
+ {
+ errfmt = "Definition of symbol %s (multiply defined)";
+ switch (s->n_type)
+ {
+ case N_TEXT | N_EXT:
+ line_number = address_to_line (s->n_value, text_scan);
+ file_name = text_scan[0].filename;
+ break;
+ case N_DATA | N_EXT:
+ line_number = address_to_line (s->n_value, data_scan);
+ file_name = data_scan[0].filename;
+ break;
+ case N_SETA | N_EXT:
+ case N_SETT | N_EXT:
+ case N_SETD | N_EXT:
+ case N_SETB | N_EXT:
+ if (g->multiply_defined == 2)
+ continue;
+ errfmt = "First set element definition of symbol %s (multiply defined)";
+ break;
+ default:
+ continue; /* Don't print out multiple defs
+ at references. */
+ }
+ }
+ else if (BIT_SET_P (nlist_bitvector, i))
+ continue;
+ else if (list_unresolved_refs && !g->defined)
+ {
+ if (g->undef_refs >= MAX_UREFS_PRINTED)
+ continue;
+
+ if (++(g->undef_refs) == MAX_UREFS_PRINTED)
+ errfmt = "More undefined \"%s\" refs follow";
+ else
+ errfmt = "Undefined symbol \"%s\" referenced";
+ line_number = -1;
+ }
+ else if (g->warning)
+ {
+ /* There are two cases in which we don't want to
+ do this. The first is if this is a definition instead of
+ a reference. The second is if it's the reference used by
+ the warning stabs itself. */
+ if (s->n_type != (N_EXT | N_UNDF)
+ || (i && (s-1)->n_type == N_WARNING))
+ continue;
+
+ errfmt = g->warning;
+ line_number = -1;
+ dont_allow_symbol_name = 1;
+ }
+ else
+ continue;
+
+ if (line_number == -1)
+ fprintf (outfile, "%s: ", entry->filename);
+ else
+ fprintf (outfile, "%s:%d: ", file_name, line_number);
+
+ if (dont_allow_symbol_name)
+ fprintf (outfile, "%s", errfmt);
+ else
+ {
+ char *nm;
+ if (demangler != NULL && (nm = (*demangler)(g->name)) != NULL)
+ {
+ fprintf (outfile, errfmt, nm);
+ free (nm);
+ }
+ else
+ fprintf (outfile, errfmt, g->name);
+ }
+
+ fputc ('\n', outfile);
+ }
+ free (text_scan);
+ free (data_scan);
+ entry->strings = 0; /* Since it will dissapear anyway. */
+}
+
+do_warnings (outfile)
+ FILE *outfile;
+{
+ list_unresolved_refs = !relocatable_output && undefined_global_sym_count;
+ list_warning_symbols = warning_count;
+ list_multiple_defs = multiple_def_count != 0;
+
+ if (!(list_unresolved_refs ||
+ list_warning_symbols ||
+ list_multiple_defs ))
+ /* No need to run this routine */
+ return;
+
+ each_file (do_file_warnings, outfile);
+
+ if (list_unresolved_refs || list_multiple_defs)
+ make_executable = 0;
+}
+
+/* Write the output file */
+
+void
+write_output ()
+{
+ struct stat statbuf;
+ int filemode;
+
+ (void) unlink (output_filename);
+ outdesc = open (output_filename, O_WRONLY | O_CREAT | O_TRUNC, 0666);
+ if (outdesc < 0) perror_name (output_filename);
+
+ if (fstat (outdesc, &statbuf) < 0)
+ perror_name (output_filename);
+
+ (void) fchflags(outdesc, statbuf.st_flags | UF_NODUMP);
+
+ filemode = statbuf.st_mode;
+ (void) fchmod (outdesc, filemode & ~0111);
+
+ /* Output the a.out header. */
+ write_header ();
+
+ /* Output the text and data segments, relocating as we go. */
+ write_text ();
+ write_data ();
+
+ /* Output the merged relocation info, if requested with `-r'. */
+ if (relocatable_output)
+ write_rel ();
+
+ /* Output the symbol table (both globals and locals). */
+ write_syms ();
+
+ /* Copy any GDB symbol segments from input files. */
+ write_symsegs ();
+
+ if (fchmod (outdesc, filemode | 0111) == -1)
+ perror_name (output_filename);
+
+ close (outdesc);
+}
+
+void modify_location (), perform_relocation (), copy_text (), copy_data ();
+
+void
+write_header ()
+{
+ N_SET_MAGIC (outheader, magic);
+ outheader.a_text = text_size;
+#ifdef sequent
+ outheader.a_text += N_ADDRADJ (outheader);
+ if (entry_symbol == 0)
+ entry_symbol = getsym("start");
+#endif
+ outheader.a_data = data_size;
+ outheader.a_bss = bss_size;
+ outheader.a_entry = (entry_symbol ? entry_symbol->value
+ : text_start + entry_offset);
+#ifdef COFF_ENCAPSULATE
+ if (need_coff_header)
+ {
+ /* We are encapsulating BSD format within COFF format. */
+ struct coffscn *tp, *dp, *bp;
+
+ tp = &coffheader.scns[0];
+ dp = &coffheader.scns[1];
+ bp = &coffheader.scns[2];
+
+ strcpy (tp->s_name, ".text");
+ tp->s_paddr = text_start;
+ tp->s_vaddr = text_start;
+ tp->s_size = text_size;
+ tp->s_scnptr = sizeof (struct coffheader) + sizeof (struct exec);
+ tp->s_relptr = 0;
+ tp->s_lnnoptr = 0;
+ tp->s_nreloc = 0;
+ tp->s_nlnno = 0;
+ tp->s_flags = 0x20;
+ strcpy (dp->s_name, ".data");
+ dp->s_paddr = data_start;
+ dp->s_vaddr = data_start;
+ dp->s_size = data_size;
+ dp->s_scnptr = tp->s_scnptr + tp->s_size;
+ dp->s_relptr = 0;
+ dp->s_lnnoptr = 0;
+ dp->s_nreloc = 0;
+ dp->s_nlnno = 0;
+ dp->s_flags = 0x40;
+ strcpy (bp->s_name, ".bss");
+ bp->s_paddr = dp->s_vaddr + dp->s_size;
+ bp->s_vaddr = bp->s_paddr;
+ bp->s_size = bss_size;
+ bp->s_scnptr = 0;
+ bp->s_relptr = 0;
+ bp->s_lnnoptr = 0;
+ bp->s_nreloc = 0;
+ bp->s_nlnno = 0;
+ bp->s_flags = 0x80;
+
+ coffheader.f_magic = COFF_MAGIC;
+ coffheader.f_nscns = 3;
+ /* store an unlikely time so programs can
+ * tell that there is a bsd header
+ */
+ coffheader.f_timdat = 1;
+ coffheader.f_symptr = 0;
+ coffheader.f_nsyms = 0;
+ coffheader.f_opthdr = 28;
+ coffheader.f_flags = 0x103;
+ /* aouthdr */
+ coffheader.magic = ZMAGIC;
+ coffheader.vstamp = 0;
+ coffheader.tsize = tp->s_size;
+ coffheader.dsize = dp->s_size;
+ coffheader.bsize = bp->s_size;
+ coffheader.entry = outheader.a_entry;
+ coffheader.text_start = tp->s_vaddr;
+ coffheader.data_start = dp->s_vaddr;
+ }
+#endif
+
+#ifdef INITIALIZE_HEADER
+ INITIALIZE_HEADER;
+#endif
+
+ if (strip_symbols == STRIP_ALL)
+ nsyms = 0;
+ else
+ {
+ nsyms = (defined_global_sym_count
+ + undefined_global_sym_count);
+ if (discard_locals == DISCARD_L)
+ nsyms += non_L_local_sym_count;
+ else if (discard_locals == DISCARD_NONE)
+ nsyms += local_sym_count;
+ /* One extra for following reference on indirects */
+ if (relocatable_output)
+ nsyms += set_symbol_count + global_indirect_count;
+ }
+
+ if (strip_symbols == STRIP_NONE)
+ nsyms += debugger_sym_count;
+
+ outheader.a_syms = nsyms * sizeof (struct nlist);
+
+ if (relocatable_output)
+ {
+ outheader.a_trsize = text_reloc_size;
+ outheader.a_drsize = data_reloc_size;
+ }
+ else
+ {
+ outheader.a_trsize = 0;
+ outheader.a_drsize = 0;
+ }
+
+#ifdef COFF_ENCAPSULATE
+ if (need_coff_header)
+ mywrite (&coffheader, sizeof coffheader, 1, outdesc);
+#endif
+ mywrite (&outheader, sizeof (struct exec), 1, outdesc);
+
+ /* Output whatever padding is required in the executable file
+ between the header and the start of the text. */
+
+#ifndef COFF_ENCAPSULATE
+ padfile (N_TXTOFF (outheader) - sizeof outheader, outdesc);
+#endif
+}
+
+/* Relocate the text segment of each input file
+ and write to the output file. */
+
+void
+write_text ()
+{
+ if (trace_files)
+ fprintf (stderr, "Copying and relocating text:\n\n");
+
+ each_full_file (copy_text, 0);
+ file_close ();
+
+ if (trace_files)
+ fprintf (stderr, "\n");
+
+ padfile (text_pad, outdesc);
+}
+
+int
+text_offset (entry)
+ struct file_entry *entry;
+{
+ return entry->starting_offset + N_TXTOFF (entry->header);
+}
+
+/* Read in all of the relocation information */
+
+void
+read_relocation ()
+{
+ each_full_file (read_file_relocation, 0);
+}
+
+/* Read in the relocation sections of ENTRY if necessary */
+
+void
+read_file_relocation (entry)
+ struct file_entry *entry;
+{
+ register struct relocation_info *reloc;
+ int desc;
+ int read_return;
+
+ desc = -1;
+ if (!entry->textrel)
+ {
+ reloc = (struct relocation_info *) xmalloc (entry->header.a_trsize);
+ desc = file_open (entry);
+ lseek (desc,
+ text_offset (entry) + entry->header.a_text + entry->header.a_data,
+ L_SET);
+ if (entry->header.a_trsize != (read_return = read (desc, reloc, entry->header.a_trsize)))
+ {
+ fprintf (stderr, "Return from read: %d\n", read_return);
+ fatal_with_file ("premature eof in text relocation of ", entry);
+ }
+ entry->textrel = reloc;
+ }
+
+ if (!entry->datarel)
+ {
+ reloc = (struct relocation_info *) xmalloc (entry->header.a_drsize);
+ if (desc == -1) desc = file_open (entry);
+ lseek (desc,
+ text_offset (entry) + entry->header.a_text
+ + entry->header.a_data + entry->header.a_trsize,
+ L_SET);
+ if (entry->header.a_drsize != read (desc, reloc, entry->header.a_drsize))
+ fatal_with_file ("premature eof in data relocation of ", entry);
+ entry->datarel = reloc;
+ }
+}
+
+/* Read the text segment contents of ENTRY, relocate them,
+ and write the result to the output file.
+ If `-r', save the text relocation for later reuse. */
+
+void
+copy_text (entry)
+ struct file_entry *entry;
+{
+ register char *bytes;
+ register int desc;
+ register struct relocation_info *reloc;
+
+ if (trace_files)
+ prline_file_name (entry, stderr);
+
+ desc = file_open (entry);
+
+ /* Allocate space for the file's text section */
+
+ bytes = (char *) alloca (entry->header.a_text);
+
+ /* Deal with relocation information however is appropriate */
+
+ if (entry->textrel) reloc = entry->textrel;
+ else if (relocatable_output)
+ {
+ read_file_relocation (entry);
+ reloc = entry->textrel;
+ }
+ else
+ {
+ reloc = (struct relocation_info *) alloca (entry->header.a_trsize);
+ lseek (desc, text_offset (entry) + entry->header.a_text + entry->header.a_data, 0);
+ if (entry->header.a_trsize != read (desc, reloc, entry->header.a_trsize))
+ fatal_with_file ("premature eof in text relocation of ", entry);
+ }
+
+ /* Read the text section into core. */
+
+ lseek (desc, text_offset (entry), 0);
+ if (entry->header.a_text != read (desc, bytes, entry->header.a_text))
+ fatal_with_file ("premature eof in text section of ", entry);
+
+
+ /* Relocate the text according to the text relocation. */
+
+ perform_relocation (bytes, entry->text_start_address, entry->header.a_text,
+ reloc, entry->header.a_trsize, entry);
+
+ /* Write the relocated text to the output file. */
+
+ mywrite (bytes, 1, entry->header.a_text, outdesc);
+}
+
+/* Relocate the data segment of each input file
+ and write to the output file. */
+
+void
+write_data ()
+{
+ if (trace_files)
+ fprintf (stderr, "Copying and relocating data:\n\n");
+
+ each_full_file (copy_data, 0);
+ file_close ();
+
+ /* Write out the set element vectors. See digest symbols for
+ description of length of the set vector section. */
+
+ if (set_vector_count)
+ mywrite (set_vectors, 2 * set_symbol_count + set_vector_count,
+ sizeof (unsigned long), outdesc);
+
+ if (trace_files)
+ fprintf (stderr, "\n");
+
+ padfile (data_pad, outdesc);
+}
+
+/* Read the data segment contents of ENTRY, relocate them,
+ and write the result to the output file.
+ If `-r', save the data relocation for later reuse.
+ See comments in `copy_text'. */
+
+void
+copy_data (entry)
+ struct file_entry *entry;
+{
+ register struct relocation_info *reloc;
+ register char *bytes;
+ register int desc;
+
+ if (trace_files)
+ prline_file_name (entry, stderr);
+
+ desc = file_open (entry);
+
+ bytes = (char *) alloca (entry->header.a_data);
+
+ if (entry->datarel) reloc = entry->datarel;
+ else if (relocatable_output) /* Will need this again */
+ {
+ read_file_relocation (entry);
+ reloc = entry->datarel;
+ }
+ else
+ {
+ reloc = (struct relocation_info *) alloca (entry->header.a_drsize);
+ lseek (desc, text_offset (entry) + entry->header.a_text
+ + entry->header.a_data + entry->header.a_trsize,
+ 0);
+ if (entry->header.a_drsize != read (desc, reloc, entry->header.a_drsize))
+ fatal_with_file ("premature eof in data relocation of ", entry);
+ }
+
+ lseek (desc, text_offset (entry) + entry->header.a_text, 0);
+ if (entry->header.a_data != read (desc, bytes, entry->header.a_data))
+ fatal_with_file ("premature eof in data section of ", entry);
+
+ perform_relocation (bytes, entry->data_start_address - entry->header.a_text,
+ entry->header.a_data, reloc, entry->header.a_drsize, entry);
+
+ mywrite (bytes, 1, entry->header.a_data, outdesc);
+}
+
+/* Relocate ENTRY's text or data section contents.
+ DATA is the address of the contents, in core.
+ DATA_SIZE is the length of the contents.
+ PC_RELOCATION is the difference between the address of the contents
+ in the output file and its address in the input file.
+ RELOC_INFO is the address of the relocation info, in core.
+ RELOC_SIZE is its length in bytes. */
+/* This version is about to be severly hacked by Randy. Hope it
+ works afterwards. */
+void
+perform_relocation (data, pc_relocation, data_size, reloc_info, reloc_size, entry)
+ char *data;
+ struct relocation_info *reloc_info;
+ struct file_entry *entry;
+ int pc_relocation;
+ int data_size;
+ int reloc_size;
+{
+ register struct relocation_info *p = reloc_info;
+ struct relocation_info *end
+ = reloc_info + reloc_size / sizeof (struct relocation_info);
+ int text_relocation = entry->text_start_address;
+ int data_relocation = entry->data_start_address - entry->header.a_text;
+ int bss_relocation
+ = entry->bss_start_address - entry->header.a_text - entry->header.a_data;
+
+ for (; p < end; p++)
+ {
+ register int relocation = 0;
+ register int addr = RELOC_ADDRESS(p);
+ register unsigned int mask = 0;
+
+ if (addr >= data_size)
+ fatal_with_file ("relocation address out of range in ", entry);
+
+ if (RELOC_EXTERN_P(p))
+ {
+ int symindex = RELOC_SYMBOL (p) * sizeof (struct nlist);
+ symbol *sp = ((symbol *)
+ (((struct nlist *)
+ (((char *)entry->symbols) + symindex))
+ ->n_un.n_name));
+
+#ifdef N_INDR
+ /* Resolve indirection */
+ if ((sp->defined & ~N_EXT) == N_INDR)
+ sp = (symbol *) sp->value;
+#endif
+
+ if (symindex >= entry->header.a_syms)
+ fatal_with_file ("relocation symbolnum out of range in ", entry);
+
+ /* If the symbol is undefined, leave it at zero. */
+ if (! sp->defined)
+ relocation = 0;
+ else
+ relocation = sp->value;
+ }
+ else switch (RELOC_TYPE(p))
+ {
+ case N_TEXT:
+ case N_TEXT | N_EXT:
+ relocation = text_relocation;
+ break;
+
+ case N_DATA:
+ case N_DATA | N_EXT:
+ /* A word that points to beginning of the the data section
+ initially contains not 0 but rather the "address" of that section
+ in the input file, which is the length of the file's text. */
+ relocation = data_relocation;
+ break;
+
+ case N_BSS:
+ case N_BSS | N_EXT:
+ /* Similarly, an input word pointing to the beginning of the bss
+ initially contains the length of text plus data of the file. */
+ relocation = bss_relocation;
+ break;
+
+ case N_ABS:
+ case N_ABS | N_EXT:
+ /* Don't know why this code would occur, but apparently it does. */
+ break;
+
+ default:
+ fatal_with_file ("nonexternal relocation code invalid in ", entry);
+ }
+
+#ifdef RELOC_ADD_EXTRA
+ relocation += RELOC_ADD_EXTRA(p);
+ if (relocatable_output)
+ {
+ /* Non-PC relative relocations which are absolute
+ or which have become non-external now have fixed
+ relocations. Set the ADD_EXTRA of this relocation
+ to be the relocation we have now determined. */
+ if (! RELOC_PCREL_P (p))
+ {
+ if ((int)p->r_type <= RELOC_32
+ || RELOC_EXTERN_P (p) == 0)
+ RELOC_ADD_EXTRA (p) = relocation;
+ }
+ /* External PC-relative relocations continue to move around;
+ update their relocations by the amount they have moved
+ so far. */
+ else if (RELOC_EXTERN_P (p))
+ RELOC_ADD_EXTRA (p) -= pc_relocation;
+ continue;
+ }
+#endif
+
+ if (RELOC_PCREL_P(p))
+ relocation -= pc_relocation;
+
+ relocation >>= RELOC_VALUE_RIGHTSHIFT(p);
+
+ /* Unshifted mask for relocation */
+ mask = 1 << RELOC_TARGET_BITSIZE(p) - 1;
+ mask |= mask - 1;
+ relocation &= mask;
+
+ /* Shift everything up to where it's going to be used */
+ relocation <<= RELOC_TARGET_BITPOS(p);
+ mask <<= RELOC_TARGET_BITPOS(p);
+
+ switch (RELOC_TARGET_SIZE(p))
+ {
+ case 0:
+ if (RELOC_MEMORY_SUB_P(p))
+ relocation -= mask & *(char *) (data + addr);
+ else if (RELOC_MEMORY_ADD_P(p))
+ relocation += mask & *(char *) (data + addr);
+ *(char *) (data + addr) &= ~mask;
+ *(char *) (data + addr) |= relocation;
+ break;
+
+ case 1:
+#ifdef tahoe
+ if (((int) data + addr & 1) == 0)
+ {
+#endif
+ if (RELOC_MEMORY_SUB_P(p))
+ relocation -= mask & *(short *) (data + addr);
+ else if (RELOC_MEMORY_ADD_P(p))
+ relocation += mask & *(short *) (data + addr);
+ *(short *) (data + addr) &= ~mask;
+ *(short *) (data + addr) |= relocation;
+#ifdef tahoe
+ }
+ /*
+ * The CCI Power 6 (aka Tahoe) architecture has byte-aligned
+ * instruction operands but requires data accesses to be aligned.
+ * Brain-damage...
+ */
+ else
+ {
+ unsigned char *da = (unsigned char *) (data + addr);
+ unsigned short s = da[0] << 8 | da[1];
+
+ if (RELOC_MEMORY_SUB_P(p))
+ relocation -= mask & s;
+ else if (RELOC_MEMORY_ADD_P(p))
+ relocation += mask & s;
+ s &= ~mask;
+ s |= relocation;
+ da[0] = s >> 8;
+ da[1] = s;
+ }
+#endif
+ break;
+
+ case 2:
+#ifndef _CROSS_TARGET_ARCH
+#ifdef tahoe
+ if (((int) data + addr & 3) == 0)
+ {
+#endif
+ if (RELOC_MEMORY_SUB_P(p))
+ relocation -= mask & *(long *) (data + addr);
+ else if (RELOC_MEMORY_ADD_P(p))
+ relocation += mask & *(long *) (data + addr);
+ *(long *) (data + addr) &= ~mask;
+ *(long *) (data + addr) |= relocation;
+#ifdef tahoe
+ }
+ else
+ {
+ unsigned char *da = (unsigned char *) (data + addr);
+ unsigned long l = da[0] << 24 | da[1] << 16 | da[2] << 8 | da[3];
+
+ if (RELOC_MEMORY_SUB_P(p))
+ relocation -= mask & l;
+ else if (RELOC_MEMORY_ADD_P(p))
+ relocation += mask & l;
+ l &= ~mask;
+ l |= relocation;
+ da[0] = l >> 24;
+ da[1] = l >> 16;
+ da[2] = l >> 8;
+ da[3] = l;
+ }
+#endif
+#else
+ /* Handle long word alignment requirements of SPARC architecture */
+ /* WARNING: This fix makes an assumption on byte ordering */
+ /* Marc Ullman, Stanford University Nov. 1 1989 */
+ if (RELOC_MEMORY_SUB_P(p)) {
+ relocation -= mask &
+ ((*(unsigned short *) (data + addr) << 16) |
+ *(unsigned short *) (data + addr + 2));
+ } else if (RELOC_MEMORY_ADD_P(p)) {
+ relocation += mask &
+ ((*(unsigned short *) (data + addr) << 16) |
+ *(unsigned short *) (data + addr + 2));
+ }
+ *(unsigned short *) (data + addr) &= (~mask >> 16);
+ *(unsigned short *) (data + addr + 2) &= (~mask & 0xffff);
+ *(unsigned short *) (data + addr) |= (relocation >> 16);
+ *(unsigned short *) (data + addr + 2) |= (relocation & 0xffff);
+#endif
+ break;
+
+ default:
+ fatal_with_file ("Unimplemented relocation field length in ", entry);
+ }
+ }
+}
+
+/* For relocatable_output only: write out the relocation,
+ relocating the addresses-to-be-relocated. */
+
+void coptxtrel (), copdatrel ();
+
+void
+write_rel ()
+{
+ register int i;
+ register int count = 0;
+
+ if (trace_files)
+ fprintf (stderr, "Writing text relocation:\n\n");
+
+ /* Assign each global symbol a sequence number, giving the order
+ in which `write_syms' will write it.
+ This is so we can store the proper symbolnum fields
+ in relocation entries we write. */
+
+ for (i = 0; i < TABSIZE; i++)
+ {
+ symbol *sp;
+ for (sp = symtab[i]; sp; sp = sp->link)
+ if (sp->referenced || sp->defined)
+ {
+ sp->def_count = count++;
+ /* Leave room for the reference required by N_INDR, if
+ necessary. */
+ if ((sp->defined & ~N_EXT) == N_INDR)
+ count++;
+ }
+ }
+ /* Correct, because if (relocatable_output), we will also be writing
+ whatever indirect blocks we have. */
+ if (count != defined_global_sym_count
+ + undefined_global_sym_count + global_indirect_count)
+ fatal ("internal error");
+
+ /* Write out the relocations of all files, remembered from copy_text. */
+
+ each_full_file (coptxtrel, 0);
+
+ if (trace_files)
+ fprintf (stderr, "\nWriting data relocation:\n\n");
+
+ each_full_file (copdatrel, 0);
+
+ if (trace_files)
+ fprintf (stderr, "\n");
+}
+
+void
+coptxtrel (entry)
+ struct file_entry *entry;
+{
+ register struct relocation_info *p, *end;
+ register int reloc = entry->text_start_address;
+
+ p = entry->textrel;
+ end = (struct relocation_info *) (entry->header.a_trsize + (char *) p);
+ while (p < end)
+ {
+ RELOC_ADDRESS(p) += reloc;
+ if (RELOC_EXTERN_P(p))
+ {
+ register int symindex = RELOC_SYMBOL(p) * sizeof (struct nlist);
+ symbol *symptr = ((symbol *)
+ (((struct nlist *)
+ (((char *)entry->symbols) + symindex))
+ ->n_un.n_name));
+
+ if (symindex >= entry->header.a_syms)
+ fatal_with_file ("relocation symbolnum out of range in ", entry);
+
+#ifdef N_INDR
+ /* Resolve indirection. */
+ if ((symptr->defined & ~N_EXT) == N_INDR)
+ symptr = (symbol *) symptr->value;
+#endif
+
+ /* If the symbol is now defined, change the external relocation
+ to an internal one. */
+
+ if (symptr->defined)
+ {
+ RELOC_EXTERN_P(p) = 0;
+ RELOC_SYMBOL(p) = (symptr->defined & N_TYPE);
+#ifdef RELOC_ADD_EXTRA
+ /* If we aren't going to be adding in the value in
+ memory on the next pass of the loader, then we need
+ to add it in from the relocation entry. Otherwise
+ the work we did in this pass is lost. */
+ if (!RELOC_MEMORY_ADD_P(p))
+ RELOC_ADD_EXTRA (p) += symptr->value;
+#endif
+ }
+ else
+ /* Debugger symbols come first, so have to start this
+ after them. */
+ RELOC_SYMBOL(p) = (symptr->def_count + nsyms
+ - defined_global_sym_count
+ - undefined_global_sym_count
+ - global_indirect_count);
+ }
+ p++;
+ }
+ mywrite (entry->textrel, 1, entry->header.a_trsize, outdesc);
+}
+
+void
+copdatrel (entry)
+ struct file_entry *entry;
+{
+ register struct relocation_info *p, *end;
+ /* Relocate the address of the relocation.
+ Old address is relative to start of the input file's data section.
+ New address is relative to start of the output file's data section. */
+ register int reloc = entry->data_start_address - text_size;
+
+ p = entry->datarel;
+ end = (struct relocation_info *) (entry->header.a_drsize + (char *) p);
+ while (p < end)
+ {
+ RELOC_ADDRESS(p) += reloc;
+ if (RELOC_EXTERN_P(p))
+ {
+ register int symindex = RELOC_SYMBOL(p) * sizeof (struct nlist);
+ symbol *symptr = ((symbol *)
+ (((struct nlist *)
+ (((char *)entry->symbols) + symindex))
+ ->n_un.n_name));
+ int symtype;
+
+ if (symindex >= entry->header.a_syms)
+ fatal_with_file ("relocation symbolnum out of range in ", entry);
+
+#ifdef N_INDR
+ /* Resolve indirection. */
+ if ((symptr->defined & ~N_EXT) == N_INDR)
+ symptr = (symbol *) symptr->value;
+#endif
+
+ symtype = symptr->defined & N_TYPE;
+
+ if (force_common_definition
+ || symtype == N_DATA || symtype == N_TEXT || symtype == N_ABS)
+ {
+ RELOC_EXTERN_P(p) = 0;
+ RELOC_SYMBOL(p) = symtype;
+ }
+ else
+ /* Debugger symbols come first, so have to start this
+ after them. */
+ RELOC_SYMBOL(p)
+ = (((symbol *)
+ (((struct nlist *)
+ (((char *)entry->symbols) + symindex))
+ ->n_un.n_name))
+ ->def_count
+ + nsyms - defined_global_sym_count
+ - undefined_global_sym_count
+ - global_indirect_count);
+ }
+ p++;
+ }
+ mywrite (entry->datarel, 1, entry->header.a_drsize, outdesc);
+}
+
+void write_file_syms ();
+void write_string_table ();
+
+/* Offsets and current lengths of symbol and string tables in output file. */
+
+int symbol_table_offset;
+int symbol_table_len;
+
+/* Address in output file where string table starts. */
+int string_table_offset;
+
+/* Offset within string table
+ where the strings in `strtab_vector' should be written. */
+int string_table_len;
+
+/* Total size of string table strings allocated so far,
+ including strings in `strtab_vector'. */
+int strtab_size;
+
+/* Vector whose elements are strings to be added to the string table. */
+char **strtab_vector;
+
+/* Vector whose elements are the lengths of those strings. */
+int *strtab_lens;
+
+/* Index in `strtab_vector' at which the next string will be stored. */
+int strtab_index;
+
+/* Add the string NAME to the output file string table.
+ Record it in `strtab_vector' to be output later.
+ Return the index within the string table that this string will have. */
+
+int
+assign_string_table_index (name)
+ char *name;
+{
+ register int index = strtab_size;
+ register int len = strlen (name) + 1;
+
+ strtab_size += len;
+ strtab_vector[strtab_index] = name;
+ strtab_lens[strtab_index++] = len;
+
+ return index;
+}
+
+FILE *outstream = (FILE *) 0;
+
+/* Write the contents of `strtab_vector' into the string table.
+ This is done once for each file's local&debugger symbols
+ and once for the global symbols. */
+
+void
+write_string_table ()
+{
+ register int i;
+
+ lseek (outdesc, string_table_offset + string_table_len, 0);
+
+ if (!outstream)
+ outstream = fdopen (outdesc, "w");
+
+ for (i = 0; i < strtab_index; i++)
+ {
+ fwrite (strtab_vector[i], 1, strtab_lens[i], outstream);
+ string_table_len += strtab_lens[i];
+ }
+
+ fflush (outstream);
+
+ /* Report I/O error such as disk full. */
+ if (ferror (outstream))
+ perror_name (output_filename);
+}
+
+/* Write the symbol table and string table of the output file. */
+
+void
+write_syms ()
+{
+ /* Number of symbols written so far. */
+ int syms_written = 0;
+ register int i;
+ register symbol *sp;
+
+ /* Buffer big enough for all the global symbols. One
+ extra struct for each indirect symbol to hold the extra reference
+ following. */
+ struct nlist *buf
+ = (struct nlist *) alloca ((defined_global_sym_count
+ + undefined_global_sym_count
+ + global_indirect_count)
+ * sizeof (struct nlist));
+ /* Pointer for storing into BUF. */
+ register struct nlist *bufp = buf;
+
+ /* Size of string table includes the bytes that store the size. */
+ strtab_size = sizeof strtab_size;
+
+ symbol_table_offset = N_SYMOFF (outheader);
+ symbol_table_len = 0;
+ string_table_offset = N_STROFF (outheader);
+ string_table_len = strtab_size;
+
+ if (strip_symbols == STRIP_ALL)
+ return;
+
+ /* Write the local symbols defined by the various files. */
+
+ each_file (write_file_syms, &syms_written);
+ file_close ();
+
+ /* Now write out the global symbols. */
+
+ /* Allocate two vectors that record the data to generate the string
+ table from the global symbols written so far. This must include
+ extra space for the references following indirect outputs. */
+
+ strtab_vector = (char **) alloca ((num_hash_tab_syms
+ + global_indirect_count) * sizeof (char *));
+ strtab_lens = (int *) alloca ((num_hash_tab_syms
+ + global_indirect_count) * sizeof (int));
+ strtab_index = 0;
+
+ /* Scan the symbol hash table, bucket by bucket. */
+
+ for (i = 0; i < TABSIZE; i++)
+ for (sp = symtab[i]; sp; sp = sp->link)
+ {
+ struct nlist nl;
+
+ nl.n_other = 0;
+ nl.n_desc = 0;
+
+ /* Compute a `struct nlist' for the symbol. */
+
+ if (sp->defined || sp->referenced)
+ {
+ /* common condition needs to be before undefined condition */
+ /* because unallocated commons are set undefined in */
+ /* digest_symbols */
+ if (sp->defined > 1) /* defined with known type */
+ {
+ /* If the target of an indirect symbol has been
+ defined and we are outputting an executable,
+ resolve the indirection; it's no longer needed */
+ if (!relocatable_output
+ && ((sp->defined & N_TYPE) == N_INDR)
+ && (((symbol *) sp->value)->defined > 1))
+ {
+ symbol *newsp = (symbol *) sp->value;
+ nl.n_type = newsp->defined;
+ nl.n_value = newsp->value;
+ }
+ else
+ {
+ nl.n_type = sp->defined;
+ if (sp->defined != (N_INDR | N_EXT))
+ nl.n_value = sp->value;
+ else
+ nl.n_value = 0;
+ }
+ }
+ else if (sp->max_common_size) /* defined as common but not allocated. */
+ {
+ /* happens only with -r and not -d */
+ /* write out a common definition */
+ nl.n_type = N_UNDF | N_EXT;
+ nl.n_value = sp->max_common_size;
+ }
+ else if (!sp->defined) /* undefined -- legit only if -r */
+ {
+ nl.n_type = N_UNDF | N_EXT;
+ nl.n_value = 0;
+ }
+ else
+ fatal ("internal error: %s defined in mysterious way", sp->name);
+
+ /* Allocate string table space for the symbol name. */
+
+ nl.n_un.n_strx = assign_string_table_index (sp->name);
+
+ /* Output to the buffer and count it. */
+
+ *bufp++ = nl;
+ syms_written++;
+ if (nl.n_type == (N_INDR | N_EXT))
+ {
+ struct nlist xtra_ref;
+ xtra_ref.n_type = N_EXT | N_UNDF;
+ xtra_ref.n_un.n_strx
+ = assign_string_table_index (((symbol *) sp->value)->name);
+ xtra_ref.n_other = 0;
+ xtra_ref.n_desc = 0;
+ xtra_ref.n_value = 0;
+ *bufp++ = xtra_ref;
+ syms_written++;
+ }
+ }
+ }
+
+ /* Output the buffer full of `struct nlist's. */
+
+ lseek (outdesc, symbol_table_offset + symbol_table_len, 0);
+ mywrite (buf, sizeof (struct nlist), bufp - buf, outdesc);
+ symbol_table_len += sizeof (struct nlist) * (bufp - buf);
+
+ if (syms_written != nsyms)
+ fatal ("internal error: wrong number of symbols written into output file", 0);
+
+ if (symbol_table_offset + symbol_table_len != string_table_offset)
+ fatal ("internal error: inconsistent symbol table length", 0);
+
+ /* Now the total string table size is known, so write it.
+ We are already positioned at the right place in the file. */
+
+ mywrite (&strtab_size, sizeof (int), 1, outdesc); /* we're at right place */
+
+ /* Write the strings for the global symbols. */
+
+ write_string_table ();
+}
+
+/* Write the local and debugger symbols of file ENTRY.
+ Increment *SYMS_WRITTEN_ADDR for each symbol that is written. */
+
+/* Note that we do not combine identical names of local symbols.
+ dbx or gdb would be confused if we did that. */
+
+void
+write_file_syms (entry, syms_written_addr)
+ struct file_entry *entry;
+ int *syms_written_addr;
+{
+ register struct nlist *p = entry->symbols;
+ register struct nlist *end = p + entry->header.a_syms / sizeof (struct nlist);
+
+ /* Buffer to accumulate all the syms before writing them.
+ It has one extra slot for the local symbol we generate here. */
+ struct nlist *buf
+ = (struct nlist *) alloca (entry->header.a_syms + sizeof (struct nlist));
+ register struct nlist *bufp = buf;
+
+ /* Upper bound on number of syms to be written here. */
+ int max_syms = (entry->header.a_syms / sizeof (struct nlist)) + 1;
+
+ /* Make tables that record, for each symbol, its name and its name's length.
+ The elements are filled in by `assign_string_table_index'. */
+
+ strtab_vector = (char **) alloca (max_syms * sizeof (char *));
+ strtab_lens = (int *) alloca (max_syms * sizeof (int));
+ strtab_index = 0;
+
+ /* Generate a local symbol for the start of this file's text. */
+
+ if (discard_locals != DISCARD_ALL)
+ {
+ struct nlist nl;
+
+ nl.n_type = N_FN | N_EXT;
+ nl.n_un.n_strx = assign_string_table_index (entry->local_sym_name);
+ nl.n_value = entry->text_start_address;
+ nl.n_desc = 0;
+ nl.n_other = 0;
+ *bufp++ = nl;
+ (*syms_written_addr)++;
+ entry->local_syms_offset = *syms_written_addr * sizeof (struct nlist);
+ }
+
+ /* Read the file's string table. */
+
+ entry->strings = (char *) alloca (entry->string_size);
+ read_entry_strings (file_open (entry), entry);
+
+ for (; p < end; p++)
+ {
+ register int type = p->n_type;
+ register int write = 0;
+
+ /* WRITE gets 1 for a non-global symbol that should be written. */
+
+
+ if (SET_ELEMENT_P (type)) /* This occurs even if global. These */
+ /* types of symbols are never written */
+ /* globally, though they are stored */
+ /* globally. */
+ write = relocatable_output;
+ else if (!(type & (N_STAB | N_EXT)))
+ /* ordinary local symbol */
+ write = ((discard_locals != DISCARD_ALL)
+ && !(discard_locals == DISCARD_L &&
+ (p->n_un.n_strx + entry->strings)[0] == LPREFIX)
+ && type != N_WARNING);
+ else if (!(type & N_EXT))
+ /* debugger symbol */
+ write = (strip_symbols == STRIP_NONE);
+
+ if (write)
+ {
+ /* If this symbol has a name,
+ allocate space for it in the output string table. */
+
+ if (p->n_un.n_strx)
+ p->n_un.n_strx = assign_string_table_index (p->n_un.n_strx
+ + entry->strings);
+
+ /* Output this symbol to the buffer and count it. */
+
+ *bufp++ = *p;
+ (*syms_written_addr)++;
+ }
+ }
+
+ /* All the symbols are now in BUF; write them. */
+
+ lseek (outdesc, symbol_table_offset + symbol_table_len, 0);
+ mywrite (buf, sizeof (struct nlist), bufp - buf, outdesc);
+ symbol_table_len += sizeof (struct nlist) * (bufp - buf);
+
+ /* Write the string-table data for the symbols just written,
+ using the data in vectors `strtab_vector' and `strtab_lens'. */
+
+ write_string_table ();
+ entry->strings = 0; /* Since it will dissapear anyway. */
+}
+
+/* Copy any GDB symbol segments from the input files to the output file.
+ The contents of the symbol segment is copied without change
+ except that we store some information into the beginning of it. */
+
+void write_file_symseg ();
+
+void
+write_symsegs ()
+{
+ each_file (write_file_symseg, 0);
+}
+
+void
+write_file_symseg (entry)
+ struct file_entry *entry;
+{
+ char buffer[4096];
+ struct symbol_root root;
+ int indesc;
+ int len;
+
+ if (entry->symseg_offset == 0)
+ return;
+
+ /* This entry has a symbol segment. Read the root of the segment. */
+
+ indesc = file_open (entry);
+ lseek (indesc, entry->symseg_offset + entry->starting_offset, 0);
+ if (sizeof root != read (indesc, &root, sizeof root))
+ fatal_with_file ("premature end of file in symbol segment of ", entry);
+
+ /* Store some relocation info into the root. */
+
+ root.ldsymoff = entry->local_syms_offset;
+ root.textrel = entry->text_start_address;
+ root.datarel = entry->data_start_address - entry->header.a_text;
+ root.bssrel = entry->bss_start_address
+ - entry->header.a_text - entry->header.a_data;
+ root.databeg = entry->data_start_address - root.datarel;
+ root.bssbeg = entry->bss_start_address - root.bssrel;
+
+ /* Write the modified root into the output file. */
+
+ mywrite (&root, sizeof root, 1, outdesc);
+
+ /* Copy the rest of the symbol segment unchanged. */
+
+ if (entry->superfile)
+ {
+ /* Library member: number of bytes to copy is determined
+ from the member's total size. */
+
+ int total = entry->total_size - entry->symseg_offset - sizeof root;
+
+ while (total > 0)
+ {
+ len = read (indesc, buffer, min (sizeof buffer, total));
+
+ if (len != min (sizeof buffer, total))
+ fatal_with_file ("premature end of file in symbol segment of ", entry);
+ total -= len;
+ mywrite (buffer, len, 1, outdesc);
+ }
+ }
+ else
+ {
+ /* A separate file: copy until end of file. */
+
+ while (len = read (indesc, buffer, sizeof buffer))
+ {
+ mywrite (buffer, len, 1, outdesc);
+ if (len < sizeof buffer)
+ break;
+ }
+ }
+
+ file_close ();
+}
+
+/* Create the symbol table entries for `etext', `edata' and `end'. */
+
+void
+symtab_init ()
+{
+#ifndef nounderscore
+ edata_symbol = getsym ("_edata");
+ etext_symbol = getsym ("_etext");
+ end_symbol = getsym ("_end");
+#else
+ edata_symbol = getsym ("edata");
+ etext_symbol = getsym ("etext");
+ end_symbol = getsym ("end");
+#endif
+
+#ifdef sun
+ {
+ symbol *dynamic_symbol = getsym ("__DYNAMIC");
+ dynamic_symbol->defined = N_ABS | N_EXT;
+ dynamic_symbol->referenced = 1;
+ dynamic_symbol->value = 0;
+ }
+#endif
+
+#ifdef sequent
+ {
+ symbol *_387_flt_symbol = getsym ("_387_flt");
+ _387_flt_symbol->defined = N_ABS | N_EXT;
+ _387_flt_symbol->referenced = 1;
+ _387_flt_symbol->value = 0;
+ }
+#endif
+
+ edata_symbol->defined = N_DATA | N_EXT;
+ etext_symbol->defined = N_TEXT | N_EXT;
+ end_symbol->defined = N_BSS | N_EXT;
+
+ edata_symbol->referenced = 1;
+ etext_symbol->referenced = 1;
+ end_symbol->referenced = 1;
+}
+
+/* Compute the hash code for symbol name KEY. */
+
+int
+hash_string (key)
+ char *key;
+{
+ register char *cp;
+ register int k;
+
+ cp = key;
+ k = 0;
+ while (*cp)
+ k = (((k << 1) + (k >> 14)) ^ (*cp++)) & 0x3fff;
+
+ return k;
+}
+
+/* Get the symbol table entry for the global symbol named KEY.
+ Create one if there is none. */
+
+symbol *
+getsym (key)
+ char *key;
+{
+ register int hashval;
+ register symbol *bp;
+
+ /* Determine the proper bucket. */
+
+ hashval = hash_string (key) % TABSIZE;
+
+ /* Search the bucket. */
+
+ for (bp = symtab[hashval]; bp; bp = bp->link)
+ if (! strcmp (key, bp->name))
+ return bp;
+
+ /* Nothing was found; create a new symbol table entry. */
+
+ bp = (symbol *) xmalloc (sizeof (symbol));
+ bp->refs = 0;
+ bp->name = (char *) xmalloc (strlen (key) + 1);
+ strcpy (bp->name, key);
+ bp->defined = 0;
+ bp->referenced = 0;
+ bp->trace = 0;
+ bp->value = 0;
+ bp->max_common_size = 0;
+ bp->warning = 0;
+ bp->undef_refs = 0;
+ bp->multiply_defined = 0;
+
+ /* Add the entry to the bucket. */
+
+ bp->link = symtab[hashval];
+ symtab[hashval] = bp;
+
+ ++num_hash_tab_syms;
+
+ return bp;
+}
+
+/* Like `getsym' but return 0 if the symbol is not already known. */
+
+symbol *
+getsym_soft (key)
+ char *key;
+{
+ register int hashval;
+ register symbol *bp;
+
+ /* Determine which bucket. */
+
+ hashval = hash_string (key) % TABSIZE;
+
+ /* Search the bucket. */
+
+ for (bp = symtab[hashval]; bp; bp = bp->link)
+ if (! strcmp (key, bp->name))
+ return bp;
+
+ return 0;
+}
+
+/* Report a fatal error.
+ STRING is a printf format string and ARG is one arg for it. */
+
+void
+fatal (string, arg)
+ char *string, *arg;
+{
+ fprintf (stderr, "ld: ");
+ fprintf (stderr, string, arg);
+ fprintf (stderr, "\n");
+ exit (1);
+}
+
+/* Report a fatal error. The error message is STRING
+ followed by the filename of ENTRY. */
+
+void
+fatal_with_file (string, entry)
+ char *string;
+ struct file_entry *entry;
+{
+ fprintf (stderr, "ld: ");
+ fprintf (stderr, string);
+ print_file_name (entry, stderr);
+ fprintf (stderr, "\n");
+ exit (1);
+}
+
+/* Report a fatal error using the message for the last failed system call,
+ followed by the string NAME. */
+
+void
+perror_name (name)
+ char *name;
+{
+ extern int errno;
+ char *s;
+
+ if (errno < sys_nerr)
+ s = concat ("", sys_errlist[errno], " for %s");
+ else
+ s = "cannot open %s";
+ fatal (s, name);
+}
+
+/* Report a fatal error using the message for the last failed system call,
+ followed by the name of file ENTRY. */
+
+void
+perror_file (entry)
+ struct file_entry *entry;
+{
+ extern int errno;
+ char *s;
+
+ if (errno < sys_nerr)
+ s = concat ("", sys_errlist[errno], " for ");
+ else
+ s = "cannot open ";
+ fatal_with_file (s, entry);
+}
+
+/* Report a nonfatal error.
+ STRING is a format for printf, and ARG1 ... ARG3 are args for it. */
+
+void
+error (string, arg1, arg2, arg3)
+ char *string, *arg1, *arg2, *arg3;
+{
+ fprintf (stderr, "%s: ", progname);
+ fprintf (stderr, string, arg1, arg2, arg3);
+ fprintf (stderr, "\n");
+}
+
+
+/* Output COUNT*ELTSIZE bytes of data at BUF
+ to the descriptor DESC. */
+
+void
+mywrite (buf, count, eltsize, desc)
+ char *buf;
+ int count;
+ int eltsize;
+ int desc;
+{
+ register int val;
+ register int bytes = count * eltsize;
+
+ while (bytes > 0)
+ {
+ val = write (desc, buf, bytes);
+ if (val <= 0)
+ perror_name (output_filename);
+ buf += val;
+ bytes -= val;
+ }
+}
+
+/* Output PADDING zero-bytes to descriptor OUTDESC.
+ PADDING may be negative; in that case, do nothing. */
+
+void
+padfile (padding, outdesc)
+ int padding;
+ int outdesc;
+{
+ register char *buf;
+ if (padding <= 0)
+ return;
+
+ buf = (char *) alloca (padding);
+ bzero (buf, padding);
+ mywrite (buf, padding, 1, outdesc);
+}
+
+/* Return a newly-allocated string
+ whose contents concatenate the strings S1, S2, S3. */
+
+char *
+concat (s1, s2, s3)
+ char *s1, *s2, *s3;
+{
+ register int len1 = strlen (s1), len2 = strlen (s2), len3 = strlen (s3);
+ register char *result = (char *) xmalloc (len1 + len2 + len3 + 1);
+
+ strcpy (result, s1);
+ strcpy (result + len1, s2);
+ strcpy (result + len1 + len2, s3);
+ result[len1 + len2 + len3] = 0;
+
+ return result;
+}
+
+/* Parse the string ARG using scanf format FORMAT, and return the result.
+ If it does not parse, report fatal error
+ generating the error message using format string ERROR and ARG as arg. */
+
+int
+parse (arg, format, error)
+ char *arg, *format;
+{
+ int x;
+ if (1 != sscanf (arg, format, &x))
+ fatal (error, arg);
+ return x;
+}
+
+/* Like malloc but get fatal error if memory is exhausted. */
+
+int
+xmalloc (size)
+ int size;
+{
+ register int result = malloc (size);
+ if (!result)
+ fatal ("virtual memory exhausted", 0);
+ return result;
+}
+
+/* Like realloc but get fatal error if memory is exhausted. */
+
+int
+xrealloc (ptr, size)
+ char *ptr;
+ int size;
+{
+ register int result = realloc (ptr, size);
+ if (!result)
+ fatal ("virtual memory exhausted", 0);
+ return result;
+}
+
+#ifdef USG
+
+void
+bzero (p, n)
+ char *p;
+{
+ memset (p, 0, n);
+}
+
+void
+bcopy (from, to, n)
+ char *from, *to;
+{
+ memcpy (to, from, n);
+}
+
+getpagesize ()
+{
+ return (4096);
+}
+
+#endif
+
+#if defined(sun) && (TARGET == SUN4)
+
+/* Don't use local pagesize to build for Sparc. */
+
+getpagesize ()
+{
+ return (8192);
+}
+#endif
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