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author | Ken Raeburn <raeburn@cygnus> | 1995-04-10 20:06:48 +0000 |
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committer | Ken Raeburn <raeburn@cygnus> | 1995-04-10 20:06:48 +0000 |
commit | ae6cd60f9e1dedfae16b6b52cac635ab816fcc6b (patch) | |
tree | 0332f3f0e37c4a40f0020b880fb7e585e2b8ca0f | |
parent | 7f390875ca707668c9825010cb3252da1fede97b (diff) | |
download | gdb-ae6cd60f9e1dedfae16b6b52cac635ab816fcc6b.zip gdb-ae6cd60f9e1dedfae16b6b52cac635ab816fcc6b.tar.gz gdb-ae6cd60f9e1dedfae16b6b52cac635ab816fcc6b.tar.bz2 |
* doc/internals.texi: Add loud disclaimer. Refill to 79 columns, specify
fill-column in local-variables section. Change subheadings to subsections so
they can be cross-referenced. Describe broken words, frags, frag chains,
generic relaxation, relax table, m68k relaxation, m68k addressing modes, test
suite code. Add a few words about various file formats.
-rw-r--r-- | gas/doc/internals.texi | 688 |
1 files changed, 592 insertions, 96 deletions
diff --git a/gas/doc/internals.texi b/gas/doc/internals.texi index cc5b566..1ba9cfe 100644 --- a/gas/doc/internals.texi +++ b/gas/doc/internals.texi @@ -1,7 +1,19 @@ +\input texinfo +@setfilename internals.info @node Assembler Internals @chapter Assembler Internals @cindex internals +This documentation is not ready for prime time yet. Not even close. It's not +so much documentation as random blathering of mine intended to be notes to +myself that may eventually be turned into real documentation. + +I take no responsibility for any negative effect it may have on your +professional, personal, or spiritual life. Read it at your own risk. Caveat +emptor. Delete before reading. Abandon all hope, ye who enter here. + +However, enhancements will be gratefully accepted. + @menu * Data types:: Data types @end menu @@ -17,162 +29,602 @@ BFD, MANY_SECTIONS, BFD_HEADERS @section Data types @cindex internals, data types -@subheading Symbols +@subsection Symbols @cindex internals, symbols @cindex symbols, internal ... `local' symbols ... flags ... -The definition for @code{struct symbol}, also known as @code{symbolS}, -is located in @file{struc-symbol.h}. Symbol structures can contain the -following fields: +The definition for @code{struct symbol}, also known as @code{symbolS}, is +located in @file{struc-symbol.h}. Symbol structures can contain the following +fields: @table @code @item sy_value -This is an @code{expressionS} that describes the value of the symbol. -It might refer to another symbol; if so, its true value may not be known -until @code{foo} is run. +This is an @code{expressionS} that describes the value of the symbol. It might +refer to another symbol; if so, its true value may not be known until +@code{foo} is called. -More generally, however, ... undefined? ... or an offset from the start -of a frag pointed to by the @code{sy_frag} field. +More generally, however, ... undefined? ... or an offset from the start of a +frag pointed to by the @code{sy_frag} field. @item sy_resolved -This field is non-zero if the symbol's value has been completely -resolved. It is used during the final pass over the symbol table. +This field is non-zero if the symbol's value has been completely resolved. It +is used during the final pass over the symbol table. @item sy_resolving This field is used to detect loops while resolving the symbol's value. @item sy_used_in_reloc -This field is non-zero if the symbol is used by a relocation entry. If -a local symbol is used in a relocation entry, it must be possible to -redirect those relocations to other symbols, or this symbol cannot be -removed from the final symbol list. +This field is non-zero if the symbol is used by a relocation entry. If a local +symbol is used in a relocation entry, it must be possible to redirect those +relocations to other symbols, or this symbol cannot be removed from the final +symbol list. @item sy_next @itemx sy_previous -These pointers to other @code{symbolS} structures describe a singly or -doubly linked list. (If @code{SYMBOLS_NEED_BACKPOINTERS} is not -defined, the @code{sy_previous} field will be omitted.) These fields -should be accessed with @code{symbol_next} and @code{symbol_previous}. +These pointers to other @code{symbolS} structures describe a singly or doubly +linked list. (If @code{SYMBOLS_NEED_BACKPOINTERS} is not defined, the +@code{sy_previous} field will be omitted.) These fields should be accessed +with @code{symbol_next} and @code{symbol_previous}. @item sy_frag This points to the @code{fragS} that this symbol is attached to. @item sy_used -Whether the symbol is used as an operand or in an expression. Note: Not -all the backends keep this information accurate; backends which use this -bit are responsible for setting it when a symbol is used in backend -routines. +Whether the symbol is used as an operand or in an expression. Note: Not all of +the backends keep this information accurate; backends which use this bit are +responsible for setting it when a symbol is used in backend routines. @item bsym -If @code{BFD_ASSEMBLER} is defined, this points to the @code{asymbol} -that will be used in writing the object file. +If @code{BFD_ASSEMBLER} is defined, this points to the @code{asymbol} that will +be used in writing the object file. @item sy_name_offset -(Only used if @code{BFD_ASSEMBLER} is not defined.) -This is the position of the symbol's name in the symbol table of the -object file. On some formats, this will start at position 4, with -position 0 reserved for unnamed symbols. This field is not used until -@code{write_object_file} is called. +(Only used if @code{BFD_ASSEMBLER} is not defined.) This is the position of +the symbol's name in the symbol table of the object file. On some formats, +this will start at position 4, with position 0 reserved for unnamed symbols. +This field is not used until @code{write_object_file} is called. @item sy_symbol -(Only used if @code{BFD_ASSEMBLER} is not defined.) -This is the format-specific symbol structure, as it would be written into -the object file. +(Only used if @code{BFD_ASSEMBLER} is not defined.) This is the +format-specific symbol structure, as it would be written into the object file. @item sy_number -(Only used if @code{BFD_ASSEMBLER} is not defined.) -This is a 24-bit symbol number, for use in constructing relocation table -entries. +(Only used if @code{BFD_ASSEMBLER} is not defined.) This is a 24-bit symbol +number, for use in constructing relocation table entries. @item sy_obj -This format-specific data is of type @code{OBJ_SYMFIELD_TYPE}. If no -macro by that name is defined in @file{obj-format.h}, this field is not -defined. +This format-specific data is of type @code{OBJ_SYMFIELD_TYPE}. If no macro by +that name is defined in @file{obj-format.h}, this field is not defined. @item sy_tc -This processor-specific data is of type @code{TC_SYMFIELD_TYPE}. If no -macro by that name is defined in @file{targ-cpu.h}, this field is not -defined. +This processor-specific data is of type @code{TC_SYMFIELD_TYPE}. If no macro +by that name is defined in @file{targ-cpu.h}, this field is not defined. @item TARGET_SYMBOL_FIELDS -If this macro is defined, it defines additional fields in the symbol -structure. This macro is obsolete, and should be replaced when possible -by uses of @code{OBJ_SYMFIELD_TYPE} and @code{TC_SYMFIELD_TYPE}. +If this macro is defined, it defines additional fields in the symbol structure. +This macro is obsolete, and should be replaced when possible by uses of +@code{OBJ_SYMFIELD_TYPE} and @code{TC_SYMFIELD_TYPE}. @end table -Access with S_SET_SEGMENT, S_SET_VALUE, S_GET_VALUE, S_GET_SEGMENT, -etc., etc. +Access with S_SET_SEGMENT, S_SET_VALUE, S_GET_VALUE, S_GET_SEGMENT, etc., etc. -@foo Expressions +@subsection Expressions @cindex internals, expressions @cindex expressions, internal Expressions are stored as a combination of operator, symbols, blah. -@subheading Fixups +@subsection Fixups @cindex internals, fixups @cindex fixups -@subheading Frags +@subsection Frags @cindex internals, frags @cindex frags -@subheading Broken Words +The frag is the basic unit for storing section contents. + +@table @code + +@item fr_address +The address of the frag. This is not set until the assembler rescans the list +of all frags after the entire input file is parsed. The function +@code{relax_segment} fills in this field. + +@item fr_next +Pointer to the next frag in this (sub)section. + +@item fr_fix +Fixed number of characters we know we're going to emit to the output file. May +be zero. + +@item fr_var +Variable number of characters we may output, after the initial @code{fr_fix} +characters. May be zero. + +@item fr_symbol +@itemx fr_offset +Foo. + +@item fr_opcode +Points to the lowest-addressed byte of the opcode, for use in relaxation. + +@item line +Holds line-number info. + +@item fr_type +Relaxation state. This field indicates the interpretation of @code{fr_offset}, +@code{fr_symbol} and the variable-length tail of the frag, as well as the +treatment it gets in various phases of processing. It does not affect the +initial @code{fr_fix} characters; they are always supposed to be output +verbatim (fixups aside). See below for specific values this field can have. + +@item fr_subtype +Relaxation substate. If the macro @code{md_relax_frag} isn't defined, this is +assumed to be an index into @code{md_relax_table} for the generic relaxation +code to process. (@xref{Relaxation}.) If @code{md_relax_frag} is defined, +this field is available for any use by the CPU-specific code. + +@item align_mask +@itemx align_offset +These fields are not used yet. They are intended to keep track of the +alignment of the current frag within its section, even if the exact offset +isn't known. In many cases, we should be able to avoid creating extra frags +when @code{.align} directives are given; instead, the number of bytes needed +may be computable when the @code{.align} directive is processed. Hmm. Is this +the right place for these, or should they be in the @code{frchainS} structure? + +@item fr_pcrel_adjust +@itemx fr_bsr +These fields are only used in the NS32k configuration. But since @code{struct +frag} is defined before the CPU-specific header files are included, they must +unconditionally be defined. + +@item fr_literal +Declared as a one-character array, this last field grows arbitrarily large to +hold the actual contents of the frag. + +@end table + +These are the possible relaxation states, provided in the enumeration type +@code{relax_stateT}, and the interpretations they represent for the other +fields: + +@table @code + +@item rs_align +The start of the following frag should be aligned on some boundary. In this +frag, @code{fr_offset} is the logarithm (base 2) of the alignment in bytes. +(For example, if alignment on an 8-byte boundary were desired, @code{fr_offset} +would have a value of 3.) The variable characters indicate the fill pattern to +be used. (More than one?) + +@item rs_broken_word +This indicates that ``broken word'' processing should be done. @xref{Broken +Words,,Broken Words}. If broken word processing is not necessary on the target +machine, this enumerator value will not be defined. + +@item rs_fill +The variable characters are to be repeated @code{fr_offset} times. If +@code{fr_offset} is 0, this frag has a length of @code{fr_fix}. + +@item rs_machine_dependent +Displacement relaxation is to be done on this frag. The target is indicated by +@code{fr_symbol} and @code{fr_offset}, and @code{fr_subtype} indicates the +particular machine-specific addressing mode desired. @xref{Relaxation}. + +@item rs_org +The start of the following frag should be pushed back to some specific offset +within the section. (Some assemblers use the value as an absolute address; the +@sc{gnu} assembler does not handle final absolute addresses, it requires that +the linker set them.) The offset is given by @code{fr_symbol} and +@code{fr_offset}; one character from the variable-length tail is used as the +fill character. + +@end table + +A chain of frags is built up for each subsection. The data structure +describing a chain is called a @code{frchainS}, and contains the following +fields: + +@table @code +@item frch_root +Points to the first frag in the chain. May be null if there are no frags in +this chain. +@item frch_last +Points to the last frag in the chain, or null if there are none. +@item frch_next +Next in the list of @code{frchainS} structures. +@item frch_seg +Indicates the section this frag chain belongs to. +@item frch_subseg +Subsection (subsegment) number of this frag chain. +@item fix_root, fix_tail +(Defined only if @code{BFD_ASSEMBLER} is defined.) Point to first and last +@code{fixS} structures associated with this subsection. +@item frch_obstack +Not currently used. Intended to be used for frag allocation for this +subsection. This should reduce frag generation caused by switching sections. +@end table + +A @code{frchainS} corresponds to a subsection; each section has a list of +@code{frchainS} records associated with it. In most cases, only one subsection +of each section is used, so the list will only be one element long, but any +processing of frag chains should be prepared to deal with multiple chains per +section. + +After the input files have been completely processed, and no more frags are to +be generated, the frag chains are joined into one per section for further +processing. After this point, it is safe to operate on one chain per section. + +@node Broken Words +@subsection Broken Words @cindex internals, broken words @cindex broken words @cindex promises, promises +The ``broken word'' idea derives from the fact that some compilers, including +@code{gcc}, will sometimes emit switch tables specifying 16-bit @code{.word} +displacements to branch targets, and branch instructions that load entries from +that table to compute the target address. If this is done on a 32-bit machine, +there is a chance (at least with really large functions) that the displacement +will not fit in 16 bits. Thus the ``broken word'' idea is well named, since +there is an implied promise that the 16-bit field will in fact hold the +specified displacement. + +If the ``broken word'' processing is enabled, and a situation like this is +encountered, the assembler will insert a jump instruction into the instruction +stream, close enough to be reached with the 16-bit displacement. This jump +instruction will transfer to the real desired target address. Thus, as long as +the @code{.word} value really is used as a displacement to compute an address +to jump to, the net effect will be correct (minus a very small efficiency +cost). If @code{.word} directives with label differences for values are used +for other purposes, however, things may not work properly. I think there is a +command-line option to turn on warnings when a broken word is discovered. + +This code is turned off by the @code{WORKING_DOT_WORD} macro. It isn't needed +if @code{.word} emits a value large enough to contain an address (or, more +correctly, any possible difference between two addresses). + @node What Happens? @section What Happens? -Blah blah blah, initialization, argument parsing, file reading, -whitespace munging, opcode parsing and lookup, operand parsing. Now -it's time to write the output file. +Blah blah blah, initialization, argument parsing, file reading, whitespace +munging, opcode parsing and lookup, operand parsing. Now it's time to write +the output file. In @code{BFD_ASSEMBLER} mode, processing of relocations and symbols and -creation of the output file is initiated by calling -@code{write_object_file}. +creation of the output file is initiated by calling @code{write_object_file}. @node Target Dependent Definitions @section Target Dependent Definitions -@subheader Format-specific definitions +@subsection Format-specific definitions + +@defmac obj_sec_sym_ok_for_reloc (section) +(@code{BFD_ASSEMBLER} only.) +Is it okay to use this section's section-symbol in a relocation entry? If not, +a new internal-linkage symbol is generated and emitted if such a relocation +entry is needed. (Default: Always use a new symbol.) + +@end defmac -@defmac obj_sec_sym_ok_for_reloc section +@defmac obj_adjust_symtab (@code{BFD_ASSEMBLER} only.) -Is it okay to use this section's section-symbol in a relocation entry? -If not, a new internal-linkage symbol is generated and emitted if such a -relocation entry is needed. (Default: Always use a new symbol.) +If this macro is defined, it is invoked just before setting the symbol table of +the output BFD. Any finalizing changes needed in the symbol table should be +done here. For example, in the COFF support, if there is no @code{.file} +symbol defined already, one is generated at this point. If no such adjustments +are needed, this macro need not be defined. + +@end defmac @defmac EMIT_SECTION_SYMBOLS (@code{BFD_ASSEMBLER} only.) Should section symbols be included in the symbol list if they're used in -relocations? Some formats can generate section-relative relocations, -and thus don't need -(Default: 1.) +relocations? Some formats can generate section-relative relocations, and thus +don't need symbols emitted for them. (Default: 1.) +@end defmac + +@defmac obj_frob_file +Any final cleanup needed before writing out the BFD may be done here. For +example, ECOFF formats (and MIPS ELF format) may do some work on the MIPS-style +symbol table with its integrated debug information. The symbol table should +not be modified at this time. +@end defmac + +@subsection CPU-specific definitions + +@node Relaxation +@subsubsection Relaxation +@cindex Relaxation + +If @code{md_relax_frag} isn't defined, the assembler will perform some +relaxation on @code{rs_machine_dependent} frags based on the frag subtype and +the displacement to some specified target address. The basic idea is that many +machines have different addressing modes for instructions that can specify +different ranges of values, with successive modes able to access wider ranges, +including the entirety of the previous range. Smaller ranges are assumed to be +more desirable (perhaps the instruction requires one word instead of two or +three); if this is not the case, don't describe the smaller-range, inferior +mode. + +The @code{fr_subtype} and the field of a frag is an index into a CPU-specific +relaxation table. That table entry indicates the range of values that can be +stored, the number of bytes that will have to be added to the frag to +accomodate the addressing mode, and the index of the next entry to examine if +the value to be stored is outside the range accessible by the current +addressing mode. The @code{fr_symbol} field of the frag indicates what symbol +is to be accessed; the @code{fr_offset} field is added in. + +If the @code{fr_pcrel_adjust} field is set, which currently should only happen +for the NS32k family, the @code{TC_PCREL_ADJUST} macro is called on the frag to +compute an adjustment to be made to the displacement. + +The value fitted by the relaxation code is always assumed to be a displacement +from the current frag. (More specifically, from @code{fr_fix} bytes into the +frag.) This seems kinda silly. What about fitting small absolute values? I +suppose @code{md_assemble} is supposed to take care of that, but if the operand +is a difference between symbols, it might not be able to, if the difference was +not computable yet. + +The end of the relaxation sequence is indicated by a ``next'' value of 0. This +is kinda silly too, since it means that the first entry in the table can't be +used. I think -1 would make a more logical sentinel value. + +The table @code{md_relax_table} from @file{targ-cpu.c} describes the relaxation +modes available. Currently this must always be provided, even on machines for +which this type of relaxation isn't possible or practical. Probably fewer than +half the machines gas supports used it; it ought to be made conditional on some +CPU-specific macro. Currently, also that table must be declared ``const;'' on +some machines, though, it might make sense to keep it writeable, so it can be +modified depending on which CPU of a family is specified. For example, in the +m68k family, the 68020 has some addressing modes that are not available on the +68000. + +The relaxation table type contains these fields: + +@table @code +@item long rlx_forward +Forward reach, must be non-negative. +@item long rlx_backward +Backward reach, must be zero or negative. +@item rlx_length +Length in bytes of this addressing mode. +@item rlx_more +Index of the next-longer relax state, or zero if there is no ``next'' +relax state. +@end table + +The relaxation is done in @code{relax_segment} in @file{write.c}. The +difference in the length fields between the original mode and the one finally +chosen by the relaxing code is taken as the size by which the current frag will +be increased in size. For example, if the initial relaxing mode has a length +of 2 bytes, and because of the size of the displacement, it gets upgraded to a +mode with a size of 6 bytes, it is assumed that the frag will grow by 4 bytes. +(The initial two bytes should have been part of the fixed portion of the frag, +since it is already known that they will be output.) This growth must be +effected by @code{md_convert_frag}; it should increase the @code{fr_fix} field +by the appropriate size, and fill in the appropriate bytes of the frag. +(Enough space for the maximum growth should have been allocated in the call to +frag_var as the second argument.) + +If relocation records are needed, they should be emitted by +@code{md_estimate_size_before_relax}. + +These are the machine-specific definitions associated with the relaxation +mechanism: + +@deftypefun int md_estimate_size_before_relax (fragS *@var{frag}, segT @var{sec}) +This function should examine the target symbol of the supplied frag and correct +the @code{fr_subtype} of the frag if needed. When this function is called, if +the symbol has not yet been defined, it will not become defined later; however, +its value may still change if the section it is in gets relaxed. + +Usually, if the symbol is in the same section as the frag (given by the +@var{sec} argument), the narrowest likely relaxation mode is stored in +@code{fr_subtype}, and that's that. + +If the symbol is undefined, or in a different section (and therefore moveable +to an arbitrarily large distance), the largest available relaxation mode is +specified, @code{fix_new} is called to produce the relocation record, +@code{fr_fix} is increased to include the relocated field (remember, this +storage was allocated when @code{frag_var} was called), and @code{frag_wane} is +called to convert the frag to an @code{rs_fill} frag with no variant part. +Sometimes changing addressing modes may also require rewriting the instruction. +It can be accessed via @code{fr_opcode} or @code{fr_fix}. + +Sometimes @code{fr_var} is increased instead, and @code{frag_wane} is not +called. I'm not sure, but I think this is to keep @code{fr_fix} referring to +an earlier byte, and @code{fr_subtype} set to @code{rs_machine_dependent} so +that @code{md_convert_frag} will get called. +@end deftypefun + +@deftypevar relax_typeS md_relax_table [] +This is the table. +@end deftypevar + +@defmac md_relax_frag (@var{frag}) + +This macro, if defined, overrides all of the processing described above. It's +only defined for the MIPS target CPU, and there it doesn't do anything; it's +used solely to disable the relaxing code and free up the @code{fr_subtype} +field for use by the CPU-specific code. + +@end defmac + +@defmac tc_frob_file +Like @code{obj_frob_file}, this macro handles miscellaneous last-minute +cleanup. Currently only used on PowerPC/POWER support, for setting up a +@code{.debug} section. This macro should not cause the symbol table to be +modified. + +@end defmac @node Source File Summary @section Source File Summary -The code in the @file{obj-coff} back end assumes @code{BFD_ASSEMBLER} is -defined; the code in @file{obj-coffbfd} uses @code{BFD}, -@code{BFD_HEADERS}, and @code{MANY_SEGMENTS}, but does a lot of the file -positioning itself. This confusing situation arose from the history of -the code. +@subsection File Format Descriptions + +@subheading a.out + +The @code{a.out} format is described by @file{obj-aout.*}. + +@subheading b.out + +The @code{b.out} format, described by @file{obj-bout.*}, is similar to +@code{a.out} format, except for a few additional fields in the file header +describing section alignment and address. + +@subheading COFF Originally, @file{obj-coff} was a purely non-BFD version, and -@file{obj-coffbfd} was created to use BFD for low-level byte-swapping. -When the @code{BFD_ASSEMBLER} conversion started, the first COFF target -to be converted was using @file{obj-coff}, and the two files had -diverged somewhat, and I didn't feel like first converting the support -of that target over to use the low-level BFD interface. +@file{obj-coffbfd} was created to use BFD for low-level byte-swapping. When +the @code{BFD_ASSEMBLER} conversion started, the first COFF target to be +converted was using @file{obj-coff}, and the two files had diverged somewhat, +and I didn't feel like first converting the support of that target over to use +the low-level BFD interface. + +So @file{obj-coff} got converted, and to simplify certain things, +@file{obj-coffbfd} got ``merged'' in with a brute-force approach. +Specifically, preprocessor conditionals testing for @code{BFD_ASSEMBLER} +effectively split the @file{obj-coff} files into the two separate versions. It +isn't pretty. They will be merged more thoroughly, and eventually only the +higher-level interface will be used. + +@subheading ECOFF + +All ECOFF configurations use BFD for writing object files. + +@subheading ELF + +ELF is a fairly reasonable format, without many of the deficiencies the other +object file formats have. (It's got some of its own, but not as bad as the +others.) All ELF configurations use BFD for writing object files. + +@subheading EVAX + +This is the format used on VMS. Yes, someone has actually written BFD support +for it. The code hasn't been integrated yet though. + +@subheading HP300? + +@subheading IEEE? + +@subheading SOM + +@subheading XCOFF + +The XCOFF configuration is based on the COFF cofiguration (using the +higher-level BFD interface). In fact, it uses the same files in the assembler. + +@subheading VMS + +This is the old Vax VMS support. It doesn't use BFD. + +@subsection Processor Descriptions -Currently, all COFF targets use one of the two BFD interfaces, so the -non-BFD code can be removed. Eventually, all should be converted to -using one COFF back end, which uses the high-level BFD interface. +Foo: a29k, alpha, h8300, h8500, hppa, i386, i860, i960, m68k, m88k, mips, +ns32k, ppc, sh, sparc, tahoe, vax, z8k. + +@node M68k +@subsubsection M68k + +The operand syntax handling is atrocious. There is no clear specification of +the operand syntax. I'm looking into using a Bison grammar to replace much of +it. + +Operands on the 68k series processors can have two displacement values +specified, plus a base register and a (possibly scaled) index register of which +only some bits might be used. Thus a single 68k operand requires up to two +expressions, two register numbers, and size and scale factors. The +@code{struct m68k_op} type also includes a field indicating the mode of the +operand, and an @code{error} field indicating a problem encountered while +parsing the operand. + +An instruction on the 68k may have up to 6 operands, although most of them have +to be simple register operands. Up to 11 (16-bit) words may be required to +express the instruction. + +A @code{struct m68k_exp} expression contains an @code{expressionS}, pointers to +the first and last characters of the input that produced the expression, an +indication of the section to which the expression belongs, and a size field. +I'm not sure what the size field describes. + +@subsubheading M68k addressing modes + +Many instructions used the low six bits of the first instruction word to +describe the location of the operand, or how to compute the location. The six +bits are typically split into three for a ``mode'' and three for a ``register'' +value. The interpretation of these values is as follows: + +@example +Mode Register Operand addressing mode +0 Dn data register +1 An address register +2 An indirect +3 An indirect, post-increment +4 An indirect, pre-decrement +5 An indirect with displacement +6 An indirect with optional displacement and index; + may involve multiple indirections and two + displacements +7 0 16-bit address follows +7 1 32-bit address follows +7 2 PC indirect with displacement +7 3 PC indirect with optional displacements and index +7 4 immediate 16- or 32-bit +7 5,6,7 Reserved +@end example + +On the 68000 and 68010, support for modes 6 and 7.3 are incomplete; the +displacement must fit in 8 bits, and no scaling or index suppression is +permitted. + +@subsubheading M68k relaxation modes + +The relaxation modes used on the 68k are: + +@table @code +@item ABRANCH +Case @samp{g} except when @code{BCC68000} is applicable. +@item FBRANCH +Coprocessor branches. +@item PCREL +Mode 7.2 -- program counter indirect with 16-bit displacement. This is +available on all processors. Widens to 32-bit absolute. Used only if the +original code used @code{ABSL} mode, and the CPU is not a 68000 or 68010. +(Why? Those processors support mode 7.2.) +@item BCC68000 +A conditional branch instruction, on the 68000 or 68010. These instructions +support only 16-bit displacements on these processors. If a larger +displacement is needed, the condition is negated and turned into a short branch +around a jump instruction to the specified target. This jump will have an +long absolute addressing mode. +@item DBCC +Like @code{BCC68000}, but for @code{dbCC} (decrement and branch on condition) +instructions. +@item PCLEA +Not currently used?? Short form is mode 7.2 (program counter indirect, 16-bit +displacement); long form is 7.3/0x0170 (program counter indirect, suppressed +index register, 32-bit displacement). Used in progressive-930331 for mode +@code{AOFF} with a PC-relative addressing mode and a displacement that won't +fit in 16 bits, or which is variable and is not specified to have a size other +than long. +@item PCINDEX +Newly added. PC indirect with index. An 8-bit displacement is supported on +the 68000 and 68010, wider displacements on later processors. + +Well, actually, I haven't added it yet. I need to soon, though. It fixes a +bug reported by a customer. +@end table + +@subsection ``Emulation'' Descriptions + +These are the @file{te-*.h} files. @node Foo @section Foo @@ -182,12 +634,12 @@ using one COFF back end, which uses the high-level BFD interface. @deftypefun int had_warnings (void) @deftypefunx int had_errors (void) -Returns non-zero if any warnings or errors, respectively, have been -printed during this invocation. +Returns non-zero if any warnings or errors, respectively, have been printed +during this invocation. @end deftypefun -@deftypefun void as_perror (const char *@var{gripe}, const char *@var{filename}) +@deftypefun void as_perror (const char *@var{gripe}, const char *@var{filename}) Displays a BFD or system error, then clears the error status. @@ -198,33 +650,77 @@ Displays a BFD or system error, then clears the error status. @deftypefunx void as_bad (const char *@var{format}, ...) @deftypefunx void as_fatal (const char *@var{format}, ...) -These functions display messages about something amiss with the input -file, or internal problems in the assembler itself. The current file -name and line number are printed, followed by the supplied message, -formatted using @code{vfprintf}, and a final newline. +These functions display messages about something amiss with the input file, or +internal problems in the assembler itself. The current file name and line +number are printed, followed by the supplied message, formatted using +@code{vfprintf}, and a final newline. + +An error indicated by @code{as_bad} will result in a non-zero exit status when +the assembler has finished. Calling @code{as_fatal} will result in immediate +termination of the assembler process. @end deftypefun @deftypefun void as_warn_where (char *@var{file}, unsigned int @var{line}, const char *@var{format}, ...) @deftypefunx void as_bad_where (char *@var{file}, unsigned int @var{line}, const char *@var{format}, ...) -These variants permit specification of the file name and line number, -and are used when problems are detected when reprocessing information -saved away when processing some earlier part of the file. For example, -fixups are processed after all input has been read, but messages about -fixups should refer to the original filename and line number that they -are applicable to. +These variants permit specification of the file name and line number, and are +used when problems are detected when reprocessing information saved away when +processing some earlier part of the file. For example, fixups are processed +after all input has been read, but messages about fixups should refer to the +original filename and line number that they are applicable to. @end deftypefun @deftypefun void fprint_value (FILE *@var{file}, valueT @var{val}) @deftypefunx void sprint_value (char *@var{buf}, valueT @var{val}) -These functions are helpful for converting a @code{valueT} value into -printable format, in case it's wider than modes that @code{*printf} can -handle. If the type is narrow enough, a decimal number will be -produced; otherwise, it will be in hexadecimal (FIXME: currently without -`0x' prefix). The value itself is not examined to make this -determination. +These functions are helpful for converting a @code{valueT} value into printable +format, in case it's wider than modes that @code{*printf} can handle. If the +type is narrow enough, a decimal number will be produced; otherwise, it will be +in hexadecimal (FIXME: currently without `0x' prefix). The value itself is not +examined to make this determination. @end deftypefun + +@node Writing a new target +@section Writing a new target + +@node Test suite +@section Test suite +@cindex test suite + +The test suite is kind of lame for most processors. Often it only checks to +see if a couple of files can be assembled without the assembler reporting any +errors. For more complete testing, write a test which either examines the +assembler listing, or runs @code{objdump} and examines its output. For the +latter, the TCL procedure @code{run_dump_test} may come in handy. It takes the +base name of a file, and looks for @file{@var{file}.d}. This file should +contain as its initial lines a set of variable settings in @samp{#} comments, +in the form: + +@example + #@var{varname}: @var{value} +@end example + +The @var{varname} may be @code{objdump}, @code{nm}, or @code{as}, in which case +it specifies the options to be passed to the specified programs. Exactly one +of @code{objdump} or @code{nm} must be specified, as that also specifies which +program to run after the assembler has finished. If @var{varname} is +@code{source}, it specifies the name of the source file; otherwise, +@file{@var{file}.s} is used. If @var{varname} is @code{name}, it specifies the +name of the test to be used in the @code{pass} or @code{fail} messages. + +The non-commented parts of the file are interpreted as regular expressions, one +per line. Blank lines in the @code{objdump} or @code{nm} output are skipped, +as are blank lines in the @code{.d} file; the other lines are tested to see if +the regular expression matches the program output. If it does not, the test +fails. + +Note that this means the tests must be modified if the @code{objdump} output +style is changed. + +@bye +@c Local Variables: +@c fill-column: 79 +@c End: |