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954 lines
33 KiB
Plaintext
954 lines
33 KiB
Plaintext
<!doctype linuxdoc system>
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<article>
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<title>ld65 Users Guide
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<author>Ullrich von Bassewitz, <htmlurl url="mailto:uz@cc65.org" name="uz@cc65.org">
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<date>02.12.2000
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<abstract>
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The ld65 linker combines object files into an executable file. ld65 is highly
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configurable and uses configuration files for high flexibility.
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</abstract>
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<!-- Table of contents -->
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<toc>
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<!-- Begin the document -->
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<sect>Overview<p>
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The ld65 linker combines several object modules created by the ca65
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assembler, producing an executable file. The object modules may be read
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from a library created by the ar65 archiver (this is somewhat faster and
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more convenient). The linker was designed to be as flexible as possible.
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It complements the features that are built into the ca65 macroassembler:
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<itemize>
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<item> Accept any number of segments to form an executable module.
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<item> Resolve arbitrary expressions stored in the object files.
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<item> In case of errors, use the meta information stored in the object files
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to produce helpful error messages. In case of undefined symbols,
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expression range errors, or symbol type mismatches, ld65 is able to
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tell you the exact location in the original assembler source, where
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the symbol was referenced.
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<item> Flexible output. The output of ld65 is highly configurable by a config
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file. More common platforms are supported by builtin configurations
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that may be activated by naming the target system. The output
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generation was designed with different output formats in mind, so
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adding other formats shouldn't be a great problem.
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</itemize>
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<sect>Usage<p>
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<sect1>Command line option overview<p>
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The linker is called as follows:
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<tscreen><verb>
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---------------------------------------------------------------------------
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Usage: ld65 [options] module ...
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Short options:
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-h Help (this text)
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-m name Create a map file
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-o name Name the default output file
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-t sys Set the target system
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-v Verbose mode
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-vm Verbose map file
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-C name Use linker config file
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-Ln name Create a VICE label file
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-Lp Mark write protected segments as such (VICE)
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-S addr Set the default start address
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-V Print the linker version
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Long options:
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--help Help (this text)
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--mapfile name Create a map file
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--target sys Set the target system
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--version Print the linker version
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---------------------------------------------------------------------------
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</verb></tscreen>
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<sect1>Command line options in detail<p>
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Here is a description of all the command line options:
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<descrip>
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<tag><tt>-h, --help</tt></tag>
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Print the short option summary shown above.
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<label id="option-m">
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<tag><tt>-m name, --mapfile name</tt></tag>
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This option (which needs an argument that will used as a filename for
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the generated map file) will cause the linker to generate a map file.
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The map file does contain a detailed overview over the modules used, the
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sizes for the different segments, and a table containing exported
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symbols.
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<label id="option-o">
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<tag><tt>-o name</tt></tag>
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The -o switch is used to give the name of the default output file.
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Depending on your output configuration, this name may NOT be used as
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name for the output file. However, for the builtin configurations, this
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name is used for the output file name.
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<label id="option-t">
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<tag><tt>-t sys, --target sys</tt></tag>
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The argument for the -t switch is the name of the target system. Since this
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switch will activate a builtin configuration, it may not be used together
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with the <tt><ref id="option-C" name="-C"></tt> option. The following target
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systems are currently supported:
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<itemize>
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<item>none
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<item>atari
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<item>c64
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<item>c128
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<item>plus4
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<item>cbm610 (all CBM series-II computers with 80 column video)
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<item>pet (all CBM PET systems except the 2001)
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<item>apple2
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<item>geos
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</itemize>
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There are a few more targets defined but neither of them is actually
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supported. See <ref id="builtin-configs" name="builtin configurations"> for
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more information.
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<label id="option-v">
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<tag><tt>-v, --verbose</tt></tag>
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Using the -v option, you may enable more output that may help you to
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locate problems. If an undefined symbol is encountered, -v causes the
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linker to print a detailed list of the references (that is, source file
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and line) for this symbol.
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<tag><tt>-vm</tt></tag>
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Must be used in conjunction with <tt><ref id="option-m" name="-m"></tt>
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(generate map file). Normally the map file will not include empty segments
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and sections, or unreferenced symbols. Using this option, you can force the
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linker to include all this information into the map file.
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<label id="option-C">
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<tag><tt>-C</tt></tag>
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This gives the name of an output config file to use. See section 4 for more
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information about config files. -C may not be used together with <tt><ref
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id="option-t" name="-t"></tt>.
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<tag><tt>-Ln</tt></tag>
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This option allows you to create a file that contains all global labels and
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may be loaded into VICE emulator using the <tt/ll/ (load label) command. You
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may use this to debug your code with VICE. Note: Older versions had some
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bugs in the label code. If you have problems, please get the latest VICE
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version.
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<tag><tt>-Lp</tt></tag>
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Deprecated option.
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<label id="option-S">
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<tag><tt>-S addr, --start-addr addr</tt></tag>
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Using -S you may define the default starting address. If and how this
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address is used depends on the config file in use. For the builtin
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configurations, only the "none" system honors an explicit start address,
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all other builtin config provide their own.
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<tag><tt>-V, --version</tt></tag>
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This option print the version number of the linker. If you send any
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suggestions or bugfixes, please include this number.
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</descrip>
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If one of the modules is not found in the current directory, and the module
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name does not have a path component, the value of the environment variable
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<tt/CC65_LIB/ is prepended to the name, and the linker tries to open the
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module with this new name.
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<sect>Detailed workings<p>
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The linker does several things when combining object modules:
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First, the command line is parsed from left to right. For each object file
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encountered (object files are recognized by a magic word in the header, so
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the linker does not care about the name), imported and exported
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identifiers are read from the file and inserted in a table. If a library
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name is given (libraries are also recognized by a magic word, there are no
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special naming conventions), all modules in the library are checked if an
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export from this module would satisfy an import from other modules. All
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modules where this is the case are marked. If duplicate identifiers are
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found, the linker issues a warning.
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This procedure (parsing and reading from left to right) does mean, that a
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library may only satisfy references for object modules (given directly or from
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a library) named <em/before/ that library. With the command line
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<tscreen><verb>
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ld65 crt0.o clib.lib test.o
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</verb></tscreen>
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the module test.o may not contain references to modules in the library
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clib.lib. If this is the case, you have to change the order of the modules
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on the command line:
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<tscreen><verb>
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ld65 crt0.o test.o clib.lib
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</verb></tscreen>
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Step two is, to read the configuration file, and assign start addresses
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for the segments and define any linker symbols (see <ref id="config-files"
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name="Configuration files">).
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After that, the linker is ready to produce an output file. Before doing that,
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it checks it's data for consistency. That is, it checks for unresolved
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externals (if the output format is not relocatable) and for symbol type
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mismatches (for example a zero page symbol is imported by a module as absolute
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symbol).
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Step four is, to write the actual target files. In this step, the linker will
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resolve any expressions contained in the segment data. Circular references are
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also detected in this step (a symbol may have a circular reference that goes
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unnoticed if the symbol is not used).
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Step five is to output a map file with a detailed list of all modules,
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segments and symbols encountered.
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And, last step, if you give the <tt><ref id="option-v" name="-v"></tt> switch
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twice, you get a dump of the segment data. However, this may be quite
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unreadable if you're not a developer:-)
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<sect>Configuration files<label id="config-files"><p>
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Configuration files are used to describe the layout of the output file(s). Two
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major topics are covered in a config file: The memory layout of the target
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architecture, and the assignment of segments to memory areas. In addition,
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several other attributes may be specified.
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Case is ignored for keywords, that is, section or attribute names, but it is
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<em/not/ ignored for names and strings.
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<sect1>Memory areas<p>
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Memory areas are specified in a <tt/MEMORY/ section. Lets have a look at an
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example (this one describes the usable memory layout of the C64):
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<tscreen><verb>
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MEMORY {
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RAM1: start = $0800, size = $9800;
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ROM1: start = $A000, size = $2000;
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RAM2: start = $C000, size = $1000;
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ROM2: start = $E000, size = $2000;
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}
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</verb></tscreen>
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As you can see, there are two ram areas and two rom areas. The names
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(before the colon) are arbitrary names that must start with a letter, with
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the remaining characters being letters or digits. The names of the memory
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areas are used when assigning segments. As mentioned above, case is
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significant for these names.
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The syntax above is used in all sections of the config file. The name
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(<tt/ROM1/ etc.) is said to be an identifier, the remaining tokens up to the
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semicolon specify attributes for this identifier. You may use the equal sign
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to assign values to attributes, and you may use a comma to separate
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attributes, you may also leave both out. But you <em/must/ use a semicolon to
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mark the end of the attributes for one identifier. The section above may also
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have looked like this:
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<tscreen><verb>
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# Start of memory section
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MEMORY
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{
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RAM1:
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start $0800
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size $9800;
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ROM1:
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start $A000
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size $2000;
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RAM2:
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start $C000
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size $1000;
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ROM2:
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start $E000
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size $2000;
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}
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</verb></tscreen>
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There are of course more attributes for a memory section than just start and
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size. Start and size are mandatory attributes, that means, each memory area
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defined <em/must/ have these attributes given (the linker will check that). I
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will cover other attributes later. As you may have noticed, I've used a
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comment in the example above. Comments start with a hash mark (`#'), the
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remainder of the line is ignored if this character is found.
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<sect1>Segments<p>
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Let's assume you have written a program for your trusty old C64, and you would
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like to run it. For testing purposes, it should run in the <tt/RAM/ area. So
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we will start to assign segments to memory sections in the <tt/SEGMENTS/
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section:
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<tscreen><verb>
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SEGMENTS {
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CODE: load = RAM1, type = ro;
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RODATA: load = RAM1, type = ro;
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DATA: load = RAM1, type = rw;
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BSS: load = RAM1, type = bss, define = yes;
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}
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</verb></tscreen>
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What we are doing here is telling the linker, that all segments go into the
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<tt/RAM1/ memory area in the order specified in the <tt/SEGMENTS/ section. So
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the linker will first write the <tt/CODE/ segment, then the <tt/RODATA/
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segment, then the <tt/DATA/ segment - but it will not write the <tt/BSS/
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segment. Why? Enter the segment type: For each segment specified, you may also
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specify a segment attribute. There are five possible segment attributes:
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<tscreen><verb>
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ro means readonly
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wprot same as ro but will be marked as write protected in
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the VICE label file if -Lp is given
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rw means read/write
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bss means that this is an uninitialized segment
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empty will not go in any output file
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zp a zeropage segment
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</verb></tscreen>
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So, because we specified that the segment with the name BSS is of type bss,
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the linker knows that this is uninitialized data, and will not write it to an
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output file. This is an important point: For the assembler, the <tt/BSS/
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segment has no special meaning. You specify, which segments have the bss
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attribute when linking. This approach is much more flexible than having one
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fixed bss segment, and is a result of the design decision to supporting an
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arbitrary segment count.
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If you specify "<tt/type = bss/" for a segment, the linker will make sure that
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this segment does only contain uninitialized data (that is, zeroes), and issue
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a warning if this is not the case.
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For a <tt/bss/ type segment to be useful, it must be cleared somehow by your
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program (this happens usually in the startup code - for example the startup
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code for cc65 generated programs takes care about that). But how does your
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code know, where the segment starts, and how big it is? The linker is able to
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give that information, but you must request it. This is, what we're doing with
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the "<tt/define = yes/" attribute in the <tt/BSS/ definitions. For each
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segment, where this attribute is true, the linker will export three symbols.
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<tscreen><verb>
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__NAME_LOAD__ This is set to the address where the
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segment is loaded.
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__NAME_RUN__ This is set to the run address of the
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segment. We will cover run addresses
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later.
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__NAME_SIZE__ This is set to the segment size.
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</verb></tscreen>
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Replace <tt/NAME/ by the name of the segment, in the example above, this would
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be <tt/BSS/. These symbols may be accessed by your code.
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Now, as we've configured the linker to write the first three segments and
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create symbols for the last one, there's only one question left: Where does
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the linker put the data? It would be very convenient to have the data in a
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file, wouldn't it?
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<sect1>Output files<p>
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We don't have any files specified above, and indeed, this is not needed in a
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simple configuration like the one above. There is an additional attribute
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"file" that may be specified for a memory area, that gives a file name to
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write the area data into. If there is no file name given, the linker will
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assign the default file name. This is "a.out" or the one given with the
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<tt><ref id="option-o" name="-o"></tt> option on the command line. Since the
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default behaviour is ok for our purposes, I did not use the attribute in the
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example above. Let's have a look at it now.
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The "file" attribute (the keyword may also be written as "FILE" if you like
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that better) takes a string enclosed in double quotes (`"') that specifies the
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file, where the data is written. You may specifiy the same file several times,
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in that case the data for all memory areas having this file name is written
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into this file, in the order of the memory areas defined in the <tt/MEMORY/
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section. Let's specify some file names in the <tt/MEMORY/ section used above:
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<tscreen><verb>
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MEMORY {
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RAM1: start = $0800, size = $9800, file = %O;
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ROM1: start = $A000, size = $2000, file = "rom1.bin";
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RAM2: start = $C000, size = $1000, file = %O;
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ROM2: start = $E000, size = $2000, file = "rom2.bin";
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}
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</verb></tscreen>
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The <tt/%O/ used here is a way to specify the default behaviour explicitly:
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<tt/%O/ is replaced by a string (including the quotes) that contains the
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default output name, that is, "a.out" or the name specified with the <tt><ref
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id="option-o" name="-o"></tt> option on the command line. Into this file, the
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linker will first write any segments that go into <tt/RAM1/, and will append
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then the segments for <tt/RAM2/, because the memory areas are given in this
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order. So, for the RAM areas, nothing has really changed.
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We've not used the ROM areas, but we will do that below, so we give the file
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names here. Segments that go into <tt/ROM1/ will be written to a file named
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"rom1.bin", and segments that go into <tt/ROM2/ will be written to a file
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named "rom2.bin". The name given on the command line is ignored in both cases.
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<sect1>LOAD and RUN addresses (ROMable code)<p>
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Let us look now at a more complex example. Say, you've successfully tested
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your new "Super Operating System" (SOS for short) for the C64, and you
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will now go and replace the ROMs by your own code. When doing that, you
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face a new problem: If the code runs in RAM, we need not to care about
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read/write data. But now, if the code is in ROM, we must care about it.
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Remember the default segments (you may of course specify your own):
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<tscreen><verb>
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CODE read only code
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RODATA read only data
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DATA read/write data
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BSS uninitialized data, read/write
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</verb></tscreen>
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Since <tt/BSS/ is not initialized, we must not care about it now, but what
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about <tt/DATA/? <tt/DATA/ contains initialized data, that is, data that was
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explicitly assigned a value. And your program will rely on these values on
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startup. Since there's no other way to remember the contents of the data
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segment, than storing it into one of the ROMs, we have to put it there. But
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unfortunately, ROM is not writeable, so we have to copy it into RAM before
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running the actual code.
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The linker cannot help you copying the data from ROM into RAM (this must be
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done by the startup code of your program), but it has some features that will
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help you in this process.
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First, you may not only specify a "<tt/load/" attribute for a segment, but
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also a "<tt/run/" attribute. The "<tt/load/" attribute is mandatory, and, if
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you don't specify a "<tt/run/" attribute, the linker assumes that load area
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and run area are the same. We will use this feature for our data area:
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<tscreen><verb>
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SEGMENTS {
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CODE: load = ROM1, type = ro;
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RODATA: load = ROM2, type = ro;
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DATA: load = ROM2, run = RAM2, type = rw, define = yes;
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BSS: load = RAM2, type = bss, define = yes;
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}
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</verb></tscreen>
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Let's have a closer look at this <tt/SEGMENTS/ section. We specify that the
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<tt/CODE/ segment goes into <tt/ROM1/ (the one at $A000). The readonly data
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goes into <tt/ROM2/. Read/write data will be loaded into <tt/ROM2/ but is run
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in <tt/RAM2/. That means that all references to labels in the <tt/DATA/
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segment are relocated to be in <tt/RAM2/, but the segment is written to
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<tt/ROM2/. All your startup code has to do is, to copy the data from it's
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location in <tt/ROM2/ to the final location in <tt/RAM2/.
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So, how do you know, where the data is located? This is the second point,
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where you get help from the linker. Remember the "<tt/define/" attribute?
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|
Since we have set this attribute to true, the linker will define three
|
|
external symbols for the data segment that may be accessed from your code:
|
|
|
|
<tscreen><verb>
|
|
__DATA_LOAD__ This is set to the address where the segment
|
|
is loaded, in this case, it is an address in
|
|
ROM2.
|
|
__DATA_RUN__ This is set to the run address of the segment,
|
|
in this case, it is an address in RAM2.
|
|
__DATA_SIZE__ This is set to the segment size.
|
|
</verb></tscreen>
|
|
|
|
So, what your startup code must do, is to copy <tt/__DATA_SIZE__/ bytes from
|
|
<tt/__DATA_LOAD__/ to <tt/__DATA_RUN__/ before any other routines are called.
|
|
All references to labels in the <tt/DATA/ segment are relocated to <tt/RAM2/
|
|
by the linker, so things will work properly.
|
|
|
|
|
|
<sect1>Other MEMORY area attributes<p>
|
|
|
|
There are some other attributes not covered above. Before starting the
|
|
reference section, I will discuss the remaining things here.
|
|
|
|
You may request symbols definitions also for memory areas. This may be
|
|
useful for things like a software stack, or an i/o area.
|
|
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
STACK: start = $C000, size = $1000, define = yes;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
This will define three external symbols that may be used in your code:
|
|
|
|
<tscreen><verb>
|
|
__STACK_START__ This is set to the start of the memory
|
|
area, $C000 in this example.
|
|
__STACK_SIZE__ The size of the area, here $1000.
|
|
__STACK_LAST__ This is NOT the same as START+SIZE.
|
|
Instead, it it defined as the first
|
|
address that is not used by data. If we
|
|
don't define any segments for this area,
|
|
the value will be the same as START.
|
|
</verb></tscreen>
|
|
|
|
A memory section may also have a type. Valid types are
|
|
|
|
<tscreen><verb>
|
|
ro for readonly memory
|
|
rw for read/write memory.
|
|
</verb></tscreen>
|
|
|
|
The linker will assure, that no segment marked as read/write or bss is put
|
|
into a memory area that is marked as readonly.
|
|
|
|
Unused memory in a memory area may be filled. Use the "<tt/fill = yes/"
|
|
attribute to request this. The default value to fill unused space is zero. If
|
|
you don't like this, you may specify a byte value that is used to fill these
|
|
areas with the "<tt/fillval/" attribute. This value is also used to fill unfilled
|
|
areas generated by the assemblers <tt/.ALIGN/ and <tt/.RES/ directives.
|
|
|
|
|
|
<sect1>Other SEGMENT attributes<p>
|
|
|
|
Segments may be aligned to some memory boundary. Specify "<tt/align = num/" to
|
|
request this feature. Num must be a power of two. To align all segments on a
|
|
page boundary, use
|
|
|
|
<tscreen><verb>
|
|
SEGMENTS {
|
|
CODE: load = ROM1, type = ro, align = $100;
|
|
RODATA: load = ROM2, type = ro, align = $100;
|
|
DATA: load = ROM2, run = RAM2, type = rw, define = yes,
|
|
align = $100;
|
|
BSS: load = RAM2, type = bss, define = yes, align = $100;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
If an alignment is requested, the linker will add enough space to the output
|
|
file, so that the new segment starts at an address that is divideable by the
|
|
given number without a remainder. All addresses are adjusted accordingly. To
|
|
fill the unused space, bytes of zero are used, or, if the memory area has a
|
|
"<tt/fillval/" attribute, that value. Alignment is always needed, if you have
|
|
the used the <tt/.ALIGN/ command in the assembler. The alignment of a segment
|
|
must be equal or greater than the alignment used in the <tt/.ALIGN/ command.
|
|
The linker will check that, and issue a warning, if the alignment of a segment
|
|
is lower than the alignment requested in a <tt/.ALIGN/ command of one of the
|
|
modules making up this segment.
|
|
|
|
For a given segment you may also specify a fixed offset into a memory area or
|
|
a fixed start address. Use this if you want the code to run at a specific
|
|
address (a prominent case is the interrupt vector table which must go at
|
|
address $FFFA). Only one of <tt/ALIGN/ or <tt/OFFSET/ or <tt/START/ may be
|
|
specified. If the directive creates empty space, it will be filled with zero,
|
|
of with the value specified with the "<tt/fillval/" attribute if one is given.
|
|
The linker will warn you if it is not possible to put the code at the
|
|
specified offset (this may happen if other segments in this area are too
|
|
large). Here's an example:
|
|
|
|
<tscreen><verb>
|
|
SEGMENTS {
|
|
VECTORS: load = ROM2, type = ro, start = $FFFA;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
or (for the segment definitions from above)
|
|
|
|
<tscreen><verb>
|
|
SEGMENTS {
|
|
VECTORS: load = ROM2, type = ro, offset = $1FFA;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
File names may be empty, data from segments assigned to a memory area with
|
|
an empty file name is discarded. This is useful, if the a memory area has
|
|
segments assigned that are empty (for example because they are of type
|
|
bss). In that case, the linker will create an empty output file. This may
|
|
be suppressed by assigning an empty file name to that memory area.
|
|
|
|
The symbol <tt/%S/ may be used to access the default start address (that is,
|
|
$200 or the value given on the command line with the <tt><ref id="option-S"
|
|
name="-S"></tt> option).
|
|
|
|
|
|
|
|
<sect1>Features<p>
|
|
|
|
In addition to the <tt/MEMORY/ and <tt/SEGMENTS/ sections described above, the
|
|
linker has features that may be enabled by an additional section labeled
|
|
<tt/FEATURES/. Currently, one such feature is available: <tt/CONDES/ is used
|
|
to tell the linker to emit module constructor/destructor tables.
|
|
|
|
<tscreen><verb>
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
The <tt/CONDES/ feature has several attributes:
|
|
|
|
<descrip>
|
|
|
|
<tag><tt>segment</tt></tag>
|
|
|
|
This attribute tells the linker into which segment the table should be
|
|
placed. If the segment does not exist, it is created.
|
|
|
|
|
|
<tag><tt>type</tt></tag>
|
|
|
|
Describes the type of the routines to place in the table. Type may be
|
|
one of the predefined types <tt/constructor/ or <tt/destructor/, or a
|
|
numeric value between 0 and 6.
|
|
|
|
|
|
<tag><tt>label</tt></tag>
|
|
|
|
This specifies the label to use for the table. The label points to the
|
|
start of the table in memory and may be used from within user written
|
|
code.
|
|
|
|
|
|
<tag><tt>count</tt></tag>
|
|
|
|
This is an optional attribute. If specified, an additional symbol is
|
|
defined by the linker using the given name. The value of this symbol
|
|
is the number of entries (<em/not/ bytes) in the table. While this
|
|
attribute is optional, it is often useful to define it.
|
|
|
|
|
|
<tag><tt>order</tt></tag>
|
|
|
|
Optional attribute that takes one of the keywords <tt/increasing/ or
|
|
<tt/decreasing/ as an argument. Specifies the sorting order of the entries
|
|
within the table. The default is <tt/increasing/, which means that the
|
|
entries are sorted with increasing priority (the first entry has the lowest
|
|
priority). You may change this behaviour by specifying <tt/decreasing/ as
|
|
the argument, the order of entries is reversed in this case.
|
|
|
|
Please note that the order of entries with equal priority is undefined.
|
|
|
|
</descrip>
|
|
|
|
Without specifying the <tt/CONDES/ feature, the linker will not create any
|
|
tables, even if there are <tt/condes/ entries in the object files.
|
|
|
|
For more information see the <tt/.CONDES/ command in the <htmlurl
|
|
url="ca65.html" name="ca65 manual">.
|
|
|
|
|
|
|
|
<sect1>Builtin configurations<label id="builtin-configs"><p>
|
|
|
|
Here is a list of the builin configurations for the different target
|
|
types:
|
|
|
|
<descrip>
|
|
<tag><tt>none</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
RAM: start = %S, size = $10000, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = rw;
|
|
RODATA: load = RAM, type = rw;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>atari</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $82, size = $7E, type = rw;
|
|
HEADER: start = $0000, size = $6, file = %O;
|
|
RAM: start = $1F00, size = $9D1F, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
EXEHDR: load = HEADER, type = wprot;
|
|
CODE: load = RAM, type = wprot, define = yes;
|
|
RODATA: load = RAM, type = wprot;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
AUTOSTRT: load = RAM, type = wprot;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>c64</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $02, size = $1A, type = rw;
|
|
RAM: start = $7FF, size = $c801, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = wprot;
|
|
RODATA: load = RAM, type = wprot;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
|
|
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>c128</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $02, size = $1A, type = rw;
|
|
RAM: start = $1bff, size = $a401, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = wprot;
|
|
RODATA: load = RAM, type = wprot;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>plus4</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $02, size = $1A, type = rw;
|
|
RAM: start = $0fff, size = $7001, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = wprot;
|
|
RODATA: load = RAM, type = wprot;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>cbm610</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $02, size = $1A, type = rw;
|
|
RAM: start = $0001, size = $FFF0, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = wprot;
|
|
RODATA: load = RAM, type = wprot;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>pet</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $02, size = $1A, type = rw;
|
|
RAM: start = $03FF, size = $7BFF, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = wprot;
|
|
RODATA: load = RAM, type = wprot;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>apple2</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
ZP: start = $00, size = $1A, type = rw;
|
|
RAM: start = $800, size = $8E00, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
CODE: load = RAM, type = ro;
|
|
RODATA: load = RAM, type = ro;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
ZEROPAGE: load = ZP, type = zp;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
<tag><tt>geos</tt></tag>
|
|
<tscreen><verb>
|
|
MEMORY {
|
|
HEADER: start = $204, size = 508, file = %O;
|
|
RAM: start = $400, size = $7C00, file = %O;
|
|
}
|
|
SEGMENTS {
|
|
HEADER: load = HEADER, type = ro;
|
|
CODE: load = RAM, type = ro;
|
|
RODATA: load = RAM, type = ro;
|
|
DATA: load = RAM, type = rw;
|
|
BSS: load = RAM, type = bss, define = yes;
|
|
}
|
|
FEATURES {
|
|
CONDES: segment = RODATA,
|
|
type = constructor,
|
|
label = __CONSTRUCTOR_TABLE__,
|
|
count = __CONSTRUCTOR_COUNT__;
|
|
CONDES: segment = RODATA,
|
|
type = destructor,
|
|
label = __DESTRUCTOR_TABLE__,
|
|
count = __DESTRUCTOR_COUNT__;
|
|
}
|
|
</verb></tscreen>
|
|
|
|
</descrip>
|
|
|
|
The "<tt/start/" attribute for the <tt/RAM/ memory area of the CBM systems is
|
|
two less than the actual start of the basic RAM to account for the two bytes
|
|
load address that is needed on disk and supplied by the startup code.
|
|
|
|
|
|
|
|
<sect>Bugs/Feedback<p>
|
|
|
|
If you have problems using the linker, if you find any bugs, or if you're
|
|
doing something interesting with it, I would be glad to hear from you. Feel
|
|
free to contact me by email (<htmlurl url="mailto:uz@cc65.org"
|
|
name="uz@cc65.org">).
|
|
|
|
|
|
|
|
<sect>Copyright<p>
|
|
|
|
ld65 (and all cc65 binutils) are (C) Copyright 1998-2000 Ullrich von
|
|
Bassewitz. For usage of the binaries and/or sources the following
|
|
conditions do apply:
|
|
|
|
This software is provided 'as-is', without any expressed or implied
|
|
warranty. In no event will the authors be held liable for any damages
|
|
arising from the use of this software.
|
|
|
|
Permission is granted to anyone to use this software for any purpose,
|
|
including commercial applications, and to alter it and redistribute it
|
|
freely, subject to the following restrictions:
|
|
|
|
<enum>
|
|
<item> The origin of this software must not be misrepresented; you must not
|
|
claim that you wrote the original software. If you use this software
|
|
in a product, an acknowledgment in the product documentation would be
|
|
appreciated but is not required.
|
|
<item> Altered source versions must be plainly marked as such, and must not
|
|
be misrepresented as being the original software.
|
|
<item> This notice may not be removed or altered from any source
|
|
distribution.
|
|
</enum>
|
|
|
|
|
|
|
|
</article>
|
|
|