pointer points below @code{PHYS_BASE}, then dereference it.
An invalid user pointer will cause a ``page fault'' that you can
handle by modifying the code for @func{page_fault} in
-@file{userprog/exception.cc}. This technique is normally faster
+@file{userprog/exception.c}. This technique is normally faster
because it takes advantage of the processor's MMU, so it tends to be
used in real kernels (including Linux).
Until then, you can use @func{hex_dump} to convince yourself that
argument passing is implemented correctly (@pxref{Program Startup Details}).
-@item How can I can disassemble user programs?
+@item How can I disassemble user programs?
The @command{objdump} (80@var{x}86) or @command{i386-elf-objdump}
(SPARC) utility can disassemble entire user
Then, push the address of each string plus a null pointer sentinel, on
the stack, in right-to-left order. These are the elements of
-@code{argv}. The order ensure that @code{argv[0]} is at the lowest
+@code{argv}. The order ensures that @code{argv[0]} is at the lowest
virtual address. Word-aligned accesses are faster than unaligned
accesses, so for best performance round the stack pointer down to a
multiple of 4 before the first push.
entry function will never return, its stack frame must have the same
structure as any other.
-The table below show the state of the stack and the relevant registers
+The table below shows the state of the stack and the relevant registers
right before the beginning of the user program, assuming
@code{PHYS_BASE} is @t{0xc0000000}:
projects / pintos-anon / commitdiff