On 5/13/20 11:11 AM, Catalin Marinas wrote:
On Wed, May 13, 2020 at 09:52:52AM -0300, Luis Machado wrote:
On 5/13/20 7:48 AM, Catalin Marinas wrote:
On Tue, May 12, 2020 at 04:05:15PM -0300, Luis Machado wrote:
On 4/21/20 11:25 AM, Catalin Marinas wrote:
Add support for bulk setting/getting of the MTE tags in a tracee's
address space at 'addr' in the ptrace() syscall prototype. 'data' points
to a struct iovec in the tracer's address space with iov_base
representing the address of a tracer's buffer of length iov_len. The
tags to be copied to/from the tracer's buffer are stored as one tag per
byte.
On successfully copying at least one tag, ptrace() returns 0 and updates
the tracer's iov_len with the number of tags copied. In case of error,
either -EIO or -EFAULT is returned, trying to follow the ptrace() man
page.
Note that the tag copying functions are not performance critical,
therefore they lack optimisations found in typical memory copy routines.
Signed-off-by: Catalin Marinas <catalin.marinas@xxxxxxx>
Cc: Will Deacon <will@xxxxxxxxxx>
Cc: Alan Hayward <Alan.Hayward@xxxxxxx>
Cc: Luis Machado <luis.machado@xxxxxxxxxx>
Cc: Omair Javaid <omair.javaid@xxxxxxxxxx>
I started working on MTE support for GDB and I'm wondering if we've already
defined a way to check for runtime MTE support (as opposed to a HWCAP2-based
check) in a traced process.
Originally we were going to do it via empty-parameter ptrace calls, but you
had mentioned something about a proc-based method, if I'm not mistaken.
We could expose more information via proc_pid_arch_status() but that
would be the tagged address ABI and tag check fault mode and intended
for human consumption mostly. We don't have any ptrace interface that
exposes HWCAPs. Since the gdbserver runs on the same machine as the
debugged process, it can check the HWCAPs itself, they are the same for
all processes.
Sorry, I think i haven't made it clear. I already have access to HWCAP2 both
from GDB's and gdbserver's side. But HWCAP2 only indicates the availability
of a particular feature in a CPU, it doesn't necessarily means the traced
process is actively using MTE, right?
Right, but "actively" is not well defined either. The only way to tell
whether a process is using MTE is to look for any PROT_MTE mappings. You
can access these via /proc/<pid>/maps. In theory, one can use MTE
without enabling the tagged address ABI or even tag checking (i.e. no
prctl() call).
I see the problem. I was hoping for a more immediate form of runtime
check. One debuggers would validate and enable all the tag checks and
register access at process attach/startup.
With that said, checking for PROT_MTE in /proc/<pid>/maps may still be
useful, but a process with no immediate PROT_MTE maps doesn't mean such
process won't attempt to use PROT_MTE later on. I'll have to factor that
in, but I think it'll work.
I guess HWCAP2_MTE will be useful after all. We can just assume that
whenever we have HWCAP2_MTE, we can fetch MTE registers and check for
PROT_MTE.
So GDB/gdbserver would need runtime checks to be able to tell if a process
is using MTE, in which case the tools will pay attention to tags and
additional MTE-related registers (sctlr and gcr) we plan to make available
to userspace.
I'm happy to expose GCR_EL1.Excl and the SCTLR_EL1.TCF0 bits via ptrace
as a thread state. The tags, however, are a property of the memory range
rather than a per-thread state. That's what makes it different from
other register-based features like SVE.
That's my understanding as well. I'm assuming, based on our previous
discussion, that we'll have those couple registers under a regset (maybe
NT_ARM_MTE).
The original proposal was to have GDB send PTRACE_PEEKMTETAGS with a NULL
address and check the result. Then GDB would be able to decide if the
process is using MTE or not.
We don't store this information in the kernel as a bool and I don't
think it would be useful either. I think gdb, when displaying memory,
should attempt to show tags as well if the corresponding range was
mapped with PROT_MTE. Just probing whether a thread ever used MTE
doesn't help since you need to be more precise on which address supports
tags.
Thanks for making this clear. Checking with ptrace won't work then. It
seems like /proc/<pid>/maps is the way to go.
BTW, in my pre-v4 patches (hopefully I'll post v4 this week), I changed
the ptrace tag access slightly to return an error (and no tags copied)
if the page has not been mapped with PROT_MTE. The other option would
have been read-as-zero/write-ignored as per the hardware behaviour.
Either option is fine by me but I thought the write-ignored part would
be more confusing for the debugger. If you have any preference here,
please let me know.
I think erroring out is a better alternative, as long as the debugger can
tell what the error means, like, for example, "this particular address
doesn't make use of tags".
And you could use this for probing whether the range has tags or not.
With my current patches it returns -EFAULT but happy to change this to
-EOPNOTSUPP or -EINVAL. Note that it only returns an error if no tags
copied. If gdb asks for a range of two pages and only the first one has
PROT_MTE, it will return 0 and set the number of tags copied equivalent
to the first page. A subsequent call would return an error.
In my discussion with Dave on the documentation patch, I thought retries
wouldn't be needed but in the above case it may be useful to get an
error code. That's unless we change the interface to return an error and
also update the user iovec structure.
Let me think about this for a bit. I'm trying to factor in the
/proc/<pid>/maps contents. If debuggers know which pages have PROT_MTE
set, then we can teach the tools not to PEEK/POKE tags from/to those
memory ranges, which simplifies the error handling a bit.
