You will also add a virtual memory implementation.
Pintos could, theoretically, run on a regular IBM-compatible PC.
-Unfortunately, it is impractical to supply every @value{coursenumber} student
+Unfortunately, it is impractical to supply every student
a dedicated PC for use with Pintos. Therefore, we will run Pintos projects
in a system simulator, that is, a program that simulates an 80@var{x}86
CPU and its peripheral devices accurately enough that unmodified operating
QEMU} simulators. Pintos has also been tested with
@uref{http://www.vmware.com/, , VMware Player}.
-These projects are hard. @value{coursenumber} has a reputation of taking a lot of
+These projects are hard. They have a reputation of taking a lot of
time, and deservedly so. We will do what we can to reduce the workload, such
as providing a lot of support material, but there is plenty of
hard work that needs to be done. We welcome your
Now you can extract the source for Pintos into a directory named
@file{pintos/src}, by executing
@example
-zcat @value{localpintostarpath} | tar x
+git clone @value{gitrepo}
@end example
-Alternatively, fetch
-@uref{@value{localpintoshttppath}}
-and extract it in a similar way.
Let's take a look at what's inside. Here's the directory structure
that you should see in @file{pintos/src}:
GDB (@pxref{GDB}) or @command{backtrace} (@pxref{Backtraces}) on it.
@item kernel.bin
-Memory image of the kernel. These are the exact bytes loaded into
-memory to run the Pintos kernel. To simplify loading, it is always
-padded out with zero bytes up to an exact multiple of 4 kB in
-size.
+Memory image of the kernel, that is, the exact bytes loaded into
+memory to run the Pintos kernel. This is just @file{kernel.o} with
+debug information stripped out, which saves a lot of space, which in
+turn keeps the kernel from bumping up against a @w{512 kB} size limit
+imposed by the kernel loader's design.
@item loader.bin
Memory image for the kernel loader, a small chunk of code written in
assembly language that reads the kernel from disk into memory and
starts it up. It is exactly 512 bytes long, a size fixed by the
PC BIOS.
-
-@item os.dsk
-Disk image for the kernel, which is just @file{loader.bin} followed by
-@file{kernel.bin}. This file is used as a ``virtual disk'' by the
-simulator.
@end table
Subdirectories of @file{build} contain object files (@file{.o}) and
button just to its left. The other buttons are not very useful for our
purposes.
-(If no window appeared at all, and you just got a terminal full of
-corrupt-looking text, then you're probably logged in remotely and X
+(If no window appeared at all, then you're probably logged in remotely and X
forwarding is not set up correctly. In this case, you can fix your X
setup, or you can use the @option{-v} option to disable X output:
@code{pintos -v -- run alarm-multiple}.)
@node Acknowledgements
@section Acknowledgements
-Pintos and this documentation were written by Ben Pfaff
-@email{blp@@cs.stanford.edu}.
+The Pintos core and this documentation were originally written by Ben
+Pfaff @email{blp@@cs.stanford.edu}.
+
+Additional features were contributed by Anthony Romano
+@email{chz@@vt.edu}.
The GDB macros supplied with Pintos were written by Godmar Back
@email{gback@@cs.vt.edu}, and their documentation is adapted from his
instructional operating system from the University of California,
Berkeley (@bibref{Christopher}).
-A few of the Pintos source files are derived from code used in the
-Massachusetts Institute of Technology's 6.828 advanced operating systems
-course. These files bear the original MIT license notice.
-
The Pintos projects and documentation originated with those designed for
Nachos by current and former CS 140 teaching assistants at Stanford
University, including at least Yu Ping, Greg Hutchins, Kelly Shaw, Paul