xv6 is a modern re-implementation of Sixth Edition Unix in ANSI C for multiprocessor x86/x86_64 systems.
666f58c711
the macro expansion of "char *cp;" turned into char *(curproc[cpu()]); which declares a dynamically sized array of char* called curproc. so then &cp == &(curproc[cpu()]) was actually a stack variable as "expected". it was one past the end of the array, but the implicit alloca allocated more than was necessary. do not tell me that making cp a #define was a bad idea. there are worse problems to fix. more on that later. |
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.cvsignore | ||
asm.h | ||
bio.c | ||
bootasm.S | ||
bootmain.c | ||
bootother.S | ||
buf.h | ||
BUGS | ||
cat.c | ||
console.c | ||
cuth | ||
defs.h | ||
dev.h | ||
dot-bochsrc | ||
echo.c | ||
elf.h | ||
exec.c | ||
fcntl.h | ||
file.c | ||
file.h | ||
forktest.c | ||
fs.c | ||
fs.h | ||
fsvar.h | ||
grep.c | ||
ide.c | ||
init.c | ||
initcode.S | ||
ioapic.c | ||
kalloc.c | ||
kbd.c | ||
kbd.h | ||
kill.c | ||
lapic.c | ||
ln.c | ||
ls.c | ||
main.c | ||
Makefile | ||
mkdir.c | ||
mkfs.c | ||
mmu.h | ||
mp.c | ||
mp.h | ||
Notes | ||
param.h | ||
picirq.c | ||
pipe.c | ||
pr.pl | ||
printf.c | ||
proc.c | ||
proc.h | ||
README | ||
rm.c | ||
runoff | ||
runoff.list | ||
runoff.spec | ||
runoff1 | ||
sh.c | ||
show1 | ||
sign.pl | ||
spinlock.c | ||
spinlock.h | ||
stat.h | ||
string.c | ||
swtch.S | ||
symlink.patch | ||
syscall.c | ||
syscall.h | ||
sysfile.c | ||
sysproc.c | ||
timer.c | ||
toc.ftr | ||
toc.hdr | ||
trap.c | ||
trapasm.S | ||
traps.h | ||
types.h | ||
ulib.c | ||
umalloc.c | ||
user.h | ||
usertests.c | ||
usys.S | ||
vectors.pl | ||
wc.c | ||
x86.h | ||
xv6-rev0.tar.gz | ||
xv6-rev1.tar.gz | ||
xv6.pdf | ||
xv6.ps | ||
zombie.c |
xv6 is a re-implementation of Dennis Ritchie's and Ken Thompson's Unix Version 6 (v6). xv6 loosely follows the structure and style of v6, but is implemented for a modern x86-based multiprocessor using ANSI C. ACKNOWLEDGMENTS xv6 is inspired by John Lions's Commentary on UNIX 6th Edition (Peer to Peer Communications; ISBN: 1-57398-013-7; 1st edition (June 14, 2000)). See also http://pdos.csail.mit.edu/6.828/2007/v6.html, which provides pointers to on-line resources for v6. xv6 borrows code from the following sources: JOS (asm.h, elf.h, mmu.h, bootasm.S, ide.c, console.c, and others) Plan 9 (bootother.S, mp.h, mp.c, lapic.c) FreeBSD (ioapic.c) NetBSD (console.c) The following people made contributions: Russ Cox (context switching, locking) Cliff Frey (MP) Xiao Yu (MP) The code in the files that constitute xv6 is Copyright 2006-2007 Frans Kaashoek, Robert Morris, and Russ Cox. ERROR REPORTS If you spot errors or have suggestions for improvement, please send email to Frans Kaashoek and Robert Morris (kaashoek,rtm@csail.mit.edu). BUILDING AND RUNNING XV6 To build xv6 on an x86 ELF machine (like Linux or FreeBSD), run "make". On non-x86 or non-ELF machines (like OS X, even on x86), you will need to install a cross-compiler gcc suite capable of producing x86 ELF binaries. See http://pdos.csail.mit.edu/6.828/2007/tools.html. Then run "make TOOLPREFIX=i386-jos-elf-". To run xv6, you can use Bochs or QEMU, both PC simulators. Bochs makes debugging easier, but QEMU is much faster. To run in Bochs, run "make bochs" and then type "c" at the bochs prompt. To run in QEMU, run "make qemu". Both log the xv6 screen output to standard output. To create a typeset version of the code, run "make xv6.pdf". This requires the "mpage" text formatting utility. See http://www.mesa.nl/pub/mpage/.