into the host-specific files and wrapped access to them
with atomic operations since that's a structure global to
all the VMs. I think all the other globals are SMP clean
since they are only written once during module init time,
and read thereafter my all VMs.
Renamed all host OS specific functions to hostOS*(). All host
independent functions to host*().
I'd like to rename all monitor space functions to mon*() next.
all the memory it needs, and the plex86 kernel module uses
get_user_pages() from the Linux kernel to get at them and
pin the few that are needed statically (and later up to
a watermark of pages that are needed dynamically).
Guest physical memory pages are now dynamically pinned/unpinned.
For now, I use a hard limit of 4Megs of pinned pages and
a really primitive algorithm to decide which one to unpin
when the limit is reached and one needs to be bumped. Seems
to work. Though I haven't run into the limit yet since I'm using
just a small test program.
in the plex86 module and mmap()'ing it into user space (bochs),
to letting bochs malloc() it normally and using the
Linux kernel facility get_user_pages() to get the associated
physical pages and pin them in memory. I only have code for
Linux kernel 2.4.20 and up, as that's the first version to
export the get_user_pages() symbol so modules can use it.
new experimental stripped-down version of plex86, which is now
a user-code-only VM. I ripped out all the fancy stuff in plex86,
such that under that right conditions, user-code (protection level 3)
can run at near native speeds inside the plex86 VM.
The general idea is that bochs emulates all the initial real-mode code,
and guest kernel code (protection level 0). When it senses the
right conditions (like the context switches to user-code), a shim
is called to execute the guest inside the plex86 VM. All guest-generated
faults/exceptions are then forwarded back to bochs to be handled in
the emulator.
Actually, I'm not yet adding the mods to the bochs code (other than
the shim code which is in a separate file), until I hear that we're
back in a more development mode with bochs after the 2.0 release.
The plex86 subdirectory is really a separate project. It's just more
convenient to co-develop it with bochs for now. Both projects are
currently LGPL, but each should be taken to be a separate project,
and have their own license file. Plex86 (it's only a kernel driver
now) could ultimately be used with other projects, as it's modular.
I talked with Bryce, and we both agreed it's OK to keep plex86 as
a subdir in bochs for now.
