61f9ce8d32
warning handling and allows for link-time warnings with a modified version of gas. Note: Not all of the newer bits were updated such as some of the non-x86 machine-dependant code is relevant to FreeBSD right now. Obtained from: NetBSD
688 lines
24 KiB
C
688 lines
24 KiB
C
/*
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* $Id: ld.h,v 1.11 1994/06/15 22:39:46 rich Exp $
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*/
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/*-
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* This code is derived from software copyrighted by the Free Software
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* Foundation.
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*
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* Modified 1991 by Donn Seeley at UUNET Technologies, Inc.
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*/
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#define SUN_COMPAT
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#ifndef N_SIZE
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#define N_SIZE 0xc
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#endif
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#ifndef min
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#define min(a,b) ((a) < (b) ? (a) : (b))
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#endif
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#ifndef __P
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#ifndef __STDC__
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#define __P(a) ()
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#else
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#define __P(a) a
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#endif
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#endif
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/* If compiled with GNU C, use the built-in alloca */
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#if defined(__GNUC__) || defined(sparc)
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#define alloca __builtin_alloca
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#endif
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#include "md.h"
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#include "link.h"
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/* Macro to control the number of undefined references printed */
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#define MAX_UREFS_PRINTED 10
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/* Align to power-of-two boundary */
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#define PALIGN(x,p) (((x) + (u_long)(p) - 1) & (-(u_long)(p)))
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/* Align to machine dependent boundary */
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#define MALIGN(x) PALIGN(x,MAX_ALIGNMENT)
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/* Define this to specify the default executable format. */
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#ifndef DEFAULT_MAGIC
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#ifdef __FreeBSD__
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#define DEFAULT_MAGIC QMAGIC
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extern int netzmagic;
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#else
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#define DEFAULT_MAGIC ZMAGIC
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#endif
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#endif
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/*
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* Ok. Following are the relocation information macros. If your
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* system should not be able to use the default set (below), you must
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* define the following:
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* relocation_info: This must be typedef'd (or #define'd) to the type
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* of structure that is stored in the relocation info section of your
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* a.out files. Often this is defined in the a.out.h for your system.
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*
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* RELOC_ADDRESS (rval): Offset into the current section of the
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* <whatever> to be relocated. *Must be an lvalue*.
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*
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* RELOC_EXTERN_P (rval): Is this relocation entry based on an
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* external symbol (1), or was it fully resolved upon entering the
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* loader (0) in which case some combination of the value in memory
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* (if RELOC_MEMORY_ADD_P) and the extra (if RELOC_ADD_EXTRA) contains
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* what the value of the relocation actually was. *Must be an lvalue*.
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*
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* RELOC_TYPE (rval): If this entry was fully resolved upon
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* entering the loader, what type should it be relocated as?
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*
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* RELOC_SYMBOL (rval): If this entry was not fully resolved upon
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* entering the loader, what is the index of it's symbol in the symbol
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* table? *Must be a lvalue*.
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*
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* RELOC_MEMORY_ADD_P (rval): This should return true if the final
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* relocation value output here should be added to memory, or if the
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* section of memory described should simply be set to the relocation
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* value.
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*
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* RELOC_ADD_EXTRA (rval): (Optional) This macro, if defined, gives
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* an extra value to be added to the relocation value based on the
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* individual relocation entry. *Must be an lvalue if defined*.
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*
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* RELOC_PCREL_P (rval): True if the relocation value described is
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* pc relative.
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*
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* RELOC_VALUE_RIGHTSHIFT (rval): Number of bits right to shift the
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* final relocation value before putting it where it belongs.
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*
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* RELOC_TARGET_SIZE (rval): log to the base 2 of the number of
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* bytes of size this relocation entry describes; 1 byte == 0; 2 bytes
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* == 1; 4 bytes == 2, and etc. This is somewhat redundant (we could
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* do everything in terms of the bit operators below), but having this
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* macro could end up producing better code on machines without fancy
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* bit twiddling. Also, it's easier to understand/code big/little
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* endian distinctions with this macro.
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*
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* RELOC_TARGET_BITPOS (rval): The starting bit position within the
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* object described in RELOC_TARGET_SIZE in which the relocation value
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* will go.
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*
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* RELOC_TARGET_BITSIZE (rval): How many bits are to be replaced
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* with the bits of the relocation value. It may be assumed by the
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* code that the relocation value will fit into this many bits. This
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* may be larger than RELOC_TARGET_SIZE if such be useful.
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*
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*
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* Things I haven't implemented
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* ----------------------------
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*
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* Values for RELOC_TARGET_SIZE other than 0, 1, or 2.
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*
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* Pc relative relocation for External references.
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*
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*
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*/
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/* Default macros */
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#ifndef RELOC_ADDRESS
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#define RELOC_ADDRESS(r) ((r)->r_address)
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#define RELOC_EXTERN_P(r) ((r)->r_extern)
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#define RELOC_TYPE(r) ((r)->r_symbolnum)
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#define RELOC_SYMBOL(r) ((r)->r_symbolnum)
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#define RELOC_MEMORY_SUB_P(r) 0
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#define RELOC_MEMORY_ADD_P(r) 1
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#undef RELOC_ADD_EXTRA
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#define RELOC_PCREL_P(r) ((r)->r_pcrel)
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#define RELOC_VALUE_RIGHTSHIFT(r) 0
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#if defined(RTLD) && defined(SUN_COMPAT)
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#define RELOC_TARGET_SIZE(r) (2) /* !!!!! Sun BUG compatible */
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#else
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#define RELOC_TARGET_SIZE(r) ((r)->r_length)
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#endif
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#define RELOC_TARGET_BITPOS(r) 0
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#define RELOC_TARGET_BITSIZE(r) 32
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#define RELOC_JMPTAB_P(r) ((r)->r_jmptable)
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#define RELOC_BASEREL_P(r) ((r)->r_baserel)
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#define RELOC_RELATIVE_P(r) ((r)->r_relative)
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#define RELOC_COPY_P(r) ((r)->r_copy)
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#define RELOC_LAZY_P(r) ((r)->r_jmptable)
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#define CHECK_GOT_RELOC(r) ((r)->r_pcrel)
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#endif
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/*
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* Internal representation of relocation types
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*/
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#define RELTYPE_EXTERN 1
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#define RELTYPE_JMPSLOT 2
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#define RELTYPE_BASEREL 4
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#define RELTYPE_RELATIVE 8
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#define RELTYPE_COPY 16
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#ifdef nounderscore
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#define LPREFIX '.'
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#else
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#define LPREFIX 'L'
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#endif
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#ifndef TEXT_START
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#define TEXT_START(x) N_TXTADDR(x)
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#endif
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#ifndef DATA_START
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#define DATA_START(x) N_DATADDR(x)
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#endif
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/* If a this type of symbol is encountered, its name is a warning
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message to print each time the symbol referenced by the next symbol
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table entry is referenced.
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This feature may be used to allow backwards compatibility with
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certain functions (eg. gets) but to discourage programmers from
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their use.
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So if, for example, you wanted to have ld print a warning whenever
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the function "gets" was used in their C program, you would add the
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following to the assembler file in which gets is defined:
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.stabs "Obsolete function \"gets\" referenced",30,0,0,0
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.stabs "_gets",1,0,0,0
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These .stabs do not necessarily have to be in the same file as the
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gets function, they simply must exist somewhere in the compilation. */
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#ifndef N_WARNING
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#define N_WARNING 0x1E /* Warning message to print if symbol
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included */
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#endif /* This is input to ld */
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/* Special global symbol types understood by GNU LD. */
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/* The following type indicates the definition of a symbol as being
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an indirect reference to another symbol. The other symbol
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appears as an undefined reference, immediately following this symbol.
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Indirection is asymmetrical. The other symbol's value will be used
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to satisfy requests for the indirect symbol, but not vice versa.
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If the other symbol does not have a definition, libraries will
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be searched to find a definition.
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So, for example, the following two lines placed in an assembler
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input file would result in an object file which would direct gnu ld
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to resolve all references to symbol "foo" as references to symbol
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"bar".
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.stabs "_foo",11,0,0,0
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.stabs "_bar",1,0,0,0
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Note that (11 == (N_INDR | N_EXT)) and (1 == (N_UNDF | N_EXT)). */
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#ifndef N_INDR
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#define N_INDR 0xa
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#endif
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/* The following symbols refer to set elements. These are expected
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only in input to the loader; they should not appear in loader
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output (unless relocatable output is requested). To be recognized
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by the loader, the input symbols must have their N_EXT bit set.
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All the N_SET[ATDB] symbols with the same name form one set. The
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loader collects all of these elements at load time and outputs a
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vector for each name.
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Space (an array of 32 bit words) is allocated for the set in the
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data section, and the n_value field of each set element value is
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stored into one word of the array.
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The first word of the array is the length of the set (number of
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elements). The last word of the vector is set to zero for possible
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use by incremental loaders. The array is ordered by the linkage
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order; the first symbols which the linker encounters will be first
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in the array.
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In C syntax this looks like:
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struct set_vector {
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unsigned int length;
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unsigned int vector[length];
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unsigned int always_zero;
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};
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Before being placed into the array, each element is relocated
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according to its type. This allows the loader to create an array
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of pointers to objects automatically. N_SETA type symbols will not
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be relocated.
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The address of the set is made into an N_SETV symbol
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whose name is the same as the name of the set.
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This symbol acts like a N_DATA global symbol
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in that it can satisfy undefined external references.
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For the purposes of determining whether or not to load in a library
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file, set element definitions are not considered "real
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definitions"; they will not cause the loading of a library
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member.
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If relocatable output is requested, none of this processing is
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done. The symbols are simply relocated and passed through to the
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output file.
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So, for example, the following three lines of assembler code
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(whether in one file or scattered between several different ones)
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will produce a three element vector (total length is five words;
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see above), referenced by the symbol "_xyzzy", which will have the
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addresses of the routines _init1, _init2, and _init3.
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*NOTE*: If symbolic addresses are used in the n_value field of the
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defining .stabs, those symbols must be defined in the same file as
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that containing the .stabs.
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.stabs "_xyzzy",23,0,0,_init1
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.stabs "_xyzzy",23,0,0,_init2
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.stabs "_xyzzy",23,0,0,_init3
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Note that (23 == (N_SETT | N_EXT)). */
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#ifndef N_SETA
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#define N_SETA 0x14 /* Absolute set element symbol */
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#endif /* This is input to LD, in a .o file. */
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#ifndef N_SETT
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#define N_SETT 0x16 /* Text set element symbol */
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#endif /* This is input to LD, in a .o file. */
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#ifndef N_SETD
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#define N_SETD 0x18 /* Data set element symbol */
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#endif /* This is input to LD, in a .o file. */
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#ifndef N_SETB
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#define N_SETB 0x1A /* Bss set element symbol */
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#endif /* This is input to LD, in a .o file. */
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/* Macros dealing with the set element symbols defined in a.out.h */
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#define SET_ELEMENT_P(x) ((x) >= N_SETA && (x) <= (N_SETB|N_EXT))
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#define TYPE_OF_SET_ELEMENT(x) ((x) - N_SETA + N_ABS)
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#ifndef N_SETV
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#define N_SETV 0x1C /* Pointer to set vector in data area. */
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#endif /* This is output from LD. */
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#ifndef __GNU_STAB__
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/* Line number for the data section. This is to be used to describe
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the source location of a variable declaration. */
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#ifndef N_DSLINE
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#define N_DSLINE (N_SLINE+N_DATA-N_TEXT)
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#endif
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/* Line number for the bss section. This is to be used to describe
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the source location of a variable declaration. */
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#ifndef N_BSLINE
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#define N_BSLINE (N_SLINE+N_BSS-N_TEXT)
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#endif
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#endif /* not __GNU_STAB__ */
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typedef struct localsymbol {
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struct nzlist nzlist; /* n[z]list from file */
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struct glosym *symbol; /* Corresponding global symbol,
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if any */
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struct localsymbol *next; /* List of definitions */
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struct file_entry *entry; /* Backpointer to file */
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long gotslot_offset; /* Position in GOT, if any */
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int symbolnum; /* Position in output nlist */
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int flags;
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#define LS_L_SYMBOL 1 /* Local symbol starts with an `L' */
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#define LS_WRITE 2 /* Symbol goes in output symtable */
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#define LS_RENAME 4 /* xlat name to `<file>.<name>' */
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#define LS_GOTSLOTCLAIMED 8 /* This symbol has a GOT entry */
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#define LS_WARNING 16 /* Second part of a N_WARNING duo */
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} localsymbol_t;
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/* Symbol table */
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/*
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* Global symbol data is recorded in these structures, one for each global
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* symbol. They are found via hashing in 'symtab', which points to a vector
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* of buckets. Each bucket is a chain of these structures through the link
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* field.
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*/
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typedef struct glosym {
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struct glosym *link; /* Next symbol hash bucket. */
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char *name; /* Name of this symbol. */
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long value; /* Value of this symbol */
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localsymbol_t *refs; /* Chain of local symbols from object
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files pertaining to this global
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symbol */
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localsymbol_t *sorefs;/* Same for local symbols from shared
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object files. */
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char *warning; /* message, from N_WARNING nlists */
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int common_size; /* Common size */
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int symbolnum; /* Symbol index in output symbol table */
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int rrs_symbolnum; /* Symbol index in RRS symbol table */
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localsymbol_t *def_lsp; /* The local symbol that gave this
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global symbol its definition */
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char defined; /* Definition of this symbol */
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char so_defined; /* Definition of this symbol in a shared
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object. These go into the RRS symbol table */
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u_char undef_refs; /* Count of number of "undefined"
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messages printed for this symbol */
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u_char mult_defs; /* Same for "multiply defined" symbols */
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struct glosym *alias; /* For symbols of type N_INDR, this
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points at the real symbol. */
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int setv_count; /* Number of elements in N_SETV symbols */
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int size; /* Size of this symbol (either from N_SIZE
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symbols or a from shared object's RRS */
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int aux; /* Auxiliary type information conveyed in
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the `n_other' field of nlists */
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/* The offset into one of the RRS tables, -1 if not used */
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long jmpslot_offset;
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long gotslot_offset;
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long flags;
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#define GS_DEFINED 1 /* Symbol has definition (notyetused)*/
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#define GS_REFERENCED 2 /* Symbol is referred to by something
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interesting */
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#define GS_TRACE 4 /* Symbol will be traced */
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#define GS_JMPSLOTCLAIMED 8 /* */
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#define GS_GOTSLOTCLAIMED 0x10 /* Some state bits concerning */
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#define GS_CPYRELOCRESERVED 0x20 /* entries in GOT and PLT tables */
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#define GS_CPYRELOCCLAIMED 0x40 /* */
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} symbol;
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/* Number of buckets in symbol hash table */
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#define SYMTABSIZE 1009
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/* The symbol hash table: a vector of SYMTABSIZE pointers to struct glosym. */
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extern symbol *symtab[];
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#define FOR_EACH_SYMBOL(i,sp) { \
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int i; \
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for (i = 0; i < SYMTABSIZE; i++) { \
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register symbol *sp; \
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for (sp = symtab[i]; sp; sp = sp->link)
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#define END_EACH_SYMBOL }}
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/* # of global symbols referenced and not defined. */
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extern int undefined_global_sym_count;
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/* # of undefined symbols referenced by shared objects */
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extern int undefined_shobj_sym_count;
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/* # of multiply defined symbols. */
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||
extern int multiple_def_count;
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/* # of common symbols. */
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extern int common_defined_global_count;
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/* # of warning symbols encountered. */
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extern int warn_sym_count;
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extern int list_warning_symbols;
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/*
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* Define a linked list of strings which define symbols which should be
|
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* treated as set elements even though they aren't. Any symbol with a prefix
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* matching one of these should be treated as a set element.
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*
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* This is to make up for deficiencies in many assemblers which aren't willing
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* to pass any stabs through to the loader which they don't understand.
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*/
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struct string_list_element {
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char *str;
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struct string_list_element *next;
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};
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extern symbol *entry_symbol; /* the entry symbol, if any */
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extern symbol *edata_symbol; /* the symbol _edata */
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extern symbol *etext_symbol; /* the symbol _etext */
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||
extern symbol *end_symbol; /* the symbol _end */
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extern symbol *got_symbol; /* the symbol __GLOBAL_OFFSET_TABLE_ */
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||
extern symbol *dynamic_symbol; /* the symbol __DYNAMIC */
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/*
|
||
* Each input file, and each library member ("subfile") being loaded, has a
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||
* `file_entry' structure for it.
|
||
*
|
||
* For files specified by command args, these are contained in the vector which
|
||
* `file_table' points to.
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||
*
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||
* For library members, they are dynamically allocated, and chained through the
|
||
* `chain' field. The chain is found in the `subfiles' field of the
|
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* `file_entry'. The `file_entry' objects for the members have `superfile'
|
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* fields pointing to the one for the library.
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*/
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struct file_entry {
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char *filename; /* Name of this file. */
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/*
|
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* Name to use for the symbol giving address of text start Usually
|
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* the same as filename, but for a file spec'd with -l this is the -l
|
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* switch itself rather than the filename.
|
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*/
|
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char *local_sym_name;
|
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struct exec header; /* The file's a.out header. */
|
||
localsymbol_t *symbols; /* Symbol table of the file. */
|
||
int nsymbols; /* Number of symbols in above array. */
|
||
int string_size; /* Size in bytes of string table. */
|
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char *strings; /* Pointer to the string table when
|
||
in core, NULL otherwise */
|
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int strings_offset; /* Offset of string table,
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(normally N_STROFF() + 4) */
|
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/*
|
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* Next two used only if `relocatable_output' or if needed for
|
||
* output of undefined reference line numbers.
|
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*/
|
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struct relocation_info *textrel; /* Text relocations */
|
||
int ntextrel; /* # of text relocations */
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||
struct relocation_info *datarel; /* Data relocations */
|
||
int ndatarel; /* # of data relocations */
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/*
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* Relation of this file's segments to the output file.
|
||
*/
|
||
int text_start_address; /* Start of this file's text segment
|
||
in the output file core image. */
|
||
int data_start_address; /* Start of this file's data segment
|
||
in the output file core image. */
|
||
int bss_start_address; /* Start of this file's bss segment
|
||
in the output file core image. */
|
||
struct file_entry *subfiles; /* For a library, points to chain of
|
||
entries for the library members. */
|
||
struct file_entry *superfile; /* For library member, points to the
|
||
library's own entry. */
|
||
struct file_entry *chain; /* For library member, points to next
|
||
entry for next member. */
|
||
int starting_offset; /* For a library member, offset of the
|
||
member within the archive. Zero for
|
||
files that are not library members.*/
|
||
int total_size; /* Size of contents of this file,
|
||
if library member. */
|
||
#ifdef SUN_COMPAT
|
||
struct file_entry *silly_archive;/* For shared libraries which have
|
||
a .sa companion */
|
||
#endif
|
||
int lib_major, lib_minor; /* Version numbers of a shared object */
|
||
|
||
int flags;
|
||
#define E_IS_LIBRARY 1 /* File is a an archive */
|
||
#define E_HEADER_VALID 2 /* File's header has been read */
|
||
#define E_SEARCH_DIRS 4 /* Search directories for file */
|
||
#define E_SEARCH_DYNAMIC 8 /* Search for shared libs allowed */
|
||
#define E_JUST_SYMS 0x10 /* File is used for incremental load */
|
||
#define E_DYNAMIC 0x20 /* File is a shared object */
|
||
#define E_SCRAPPED 0x40 /* Ignore this file */
|
||
#define E_SYMBOLS_USED 0x80 /* Symbols from this entry were used */
|
||
#define E_SECONDCLASS 0x100 /* Shared object is a subsidiary */
|
||
};
|
||
|
||
/*
|
||
* Section start addresses.
|
||
*/
|
||
extern int text_size; /* total size of text. */
|
||
extern int text_start; /* start of text */
|
||
extern int text_pad; /* clear space between text and data */
|
||
extern int data_size; /* total size of data. */
|
||
extern int data_start; /* start of data */
|
||
extern int data_pad; /* part of bss segment within data */
|
||
|
||
extern int bss_size; /* total size of bss. */
|
||
extern int bss_start; /* start of bss */
|
||
|
||
extern int text_reloc_size; /* total size of text relocation. */
|
||
extern int data_reloc_size; /* total size of data relocation. */
|
||
|
||
/*
|
||
* Runtime Relocation Section (RRS).
|
||
* This describes the data structures that go into the output text and data
|
||
* segments to support the run-time linker. The RRS can be empty (plain old
|
||
* static linking), or can just exist of GOT and PLT entries (in case of
|
||
* statically linked PIC code).
|
||
*/
|
||
extern int rrs_section_type; /* What's in the RRS section */
|
||
#define RRS_NONE 0
|
||
#define RRS_PARTIAL 1
|
||
#define RRS_FULL 2
|
||
extern int rrs_text_size; /* Size of RRS text additions */
|
||
extern int rrs_text_start; /* Location of above */
|
||
extern int rrs_data_size; /* Size of RRS data additions */
|
||
extern int rrs_data_start; /* Location of above */
|
||
|
||
/* Version number to put in __DYNAMIC (set by -V) */
|
||
extern int soversion;
|
||
#ifndef DEFAULT_SOVERSION
|
||
#define DEFAULT_SOVERSION LD_VERSION_BSD
|
||
#endif
|
||
|
||
extern int pc_relocation; /* Current PC reloc value */
|
||
|
||
extern int number_of_shobjs; /* # of shared objects linked in */
|
||
|
||
/* Current link mode */
|
||
extern int link_mode;
|
||
#define DYNAMIC 1 /* Consider shared libraries */
|
||
#define SYMBOLIC 2 /* Force symbolic resolution */
|
||
#define FORCEARCHIVE 4 /* Force inclusion of all members
|
||
of archives */
|
||
#define SHAREABLE 8 /* Build a shared object */
|
||
#define SILLYARCHIVE 16 /* Process .sa companions, if any */
|
||
|
||
extern int outdesc; /* Output file descriptor. */
|
||
extern struct exec outheader; /* Output file header. */
|
||
extern int magic; /* Output file magic. */
|
||
extern int oldmagic;
|
||
extern int relocatable_output;
|
||
|
||
/* Size of a page. */
|
||
extern int page_size;
|
||
|
||
extern char **search_dirs; /* Directories to search for libraries. */
|
||
extern int n_search_dirs; /* Length of above. */
|
||
|
||
extern int write_map; /* write a load map (`-M') */
|
||
|
||
void read_header __P((int, struct file_entry *));
|
||
void read_entry_symbols __P((int, struct file_entry *));
|
||
void read_entry_strings __P((int, struct file_entry *));
|
||
void read_entry_relocation __P((int, struct file_entry *));
|
||
void enter_file_symbols __P((struct file_entry *));
|
||
void read_file_symbols __P((struct file_entry *));
|
||
int set_element_prefixed_p __P((char *));
|
||
int text_offset __P((struct file_entry *));
|
||
int file_open __P((struct file_entry *));
|
||
void each_file __P((void (*)(), void *));
|
||
void each_full_file __P((void (*)(), void *));
|
||
unsigned long check_each_file __P((unsigned long (*)(), void *));
|
||
void mywrite __P((void *, int, int, int));
|
||
void padfile __P((int,int));
|
||
|
||
/* In warnings.c: */
|
||
void perror_name __P((char *));
|
||
void perror_file __P((struct file_entry *));
|
||
void print_symbols __P((FILE *));
|
||
char *get_file_name __P((struct file_entry *));
|
||
void print_file_name __P((struct file_entry *, FILE *));
|
||
void prline_file_name __P((struct file_entry *, FILE *));
|
||
int do_warnings __P((FILE *));
|
||
|
||
/* In etc.c: */
|
||
void *xmalloc __P((size_t));
|
||
void *xrealloc __P((void *, size_t));
|
||
char *concat __P((const char *, const char *, const char *));
|
||
|
||
/* In symbol.c: */
|
||
void symtab_init __P((int));
|
||
symbol *getsym __P((char *)), *getsym_soft __P((char *));
|
||
|
||
/* In lib.c: */
|
||
void search_library __P((int, struct file_entry *));
|
||
void read_shared_object __P((int, struct file_entry *));
|
||
int findlib __P((struct file_entry *));
|
||
|
||
/* In shlib.c: */
|
||
char *findshlib __P((char *, int *, int *, int));
|
||
void add_search_dir __P((char *));
|
||
void add_search_path __P((char *));
|
||
void std_search_path __P((void));
|
||
int getdewey __P((int[], char *));
|
||
int cmpndewey __P((int[], int, int[], int));
|
||
|
||
/* In rrs.c: */
|
||
void init_rrs __P((void));
|
||
int rrs_add_shobj __P((struct file_entry *));
|
||
void alloc_rrs_reloc __P((struct file_entry *, symbol *));
|
||
void alloc_rrs_segment_reloc __P((struct file_entry *, struct relocation_info *));
|
||
void alloc_rrs_jmpslot __P((struct file_entry *, symbol *));
|
||
void alloc_rrs_gotslot __P((struct file_entry *, struct relocation_info *, localsymbol_t *));
|
||
void alloc_rrs_cpy_reloc __P((struct file_entry *, symbol *));
|
||
|
||
int claim_rrs_reloc __P((struct file_entry *, struct relocation_info *, symbol *, long *));
|
||
long claim_rrs_jmpslot __P((struct file_entry *, struct relocation_info *, symbol *, long));
|
||
long claim_rrs_gotslot __P((struct file_entry *, struct relocation_info *, struct localsymbol *, long));
|
||
long claim_rrs_internal_gotslot __P((struct file_entry *, struct relocation_info *, struct localsymbol *, long));
|
||
void claim_rrs_cpy_reloc __P((struct file_entry *, struct relocation_info *, symbol *));
|
||
void claim_rrs_segment_reloc __P((struct file_entry *, struct relocation_info *));
|
||
void consider_rrs_section_lengths __P((void));
|
||
void relocate_rrs_addresses __P((void));
|
||
void write_rrs __P((void));
|
||
|
||
/* In <md>.c */
|
||
void md_init_header __P((struct exec *, int, int));
|
||
long md_get_addend __P((struct relocation_info *, unsigned char *));
|
||
void md_relocate __P((struct relocation_info *, long, unsigned char *, int));
|
||
void md_make_jmpslot __P((jmpslot_t *, long, long));
|
||
void md_fix_jmpslot __P((jmpslot_t *, long, u_long));
|
||
int md_make_reloc __P((struct relocation_info *, struct relocation_info *, int));
|
||
void md_make_jmpreloc __P((struct relocation_info *, struct relocation_info *, int));
|
||
void md_make_gotreloc __P((struct relocation_info *, struct relocation_info *, int));
|
||
void md_make_copyreloc __P((struct relocation_info *, struct relocation_info *));
|
||
void md_set_breakpoint __P((long, long *));
|
||
|
||
#ifdef NEED_SWAP
|
||
void md_swapin_exec_hdr __P((struct exec *));
|
||
void md_swapout_exec_hdr __P((struct exec *));
|
||
void md_swapin_reloc __P((struct relocation_info *, int));
|
||
void md_swapout_reloc __P((struct relocation_info *, int));
|
||
void md_swapout_jmpslot __P((jmpslot_t *, int));
|
||
|
||
/* In xbits.c: */
|
||
void swap_longs __P((long *, int));
|
||
void swap_symbols __P((struct nlist *, int));
|
||
void swap_zsymbols __P((struct nzlist *, int));
|
||
void swap_ranlib_hdr __P((struct ranlib *, int));
|
||
void swap__dynamic __P((struct link_dynamic *));
|
||
void swap_section_dispatch_table __P((struct section_dispatch_table *));
|
||
void swap_so_debug __P((struct so_debug *));
|
||
void swapin_sod __P((struct sod *, int));
|
||
void swapout_sod __P((struct sod *, int));
|
||
void swapout_fshash __P((struct fshash *, int));
|
||
#endif
|