Re: Documenting ptrace access mode checking

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On Tue, Jun 21, 2016 at 12:55 PM, Eric W. Biederman
<ebiederm@xxxxxxxxxxxx> wrote:
>
> Adding Oleg just because he seems to do most of the ptrace related
> maintenance these days.
>
> "Michael Kerrisk (man-pages)" <mtk.manpages@xxxxxxxxx> writes:
>
>> Hi Jann, Stephen, et al.
>>
>> Jann, since you recently committed a patch in this area, and Stephen,
>> since you committed 006ebb40d3d much further back in time, I wonder if
>> you might help me by reviewing the text below that I propose to add to
>> the ptrace(2) man page, in order to document "ptrace access mode
>> checking" that is performed in various parts of the kernel-user-space
>> interface. Of course, I welcome input from anyone else as well.

Your text matches my understand of this code. :)

>> Here's the new ptrace(2) text. Any comments, technical or terminological
>> fixes, other improvements, etc. are welcome.
>>
>> [[
>>    Ptrace access mode checking
>>        Various parts of the kernel-user-space API (not just  ptrace(2)
>>        operations), require so-called "ptrace access mode permissions"
>>        which are gated  by  Linux  Security  Modules  (LSMs)  such  as
>>        SELinux,  Yama,  Smack,  or  the  default  LSM.  Prior to Linux
>>        2.6.27, all such checks were of a  single  type.   Since  Linux
>>        2.6.27, two access mode levels are distinguished:
>>
>>        PTRACE_MODE_READ
>>               For  "read" operations or other operations that are less
>>               dangerous, such as: get_robust_list(2); kcmp(2); reading
>>               /proc/[pid]/auxv,         /proc/[pid]/environ,        or
>>               /proc/[pid]/stat; or readlink(2) of  a  /proc/[pid]/ns/*
>>               file.
>>
>>        PTRACE_MODE_ATTACH
>>               For  "write"  operations,  or  other operations that are
>>               more    dangerous,    such    as:    ptrace    attaching
>>               (PTRACE_ATTACH)    to   another   process   or   calling
>>               process_vm_writev(2).   (PTRACE_MODE_ATTACH  was  effec‐
>>               tively the default before Linux 2.6.27.)
>>
>>        Since  Linux  4.5, the above access mode checks may be combined
>>        (ORed) with one of the following modifiers:
>>
>>        PTRACE_MODE_FSCREDS
>>               Use the caller's filesystem UID  and  GID  (see  creden‐
>>               tials(7)) or effective capabilities for LSM checks.
>>
>>        PTRACE_MODE_REALCREDS
>>               Use the caller's real UID and GID or permitted capabili‐
>>               ties for LSM checks.  This was effectively  the  default
>>               before Linux 4.5.
>>
>>        Because  combining  one of the credential modifiers with one of
>>        the aforementioned access modes is  typical,  some  macros  are
>>        defined in the kernel sources for the combinations:
>>
>>        PTRACE_MODE_READ_FSCREDS
>>               Defined as PTRACE_MODE_READ | PTRACE_MODE_FSCREDS.
>>
>>        PTRACE_MODE_READ_REALCREDS
>>               Defined as PTRACE_MODE_READ | PTRACE_MODE_REALCREDS.
>>
>>        PTRACE_MODE_ATTACH_FSCREDS
>>               Defined as PTRACE_MODE_ATTACH | PTRACE_MODE_FSCREDS.
>>
>>        PTRACE_MODE_ATTACH_REALCREDS
>>               Defined as PTRACE_MODE_ATTACH | PTRACE_MODE_REALCREDS.
>>
>>        One further modifier can be ORed with the access mode:
>>
>>        PTRACE_MODE_NOAUDIT (since Linux 3.3)
>>               Don't audit this access mode check.
>>
>> [I'd quite welcome some text to explain "auditing" here.]
>
>          AKA don't let the audit subsystem know.  Which tends to
>          generate audit records capable is called.
>>
>>        The  algorithm  employed for ptrace access mode checking deter‐
>>        mines whether the calling process is  allowed  to  perform  the
>>        corresponding action on the target process, as follows:
>>
>>        1.  If the calling thread and the target thread are in the same
>>            thread group, access is always allowed.
>
> This test only exsits because the LSMs historically and I suspect
> continue to be broken and deny a process the ability to ptrace itself.

Well, it's not that the LSMs are broken, it's that self-inspection is
a short-circuited "allow". The LSMs aren't involved.

>>        2.  If the access mode specifies PTRACE_MODE_FSCREDS, then  for
>>            the  check in the next step, employ the caller's filesystem
>>            user ID and group ID (see credentials(7));  otherwise  (the
>>            access  mode  specifies  PTRACE_MODE_REALCREDS, so) use the
>>            caller's real user ID and group ID.
>>
>>        3.  Deny access if neither of the following is true:
>>
>>            · The real, effective, and saved-set user IDs of the target
>>              match  the caller's user ID, and the real, effective, and
>>              saved-set group IDs of  the  target  match  the  caller's
>>              group ID.
>>
>>            · The caller has the CAP_SYS_PTRACE capability.
>>
>>        4.  Deny  access if the target process "dumpable" attribute has
>>            a value other than 1 (SUID_DUMP_USER; see the discussion of
>>            PR_SET_DUMPABLE  in prctl(2)), and the caller does not have
>>            the CAP_SYS_PTRACE capability in the user namespace of  the
>>            target process.
>>
>>        5.  The  kernel LSM security_ptrace_access_check() interface is
>>            invoked to see if ptrace access is permitted.  The  results
>>            depend on the LSM.  The implementation of this interface in
>>            the default LSM performs the following steps:
>>
>>            a) If the access mode  includes  PTRACE_MODE_FSCREDS,  then
>>               use the caller's effective capability set in the follow‐
>>               ing  check;  otherwise  (the   access   mode   specifies
>>               PTRACE_MODE_REALCREDS,  so)  use  the caller's permitted
>>               capability set.
>>
>>            b) Deny access if neither of the following is true:
>>
>>               · The caller's capabilities are a proper superset of the
>>                 target process's permitted capabilities.
>>
>>               · The  caller  has  the CAP_SYS_PTRACE capability in the
>>                 target process's user namespace.
>>
>>               Note that the default LSM does not  distinguish  between
>>               PTRACE_MODE_READ and PTRACE_MODE_ATTACH.
>>
>>        6.  If  access  has  not  been  denied  by any of the preceding
>>            steps, then access is allowed.
>> ]]
>>
>> There are accompanying changes to various pages that refer to
>> the new text in ptrace(2), so that, for example, kcmp(2) adds:
>>
>>        Permission  to  employ kcmp() is governed by ptrace access mode
>>        PTRACE_MODE_ATTACH_REALCREDS checks against both pid1 and pid2;
>>        see ptrace(2).
>>
>> and proc.5 has additions such as:
>>
>>        /proc/[pid]/auxv (since 2.6.0-test7)
>>               ...
>>               Permission to access this file is governed by  a  ptrace
>>               access    mode   PTRACE_MODE_READ_FSCREDS   check;   see
>>               ptrace(2).
>>
>>        /proc/[pid]/cwd
>>               ...
>>               Permission to dereference  or  read  (readlink(2))  this
>>               symbolic  link  is  governed  by  a  ptrace  access mode
>>               PTRACE_MODE_READ_FSCREDS check; see ptrace(2).
>
> Hmm.
>
> When I gave this level of detail about the user namespace permission
> checks you gave me some flack, because it was not particularly
> comprehensible to the end users.  I think you deserve the same feedback.
>
> How do we say this in a way that does not describes a useful way to
> think about it.  I read this and I know a lot of what is going on and my
> mind goes numb.

If the goal is to document the kernel behavior, then the details
around the various MODE flags makes sense. If this is just about
userspace-visible behavior, I would agree: the MODE flag details may
be overkill (since they are not exposed to userspace).

-Kees

-- 
Kees Cook
Chrome OS & Brillo Security
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