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575 lines
28 KiB
Plaintext
Notes on the GNU Implementation of DWARF Debugging Information
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--------------------------------------------------------------
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Last Updated: Sun Jul 17 08:17:42 PDT 1994 by rfg@segfault.us.com
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------------------------------------------------------------
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This file describes special and unique aspects of the GNU implementation
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of the DWARF debugging information language, as provided in the GNU version
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2.x compiler(s).
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For general information about the DWARF debugging information language,
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you should obtain the DWARF version 1 specification document (and perhaps
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also the DWARF version 2 draft specification document) developed by the
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UNIX International Programming Languages Special Interest Group. A copy
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of the the DWARF version 1 specification (in PostScript form) may be
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obtained either from me <rfg@netcom.com> or from the main Data General
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FTP server. (See below.) The file you are looking at now only describes
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known deviations from the DWARF version 1 specification, together with
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those things which are allowed by the DWARF version 1 specification but
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which are known to cause interoperability problems (e.g. with SVR4 SDB).
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To obtain a copy of the DWARF Version 1 and/or DWARF Version 2 specification
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from Data General's FTP server, use the following procedure:
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---------------------------------------------------------------------------
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ftp to machine: "dg-rtp.dg.com" (128.222.1.2).
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Log in as "ftp".
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cd to "plsig"
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get any of the following file you are interested in:
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dwarf.1.0.3.ps
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dwarf.2.0.0.index.ps
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dwarf.2.0.0.ps
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---------------------------------------------------------------------------
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The generation of DWARF debugging information by the GNU version 2.x C
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compiler has now been tested rather extensively for m88k, i386, i860, and
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Sparc targets. The DWARF output of the GNU C compiler appears to inter-
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operate well with the standard SVR4 SDB debugger on these kinds of target
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systems (but of course, there are no guarantees).
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DWARF generation for the GNU g++ compiler is still not operable. This is
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due primarily to the many remaining cases where the g++ front end does not
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conform to the conventions used in the GNU C front end for representing
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various kinds of declarations in the TREE data structure. It is not clear
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at this time how these problems will be addressed.
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Future plans for the dwarfout.c module of the GNU compiler(s) includes the
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addition of full support for GNU FORTRAN. (This should, in theory, be a
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lot simpler to add than adding support for g++... but we'll see.)
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Many features of the DWARF version 2 specification have been adapted to
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(and used in) the GNU implementation of DWARF (version 1). In most of
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these cases, a DWARF version 2 approach is used in place of (or in addition
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to) DWARF version 1 stuff simply because it is apparent that DWARF version
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1 is not sufficiently expressive to provide the kinds of information which
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may be necessary to support really robust debugging. In all of these cases
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however, the use of DWARF version 2 features should not interfere in any
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way with the interoperability (of GNU compilers) with generally available
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"classic" (pre version 1) DWARF consumer tools (e.g. SVR4 SDB).
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The DWARF generation enhancement for the GNU compiler(s) was initially
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donated to the Free Software Foundation by Network Computing Devices.
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(Thanks NCD!) Additional development and maintenance of dwarfout.c has
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been largely supported (i.e. funded) by Intel Corporation. (Thanks Intel!)
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If you have questions or comments about the DWARF generation feature, please
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send mail to me <rfg@netcom.com>. I will be happy to investigate any bugs
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reported and I may even provide fixes (but of course, I can make no promises).
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The DWARF debugging information produced by GCC may deviate in a few minor
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(but perhaps significant) respects from the DWARF debugging information
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currently produced by other C compilers. A serious attempt has been made
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however to conform to the published specifications, to existing practice,
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and to generally accepted norms in the GNU implementation of DWARF.
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** IMPORTANT NOTE ** ** IMPORTANT NOTE ** ** IMPORTANT NOTE **
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Under normal circumstances, the DWARF information generated by the GNU
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compilers (in an assembly language file) is essentially impossible for
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a human being to read. This fact can make it very difficult to debug
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certain DWARF-related problems. In order to overcome this difficulty,
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a feature has been added to dwarfout.c (enabled by the -fverbose-asm
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option) which causes additional comments to be placed into the assembly
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language output file, out to the right-hand side of most bits of DWARF
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material. The comments indicate (far more clearly that the obscure
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DWARF hex codes do) what is actually being encoded in DWARF. Thus, the
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-fverbose-asm option can be highly useful for those who must study the
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DWARF output from the GNU compilers in detail.
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---------
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(Footnote: Within this file, the term `Debugging Information Entry' will
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be abbreviated as `DIE'.)
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Release Notes (aka known bugs)
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-------------------------------
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In one very obscure case involving dynamically sized arrays, the DWARF
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"location information" for such an array may make it appear that the
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array has been totally optimized out of existence, when in fact it
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*must* actually exist. (This only happens when you are using *both* -g
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*and* -O.) This is due to aggressive dead store elimination in the
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compiler, and to the fact that the DECL_RTL expressions associated with
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variables are not always updated to correctly reflect the effects of
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GCC's aggressive dead store elimination.
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-------------------------------
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When attempting to set a breakpoint at the "start" of a function compiled
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with -g1, the debugger currently has no way of knowing exactly where the
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end of the prologue code for the function is. Thus, for most targets,
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all the debugger can do is to set the breakpoint at the AT_low_pc address
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for the function. But if you stop there and then try to look at one or
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more of the formal parameter values, they may not have been "homed" yet,
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so you may get inaccurate answers (or perhaps even addressing errors).
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Some people may consider this simply a non-feature, but I consider it a
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bug, and I hope to provide some some GNU-specific attributes (on function
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DIEs) which will specify the address of the end of the prologue and the
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address of the beginning of the epilogue in a future release.
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-------------------------------
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It is believed at this time that old bugs relating to the AT_bit_offset
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values for bit-fields have been fixed.
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There may still be some very obscure bugs relating to the DWARF description
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of type `long long' bit-fields for target machines (e.g. 80x86 machines)
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where the alignment of type `long long' data objects is different from
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(and less than) the size of a type `long long' data object.
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Please report any problems with the DWARF description of bit-fields as you
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would any other GCC bug. (Procedures for bug reporting are given in the
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GNU C compiler manual.)
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--------------------------------
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At this time, GCC does not know how to handle the GNU C "nested functions"
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extension. (See the GCC manual for more info on this extension to ANSI C.)
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--------------------------------
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The GNU compilers now represent inline functions (and inlined instances
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thereof) in exactly the manner described by the current DWARF version 2
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(draft) specification. The version 1 specification for handling inline
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functions (and inlined instances) was known to be brain-damaged (by the
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PLSIG) when the version 1 spec was finalized, but it was simply too late
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in the cycle to get it removed before the version 1 spec was formally
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released to the public (by UI).
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--------------------------------
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At this time, GCC does not generate the kind of really precise information
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about the exact declared types of entities with signed integral types which
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is required by the current DWARF draft specification.
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Specifically, the current DWARF draft specification seems to require that
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the type of an non-unsigned integral bit-field member of a struct or union
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type be represented as either a "signed" type or as a "plain" type,
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depending upon the the exact set of keywords that were used in the
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type specification for the given bit-field member. It was felt (by the
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UI/PLSIG) that this distinction between "plain" and "signed" integral types
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could have some significance (in the case of bit-fields) because ANSI C
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does not constrain the signedness of a plain bit-field, whereas it does
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constrain the signedness of an explicitly "signed" bit-field. For this
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reason, the current DWARF specification calls for compilers to produce
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type information (for *all* integral typed entities... not just bit-fields)
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which explicitly indicates the signedness of the relevant type to be
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"signed" or "plain" or "unsigned".
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Unfortunately, the GNU DWARF implementation is currently incapable of making
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such distinctions.
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--------------------------------
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Known Interoperability Problems
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-------------------------------
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Although the GNU implementation of DWARF conforms (for the most part) with
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the current UI/PLSIG DWARF version 1 specification (with many compatible
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version 2 features added in as "vendor specific extensions" just for good
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measure) there are a few known cases where GCC's DWARF output can cause
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some confusion for "classic" (pre version 1) DWARF consumers such as the
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System V Release 4 SDB debugger. These cases are described in this section.
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--------------------------------
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The DWARF version 1 specification includes the fundamental type codes
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FT_ext_prec_float, FT_complex, FT_dbl_prec_complex, and FT_ext_prec_complex.
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Since GNU C is only a C compiler (and since C doesn't provide any "complex"
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data types) the only one of these fundamental type codes which GCC ever
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generates is FT_ext_prec_float. This fundamental type code is generated
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by GCC for the `long double' data type. Unfortunately, due to an apparent
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bug in the SVR4 SDB debugger, SDB can become very confused wherever any
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attempt is made to print a variable, parameter, or field whose type was
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given in terms of FT_ext_prec_float.
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(Actually, SVR4 SDB fails to understand *any* of the four fundamental type
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codes mentioned here. This will fact will cause additional problems when
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there is a GNU FORTRAN front-end.)
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--------------------------------
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In general, it appears that SVR4 SDB is not able to effectively ignore
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fundamental type codes in the "implementation defined" range. This can
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cause problems when a program being debugged uses the `long long' data
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type (or the signed or unsigned varieties thereof) because these types
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are not defined by ANSI C, and thus, GCC must use its own private fundamental
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type codes (from the implementation-defined range) to represent these types.
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--------------------------------
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General GNU DWARF extensions
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----------------------------
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In the current DWARF version 1 specification, no mechanism is specified by
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which accurate information about executable code from include files can be
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properly (and fully) described. (The DWARF version 2 specification *does*
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specify such a mechanism, but it is about 10 times more complicated than
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it needs to be so I'm not terribly anxious to try to implement it right
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away.)
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In the GNU implementation of DWARF version 1, a fully downward-compatible
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extension has been implemented which permits the GNU compilers to specify
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which executable lines come from which files. This extension places
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additional information (about source file names) in GNU-specific sections
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(which should be totally ignored by all non-GNU DWARF consumers) so that
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this extended information can be provided (to GNU DWARF consumers) in a way
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which is totally transparent (and invisible) to non-GNU DWARF consumers
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(e.g. the SVR4 SDB debugger). The additional information is placed *only*
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in specialized GNU-specific sections, where it should never even be seen
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by non-GNU DWARF consumers.
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To understand this GNU DWARF extension, imagine that the sequence of entries
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in the .lines section is broken up into several subsections. Each contiguous
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sequence of .line entries which relates to a sequence of lines (or statements)
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from one particular file (either a `base' file or an `include' file) could
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be called a `line entries chunk' (LEC).
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For each LEC there is one entry in the .debug_srcinfo section.
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Each normal entry in the .debug_srcinfo section consists of two 4-byte
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words of data as follows:
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(1) The starting address (relative to the entire .line section)
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of the first .line entry in the relevant LEC.
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(2) The starting address (relative to the entire .debug_sfnames
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section) of a NUL terminated string representing the
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relevant filename. (This filename name be either a
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relative or an absolute filename, depending upon how the
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given source file was located during compilation.)
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Obviously, each .debug_srcinfo entry allows you to find the relevant filename,
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and it also points you to the first .line entry that was generated as a result
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of having compiled a given source line from the given source file.
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Each subsequent .line entry should also be assumed to have been produced
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as a result of compiling yet more lines from the same file. The end of
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any given LEC is easily found by looking at the first 4-byte pointer in
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the *next* .debug_srcinfo entry. That next .debug_srcinfo entry points
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to a new and different LEC, so the preceding LEC (implicitly) must have
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ended with the last .line section entry which occurs at the 2 1/2 words
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just before the address given in the first pointer of the new .debug_srcinfo
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entry.
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The following picture may help to clarify this feature. Let's assume that
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`LE' stands for `.line entry'. Also, assume that `* 'stands for a pointer.
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.line section .debug_srcinfo section .debug_sfnames section
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----------------------------------------------------------------
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LE <---------------------- *
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LE * -----------------> "foobar.c" <---
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LE |
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LE |
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LE <---------------------- * |
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LE * -----------------> "foobar.h" <| |
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LE | |
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LE | |
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LE <---------------------- * | |
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LE * -----------------> "inner.h" | |
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LE | |
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LE <---------------------- * | |
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LE * ------------------------------- |
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LE |
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LE |
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LE |
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LE |
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LE <---------------------- * |
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LE * -----------------------------------
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LE
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LE
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LE
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In effect, each entry in the .debug_srcinfo section points to *both* a
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filename (in the .debug_sfnames section) and to the start of a block of
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consecutive LEs (in the .line section).
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Note that just like in the .line section, there are specialized first and
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last entries in the .debug_srcinfo section for each object file. These
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special first and last entries for the .debug_srcinfo section are very
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different from the normal .debug_srcinfo section entries. They provide
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additional information which may be helpful to a debugger when it is
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interpreting the data in the .debug_srcinfo, .debug_sfnames, and .line
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sections.
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The first entry in the .debug_srcinfo section for each compilation unit
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consists of five 4-byte words of data. The contents of these five words
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should be interpreted (by debuggers) as follows:
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(1) The starting address (relative to the entire .line section)
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of the .line section for this compilation unit.
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(2) The starting address (relative to the entire .debug_sfnames
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section) of the .debug_sfnames section for this compilation
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unit.
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(3) The starting address (in the execution virtual address space)
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of the .text section for this compilation unit.
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(4) The ending address plus one (in the execution virtual address
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space) of the .text section for this compilation unit.
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(5) The date/time (in seconds since midnight 1/1/70) at which the
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compilation of this compilation unit occurred. This value
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should be interpreted as an unsigned quantity because gcc
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might be configured to generate a default value of 0xffffffff
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in this field (in cases where it is desired to have object
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files created at different times from identical source files
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be byte-for-byte identical). By default, these timestamps
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are *not* generated by dwarfout.c (so that object files
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compiled at different times will be byte-for-byte identical).
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If you wish to enable this "timestamp" feature however, you
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can simply place a #define for the symbol `DWARF_TIMESTAMPS'
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in your target configuration file and then rebuild the GNU
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compiler(s).
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Note that the first string placed into the .debug_sfnames section for each
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compilation unit is the name of the directory in which compilation occurred.
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This string ends with a `/' (to help indicate that it is the pathname of a
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directory). Thus, the second word of each specialized initial .debug_srcinfo
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entry for each compilation unit may be used as a pointer to the (string)
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name of the compilation directory, and that string may in turn be used to
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"absolutize" any relative pathnames which may appear later on in the
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.debug_sfnames section entries for the same compilation unit.
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The fifth and last word of each specialized starting entry for a compilation
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unit in the .debug_srcinfo section may (depending upon your configuration)
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indicate the date/time of compilation, and this may be used (by a debugger)
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to determine if any of the source files which contributed code to this
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compilation unit are newer than the object code for the compilation unit
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itself. If so, the debugger may wish to print an "out-of-date" warning
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about the compilation unit.
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The .debug_srcinfo section associated with each compilation will also have
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a specialized terminating entry. This terminating .debug_srcinfo section
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entry will consist of the following two 4-byte words of data:
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(1) The offset, measured from the start of the .line section to
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the beginning of the terminating entry for the .line section.
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(2) A word containing the value 0xffffffff.
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--------------------------------
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In the current DWARF version 1 specification, no mechanism is specified by
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which information about macro definitions and un-definitions may be provided
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to the DWARF consumer.
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The DWARF version 2 (draft) specification does specify such a mechanism.
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That specification was based on the GNU ("vendor specific extension")
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which provided some support for macro definitions and un-definitions,
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but the "official" DWARF version 2 (draft) specification mechanism for
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handling macros and the GNU implementation have diverged somewhat. I
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plan to update the GNU implementation to conform to the "official"
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DWARF version 2 (draft) specification as soon as I get time to do that.
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Note that in the GNU implementation, additional information about macro
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definitions and un-definitions is *only* provided when the -g3 level of
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debug-info production is selected. (The default level is -g2 and the
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plain old -g option is considered to be identical to -g2.)
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GCC records information about macro definitions and undefinitions primarily
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in a section called the .debug_macinfo section. Normal entries in the
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.debug_macinfo section consist of the following three parts:
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(1) A special "type" byte.
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(2) A 3-byte line-number/filename-offset field.
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(3) A NUL terminated string.
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The interpretation of the second and third parts is dependent upon the
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value of the leading (type) byte.
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The type byte may have one of four values depending upon the type of the
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.debug_macinfo entry which follows. The 1-byte MACINFO type codes presently
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used, and their meanings are as follows:
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MACINFO_start A base file or an include file starts here.
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MACINFO_resume The current base or include file ends here.
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MACINFO_define A #define directive occurs here.
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MACINFO_undef A #undef directive occur here.
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(Note that the MACINFO_... codes mentioned here are simply symbolic names
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for constants which are defined in the GNU dwarf.h file.)
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For MACINFO_define and MACINFO_undef entries, the second (3-byte) field
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contains the number of the source line (relative to the start of the current
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base source file or the current include files) when the #define or #undef
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directive appears. For a MACINFO_define entry, the following string field
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contains the name of the macro which is defined, followed by its definition.
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Note that the definition is always separated from the name of the macro
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by at least one whitespace character. For a MACINFO_undef entry, the
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string which follows the 3-byte line number field contains just the name
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of the macro which is being undef'ed.
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For a MACINFO_start entry, the 3-byte field following the type byte contains
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the offset, relative to the start of the .debug_sfnames section for the
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current compilation unit, of a string which names the new source file which
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is beginning its inclusion at this point. Following that 3-byte field,
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each MACINFO_start entry always contains a zero length NUL terminated
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string.
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For a MACINFO_resume entry, the 3-byte field following the type byte contains
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the line number WITHIN THE INCLUDING FILE at which the inclusion of the
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current file (whose inclusion ends here) was initiated. Following that
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3-byte field, each MACINFO_resume entry always contains a zero length NUL
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terminated string.
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Each set of .debug_macinfo entries for each compilation unit is terminated
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by a special .debug_macinfo entry consisting of a 4-byte zero value followed
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by a single NUL byte.
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--------------------------------
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In the current DWARF draft specification, no provision is made for providing
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a separate level of (limited) debugging information necessary to support
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tracebacks (only) through fully-debugged code (e.g. code in system libraries).
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A proposal to define such a level was submitted (by me) to the UI/PLSIG.
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This proposal was rejected by the UI/PLSIG for inclusion into the DWARF
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version 1 specification for two reasons. First, it was felt (by the PLSIG)
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that the issues involved in supporting a "traceback only" subset of DWARF
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|
were not well understood. Second, and perhaps more importantly, the PLSIG
|
|
is already having enough trouble agreeing on what it means to be "conforming"
|
|
to the DWARF specification, and it was felt that trying to specify multiple
|
|
different *levels* of conformance would only complicate our discussions of
|
|
this already divisive issue. Nonetheless, the GNU implementation of DWARF
|
|
provides an abbreviated "traceback only" level of debug-info production for
|
|
use with fully-debugged "system library" code. This level should only be
|
|
used for fully debugged system library code, and even then, it should only
|
|
be used where there is a very strong need to conserve disk space. This
|
|
abbreviated level of debug-info production can be used by specifying the
|
|
-g1 option on the compilation command line.
|
|
|
|
--------------------------------
|
|
|
|
As mentioned above, the GNU implementation of DWARF currently uses the DWARF
|
|
version 2 (draft) approach for inline functions (and inlined instances
|
|
thereof). This is used in preference to the version 1 approach because
|
|
(quite simply) the version 1 approach is highly brain-damaged and probably
|
|
unworkable.
|
|
|
|
--------------------------------
|
|
|
|
|
|
GNU DWARF Representation of GNU C Extensions to ANSI C
|
|
------------------------------------------------------
|
|
|
|
The file dwarfout.c has been designed and implemented so as to provide
|
|
some reasonable DWARF representation for each and every declarative
|
|
construct which is accepted by the GNU C compiler. Since the GNU C
|
|
compiler accepts a superset of ANSI C, this means that there are some
|
|
cases in which the DWARF information produced by GCC must take some
|
|
liberties in improvising DWARF representations for declarations which
|
|
are only valid in (extended) GNU C.
|
|
|
|
In particular, GNU C provides at least three significant extensions to
|
|
ANSI C when it comes to declarations. These are (1) inline functions,
|
|
and (2) dynamic arrays, and (3) incomplete enum types. (See the GCC
|
|
manual for more information on these GNU extensions to ANSI C.) When
|
|
used, these GNU C extensions are represented (in the generated DWARF
|
|
output of GCC) in the most natural and intuitively obvious ways.
|
|
|
|
In the case of inline functions, the DWARF representation is exactly as
|
|
called for in the DWARF version 2 (draft) specification for an identical
|
|
function written in C++; i.e. we "reuse" the representation of inline
|
|
functions which has been defined for C++ to support this GNU C extension.
|
|
|
|
In the case of dynamic arrays, we use the most obvious representational
|
|
mechanism available; i.e. an array type in which the upper bound of
|
|
some dimension (usually the first and only dimension) is a variable
|
|
rather than a constant. (See the DWARF version 1 specification for more
|
|
details.)
|
|
|
|
In the case of incomplete enum types, such types are represented simply
|
|
as TAG_enumeration_type DIEs which DO NOT contain either AT_byte_size
|
|
attributes or AT_element_list attributes.
|
|
|
|
--------------------------------
|
|
|
|
|
|
Future Directions
|
|
-----------------
|
|
|
|
The codes, formats, and other paraphernalia necessary to provide proper
|
|
support for symbolic debugging for the C++ language are still being worked
|
|
on by the UI/PLSIG. The vast majority of the additions to DWARF which will
|
|
be needed to completely support C++ have already been hashed out and agreed
|
|
upon, but a few small issues (e.g. anonymous unions, access declarations)
|
|
are still being discussed. Also, we in the PLSIG are still discussing
|
|
whether or not we need to do anything special for C++ templates. (At this
|
|
time it is not yet clear whether we even need to do anything special for
|
|
these.)
|
|
|
|
Unfortunately, as mentioned above, there are quite a few problems in the
|
|
g++ front end itself, and these are currently responsible for severely
|
|
restricting the progress which can be made on adding DWARF support
|
|
specifically for the g++ front-end. Furthermore, Richard Stallman has
|
|
expressed the view that C++ friendships might not be important enough to
|
|
describe (in DWARF). This view directly conflicts with both the DWARF
|
|
version 1 and version 2 (draft) specifications, so until this small
|
|
misunderstanding is cleared up, DWARF support for g++ is unlikely.
|
|
|
|
With regard to FORTRAN, the UI/PLSIG has defined what is believed to be a
|
|
complete and sufficient set of codes and rules for adequately representing
|
|
all of FORTRAN 77, and most of Fortran 90 in DWARF. While some support for
|
|
this has been implemented in dwarfout.c, further implementation and testing
|
|
will have to await the arrival of the GNU Fortran front-end (which is
|
|
currently in early alpha test as of this writing).
|
|
|
|
GNU DWARF support for other languages (i.e. Pascal and Modula) is a moot
|
|
issue until there are GNU front-ends for these other languages.
|
|
|
|
GNU DWARF support for DWARF version 2 will probably not be attempted until
|
|
such time as the version 2 specification is finalized. (More work needs
|
|
to be done on the version 2 specification to make the new "abbreviations"
|
|
feature of version 2 more easily implementable. Until then, it will be
|
|
a royal pain the ass to implement version 2 "abbreviations".) For the
|
|
time being, version 2 features will be added (in a version 1 compatible
|
|
manner) when and where these features seem necessary or extremely desirable.
|
|
|
|
As currently defined, DWARF only describes a (binary) language which can
|
|
be used to communicate symbolic debugging information from a compiler
|
|
through an assembler and a linker, to a debugger. There is no clear
|
|
specification of what processing should be (or must be) done by the
|
|
assembler and/or the linker. Fortunately, the role of the assembler
|
|
is easily inferred (by anyone knowledgeable about assemblers) just by
|
|
looking at examples of assembly-level DWARF code. Sadly though, the
|
|
allowable (or required) processing steps performed by a linker are
|
|
harder to infer and (perhaps) even harder to agree upon. There are
|
|
several forms of very useful `post-processing' steps which intelligent
|
|
linkers *could* (in theory) perform on object files containing DWARF,
|
|
but any and all such link-time transformations are currently both disallowed
|
|
and unspecified.
|
|
|
|
In particular, possible link-time transformations of DWARF code which could
|
|
provide significant benefits include (but are not limited to):
|
|
|
|
Commonization of duplicate DIEs obtained from multiple input
|
|
(object) files.
|
|
|
|
Cross-compilation type checking based upon DWARF type information
|
|
for objects and functions.
|
|
|
|
Other possible `compacting' transformations designed to save disk
|
|
space and to reduce linker & debugger I/O activity.
|