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.\" Copyright (c) 2005 Ian Piumarta
.\"
.\" Permission is hereby granted, free of charge, to any person
.\" obtaining a copy of this software and associated documentation
.\" files (the 'Software'), to deal in the Software without
.\" restriction, including without limitation the rights to use, copy,
.\" modify, merge, publish, distribute, and/or sell copies of the
.\" Software, and to permit persons to whom the Software is furnished
.\" to do so, provided that the above copyright notice(s) and this
.\" permission notice appear in all copies of the Software and that
.\" both the above copyright notice(s) and this permission notice
.\" appear in supporting documentation.
.\"
.\" THE SOFTWARE IS PROVIDED 'AS IS'. USE ENTIRELY AT YOUR OWN RISK.
.\"
.\" last edited: 2005-11-02 01:18:22 by piumarta on margaux.local
.\"
.Dd October 31, 2005
.Dt RUN6502 1 LOCAL
.Os ""
.\" ----------------------------------------------------------------
.Sh NAME
.\"
.Nm run6502
.Nd execute a 6502 microprocessor program
.\" ----------------------------------------------------------------
.Sh SYNOPSIS
.\"
.Nm run6502
.Op Ar option ...
.Nm run6502
.Op Ar option ...
.Fl B
.Op Ar
.\" ----------------------------------------------------------------
.Sh DESCRIPTION
The
.Nm run6502
command emulates the execution of a 6502 microprocessor. It creates a
memory image from the contents of one or more files on the command
line and then simulates a power-on hardware reset to begin execution.
.Pp
In its first form,
.Nm run6502
emulates an embedded 6502 processor with 64 kilobytes of RAM, no
memory-mapped hardware, and no input-output capabilities. Limited
interaction with the machine is possible only through the
.Fl G , M
and
.Fl P
options.
.Pp
In its second form (with the
.Fl B
option)
.Nm run6502
provides minimal emulation of Acorn 'BBC Model B' hardware with 32
kilobytes of RAM, 16 kilobytes of paged language ROMs, and 16
kilobytes of operating system ROM. A few MOS calls are intercepted to
provide keyboard input and screen output via stdin and stdout.
Switching between the sixteen paged read-only memory banks is also
supported by the usual memory-mapped control register. Any
.Ar file
arguments after the
.Fl B
are loaded into successive paged ROM banks (starting at 15 and working
down towards 0) before execution begins.
.\" ----------------------------------------------------------------
.Ss Options
.\"
.Bl -tag -width indent
.It Fl B
enable minimal Acorn 'BBC Model B' hardware emulation:
.Bl -bullet
.It
the contents of memory between addresses 0x8000 and 0xBFFF are copied
into paged ROM number 0;
.It
memory between 0x8000 and 0xBFFF becomes bank-switchable between
sixteen different ROM images;
.It
the memory-mapped pages ('FRED', 'JIM' and 'SHEILA') between 0xFC00
and 0xFEFF are initialised to harmless values;
.It
the upper half of the address space is write-protected; and
.It
callbacks are installed on several OS entry points to provide
input-output via stdin and stdout.
.El
.Pp
Any remaining non-option arguments on the command line will name files
to be loaded successively into paged ROMs, starting at 15 and working
downwards towards 0.
.It Fl d Ar addr Ar end
dump memory from the address
.Ar addr
(given in hexadecimal) up to (but not including)
.Ar end .
The
.Ar end
argument is either an absolute address or a relative address specified
as a '+' character followed by the number (in hexadecimal) of bytes to
dump. In other words, the following two options dump the same region
of memory:
.Bd -ragged -offset indent
.Fl d
8000 C000
.Ed
.Bd -ragged -offset indent -compact
.Fl d
8000 +4000
.Ed
.Pp
The format of the dump cannot currently be modified and consists of
the current address followed by one, two or three hexadecimal bytes,
and a symbolic representation of the instruction at that address.
.It Fl G Ar addr
arrange that subroutine calls to
.Ar addr
will behave as if there were an implementation of
.Xr getchar 3
at that address, reading a character from stdin and returning it in
the accumulator.
.It Fl h
print a summary of the available options and then exit.
.It Fl I Ar addr
set the IRQ (interrupt request) vector (the address to which the
processor will transfer control upon execution of a BRK instruction).
Setting this address to zero will cause execution to halt (and the
emulator to exit) when a BRK instruction is encountered.
.It Fl i Ar addr Ar file
Load
.Ar file
into the memory image at the address
.Ar addr
(in hexadecimal), skipping over any initial '#!' interpreter line.
.It Fl l Ar addr Ar file
Load
.Ar file
into the memory image at the address
.Ar addr
(in hexadecimal).
.It Fl M Ar addrio
arrange that memory reads from address
.Ar addrio
will return the next character on stdin (blocking if necessary), and
memory writes to
.Ar addrio
will send the value written to stdout.
.It Fl N Ar addr
set the NMI (non-maskable interrupt) vector to
.Ar addr .
.It Fl P Ar addr
arrange that subroutine calls to
.Ar addr
will behave as if there were an implementation of
.Xr putchar 3
at that address, writing the contents of the accumulator to stdout.
.It Fl R Ar addr
set the RST (hardware reset) vector. The processor will transfer
control to this address when emulated execution begins.
.It Fl s Ar addr Ar end Ar file
save the contents of memory from the address
.Ar addr
up to
.Ar end
(exclusive) to the given
.Ar file .
As with the
.Fl d
option,
.Ar end
can be absolute or '+' followed by a byte count.
.It Fl v
print version information and then exit.
.It Fl X Ar addr
arrange that any transfer of control to the address
.Ar addr
will cause an immediate exit with zero exit status.
.It Fl x
exit immediately. (Useful after
.Fl d
or when
.Nm run6502
is being used as a trivial 'image editor', with several
.Fl l
options followed by
.Fl s
and
.Fl x . )
.It Ar
following a
.Fl B
option, load one or more ROM image
files
into successive paged ROM slots. Other than the paging aspect, this
is equivalent to:
.Bd -ragged -offset indent
.Fl l Ar 8000 Ar image
.Ed
.El
.\" ----------------------------------------------------------------
.Sh EXAMPLES
.\"
.Ss A Very Simple Program
The
.Xr perl 1
command can be used to create a binary file from hexadecimal input:
.Bd -literal
echo a2418a20eeffe8e05bd0f7a90a20eeff00 |
perl -e 'print pack "H*",<STDIN>' > temp.img
.Ed
.Pp
The file can be loaded and executed with:
.Bd -literal
run6502 -l 1000 temp.img -R 1000 -P FFEE -X 0
.Ed
.Pp
The contents of the file can be inspected symbolically with:
.Bd -literal
run6502 -l 1000 temp.img -d 1000 +12
.Ed
.Pp
The options passed to
.Nm run6502
in the above examples have the following effects:
.Bl -tag -width offset
.It \-l 1000 temp.img
loads the file
.Pa temp.img
into memory at address 0x8000.
.It \-R 1000
sets the reset vector (the address of first instruction to be executed
after 'power on') to 0x1000.
.It \-P FFEE
arranges for calls to address 0xFFEE to behave as if there were an
implementation of
.Xr putchar 3
at that address.
.It \-X 0
arranges for transfers of control to address 0 to exit from the
emulator. This works in the above example because the final 'BRK'
instruction causes an implicit subroutine call through an
uninitialised interrupt vector to location 0. To see this
instruction...
.It \-d 1000 +12
disassembles 18 bytes of memory at address 0x8000.
.El
.Ss Standalone Images
The
.Fl i
option is designed for use in the 'interpreter command' appearing on
the first line of an executable script. Adding the line
.Bd -literal
#!run6502 -R 1000 -P FFEE -X 0 -i 1000
.Ed
.Pp
(with no leading spaces and a single trailing newline character)
to the
.Pa temp.img
file from the first example turns it into a script. If the file is
made executable with
.Bd -literal
chmod +x temp.img
.Ed
.Pp
it can be run like a standalone program:
.Bd -literal
./temp.img
.Ed
.Ss A Very Complex Program
Consider a pair of files named
.Pa os1.2
and
.Pa basic2
containing (legally-acquired, of course) ROM images of Acorn MOS 1.2
and BBC Basic 2. The following command loads each of the images into
memory at the appropriate address, cleans up the regions of memory
containing memory-mapped i/o on the BBC computer, saves a snapshot of
the entire memory to the file
.Pa image
and then exits:
.Bd -literal
run6502 -l C000 os1.2 -l 8000 basic2 -B -s0 +10000 image -x
.Ed
.Pp
Running the generated image with
.Bd -literal
run6502 image
.Ed
.Pp
will cold-start the emulated hardware, run the OS for a while, and
then drop into the language ROM. Basic programs can then be entered,
edited and run from the terminal.
.Pp
More details are given in the
.Pa README
file available in the
.Pa examples
directory of the distribution.
.Ss Exercises
Create a standalone image (one that can be run as a program, with
a '#!' interpreter line at the beginning) that contains Basic2 and
OS1.2 (as described above). This image should be no larger than 32K
(memory below 0x8000, which would be full of zeroes, should not appear
in the image file).
.\" ----------------------------------------------------------------
.Sh DIAGNOSTICS
.\"
If nothing goes wrong, none. Otherwise lots. They should be
self-explanatory. I'm too lazy to enumerate them.
.\" ----------------------------------------------------------------
.Sh COMPATIBILITY
.\"
See
.Xr lib6502 3
for a discussion of the emulated instruction set.
.\" ----------------------------------------------------------------
.Sh SEE ALSO
.\"
.Xr lib6502 3
.Pp
The file
.Pa examples/README
in the lib6502 distribution. (Depending on your system this may be
installed in
.Pa /usr/doc/lib6502 ,
.Pa /usr/local/doc/lib6502 ,
.Pa /usr/share/doc/lib6502 ,
or similar.)
.Pp
.Pa http://piumarta.com/software/lib6502
for updates and documentation.
.Pp
.Pa http://6502.org
for lots of 6502-related resources.
.\" ----------------------------------------------------------------
.Sh AUTHORS
.\"
The software and manual pages were written by
.An "Ian Piumarta" .
.Pp
The software is provided as-is, with absolutely no warranty, in the
hope that you will enjoy and benefit from it. You may use (entirely
at your own risk) and redistribute it under the terms of a very
liberal license that does not seek to restrict your rights in any way
(unlike certain so-called 'open source' licenses that significantly
limit your freedom in the name of 'free' software that is, ultimately,
anything but free). See the file COPYING for details.
.\" ----------------------------------------------------------------
.Sh BUGS
.\"
.Bl -bullet
.It
Options must appear one at a time.
.It
Any attempt (in a load or save operation) to transfer data beyond
0xFFFF is silently truncated at the end of memory.
.It
There is no way to specify the slot into which a ROM image should be
loaded, other than implicitly according to the order of arguments on
the command line.
.It
Execution can only be started via the emulated power-up reset. There
is no support for 'warm-starting' execution in an image at an
arbitrary address.
.It
Even though the emulator fully supports them, there is no way to
artificially generate a hardware interrupt request, non-maskable
interrupt, or reset condition. If you need these, read
.Xr lib6502 3
and write your own shell.
.It
The Acorn 'BBC Model B' hardware emulation is totally lame.
.El
.Pp
Please send bug reports (and feature requests) to the author at:
firstName (at) lastName (dot) com. (See
.Sx AUTHORS
above for suitable values of firstName and lastName.)