6502bench SourceGen: Advanced Topics

Back to index

Platform Symbol Files (.sym65)

Platform symbol files contain lists of symbols, each of which has a label and a value. SourceGen comes with a collection of symbols for popular systems, but you can create your own. This can be handy if a few different projects are coded against a common library.

If two symbols have the same value, the older symbol is replaced by the newer one. This is why the order in which symbols file are loaded matters.

Platform symbol files consist of comments, commands, and symbols. Blank lines, and lines that begin with a semicolon (';'), are ignored. Lines that begin with an asterisk ('*') are commands. Two are currently defined:

Tags can be used by extension scripts to identify a subset of symbols. The symbols are still part of the global set; the tag just provides a way to extract a subset. Tags should be comprised of non-whitespace ASCII characters. Tags are global, so use a long, descriptive string. If *TAG is not followed by a string, the symbols that follow are treated as untagged.

All other lines are symbols, which have the form:

  label {=|@} value [;comment]

Labels must be at least two characters long, begin with a letter or underscore, and consist entirely of alphanumeric ASCII characters (A-Z, a-z, 0-9) and the underscore ('_'). (This is the same format required for line labels in SourceGen.)

Use '@' for address values, and '=' for constants. The only important difference between them is that address values will be applied automatically to operands that reference addresses outside the scope of the file. Constants are never applied automatically.

The value is a number in decimal, hexadecimal (with a leading '$'), or binary (with a leading '%'). The numeric base will be recorded and used when formatting the symbol in generated output, so use whichever form is most appropriate. Values are unsigned 24-bit numbers.

The comment is optional. If present, it will be saved and used as the end-of-line comment on the .EQ directive if the symbol is used.

Creating a Project-Specific Symbol File

To create a platform symbol file for your project, just create a new text file, named with a ".sym65" extension. (If your text editor of choice doesn't like that, you can put a ".txt" on the end while you're editing.) Make sure you create it in the same directory where your project file (the file that ends with ".dis65") lives. Add a *SYNOPSIS, then add the desired symbols.

Finally, add it to your project. Select Edit > Project Properties, switch to the Symbol Files tab, click Add Symbol Files, and select your symbol file. It should appear in the list with a "PROJ:" prefix.

If an example helps, the A2-Amper-fdraw project in the Examples directory has a project-local symbol file, called "fdraw-exports". (Amper-fdraw provides an Applesoft BASIC interface to a machine-language library.)

NOTE: in the current version of SourceGen, changes to .sym65 files are not detected automatically. Closing and re-opening the project (File > Close, then click on the first recent-file link) will reload them.

Extension Scripts

Extension scripts, also called "plugins", are C# programs with access to the full .NET Standard 2.0 APIs. They're compiled at run time by SourceGen and executed in a sandbox with security restrictions.

SourceGen defines an interface that plugins must implement, and an interface that plugins can use to interact with SourceGen. See Interfaces.cs in the PluginCommon directory. Bear in mind that this feature is still evolving, and the interfaces may change significantly in the near future.

The current interfaces can be used to identify inline data that follows JSR/JSL instructions, and to format operands. The latter can be useful for replacing immediate load operands with symbolic constants.

Scripts may be loaded from the RuntimeData directory, or from the directory where the project file lives. Attempts to load them from other locations will fail.

Development

The easiest way to develop extension scripts is inside the 6502bench solution in Visual Studio. This way you have the interfaces available for IntelliSense completion, and get all the usual syntax and compile checking in the editor. (This is why there's a RuntimeData project for Visual Studio.)

If you have the solution configured for debug builds, SourceGen will set the IncludeDebugInformation flag to true when compiling scripts. This causes a .PDB file to be created.

Some commonly useful functions are defined in the PluginCommon.Util class, which is available to plugins. These call into the CommonUtil library, which is shared with SourceGen.

While plugins can use CommonUtil directly, they should avoid doing so. The APIs there are not guaranteed to be stable, so plugins that rely on them may break in a subsequent release of SourceGen.

PluginDll Directory

Extension scripts are compiled into .DLLs, and saved in the PluginDll directory, which lives next to the application executable and RuntimeData. If the extension script is the same age or older than the DLL, SourceGen will continue to use the existing DLL.

The DLLs names are a combination of the script filename and script location. The compiled name for "MyPlatform/MyScript.cs" in the RuntimeData directory will be "RT_MyPlatform_MyScript.dll". For a project-specific script, it would look like "PROJ_MyProject_MyScript.dll".

The PluginCommon and CommonUtil DLLs will be copied into the directory, so that code in the sandbox has access to them.

Sandboxing

Extension scripts are executed in an App Domain sandbox. App domains are a .NET feature that creates a partition inside the virtual machine, isolating code. It still runs in the same address space, on the same threads, so the isolation is only effective for "partially trusted" code that has been declared safe by the bytecode verifier.

SourceGen disallows most actions, notably file access. An exception is made for reading files from the directory where the plugin DLLs live, but scripts are otherwise unable to read or write from the filesystem. (A future version of SourceGen may provide an API that allows limited access to data files.)

App domain security is not absolute. I don't really expect SourceGen to be used as a malware vector, so there's no value in forcing scripts to execute in an isolated server process, or to jump through the other hoops required to really lock things down. I do believe there's value in defining the API in such a way that we *could* implement full security if circumstances change, so I'm using app domains as a way to keep everybody honest.

Working With Multiple Binaries

Sometimes a program is split into multiple files on disk. They may be all loaded at once, or some may be loaded into the same place at different times. In such situations it's not uncommon for one file to provide a set of interfaces that other files use. It's useful to have symbols for these interfaces be available to all projects.

There are two ways to do this: (1) define a common platform symbol file with the relevant addresses, and keep it up to date as you work; or (2) declare the labels as global and exported, and import them as project symbols into the other projects.

Support for this is currently somewhat weak, requiring a manual symbol-import step in every interested project. This step must be repeated whenever the labels are updated.

A different but related problem is typified by arcade ROM sets, where files are split apart because each file must be burned into a separate PROM. All files are expected to be present in memory at once, so there's no reason to treat them as separate projects. Currently, the best way to deal with this is to concatenate the files into a single file, and operate on that.

Overlapping Address Spaces

Some programs use memory overlays, where multiple parts of the code run in the same address in RAM. Others use bank switching to access parts of the program that reside in separate physical RAM, but appear at the same address.

SourceGen allows you to set the same address on multiple parts of a file. Branches to a given address are resolved against the current segment first. For example, consider this:

         .ORG    $1000
         JMP     L1100

         .ORG    $1100
L1100    BIT     L1100
L1103    LDA     #$11
         BRA     L1103

         .ORG    $1100
L1100_0  BIT     L1100_0
L1103_0  LDA     #$22
         JMP     L1103_0

Both sections start at $1100, and have branches to $1103. The branch in the first section resolves to the label in the first version of that address chunk, while the branch in the second section resolves to the label in the second chunk. When branches originate outside the current address chunk, the first chunk that includes that address is used, as it is with the JMP $1000 at the start of the file.

Debug Menu Options

The DEBUG menu is hidden by default in release builds, but can be exposed by checking the "enable DEBUG menu" box in the application settings. These features are used for debugging SourceGen. They will not help you debug 6502 projects.

Features: