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152 lines
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152 lines
7.7 KiB
Plaintext
@c This summary of BFD is shared by the BFD and LD docs.
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@c Copyright 2012
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@c Free Software Foundation, Inc.
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When an object file is opened, BFD subroutines automatically determine
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the format of the input object file. They then build a descriptor in
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memory with pointers to routines that will be used to access elements of
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the object file's data structures.
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As different information from the object files is required,
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BFD reads from different sections of the file and processes them.
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For example, a very common operation for the linker is processing symbol
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tables. Each BFD back end provides a routine for converting
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between the object file's representation of symbols and an internal
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canonical format. When the linker asks for the symbol table of an object
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file, it calls through a memory pointer to the routine from the
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relevant BFD back end which reads and converts the table into a canonical
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form. The linker then operates upon the canonical form. When the link is
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finished and the linker writes the output file's symbol table,
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another BFD back end routine is called to take the newly
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created symbol table and convert it into the chosen output format.
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@menu
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* BFD information loss:: Information Loss
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* Canonical format:: The BFD canonical object-file format
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@end menu
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@node BFD information loss
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@subsection Information Loss
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@emph{Information can be lost during output.} The output formats
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supported by BFD do not provide identical facilities, and
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information which can be described in one form has nowhere to go in
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another format. One example of this is alignment information in
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@code{b.out}. There is nowhere in an @code{a.out} format file to store
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alignment information on the contained data, so when a file is linked
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from @code{b.out} and an @code{a.out} image is produced, alignment
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information will not propagate to the output file. (The linker will
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still use the alignment information internally, so the link is performed
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correctly).
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Another example is COFF section names. COFF files may contain an
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unlimited number of sections, each one with a textual section name. If
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the target of the link is a format which does not have many sections (e.g.,
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@code{a.out}) or has sections without names (e.g., the Oasys format), the
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link cannot be done simply. You can circumvent this problem by
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describing the desired input-to-output section mapping with the linker command
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language.
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@emph{Information can be lost during canonicalization.} The BFD
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internal canonical form of the external formats is not exhaustive; there
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are structures in input formats for which there is no direct
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representation internally. This means that the BFD back ends
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cannot maintain all possible data richness through the transformation
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between external to internal and back to external formats.
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This limitation is only a problem when an application reads one
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format and writes another. Each BFD back end is responsible for
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maintaining as much data as possible, and the internal BFD
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canonical form has structures which are opaque to the BFD core,
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and exported only to the back ends. When a file is read in one format,
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the canonical form is generated for BFD and the application. At the
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same time, the back end saves away any information which may otherwise
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be lost. If the data is then written back in the same format, the back
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end routine will be able to use the canonical form provided by the
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BFD core as well as the information it prepared earlier. Since
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there is a great deal of commonality between back ends,
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there is no information lost when
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linking or copying big endian COFF to little endian COFF, or @code{a.out} to
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@code{b.out}. When a mixture of formats is linked, the information is
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only lost from the files whose format differs from the destination.
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@node Canonical format
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@subsection The BFD canonical object-file format
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The greatest potential for loss of information occurs when there is the least
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overlap between the information provided by the source format, that
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stored by the canonical format, and that needed by the
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destination format. A brief description of the canonical form may help
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you understand which kinds of data you can count on preserving across
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conversions.
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@cindex BFD canonical format
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@cindex internal object-file format
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@table @emph
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@item files
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Information stored on a per-file basis includes target machine
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architecture, particular implementation format type, a demand pageable
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bit, and a write protected bit. Information like Unix magic numbers is
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not stored here---only the magic numbers' meaning, so a @code{ZMAGIC}
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file would have both the demand pageable bit and the write protected
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text bit set. The byte order of the target is stored on a per-file
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basis, so that big- and little-endian object files may be used with one
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another.
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@item sections
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Each section in the input file contains the name of the section, the
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section's original address in the object file, size and alignment
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information, various flags, and pointers into other BFD data
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structures.
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@item symbols
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Each symbol contains a pointer to the information for the object file
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which originally defined it, its name, its value, and various flag
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bits. When a BFD back end reads in a symbol table, it relocates all
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symbols to make them relative to the base of the section where they were
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defined. Doing this ensures that each symbol points to its containing
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section. Each symbol also has a varying amount of hidden private data
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for the BFD back end. Since the symbol points to the original file, the
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private data format for that symbol is accessible. @code{ld} can
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operate on a collection of symbols of wildly different formats without
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problems.
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Normal global and simple local symbols are maintained on output, so an
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output file (no matter its format) will retain symbols pointing to
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functions and to global, static, and common variables. Some symbol
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information is not worth retaining; in @code{a.out}, type information is
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stored in the symbol table as long symbol names. This information would
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be useless to most COFF debuggers; the linker has command line switches
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to allow users to throw it away.
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There is one word of type information within the symbol, so if the
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format supports symbol type information within symbols (for example, COFF,
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IEEE, Oasys) and the type is simple enough to fit within one word
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(nearly everything but aggregates), the information will be preserved.
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@item relocation level
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Each canonical BFD relocation record contains a pointer to the symbol to
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relocate to, the offset of the data to relocate, the section the data
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is in, and a pointer to a relocation type descriptor. Relocation is
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performed by passing messages through the relocation type
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descriptor and the symbol pointer. Therefore, relocations can be performed
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on output data using a relocation method that is only available in one of the
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input formats. For instance, Oasys provides a byte relocation format.
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A relocation record requesting this relocation type would point
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indirectly to a routine to perform this, so the relocation may be
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performed on a byte being written to a 68k COFF file, even though 68k COFF
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has no such relocation type.
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@item line numbers
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Object formats can contain, for debugging purposes, some form of mapping
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between symbols, source line numbers, and addresses in the output file.
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These addresses have to be relocated along with the symbol information.
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Each symbol with an associated list of line number records points to the
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first record of the list. The head of a line number list consists of a
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pointer to the symbol, which allows finding out the address of the
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function whose line number is being described. The rest of the list is
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made up of pairs: offsets into the section and line numbers. Any format
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which can simply derive this information can pass it successfully
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between formats (COFF, IEEE and Oasys).
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@end table
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