Revised request_key(2) man page for review

Revised request_key(2) man page for review

[Michael Kerrisk (man-pages)]

[-- Attachment #1: Type: text/plain, Size: 14431 bytes --]

Hi David (and anyone else with an interest to review)

Triggered by Eugene Syromyatnikov's recent input for the keyctl(2)
man page, I've been doing a fair bit of work on improving the key
management syscall man pages, and wonder if I could ask you for 
some review  assistance?

First off, below, I've pasted the current draft of the request_key(2)
page, which has seen quite a a lot of changes (increasing from around
100 rendered lines to nearly 300). Could you take a look (and also take
a look at the outstanding FIXME)? (The page source file is attached,
in case you want to see all the formatting.)

Thanks,

Michael

====

NAME
       request_key  -  request  a key from the kernel's key management
       facility

SYNOPSIS
       #include <sys/types.h>
       #include <keyutils.h>

       key_serial_t request_key(const char *type, const char *description,
                                const char *callout_info,
                                key_serial_t dest_keyring);

       No glibc wrapper is provided for this system call; see NOTES.

DESCRIPTION
       request_key() attempts to find a key of the given type  with  a
       description  (name) that matches the specified description.  If
       such a key could not be found, then the key is optionally  cre‐
       ated.   If  the key is found or created, request_key() attaches
       it to the keyring whose ID is  specified  in  dest_keyring  and
       returns the key's serial number.


       ┌─────────────────────────────────────────────────────┐
       │FIXME                                                │
       ├─────────────────────────────────────────────────────┤
       │Is 'keyring' allowed to be 0? Reading the source, it │
       │appears so.  In this case, by default,  the  key  is │
       │assigned   to   the   session   keyring.   But,  the │
       │KEYCTL_SET_REQKEY_KEYRING  also  seems  to  have  an │
       │influence here.  What are the details here?          │
       │                                                     │
       └─────────────────────────────────────────────────────┘

       request_key()  first recursively searches for a matching key in
       all of the keyrings  attached  to  the  calling  process.   The
       keyrings  are  searched  in the order: thread-specific keyring,
       process-specific keyring, and then session keyring.

       If  request_key()  is  called  from  a   program   invoked   by
       request_key()  on  behalf  of  some other process to generate a
       key, then the keyrings of that other process will  be  searched
       next,  using that other process's user ID, group ID, supplemen‐
       tary group IDs, and security context to determine access.

       The search of the keyring tree is breadth-first:  the  keys  in
       each  keyring searched are checked for a match before any child
       keyrings are recursed into.  Only keys for which the caller has
       search  permission  be  found,  and only keyrings for which the
       caller has search permission may be searched.

       If the key is not found and callout  is  NULL,  then  the  call
       fails with the error ENOKEY.

       If  the key is not found and callout is not NULL, then the ker‐
       nel attempts to invoke a user-space program to instantiate  the
       key.  The details are given below.

       The  dest_keyring  serial number may be that of a valid keyring
       for which the caller has write permission, or it may be one  of
       the following special keyring IDs:

       KEY_SPEC_THREAD_KEYRING
              This  specifies  the  caller's  thread-specific  keyring
              (thread-keyring(7)).

       KEY_SPEC_PROCESS_KEYRING
              This specifies  the  caller's  process-specific  keyring
              (process-keyring(7)).

       KEY_SPEC_SESSION_KEYRING
              This  specifies  the  caller's  session-specific keyring
              (session-keyring(7)).

       KEY_SPEC_USER_KEYRING
              This specifies the caller's UID-specific keyring  (user-
              keyring(7)).

       KEY_SPEC_USER_SESSION_KEYRING
              This  specifies  the caller's UID-session keyring (user-
              session-keyring(7)).

   Requesting user-space instantiation of a key
       If the kernel cannot find a key matching type and  description,
       and  callout  is not NULL, then the kernel attempts to invoke a
       user-space program to instantiate a key with the given type and
       description.  In this case, the following steps are performed:

       a)  The  kernel  creates  an  uninstantiated  key,  U, with the
           requested type and description.

       b)  The kernel creates an authorization key, V, that refers  to
           the  key  U  and  records  the  facts  that  the  caller of
           request_key(2) is:

           (1) the context in which the key U should  be  instantiated
               and secured, and

           (2) the  context  from which associated key requests may be
               satisfied.

           The authorization key is constructed as follows:

           *  The key type is ".request_key_auth".

           *  The key's UID and GID are the same as the  corresponding
              filesystem IDs of the requesting process.

           *  The key grants view, read, and search permissions to the
              key possessor as well as view  permission  for  the  key
              user.

           *  The  description  (name)  of  the key is the hexadecimal
              string representing the ID of the  key  that  is  to  be
              instantiated in the requesting program.

           *  The  payload of the key is taken from the data specified
              in callout_info.

           *  Internally, the kernel also records a record of the  PID
              of the process that called request_key(2).

       c)  The  kernel  creates  a  process that executes a user-space
           service such as request-key(8) with a new  session  keyring
           that contains a link to the authorization key, V.

           This  program  is  supplied with the following command-line
           arguments:

           [0] The string "/sbin/request-key".

           [1] The string "create" (indicating that a  key  is  to  be
               created).

           [2] The ID of the key that is to be instantiated.

           [3] The filesystem UID of the caller of request_key().

           [4] The filesystem GID of the caller of request_key().

           [5] The   ID  of  the  thread  keyring  of  the  caller  of
               request_key().  This may be zero if that keyring hasn't
               been created.

           [6] The  ID  of  the  process  keyring  of  the  caller  of
               request_key().  This may be zero if that keyring hasn't
               been created.

           [7] The  ID  of  the  session  keyring  of  the  caller  of
               request_key().

           Note: each of the command-line arguments that is a  key  ID
           is  encoded  in  decimal  (unlike  the  key  IDs  shown  in
           /proc/keys, which are shown as hexadecimal values).

       d)  The program spawned in the previous step:

           *  Assumes the authority to instantiate the key U using the
              keyctl(2)  KEYCTL_ASSUME_AUTHORITY  operation (typically
              via the keyctl_assume_authority(3) function).

           *  Obtains the callout data from the payload of the  autho‐
              rization  key  V (using the keyctl(2) KEYCTL_READ opera‐
              tion (or, more commonly,  the  keyctl_read(3)  function)
              with a key ID value of KEY_SPEC_REQKEY_AUTH_KEY).

           *  Instantiates the key (or execs another program that per‐
              forms that task), specifying the payload and destination
              keyring.   (The  destination  keyring that the requestor
              specified when calling  request_key()  can  be  accessed
              using  the  special  key ID KEY_SPEC_REQUESTOR_KEYRING.)
              Instantiation   is   performed   using   the   keyctl(2)
              KEYCTL_INSTANTIATE  operation  (or,  more  commonly, the
              keyctl_instantiate(3) function).   At  this  point,  the
              request_key(2)  call  completes, and the requesting pro‐
              gram can continue execution.

       If these steps are unsuccessful, then an ENOKEY error  will  be
       returned  to  the caller of request_key() and a temporary nega‐
       tive  key  will  be  installed  in  the  keyring  specified  by
       dest_keyring.   This  will expire after a few seconds, but will
       cause subsequent calls to request_key() to fail until it  does.
       The  purpose  of this negatively instantiated key is to prevent
       (possibly different) processes making repeated  requests  (that
       require  expensive request-key(8) upcalls) for a key that can't
       (at the moment) be positively instantiated.

       Once the key  has  been  instantiated,  the  authorization  key
       (KEY_SPEC_REQKEY_AUTH_KEY)  is  revoked,  and  the  destination
       keyring (KEY_SPEC_REQUESTOR_KEYRING) is  no  longer  accessible
       from the request-key(8) program.

       If  a  key is created, then—regardless of whether it is a valid
       key or a negative key—it will displace any other key  with  the
       same  type  and  description  from  the  keyring  specified  in
       dest_keyring.

RETURN VALUE
       On success, request_key() returns the serial number of the  key
       it found or caused to be created.  On error, -1 is returned and
       errno is set to indicate the cause of the error.

ERRORS
       EACCES The keyring wasn't available  for  modification  by  the
              user.

       EDQUOT The  key quota for this user would be exceeded by creat‐
              ing this key or linking it to the keyring.

       EINTR  The request was interrupted by a signal; see signal(7).

       EINVAL The size of the string (including the  terminating  null
              byte)  specified  in  type  or  description exceeded the
              limit (32 bytes and 4096 bytes respectively).

       EINVAL The size of the string (including the  terminating  null
              byte) specified in callout_info exceeded the system page
              size.

       EKEYEXPIRED
              An expired key was found, but no  replacement  could  be
              obtained.

       EKEYREJECTED
              The attempt to generate a new key was rejected.

       EKEYREVOKED
              A  revoked  key  was  found, but no replacement could be
              obtained.

       ENOKEY No matching key was found.

       ENOMEM Insufficient memory to create a key.

VERSIONS
       This system call first appeared in Linux 2.6.10.

CONFORMING TO
       This system call is a nonstandard Linux extension.

NOTES
       No wrapper for this system call is provided in glibc.  A  wrap‐
       per is provided in the libkeyutils package.  When employing the
       wrapper in that library, link with -lkeyutils.

EXAMPLE
       The program below demonstrates the use of  request_key().   The
       type,  description,  and  callout_info arguments for the system
       call are taken from the values supplied  in  the  command  line
       arguments.   The call specifies the session keyring as the tar‐
       get keyring.

       In order to demonstrate this program, we first create  a  suit‐
       able entry in the file /etc/request-key.conf.

           $ sudo sh
           # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
                     > /etc/request-keys.conf
           # exit

       This entry specifies that when a new "user" key with the prefix
       "mtk:" must be instantiated, that task should be performed  via
       the  keyctl(1)  command's  instantiate operation.  (The program
       could The arguments supplied to the instantiate operation  are:
       the  ID  of  the uninstantiated key (%k); the callout data sup‐
       plied to the request_key() call (%c); and the  session  keyring
       (%S)  of  the  requestor  (i.e.,  the caller of request)key()).
       i(See request-key.conf(5) for details of these % specifiers.)

       Then we run the program and check the contents of /proc/keys to
       verify that the requested kay has been instantiated:

           $ ./a.out user mtk:key1 "Payload data"
           $ grep '2dddaf50' /proc/keys
           2dddaf50 I--Q---   1 perm 3f010000  1000  1000 user   mtk:key1: 12

   Program source
       The program below
       #include <sys/types.h>
       #include <keyutils.h>
       #include <stdio.h>
       #include <stdlib.h>
       #include <string.h>

       #define errExit(msg)    do { perror(msg); exit(EXIT_FAILURE); \
                               } while (0)

       int
       main(int argc, char *argv[])
       {
           key_serial_t key;

           if (argc != 4) {
               fprintf(stderr, "Usage: %s type description callout-data\n",
                       argv[0]);
               exit(EXIT_FAILURE);
           }

           key = request_key(argv[1], argv[2], argv[3],
                             KEY_SPEC_SESSION_KEYRING);
           if (key == -1)
               errExit("request_key");

           printf("Key ID is %lx\n", (long) key);

           exit(EXIT_SUCCESS);
       }

SEE ALSO
       keyctl(1), add_key(2), keyctl(2), keyctl(3), keyrings(7),
       keyutils(7), capabilities(7), persistent-keyring(7),
       process-keyring(7), session-keyring(7), thread-keyring(7),
       user-keyring(7), user-session-keyring(7), request-key(8)

       The kernel source files Documentation/security/keys.txt and
       Documentation/security/keys-request-key.txt.



Linux                         2016-10-08                REQUEST_KEY(2)

-- 
Michael Kerrisk
Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/

[-- Attachment #2: request_key.2 --]
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[PATCH 0/5] Re: Revised request_key(2) man page for review

[Eugene Syromyatnikov]

Hello.

Possible amendments are in the following patches. The one thing i
couldn't comprehend properly is the following paragraph:

[[
This entry specifies that when a new "user" key with the prefix
"mtk:" must be instantiated, that task should be performed via the
.BR keyctl (1)
command's
.B instantiate
operation.
(The program could 
The arguments supplied to the
.B instantiate
operation are:
the ID of the uninstantiated key
.RI ( %k );
the callout data supplied to the
.BR request_key ()
call
.RI ( %c );
and the session keyring
.RI ( %S )
of the requestor (i.e., the caller of
.BR request)key ()).
i(See
.BR request-key.conf (5)
for details of these
.I %
specifiers.)
]]

I suppose there's some sort of copy-paste mistake.

Eugene Syromyatnikov (5):
  request_key.2: add information regarding default keyring
  requesT_key.2: add information regarding minimal kernel version for
    key instantiation on request
  request_key.2: whitespace fix
  request_key.2: wfix
  request_key.2: additional error information

 man2/request_key.2 | 64 +++++++++++++++++++++++++++++++++++++++++++++++-------
 1 file changed, 56 insertions(+), 8 deletions(-)

-- 
2.10.2

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Re: [PATCH 0/5] Re: Revised request_key(2) man page for review

[Michael Kerrisk (man-pages)]

Hello Eugene,

On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> Hello.
> 
> Possible amendments are in the following patches. The one thing i
> couldn't comprehend properly is the following paragraph:
> 
> [[
> This entry specifies that when a new "user" key with the prefix
> "mtk:" must be instantiated, that task should be performed via the
> .BR keyctl (1)
> command's
> .B instantiate
> operation.
> (The program could 

The above line should not have been present.

> The arguments supplied to the
> .B instantiate
> operation are:
> the ID of the uninstantiated key
> .RI ( %k );
> the callout data supplied to the
> .BR request_key ()
> call
> .RI ( %c );
> and the session keyring
> .RI ( %S )
> of the requestor (i.e., the caller of
> .BR request)key ()).
> i(See
> .BR request-key.conf (5)
> for details of these
> .I %
> specifiers.)
> ]]
> 
> I suppose there's some sort of copy-paste mistake.

Yes. Fixed now.

Cheers,

Michael


> Eugene Syromyatnikov (5):
>   request_key.2: add information regarding default keyring
>   requesT_key.2: add information regarding minimal kernel version for
>     key instantiation on request
>   request_key.2: whitespace fix
>   request_key.2: wfix
>   request_key.2: additional error information
> 
>  man2/request_key.2 | 64 +++++++++++++++++++++++++++++++++++++++++++++++-------
>  1 file changed, 56 insertions(+), 8 deletions(-)
> 


-- 
Michael Kerrisk
Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/
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[PATCH 1/5] request_key.2: add information regarding default keyring

[Eugene Syromyatnikov]

---
 man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
 1 file changed, 42 insertions(+), 5 deletions(-)

diff --git a/man2/request_key.2 b/man2/request_key.2
index a9d0561..e29ca06 100644
--- a/man2/request_key.2
+++ b/man2/request_key.2
@@ -35,11 +35,6 @@ If the key is found or created,
 attaches it to the keyring whose ID is specified in
 .I dest_keyring
 and returns the key's serial number.
-.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
-.\" In this case, by default, the key is assigned to the session keyring.
-.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
-.\" What are the details here?
-.\"
 
 .BR request_key ()
 first recursively searches for a matching key in all of the keyrings
@@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
 .B KEY_SPEC_USER_SESSION_KEYRING
 This specifies the caller's UID-session keyring
 .RB ( user-session-keyring (7)).
+.PP
+When the
+.I dest_keyring
+is specified to
+.BR 0 ,
+and no key construction have been performed, then no additional linking is done.
+Otherwise, if new key is constructed, it would be linked to the "default"
+keyring (which can be specified via the
+.BR keyctl (2)
+command
+.BR KEYCTL_SET_REQKEY_KEYRING ).
+More specifically, when kernel tries to determine to which keyring the
+newly constructed key should be linked, it tries the following options, starting
+from the value set via
+.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
+command until it finds the first available one:
+.IP \(bu 3
+.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
+Requestor keyring (specified via
+.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
+since Linux 2.6.29)
+.IP \(bu
+Thread-specific keyring (specified via
+.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
+.IP \(bu
+Process-specific keyring (specified via
+.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
+.IP \(bu
+Session-specific keyring (specified via
+.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
+.IP \(bu
+Session keyring for the process's user ID  (specified via
+.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
+This keyring is expected to always exist.
+.IP \(bu
+UID-specific keyring (specified via
+.BR KEY_REQKEY_DEFL_USER_KEYRING ).
+This keyring is also expected to always exist.
+.PP
+Specifying
+.B KEY_REQKEY_DEFL_DEFAULT
+leads to starting from the beginning of the list.
 .\"
 .SS Requesting user-space instantiation of a key
 If the kernel cannot find a key matching
-- 
2.10.2

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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Michael Kerrisk (man-pages)]

Hi Eugene,

Thanks for taking a shot at this. I'd really be keen to hear from 
David on this before I apply.

David, could you comment please?

Cheers,

Michael

On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> ---
>  man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
>  1 file changed, 42 insertions(+), 5 deletions(-)
> 
> diff --git a/man2/request_key.2 b/man2/request_key.2
> index a9d0561..e29ca06 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -35,11 +35,6 @@ If the key is found or created,
>  attaches it to the keyring whose ID is specified in
>  .I dest_keyring
>  and returns the key's serial number.
> -.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
> -.\" In this case, by default, the key is assigned to the session keyring.
> -.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
> -.\" What are the details here?
> -.\"
>  
>  .BR request_key ()
>  first recursively searches for a matching key in all of the keyrings
> @@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
>  .B KEY_SPEC_USER_SESSION_KEYRING
>  This specifies the caller's UID-session keyring
>  .RB ( user-session-keyring (7)).
> +.PP
> +When the
> +.I dest_keyring
> +is specified to
> +.BR 0 ,
> +and no key construction have been performed, then no additional linking is done.
> +Otherwise, if new key is constructed, it would be linked to the "default"
> +keyring (which can be specified via the
> +.BR keyctl (2)
> +command
> +.BR KEYCTL_SET_REQKEY_KEYRING ).
> +More specifically, when kernel tries to determine to which keyring the
> +newly constructed key should be linked, it tries the following options, starting
> +from the value set via
> +.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
> +command until it finds the first available one:
> +.IP \(bu 3
> +.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
> +Requestor keyring (specified via
> +.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
> +since Linux 2.6.29)
> +.IP \(bu
> +Thread-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
> +.IP \(bu
> +Process-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
> +.IP \(bu
> +Session-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
> +.IP \(bu
> +Session keyring for the process's user ID  (specified via
> +.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
> +This keyring is expected to always exist.
> +.IP \(bu
> +UID-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_USER_KEYRING ).
> +This keyring is also expected to always exist.
> +.PP
> +Specifying
> +.B KEY_REQKEY_DEFL_DEFAULT
> +leads to starting from the beginning of the list.
>  .\"
>  .SS Requesting user-space instantiation of a key
>  If the kernel cannot find a key matching
> 


-- 
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Linux/UNIX System Programming Training: http://man7.org/training/
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Michael Kerrisk (man-pages)]

Hi Eugene,

On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> ---
>  man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
>  1 file changed, 42 insertions(+), 5 deletions(-)
> 
> diff --git a/man2/request_key.2 b/man2/request_key.2
> index a9d0561..e29ca06 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -35,11 +35,6 @@ If the key is found or created,
>  attaches it to the keyring whose ID is specified in
>  .I dest_keyring
>  and returns the key's serial number.
> -.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
> -.\" In this case, by default, the key is assigned to the session keyring.
> -.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
> -.\" What are the details here?
> -.\"
>  
>  .BR request_key ()
>  first recursively searches for a matching key in all of the keyrings
> @@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
>  .B KEY_SPEC_USER_SESSION_KEYRING
>  This specifies the caller's UID-session keyring
>  .RB ( user-session-keyring (7)).
> +.PP
> +When the
> +.I dest_keyring
> +is specified to
> +.BR 0 ,
> +and no key construction have been performed, then no additional linking is done.
> +Otherwise, if new key is constructed, it would be linked to the "default"
> +keyring (which can be specified via the
> +.BR keyctl (2)
> +command
> +.BR KEYCTL_SET_REQKEY_KEYRING ).

For the purpose of me reviewing this, could you outline how you verified
the following details:

> +More specifically, when kernel tries to determine to which keyring the
> +newly constructed key should be linked, it tries the following options, starting
> +from the value set via
> +.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
> +command until it finds the first available one:
> +.IP \(bu 3
> +.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
> +Requestor keyring (specified via
> +.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
> +since Linux 2.6.29)
> +.IP \(bu
> +Thread-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
> +.IP \(bu
> +Process-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
> +.IP \(bu
> +Session-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
> +.IP \(bu
> +Session keyring for the process's user ID  (specified via
> +.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
> +This keyring is expected to always exist.
> +.IP \(bu
> +UID-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_USER_KEYRING ).
> +This keyring is also expected to always exist.
> +.PP
> +Specifying
> +.B KEY_REQKEY_DEFL_DEFAULT
> +leads to starting from the beginning of the list.
>  .\"
>  .SS Requesting user-space instantiation of a key
>  If the kernel cannot find a key matching
> 

Cheers,

Michael

-- 
Michael Kerrisk
Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Eugene Syromyatnikov]

On Fri, Nov 25, 2016 at 11:01:17AM +0100, Michael Kerrisk (man-pages) wrote:
> Hi Eugene,
> 
> On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> > ---
> >  man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
> >  1 file changed, 42 insertions(+), 5 deletions(-)
> > 
> > diff --git a/man2/request_key.2 b/man2/request_key.2
> > index a9d0561..e29ca06 100644
> > --- a/man2/request_key.2
> > +++ b/man2/request_key.2
> > @@ -35,11 +35,6 @@ If the key is found or created,
> >  attaches it to the keyring whose ID is specified in
> >  .I dest_keyring
> >  and returns the key's serial number.
> > -.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
> > -.\" In this case, by default, the key is assigned to the session keyring.
> > -.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
> > -.\" What are the details here?
> > -.\"
> >  
> >  .BR request_key ()
> >  first recursively searches for a matching key in all of the keyrings
> > @@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
> >  .B KEY_SPEC_USER_SESSION_KEYRING
> >  This specifies the caller's UID-session keyring
> >  .RB ( user-session-keyring (7)).
> > +.PP
> > +When the
> > +.I dest_keyring
> > +is specified to
> > +.BR 0 ,
> > +and no key construction have been performed, then no additional linking is done.
> > +Otherwise, if new key is constructed, it would be linked to the "default"
> > +keyring (which can be specified via the
> > +.BR keyctl (2)
> > +command
> > +.BR KEYCTL_SET_REQKEY_KEYRING ).
> 
> For the purpose of me reviewing this, could you outline how you verified
> the following details:
> 
> > +More specifically, when kernel tries to determine to which keyring the
> > +newly constructed key should be linked, it tries the following options, starting
> > +from the value set via
> > +.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
> > +command until it finds the first available one:
> > +.IP \(bu 3
> > +.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
> > +Requestor keyring (specified via
> > +.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
> > +since Linux 2.6.29)
> > +.IP \(bu
> > +Thread-specific keyring (specified via
> > +.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
> > +.IP \(bu
> > +Process-specific keyring (specified via
> > +.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
> > +.IP \(bu
> > +Session-specific keyring (specified via
> > +.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
> > +.IP \(bu
> > +Session keyring for the process's user ID  (specified via
> > +.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
> > +This keyring is expected to always exist.
> > +.IP \(bu
> > +UID-specific keyring (specified via
> > +.BR KEY_REQKEY_DEFL_USER_KEYRING ).
> > +This keyring is also expected to always exist.
> > +.PP
> > +Specifying
> > +.B KEY_REQKEY_DEFL_DEFAULT
> > +leads to starting from the beginning of the list.
> >  .\"
> >  .SS Requesting user-space instantiation of a key
> >  If the kernel cannot find a key matching
> > 
>

Based on linux v4.9-rc6 (9c763584):

 * security/keys/keyctl.c, SYSCALL_DEFINE4(request_key, ...), line 158:
  * Assume that call is performed with with destringid == 0:
  * We skip check on line 196, so dest_ref remains NULL
  * On line 213, request_key_and_link is called with key_ref_to_ptr(dest_ref)
   * key_ref_to_ptr() itself just zeroes lower bit which is used for
     indication that key reference in the possession of the current
     context.
 * security/keys/request_key.c, request_key_and_link, line 508:
  * On line 543, we try to search process keyrings for the key (we
    fill ctx at hte beginning of the function and then pass it to
    search_process_keyrings)
  * If key is found (key_ref is not erroneous), we convert key_ref to
    ptr on line 546 and skip the following block on line 547 since
    dest_keyring is 0.
  * If key is not found and error is not EAGAIN, then
    construct_key_and_link is called on line 566 with dest_keyring ==
    NULL.
 * security/keys/request_key.c, construct_key_and_link, line 430:
  * On line 450, construct_get_dest_keyring is called with dest_keyring
    == NULL.
 * security/keys/request_key.c, construct_get_dest_keyring, line 253:
  * The argument here (which is pointer to pointer to struct key) is
    named _dest_keyring, but on line 257 it is dereferenced to local
    variable dest_keyring (so it stores NULL now).
  * We re going to the "else" branch (starting from line 266) of check
    on line 262
  * Now we are switching against cred->jit_keyring with the behavour
    described in the patch.
 * git grep jit_keyring security/keys reveals that it is assigned inside
   keyctl_set_reqkey_keyring, security/keys/keyctl.c, line 1257.
 * keyctl_set_reqkey_keyring is called from SYSCALL_DEFINE5(keyctl,
   ...), when option passed to keyctl is KEYCTL_SET_REQKEY_KEYRING (line
   1652).
 * Default value for jit_keyring is sort of difficult to find out, since
   it is inherited, but overall it is explicitly set to
   KEY_REQKEY_DEFL_THREAD_KEYRING or copied from zeroed-out structures
   (so it is equal to KEY_REQKEY_DEFL_DEFAULT) which leads to the same
   behaviour in case the process has not been upcalled by request_key
   construction.

> Cheers,
> 
> Michael
> 
> -- 
> Michael Kerrisk
> Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
> Linux/UNIX System Programming Training: http://man7.org/training/
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Michael Kerrisk (man-pages)]

Hi Eugene,

This is just a reminder to us that one way or another I should not
fiorget this patch of yours...

Cheers,

Michael


On 25 November 2016 at 21:11, Eugene Syromyatnikov <evgsyr-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:
> On Fri, Nov 25, 2016 at 11:01:17AM +0100, Michael Kerrisk (man-pages) wrote:
>> Hi Eugene,
>>
>> On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
>> > ---
>> >  man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
>> >  1 file changed, 42 insertions(+), 5 deletions(-)
>> >
>> > diff --git a/man2/request_key.2 b/man2/request_key.2
>> > index a9d0561..e29ca06 100644
>> > --- a/man2/request_key.2
>> > +++ b/man2/request_key.2
>> > @@ -35,11 +35,6 @@ If the key is found or created,
>> >  attaches it to the keyring whose ID is specified in
>> >  .I dest_keyring
>> >  and returns the key's serial number.
>> > -.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
>> > -.\" In this case, by default, the key is assigned to the session keyring.
>> > -.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
>> > -.\" What are the details here?
>> > -.\"
>> >
>> >  .BR request_key ()
>> >  first recursively searches for a matching key in all of the keyrings
>> > @@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
>> >  .B KEY_SPEC_USER_SESSION_KEYRING
>> >  This specifies the caller's UID-session keyring
>> >  .RB ( user-session-keyring (7)).
>> > +.PP
>> > +When the
>> > +.I dest_keyring
>> > +is specified to
>> > +.BR 0 ,
>> > +and no key construction have been performed, then no additional linking is done.
>> > +Otherwise, if new key is constructed, it would be linked to the "default"
>> > +keyring (which can be specified via the
>> > +.BR keyctl (2)
>> > +command
>> > +.BR KEYCTL_SET_REQKEY_KEYRING ).
>>
>> For the purpose of me reviewing this, could you outline how you verified
>> the following details:
>>
>> > +More specifically, when kernel tries to determine to which keyring the
>> > +newly constructed key should be linked, it tries the following options, starting
>> > +from the value set via
>> > +.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
>> > +command until it finds the first available one:
>> > +.IP \(bu 3
>> > +.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
>> > +Requestor keyring (specified via
>> > +.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
>> > +since Linux 2.6.29)
>> > +.IP \(bu
>> > +Thread-specific keyring (specified via
>> > +.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
>> > +.IP \(bu
>> > +Process-specific keyring (specified via
>> > +.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
>> > +.IP \(bu
>> > +Session-specific keyring (specified via
>> > +.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
>> > +.IP \(bu
>> > +Session keyring for the process's user ID  (specified via
>> > +.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
>> > +This keyring is expected to always exist.
>> > +.IP \(bu
>> > +UID-specific keyring (specified via
>> > +.BR KEY_REQKEY_DEFL_USER_KEYRING ).
>> > +This keyring is also expected to always exist.
>> > +.PP
>> > +Specifying
>> > +.B KEY_REQKEY_DEFL_DEFAULT
>> > +leads to starting from the beginning of the list.
>> >  .\"
>> >  .SS Requesting user-space instantiation of a key
>> >  If the kernel cannot find a key matching
>> >
>>
>
> Based on linux v4.9-rc6 (9c763584):
>
>  * security/keys/keyctl.c, SYSCALL_DEFINE4(request_key, ...), line 158:
>   * Assume that call is performed with with destringid == 0:
>   * We skip check on line 196, so dest_ref remains NULL
>   * On line 213, request_key_and_link is called with key_ref_to_ptr(dest_ref)
>    * key_ref_to_ptr() itself just zeroes lower bit which is used for
>      indication that key reference in the possession of the current
>      context.
>  * security/keys/request_key.c, request_key_and_link, line 508:
>   * On line 543, we try to search process keyrings for the key (we
>     fill ctx at hte beginning of the function and then pass it to
>     search_process_keyrings)
>   * If key is found (key_ref is not erroneous), we convert key_ref to
>     ptr on line 546 and skip the following block on line 547 since
>     dest_keyring is 0.
>   * If key is not found and error is not EAGAIN, then
>     construct_key_and_link is called on line 566 with dest_keyring ==
>     NULL.
>  * security/keys/request_key.c, construct_key_and_link, line 430:
>   * On line 450, construct_get_dest_keyring is called with dest_keyring
>     == NULL.
>  * security/keys/request_key.c, construct_get_dest_keyring, line 253:
>   * The argument here (which is pointer to pointer to struct key) is
>     named _dest_keyring, but on line 257 it is dereferenced to local
>     variable dest_keyring (so it stores NULL now).
>   * We re going to the "else" branch (starting from line 266) of check
>     on line 262
>   * Now we are switching against cred->jit_keyring with the behavour
>     described in the patch.
>  * git grep jit_keyring security/keys reveals that it is assigned inside
>    keyctl_set_reqkey_keyring, security/keys/keyctl.c, line 1257.
>  * keyctl_set_reqkey_keyring is called from SYSCALL_DEFINE5(keyctl,
>    ...), when option passed to keyctl is KEYCTL_SET_REQKEY_KEYRING (line
>    1652).
>  * Default value for jit_keyring is sort of difficult to find out, since
>    it is inherited, but overall it is explicitly set to
>    KEY_REQKEY_DEFL_THREAD_KEYRING or copied from zeroed-out structures
>    (so it is equal to KEY_REQKEY_DEFL_DEFAULT) which leads to the same
>    behaviour in case the process has not been upcalled by request_key
>    construction.
>
>> Cheers,
>>
>> Michael
>>
>> --
>> Michael Kerrisk
>> Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
>> Linux/UNIX System Programming Training: http://man7.org/training/



-- 
Michael Kerrisk
Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Michael Kerrisk (man-pages)]

Hello Eugene, (and David)

[David, could you take a look at the FIXMEs below?]

On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> ---
>  man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
>  1 file changed, 42 insertions(+), 5 deletions(-)
> 
> diff --git a/man2/request_key.2 b/man2/request_key.2
> index a9d0561..e29ca06 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -35,11 +35,6 @@ If the key is found or created,
>  attaches it to the keyring whose ID is specified in
>  .I dest_keyring
>  and returns the key's serial number.
> -.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
> -.\" In this case, by default, the key is assigned to the session keyring.
> -.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
> -.\" What are the details here?
> -.\"
>  
>  .BR request_key ()
>  first recursively searches for a matching key in all of the keyrings
> @@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
>  .B KEY_SPEC_USER_SESSION_KEYRING
>  This specifies the caller's UID-session keyring
>  .RB ( user-session-keyring (7)).
> +.PP
> +When the
> +.I dest_keyring
> +is specified to
> +.BR 0 ,
> +and no key construction have been performed, then no additional linking is done.
> +Otherwise, if new key is constructed, it would be linked to the "default"
> +keyring (which can be specified via the
> +.BR keyctl (2)
> +command
> +.BR KEYCTL_SET_REQKEY_KEYRING ).
> +More specifically, when kernel tries to determine to which keyring the
> +newly constructed key should be linked, it tries the following options, starting
> +from the value set via
> +.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
> +command until it finds the first available one:
> +.IP \(bu 3
> +.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
> +Requestor keyring (specified via
> +.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
> +since Linux 2.6.29)
> +.IP \(bu
> +Thread-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
> +.IP \(bu
> +Process-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
> +.IP \(bu
> +Session-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
> +.IP \(bu
> +Session keyring for the process's user ID  (specified via
> +.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
> +This keyring is expected to always exist.
> +.IP \(bu
> +UID-specific keyring (specified via
> +.BR KEY_REQKEY_DEFL_USER_KEYRING ).
> +This keyring is also expected to always exist.
> +.PP
> +Specifying
> +.B KEY_REQKEY_DEFL_DEFAULT
> +leads to starting from the beginning of the list.
>  .\"
>  .SS Requesting user-space instantiation of a key
>  If the kernel cannot find a key matching

Thanks. Everything that I tested concurs with your patch, but
I've done some rewording that makes things a bit clearer, and
I've added one or two details. 

How does the following look:

       The  dest_keyring serial number may be that of a valid keyring for
       which the caller has write permission, or it may  be  one  of  the
       following special keyring IDs:

       KEY_SPEC_THREAD_KEYRING
              This   specifies   the   caller's  thread-specific  keyring
              (thread-keyring(7)).

       KEY_SPEC_PROCESS_KEYRING
              This  specifies  the  caller's   process-specific   keyring
              (process-keyring(7)).

       KEY_SPEC_SESSION_KEYRING
              This  specifies the caller's session-specific keyring (ses‐
              sion-keyring(7)).

       KEY_SPEC_USER_KEYRING
              This specifies the  caller's  UID-specific  keyring  (user-
              keyring(7)).

       KEY_SPEC_USER_SESSION_KEYRING
              This  specifies the caller's UID-session keyring (user-ses‐
              sion-keyring(7)).

       When the dest_keyring is specified to 0, and no  key  construction
       have been performed, then no additional linking is done.

       Otherwise,  if  dest_keyring is 0 and a new key is constructed, the new
       key will be linked to the "default" keyring.  More precisely, when  the
       kernel  tries  to  determine to which keyring the newly constructed key
       should be linked, it tries the following keyrings, beginning  with  the
       keyring  set  via  the  keyctl(2) KEYCTL_SET_REQKEY_KEYRING command and
       continuing in the order shown below until it finds  the  first  keyring
       that exists:

       ·  The   requestor  keyring  (KEY_REQKEY_DEFL_REQUESTOR_KEYRING,  since
          Linux 2.6.29).

          ┌─────────────────────────────────────────────────────┐
          │FIXME                                                │
          ├─────────────────────────────────────────────────────┤
          │Actually, is the  preceding  point  correct?   If  I │
          │understand  correctly,  we'll only get here if won't │
          │refer to a keyring. Have I misunderstood?            │
          └─────────────────────────────────────────────────────┘

       ·  The thread-specific keyring (KEY_REQKEY_DEFL_THREAD_KEYRING).

       ·  The process-specific keyring (KEY_REQKEY_DEFL_PROCESS_KEYRING).

       ·  The session-specific keyring (KEY_REQKEY_DEFL_SESSION_KEYRING).

       ·  The    session    keyring    for    the    process's     user     ID
          (KEY_REQKEY_DEFL_USER_SESSION_KEYRING).  This keyring is expected to
          always exist.

          ┌─────────────────────────────────────────────────────┐
          │FIXME                                                │
          ├─────────────────────────────────────────────────────┤
          │Are there circumstances where  the  session  keyring │
          │does not exist?  What are they?                      │
          └─────────────────────────────────────────────────────┘

       ·  The   UID-specific   keyring  (KEY_REQKEY_DEFL_USER_KEYRING).   This
          keyring is also expected to always exist.

          ┌─────────────────────────────────────────────────────┐
          │FIXME                                                │
          ├─────────────────────────────────────────────────────┤
          │Are  there  circumstances  where  the   UID-specific │
          │keyring does not exist?  What are they?              │
          └─────────────────────────────────────────────────────┘

       If    the   keyctl(2)   KEYCTL_SET_REQKEY_KEYRING   command   specifies
       KEY_REQKEY_DEFL_DEFAULT (or  no  KEYCTL_SET_REQKEY_KEYRING  command  is
       performed),  then  the  kernel  looks  for  a keyring starting from the
       beginning of the list.

These changes have been pushed to the public branch:
http://git.kernel.org/cgit/docs/man-pages/man-pages.git/log/?h=draft_2_keys

Cheers,

Michael



-- 
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Linux/UNIX System Programming Training: http://man7.org/training/
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Eugene Syromyatnikov]

On Sat, Dec 17, 2016 at 12:21 PM, Michael Kerrisk (man-pages)
<mtk.manpages-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:
> Hello Eugene, (and David)
>
> [David, could you take a look at the FIXMEs below?]
>
> On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
>> ---
>>  man2/request_key.2 | 47 ++++++++++++++++++++++++++++++++++++++++++-----
>>  1 file changed, 42 insertions(+), 5 deletions(-)
>>
>> diff --git a/man2/request_key.2 b/man2/request_key.2
>> index a9d0561..e29ca06 100644
>> --- a/man2/request_key.2
>> +++ b/man2/request_key.2
>> @@ -35,11 +35,6 @@ If the key is found or created,
>>  attaches it to the keyring whose ID is specified in
>>  .I dest_keyring
>>  and returns the key's serial number.
>> -.\" FIXME Is 'keyring' allowed to be 0? Reading the source, it appears so.
>> -.\" In this case, by default, the key is assigned to the session keyring.
>> -.\" But, the KEYCTL_SET_REQKEY_KEYRING also seems to have an influence here.
>> -.\" What are the details here?
>> -.\"
>>
>>  .BR request_key ()
>>  first recursively searches for a matching key in all of the keyrings
>> @@ -104,6 +99,48 @@ This specifies the caller's UID-specific keyring
>>  .B KEY_SPEC_USER_SESSION_KEYRING
>>  This specifies the caller's UID-session keyring
>>  .RB ( user-session-keyring (7)).
>> +.PP
>> +When the
>> +.I dest_keyring
>> +is specified to
>> +.BR 0 ,
>> +and no key construction have been performed, then no additional linking is done.
>> +Otherwise, if new key is constructed, it would be linked to the "default"
>> +keyring (which can be specified via the
>> +.BR keyctl (2)
>> +command
>> +.BR KEYCTL_SET_REQKEY_KEYRING ).
>> +More specifically, when kernel tries to determine to which keyring the
>> +newly constructed key should be linked, it tries the following options, starting
>> +from the value set via
>> +.BR KEYCTL_SET_REQKEY_KEYRING " " keyctl (2)
>> +command until it finds the first available one:
>> +.IP \(bu 3
>> +.\" 8bbf4976b59fc9fc2861e79cab7beb3f6d647640
>> +Requestor keyring (specified via
>> +.BR KEY_REQKEY_DEFL_REQUESTOR_KEYRING ,
>> +since Linux 2.6.29)
>> +.IP \(bu
>> +Thread-specific keyring (specified via
>> +.BR KEY_REQKEY_DEFL_THREAD_KEYRING )
>> +.IP \(bu
>> +Process-specific keyring (specified via
>> +.BR KEY_REQKEY_DEFL_PROCESS_KEYRING )
>> +.IP \(bu
>> +Session-specific keyring (specified via
>> +.BR KEY_REQKEY_DEFL_SESSION_KEYRING )
>> +.IP \(bu
>> +Session keyring for the process's user ID  (specified via
>> +.BR KEY_REQKEY_DEFL_USER_SESSION_KEYRING ).
>> +This keyring is expected to always exist.
>> +.IP \(bu
>> +UID-specific keyring (specified via
>> +.BR KEY_REQKEY_DEFL_USER_KEYRING ).
>> +This keyring is also expected to always exist.
>> +.PP
>> +Specifying
>> +.B KEY_REQKEY_DEFL_DEFAULT
>> +leads to starting from the beginning of the list.
>>  .\"
>>  .SS Requesting user-space instantiation of a key
>>  If the kernel cannot find a key matching
>
> Thanks. Everything that I tested concurs with your patch, but
> I've done some rewording that makes things a bit clearer, and
> I've added one or two details.
>
> How does the following look:
>
>        The  dest_keyring serial number may be that of a valid keyring for
>        which the caller has write permission, or it may  be  one  of  the
>        following special keyring IDs:
>
>        KEY_SPEC_THREAD_KEYRING
>               This   specifies   the   caller's  thread-specific  keyring
>               (thread-keyring(7)).
>
>        KEY_SPEC_PROCESS_KEYRING
>               This  specifies  the  caller's   process-specific   keyring
>               (process-keyring(7)).
>
>        KEY_SPEC_SESSION_KEYRING
>               This  specifies the caller's session-specific keyring (ses‐
>               sion-keyring(7)).
>
>        KEY_SPEC_USER_KEYRING
>               This specifies the  caller's  UID-specific  keyring  (user-
>               keyring(7)).
>
>        KEY_SPEC_USER_SESSION_KEYRING
>               This  specifies the caller's UID-session keyring (user-ses‐
>               sion-keyring(7)).
>
>        When the dest_keyring is specified to 0, and no  key  construction
>        have been performed, then no additional linking is done.
>
>        Otherwise,  if  dest_keyring is 0 and a new key is constructed, the new
>        key will be linked to the "default" keyring.  More precisely, when  the
>        kernel  tries  to  determine to which keyring the newly constructed key
>        should be linked, it tries the following keyrings, beginning  with  the
>        keyring  set  via  the  keyctl(2) KEYCTL_SET_REQKEY_KEYRING command and
>        continuing in the order shown below until it finds  the  first  keyring
>        that exists:
>
>        ·  The   requestor  keyring  (KEY_REQKEY_DEFL_REQUESTOR_KEYRING,  since
>           Linux 2.6.29).
>
>           ┌─────────────────────────────────────────────────────┐
>           │FIXME                                                │
>           ├─────────────────────────────────────────────────────┤
>           │Actually, is the  preceding  point  correct?   If  I │
>           │understand  correctly,  we'll only get here if won't │
>           │refer to a keyring. Have I misunderstood?            │
>           └─────────────────────────────────────────────────────┘
(The "if (cred->request_key_auth)" condition at request_key.c:271 is
entered only in case cred->request_key_auth is set, and it is set to
non-zero value (apart from cred copying) only in
keyctl_change_reqkey_auth() at keyctl.c:1017. This function, in turn,
is called with non-zero argument only in keyctl_assume_authority(),
keyctl.c:1408. And this uses result of key_get_instantiation_authkey()
(defined in request_key_auth.c:242), which searches of a key of type
key_type_request_key_auth. Keys of this type are constructed by
request_key_auth_new() at request_key_auth.c:147 (if i understood
correctly), and the only call site for this function is
construct_key() at request_key.c:203. It is then calls
call_sbin_request_key (or other actor of type request_key_actor_t
which can be set in key type—maybe this should be pointed out
somewhere in terms how it is set/configured, but the only place where
it is non-NULL—found by quick git grep—is fs/nfs/nfs4idmap.c:
.request_key    = nfs_idmap_legacy_upcall, but it's difficult to say
whether it has other uses despite message of commit b5f545c which
initially introduced request_key field and functionality also points
at NFS) with the struct key_construction provided in the furst
argument, where authley field is set to the newly constructed authkey.
In call_sbin_request_key() authkey is linked (at request_key.c:127) to
the newly created (at request_key.c:117) keyring and latter then
passed to call_usermodehelper_keys() at request_key.c:175 as a
session_keyring. In call_usermodehelper_keys() it is passed as
subprocess data, which is then used by provided in the
call_usermodehelper_setup() call at request_key.c:80 umh_keys_init
callback for installing it as a session keyring with a
install_session_keyring_to_cred() call (defined in
process_keys.c:223).

So, this is possible (only?—i haven't seen a possibility to set
requestor keyring from the user space) in case the kernel upcalls
helper process for instantiating a key—this makes request
authorization key being linked to a session keyring. And by calling
keyctl(KEYCTL_ASSUME_AUTHORITY), this process might set
request_key_auth (since it knows appropriate ID as it has target key
ID passed as a second parameter—request_key.c:166). This helper
process could then perform request_key with destringid set to 0 (and
with the default keyring being set to
KEY_REQKEY_DEFL_REQUESTOR_KEYRING or KEY_REQKEY_DEFL_DEFAULT),
effectively meeting all conditions for executing this code.

>        ·  The thread-specific keyring (KEY_REQKEY_DEFL_THREAD_KEYRING).
>
>        ·  The process-specific keyring (KEY_REQKEY_DEFL_PROCESS_KEYRING).
>
>        ·  The session-specific keyring (KEY_REQKEY_DEFL_SESSION_KEYRING).
>
>        ·  The    session    keyring    for    the    process's     user     ID
>           (KEY_REQKEY_DEFL_USER_SESSION_KEYRING).  This keyring is expected to
>           always exist.
>
>           ┌─────────────────────────────────────────────────────┐
>           │FIXME                                                │
>           ├─────────────────────────────────────────────────────┤
>           │Are there circumstances where  the  session  keyring │
>           │does not exist?  What are they?                      │
>           └─────────────────────────────────────────────────────┘
>
>        ·  The   UID-specific   keyring  (KEY_REQKEY_DEFL_USER_KEYRING).   This
>           keyring is also expected to always exist.
>
>           ┌─────────────────────────────────────────────────────┐
>           │FIXME                                                │
>           ├─────────────────────────────────────────────────────┤
>           │Are  there  circumstances  where  the   UID-specific │
>           │keyring does not exist?  What are they?              │
>           └─────────────────────────────────────────────────────┘
>
>        If    the   keyctl(2)   KEYCTL_SET_REQKEY_KEYRING   command   specifies
>        KEY_REQKEY_DEFL_DEFAULT (or  no  KEYCTL_SET_REQKEY_KEYRING  command  is
>        performed),  then  the  kernel  looks  for  a keyring starting from the
>        beginning of the list.
>
> These changes have been pushed to the public branch:
> http://git.kernel.org/cgit/docs/man-pages/man-pages.git/log/?h=draft_2_keys
>
> Cheers,
>
> Michael
>
>
>
> --
> Michael Kerrisk
> Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
> Linux/UNIX System Programming Training: http://man7.org/training/



-- 
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xmpp:esyr@jabber.{ru|org}
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[David Howells]

Michael Kerrisk (man-pages) <mtk.manpages@gmail.com> wrote:

>        Otherwise,  if  dest_keyring is 0 and a new key is constructed, the new
>        key will be linked to the "default" keyring.  More precisely, when  the
>        kernel  tries  to  determine to which keyring the newly constructed key
>        should be linked, it tries the following keyrings, beginning  with  the
>        keyring  set  via  the  keyctl(2) KEYCTL_SET_REQKEY_KEYRING command and
>        continuing in the order shown below until it finds  the  first  keyring
>        that exists:
> 
>        ·  The   requestor  keyring  (KEY_REQKEY_DEFL_REQUESTOR_KEYRING,  since
>           Linux 2.6.29).

This is only available in the /sbin/request-key upcall, where it refers back
to the destination keyring of whoever called request_key().

>        ·  The    session    keyring    for    the    process's     user     ID
>           (KEY_REQKEY_DEFL_USER_SESSION_KEYRING).  This keyring is expected to
>           always exist.
> 
>           ┌─────────────────────────────────────────────────────┐
>           │FIXME                                                │
>           ├─────────────────────────────────────────────────────┤
>           │Are there circumstances where  the  session  keyring │
>           │does not exist?  What are they?                      │
>           └─────────────────────────────────────────────────────┘

The session keyring does not exist in /sbin/init's process, for example,
unless that process created one.  It's existence or non-existence is then
inherited by all the processes that are started from that.  Upon a log-in, PAM
is expected to create a session keyring.

>        ·  The   UID-specific   keyring  (KEY_REQKEY_DEFL_USER_KEYRING).   This
>           keyring is also expected to always exist.
> 
>           ┌─────────────────────────────────────────────────────┐
>           │FIXME                                                │
>           ├─────────────────────────────────────────────────────┤
>           │Are  there  circumstances  where  the   UID-specific │
>           │keyring does not exist?  What are they?              │
>           └─────────────────────────────────────────────────────┘

The uid keyrings don't exist until someone tries to access them - at which
point they're both created.  When you log in, pam_keyinit creates a link to
your user keyring in the session keyring it just created, thereby creating the
user and user-session keyrings.

David

Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Michael Kerrisk (man-pages)]

On 12/19/2016 09:19 AM, David Howells wrote:
> Michael Kerrisk (man-pages) <mtk.manpages-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:
> 
>>        Otherwise,  if  dest_keyring is 0 and a new key is constructed, the new
>>        key will be linked to the "default" keyring.  More precisely, when  the
>>        kernel  tries  to  determine to which keyring the newly constructed key
>>        should be linked, it tries the following keyrings, beginning  with  the
>>        keyring  set  via  the  keyctl(2) KEYCTL_SET_REQKEY_KEYRING command and
>>        continuing in the order shown below until it finds  the  first  keyring
>>        that exists:
>>
>>        ·  The   requestor  keyring  (KEY_REQKEY_DEFL_REQUESTOR_KEYRING,  since
>>           Linux 2.6.29).
> 
> This is only available in the /sbin/request-key upcall, where it refers back
> to the destination keyring of whoever called request_key().

Eugene has sent a longer analysis, which I didn't yet scan thoroughly.
But, I feel like I must be missing something obvious. (And unfortunately, my
FIXME text was a bit garbled). Here, we're talking about the situation where
request_key(2) is called with a destination keyring argument (final argument 
to the call) that is 0. Does not KEY_REQKEY_DEFL_REQUESTOR_KEYRING then yield
"0" as its value, and thus this case is a no-op in the list of keyrings searched?.
(Is there something here that I'm missing to do with chained upcalls?)

>>        ·  The    session    keyring    for    the    process's     user     ID
>>           (KEY_REQKEY_DEFL_USER_SESSION_KEYRING).  This keyring is expected to
>>           always exist.
>>
>>           ┌─────────────────────────────────────────────────────┐
>>           │FIXME                                                │
>>           ├─────────────────────────────────────────────────────┤
>>           │Are there circumstances where  the  session  keyring │
>>           │does not exist?  What are they?                      │
>>           └─────────────────────────────────────────────────────┘
> 
> The session keyring does not exist in /sbin/init's process, for example,
> unless that process created one.  It's existence or non-existence is then
> inherited by all the processes that are started from that.  Upon a log-in, PAM
> is expected to create a session keyring.
> 
>>        ·  The   UID-specific   keyring  (KEY_REQKEY_DEFL_USER_KEYRING).   This
>>           keyring is also expected to always exist.
>>
>>           ┌─────────────────────────────────────────────────────┐
>>           │FIXME                                                │
>>           ├─────────────────────────────────────────────────────┤
>>           │Are  there  circumstances  where  the   UID-specific │
>>           │keyring does not exist?  What are they?              │
>>           └─────────────────────────────────────────────────────┘
> 
> The uid keyrings don't exist until someone tries to access them - at which
> point they're both created.  

Does "access" here mean attempt to "read ow update" the keyring, or are the
UID keyring created only on the first attempt to "update: them?

Cheers,

Michael

> When you log in, pam_keyinit creates a link to
> your user keyring in the session keyring it just created, thereby creating the
> user and user-session keyrings.
> 
> David
> 


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Linux/UNIX System Programming Training: http://man7.org/training/
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Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[Eugene Syromyatnikov]

On Mon, Dec 19, 2016 at 8:47 AM, Michael Kerrisk (man-pages)
<mtk.manpages@gmail.com> wrote:
> On 12/19/2016 09:19 AM, David Howells wrote:
>> Michael Kerrisk (man-pages) <mtk.manpages@gmail.com> wrote:
>>
>>>        Otherwise,  if  dest_keyring is 0 and a new key is constructed, the new
>>>        key will be linked to the "default" keyring.  More precisely, when  the
>>>        kernel  tries  to  determine to which keyring the newly constructed key
>>>        should be linked, it tries the following keyrings, beginning  with  the
>>>        keyring  set  via  the  keyctl(2) KEYCTL_SET_REQKEY_KEYRING command and
>>>        continuing in the order shown below until it finds  the  first  keyring
>>>        that exists:
>>>
>>>        ·  The   requestor  keyring  (KEY_REQKEY_DEFL_REQUESTOR_KEYRING,  since
>>>           Linux 2.6.29).
>>
>> This is only available in the /sbin/request-key upcall, where it refers back
>> to the destination keyring of whoever called request_key().
>
> Eugene has sent a longer analysis, which I didn't yet scan thoroughly.
> But, I feel like I must be missing something obvious. (And unfortunately, my
> FIXME text was a bit garbled). Here, we're talking about the situation where
> request_key(2) is called with a destination keyring argument (final argument
> to the call) that is 0. Does not KEY_REQKEY_DEFL_REQUESTOR_KEYRING then yield
> "0" as its value, and thus this case is a no-op in the list of keyrings searched?.
> (Is there something here that I'm missing to do with chained upcalls?)
After the successful keyctl(KEYCTL_ASSUME_AUTHORITY, dest_key_id) call
(where dest_key_id is the key_id passed to the upcalled program in the
second parameter), the request_key_auth field of the cred structure
would be set with the appropriate authkey, which enables entering into
the condition at request_key.c:271. Otherwise this condition would be
passed.

>>>        ·  The    session    keyring    for    the    process's     user     ID
>>>           (KEY_REQKEY_DEFL_USER_SESSION_KEYRING).  This keyring is expected to
>>>           always exist.
>>>
>>>           ┌─────────────────────────────────────────────────────┐
>>>           │FIXME                                                │
>>>           ├─────────────────────────────────────────────────────┤
>>>           │Are there circumstances where  the  session  keyring │
>>>           │does not exist?  What are they?                      │
>>>           └─────────────────────────────────────────────────────┘
>>
>> The session keyring does not exist in /sbin/init's process, for example,
>> unless that process created one.  It's existence or non-existence is then
>> inherited by all the processes that are started from that.  Upon a log-in, PAM
>> is expected to create a session keyring.
>>
>>>        ·  The   UID-specific   keyring  (KEY_REQKEY_DEFL_USER_KEYRING).   This
>>>           keyring is also expected to always exist.
>>>
>>>           ┌─────────────────────────────────────────────────────┐
>>>           │FIXME                                                │
>>>           ├─────────────────────────────────────────────────────┤
>>>           │Are  there  circumstances  where  the   UID-specific │
>>>           │keyring does not exist?  What are they?              │
>>>           └─────────────────────────────────────────────────────┘
>>
>> The uid keyrings don't exist until someone tries to access them - at which
>> point they're both created.
>
> Does "access" here mean attempt to "read ow update" the keyring, or are the
> UID keyring created only on the first attempt to "update: them?
>
> Cheers,
>
> Michael
>
>> When you log in, pam_keyinit creates a link to
>> your user keyring in the session keyring it just created, thereby creating the
>> user and user-session keyrings.
>>
>> David
>>
>
>
> --
> Michael Kerrisk
> Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
> Linux/UNIX System Programming Training: http://man7.org/training/



-- 
Eugene Syromyatnikov
mailto:evgsyr@gmail.com
xmpp:esyr@jabber.{ru|org}

Re: [PATCH 1/5] request_key.2: add information regarding default keyring

[David Howells]

Michael Kerrisk (man-pages) <mtk.manpages-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:

> Here, we're talking about the situation where request_key(2) is called with
> a destination keyring argument (final argument to the call) that is 0.

Yep.

> Does not KEY_REQKEY_DEFL_REQUESTOR_KEYRING then yield "0" as its value, and
> thus this case is a no-op in the list of keyrings searched?.

No.  construct_key_and_link() calls construct_get_dest_keyring() to get the
destination keyring (which includes handling the defaults) and then calls
construct_key() which passes this default to request_key_auth_new().

However, if there is no authorisation key around,
KEY_REQKEY_DEFL_REQUESTOR_KEYRING defaults to the same as
KEY_REQKEY_DEFL_THREAD_KEYRING.

> (Is there something here that I'm missing to do with chained upcalls?)

For chained upcalls, consider the following sequence:

 (1) A process does request_key().  This selects a destination keyring which
     it will paste into the auth key.

 (2) request_key() upcalls and passes the auth key to /sbin/request-key which
     assumes its authority and exec's an appropriate handler.  The default
     keyring setting is KEY_REQKEY_DEFL_DEFAULT, inherited from init_creds.

 (3) The handler process calls request_key() without specifying a destination
     keyring and without changing the default.  This upcalls and selects the
     destination keyring from (1) and pastes it into the auth key.

 (4) request_key() upcalls ...

> > The uid keyrings don't exist until someone tries to access them - at which
> > point they're both created.  
> 
> Does "access" here mean attempt to "read ow update" the keyring, or are the
> UID keyring created only on the first attempt to "update: them?

It means lookup_user_key() was passed KEY_LOOKUP_CREATE.  So:

	add_key() - destination keyring
	request_key() - destination keyring
	KEYCTL_GET_KEYRING_ID - if create arg is true
	KEYCTL_CLEAR
	KEYCTL_LINK - both args
	KEYCTL_SEARCH - destination keyring
	KEYCTL_CHOWN
	KEYCTL_SETPERM
	KEYCTL_SET_TIMEOUT
	KEYCTL_INSTANTIATE - destination keyring
	KEYCTL_INSTANTIATE_IOV - destination keyring
	KEYCTL_NEGATE - destination keyring
	KEYCTL_REJECT - destination keyring
	KEYCTL_GET_PERSISTENT - destination keyring

will all create a keyring under some circumstances.  Whereas the rest, such as
KEYCTL_GET_SECURITY, KEYCTL_READ and KEYCTL_REVOKE, won't.

David
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[PATCH 2/5] requesT_key.2: add information regarding minimal kernel version for key instantiation on request

[Eugene Syromyatnikov]

---
 man2/request_key.2 | 2 ++
 1 file changed, 2 insertions(+)

diff --git a/man2/request_key.2 b/man2/request_key.2
index e29ca06..e46dd61 100644
--- a/man2/request_key.2
+++ b/man2/request_key.2
@@ -364,6 +364,8 @@ No matching key was found.
 Insufficient memory to create a key.
 .SH VERSIONS
 This system call first appeared in Linux 2.6.10.
+.\" 3e30148c3d524a9c1c63ca28261bc24c457eb07a
+The ability to instantiate keys upon request has been added in Linux 2.6.13.
 .SH CONFORMING TO
 This system call is a nonstandard Linux extension.
 .SH NOTES
-- 
2.10.2

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Re: [PATCH 2/5] requesT_key.2: add information regarding minimal kernel version for key instantiation on request

[Michael Kerrisk (man-pages)]

Hello Eugene,

On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> ---
>  man2/request_key.2 | 2 ++
>  1 file changed, 2 insertions(+)

Applied. Thank you!

Cheers,

Michael


> diff --git a/man2/request_key.2 b/man2/request_key.2
> index e29ca06..e46dd61 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -364,6 +364,8 @@ No matching key was found.
>  Insufficient memory to create a key.
>  .SH VERSIONS
>  This system call first appeared in Linux 2.6.10.
> +.\" 3e30148c3d524a9c1c63ca28261bc24c457eb07a
> +The ability to instantiate keys upon request has been added in Linux 2.6.13.
>  .SH CONFORMING TO
>  This system call is a nonstandard Linux extension.
>  .SH NOTES
> 


-- 
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[PATCH 3/5] request_key.2: whitespace fix

[Eugene Syromyatnikov]

---
 man2/request_key.2 | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/man2/request_key.2 b/man2/request_key.2
index e46dd61..63e8206 100644
--- a/man2/request_key.2
+++ b/man2/request_key.2
@@ -169,7 +169,7 @@ is:
 .RS
 .IP (1) 4
 the context in which the key U should be instantiated and secured, and
-.IP (2) 
+.IP (2)
 the context from which associated key requests may be satisfied.
 .RE
 .IP
-- 
2.10.2

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Re: [PATCH 3/5] request_key.2: whitespace fix

[Michael Kerrisk (man-pages)]

Hi Eugene,

On 11/21/2016 09:59 PM, Eugene Syromyatnikov wrote:
> ---
>  man2/request_key.2 | 2 +-
>  1 file changed, 1 insertion(+), 1 deletion(-)

Applied. Thanks!

Cheers,

Michael

> 
> diff --git a/man2/request_key.2 b/man2/request_key.2
> index e46dd61..63e8206 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -169,7 +169,7 @@ is:
>  .RS
>  .IP (1) 4
>  the context in which the key U should be instantiated and secured, and
> -.IP (2) 
> +.IP (2)
>  the context from which associated key requests may be satisfied.
>  .RE
>  .IP
> 


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[PATCH 4/5] request_key.2: wfix

[Eugene Syromyatnikov]

---
 man2/request_key.2 | 3 +--
 1 file changed, 1 insertion(+), 2 deletions(-)

diff --git a/man2/request_key.2 b/man2/request_key.2
index 63e8206..1a3af3f 100644
--- a/man2/request_key.2
+++ b/man2/request_key.2
@@ -198,8 +198,7 @@ in the requesting program.
 The payload of the key is taken from the data specified in
 .IR callout_info .
 .IP *
-Internally, the kernel also records a record of the PID of the process
-that called
+Internally, the kernel also records the PID of the process that called
 .BR request_key (2).
 .RE
 .IP c)
-- 
2.10.2

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Re: [PATCH 4/5] request_key.2: wfix

[Michael Kerrisk (man-pages)]

Hi Eugene

On 11/21/2016 10:00 PM, Eugene Syromyatnikov wrote:> ---
>  man2/request_key.2 | 3 +--
>  1 file changed, 1 insertion(+), 2 deletions(-)

Applied. Thanks!

Cheers,

Michael

> diff --git a/man2/request_key.2 b/man2/request_key.2
> index 63e8206..1a3af3f 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -198,8 +198,7 @@ in the requesting program.
>  The payload of the key is taken from the data specified in
>  .IR callout_info .
>  .IP *
> -Internally, the kernel also records a record of the PID of the process
> -that called
> +Internally, the kernel also records the PID of the process that called
>  .BR request_key (2).
>  .RE
>  .IP c)
> 


-- 
Michael Kerrisk
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Linux/UNIX System Programming Training: http://man7.org/training/
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[PATCH 5/5] request_key.2: additional error information

[Eugene Syromyatnikov]

---
 man2/request_key.2 | 10 ++++++++++
 1 file changed, 10 insertions(+)

diff --git a/man2/request_key.2 b/man2/request_key.2
index 1a3af3f..936989a 100644
--- a/man2/request_key.2
+++ b/man2/request_key.2
@@ -331,6 +331,11 @@ The keyring wasn't available for modification by the user.
 The key quota for this user would be exceeded by creating this key or linking
 it to the keyring.
 .TP
+.B EFAULT
+(Part of)
+.IR type ", " description " or " callout_info
+points outside process' accessible address space.
+.TP
 .B EINTR
 The request was interrupted by a signal; see
 .BR signal (7).
@@ -361,6 +366,11 @@ No matching key was found.
 .TP
 .B ENOMEM
 Insufficient memory to create a key.
+.TP
+.B EPERM
+The
+.I type
+started from dot.
 .SH VERSIONS
 This system call first appeared in Linux 2.6.10.
 .\" 3e30148c3d524a9c1c63ca28261bc24c457eb07a
-- 
2.10.2

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Re: [PATCH 5/5] request_key.2: additional error information

[Michael Kerrisk (man-pages)]

On 11/21/2016 10:00 PM, Eugene Syromyatnikov wrote:
> ---
>  man2/request_key.2 | 10 ++++++++++
>  1 file changed, 10 insertions(+)


Hello Eugene,

Applied. Thank you!

Cheers,

Michael


> diff --git a/man2/request_key.2 b/man2/request_key.2
> index 1a3af3f..936989a 100644
> --- a/man2/request_key.2
> +++ b/man2/request_key.2
> @@ -331,6 +331,11 @@ The keyring wasn't available for modification by the user.
>  The key quota for this user would be exceeded by creating this key or linking
>  it to the keyring.
>  .TP
> +.B EFAULT
> +(Part of)
> +.IR type ", " description " or " callout_info
> +points outside process' accessible address space.
> +.TP
>  .B EINTR
>  The request was interrupted by a signal; see
>  .BR signal (7).
> @@ -361,6 +366,11 @@ No matching key was found.
>  .TP
>  .B ENOMEM
>  Insufficient memory to create a key.
> +.TP
> +.B EPERM
> +The
> +.I type
> +started from dot.
>  .SH VERSIONS
>  This system call first appeared in Linux 2.6.10.
>  .\" 3e30148c3d524a9c1c63ca28261bc24c457eb07a
> 


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Re: Revised request_key(2) man page for review

[Michael Kerrisk (man-pages)]

Hi David,

Might you also have a chance to take a look at this page?

Cheers,

Michael


On 4 November 2016 at 16:45, Michael Kerrisk (man-pages)
<mtk.manpages@gmail.com> wrote:
> Hi David (and anyone else with an interest to review)
>
> Triggered by Eugene Syromyatnikov's recent input for the keyctl(2)
> man page, I've been doing a fair bit of work on improving the key
> management syscall man pages, and wonder if I could ask you for
> some review  assistance?
>
> First off, below, I've pasted the current draft of the request_key(2)
> page, which has seen quite a a lot of changes (increasing from around
> 100 rendered lines to nearly 300). Could you take a look (and also take
> a look at the outstanding FIXME)? (The page source file is attached,
> in case you want to see all the formatting.)
>
> Thanks,
>
> Michael
>
> ====
>
> NAME
>        request_key  -  request  a key from the kernel's key management
>        facility
>
> SYNOPSIS
>        #include <sys/types.h>
>        #include <keyutils.h>
>
>        key_serial_t request_key(const char *type, const char *description,
>                                 const char *callout_info,
>                                 key_serial_t dest_keyring);
>
>        No glibc wrapper is provided for this system call; see NOTES.
>
> DESCRIPTION
>        request_key() attempts to find a key of the given type  with  a
>        description  (name) that matches the specified description.  If
>        such a key could not be found, then the key is optionally  cre‐
>        ated.   If  the key is found or created, request_key() attaches
>        it to the keyring whose ID is  specified  in  dest_keyring  and
>        returns the key's serial number.
>
>
>        ┌─────────────────────────────────────────────────────┐
>        │FIXME                                                │
>        ├─────────────────────────────────────────────────────┤
>        │Is 'keyring' allowed to be 0? Reading the source, it │
>        │appears so.  In this case, by default,  the  key  is │
>        │assigned   to   the   session   keyring.   But,  the │
>        │KEYCTL_SET_REQKEY_KEYRING  also  seems  to  have  an │
>        │influence here.  What are the details here?          │
>        │                                                     │
>        └─────────────────────────────────────────────────────┘
>
>        request_key()  first recursively searches for a matching key in
>        all of the keyrings  attached  to  the  calling  process.   The
>        keyrings  are  searched  in the order: thread-specific keyring,
>        process-specific keyring, and then session keyring.
>
>        If  request_key()  is  called  from  a   program   invoked   by
>        request_key()  on  behalf  of  some other process to generate a
>        key, then the keyrings of that other process will  be  searched
>        next,  using that other process's user ID, group ID, supplemen‐
>        tary group IDs, and security context to determine access.
>
>        The search of the keyring tree is breadth-first:  the  keys  in
>        each  keyring searched are checked for a match before any child
>        keyrings are recursed into.  Only keys for which the caller has
>        search  permission  be  found,  and only keyrings for which the
>        caller has search permission may be searched.
>
>        If the key is not found and callout  is  NULL,  then  the  call
>        fails with the error ENOKEY.
>
>        If  the key is not found and callout is not NULL, then the ker‐
>        nel attempts to invoke a user-space program to instantiate  the
>        key.  The details are given below.
>
>        The  dest_keyring  serial number may be that of a valid keyring
>        for which the caller has write permission, or it may be one  of
>        the following special keyring IDs:
>
>        KEY_SPEC_THREAD_KEYRING
>               This  specifies  the  caller's  thread-specific  keyring
>               (thread-keyring(7)).
>
>        KEY_SPEC_PROCESS_KEYRING
>               This specifies  the  caller's  process-specific  keyring
>               (process-keyring(7)).
>
>        KEY_SPEC_SESSION_KEYRING
>               This  specifies  the  caller's  session-specific keyring
>               (session-keyring(7)).
>
>        KEY_SPEC_USER_KEYRING
>               This specifies the caller's UID-specific keyring  (user-
>               keyring(7)).
>
>        KEY_SPEC_USER_SESSION_KEYRING
>               This  specifies  the caller's UID-session keyring (user-
>               session-keyring(7)).
>
>    Requesting user-space instantiation of a key
>        If the kernel cannot find a key matching type and  description,
>        and  callout  is not NULL, then the kernel attempts to invoke a
>        user-space program to instantiate a key with the given type and
>        description.  In this case, the following steps are performed:
>
>        a)  The  kernel  creates  an  uninstantiated  key,  U, with the
>            requested type and description.
>
>        b)  The kernel creates an authorization key, V, that refers  to
>            the  key  U  and  records  the  facts  that  the  caller of
>            request_key(2) is:
>
>            (1) the context in which the key U should  be  instantiated
>                and secured, and
>
>            (2) the  context  from which associated key requests may be
>                satisfied.
>
>            The authorization key is constructed as follows:
>
>            *  The key type is ".request_key_auth".
>
>            *  The key's UID and GID are the same as the  corresponding
>               filesystem IDs of the requesting process.
>
>            *  The key grants view, read, and search permissions to the
>               key possessor as well as view  permission  for  the  key
>               user.
>
>            *  The  description  (name)  of  the key is the hexadecimal
>               string representing the ID of the  key  that  is  to  be
>               instantiated in the requesting program.
>
>            *  The  payload of the key is taken from the data specified
>               in callout_info.
>
>            *  Internally, the kernel also records a record of the  PID
>               of the process that called request_key(2).
>
>        c)  The  kernel  creates  a  process that executes a user-space
>            service such as request-key(8) with a new  session  keyring
>            that contains a link to the authorization key, V.
>
>            This  program  is  supplied with the following command-line
>            arguments:
>
>            [0] The string "/sbin/request-key".
>
>            [1] The string "create" (indicating that a  key  is  to  be
>                created).
>
>            [2] The ID of the key that is to be instantiated.
>
>            [3] The filesystem UID of the caller of request_key().
>
>            [4] The filesystem GID of the caller of request_key().
>
>            [5] The   ID  of  the  thread  keyring  of  the  caller  of
>                request_key().  This may be zero if that keyring hasn't
>                been created.
>
>            [6] The  ID  of  the  process  keyring  of  the  caller  of
>                request_key().  This may be zero if that keyring hasn't
>                been created.
>
>            [7] The  ID  of  the  session  keyring  of  the  caller  of
>                request_key().
>
>            Note: each of the command-line arguments that is a  key  ID
>            is  encoded  in  decimal  (unlike  the  key  IDs  shown  in
>            /proc/keys, which are shown as hexadecimal values).
>
>        d)  The program spawned in the previous step:
>
>            *  Assumes the authority to instantiate the key U using the
>               keyctl(2)  KEYCTL_ASSUME_AUTHORITY  operation (typically
>               via the keyctl_assume_authority(3) function).
>
>            *  Obtains the callout data from the payload of the  autho‐
>               rization  key  V (using the keyctl(2) KEYCTL_READ opera‐
>               tion (or, more commonly,  the  keyctl_read(3)  function)
>               with a key ID value of KEY_SPEC_REQKEY_AUTH_KEY).
>
>            *  Instantiates the key (or execs another program that per‐
>               forms that task), specifying the payload and destination
>               keyring.   (The  destination  keyring that the requestor
>               specified when calling  request_key()  can  be  accessed
>               using  the  special  key ID KEY_SPEC_REQUESTOR_KEYRING.)
>               Instantiation   is   performed   using   the   keyctl(2)
>               KEYCTL_INSTANTIATE  operation  (or,  more  commonly, the
>               keyctl_instantiate(3) function).   At  this  point,  the
>               request_key(2)  call  completes, and the requesting pro‐
>               gram can continue execution.
>
>        If these steps are unsuccessful, then an ENOKEY error  will  be
>        returned  to  the caller of request_key() and a temporary nega‐
>        tive  key  will  be  installed  in  the  keyring  specified  by
>        dest_keyring.   This  will expire after a few seconds, but will
>        cause subsequent calls to request_key() to fail until it  does.
>        The  purpose  of this negatively instantiated key is to prevent
>        (possibly different) processes making repeated  requests  (that
>        require  expensive request-key(8) upcalls) for a key that can't
>        (at the moment) be positively instantiated.
>
>        Once the key  has  been  instantiated,  the  authorization  key
>        (KEY_SPEC_REQKEY_AUTH_KEY)  is  revoked,  and  the  destination
>        keyring (KEY_SPEC_REQUESTOR_KEYRING) is  no  longer  accessible
>        from the request-key(8) program.
>
>        If  a  key is created, then—regardless of whether it is a valid
>        key or a negative key—it will displace any other key  with  the
>        same  type  and  description  from  the  keyring  specified  in
>        dest_keyring.
>
> RETURN VALUE
>        On success, request_key() returns the serial number of the  key
>        it found or caused to be created.  On error, -1 is returned and
>        errno is set to indicate the cause of the error.
>
> ERRORS
>        EACCES The keyring wasn't available  for  modification  by  the
>               user.
>
>        EDQUOT The  key quota for this user would be exceeded by creat‐
>               ing this key or linking it to the keyring.
>
>        EINTR  The request was interrupted by a signal; see signal(7).
>
>        EINVAL The size of the string (including the  terminating  null
>               byte)  specified  in  type  or  description exceeded the
>               limit (32 bytes and 4096 bytes respectively).
>
>        EINVAL The size of the string (including the  terminating  null
>               byte) specified in callout_info exceeded the system page
>               size.
>
>        EKEYEXPIRED
>               An expired key was found, but no  replacement  could  be
>               obtained.
>
>        EKEYREJECTED
>               The attempt to generate a new key was rejected.
>
>        EKEYREVOKED
>               A  revoked  key  was  found, but no replacement could be
>               obtained.
>
>        ENOKEY No matching key was found.
>
>        ENOMEM Insufficient memory to create a key.
>
> VERSIONS
>        This system call first appeared in Linux 2.6.10.
>
> CONFORMING TO
>        This system call is a nonstandard Linux extension.
>
> NOTES
>        No wrapper for this system call is provided in glibc.  A  wrap‐
>        per is provided in the libkeyutils package.  When employing the
>        wrapper in that library, link with -lkeyutils.
>
> EXAMPLE
>        The program below demonstrates the use of  request_key().   The
>        type,  description,  and  callout_info arguments for the system
>        call are taken from the values supplied  in  the  command  line
>        arguments.   The call specifies the session keyring as the tar‐
>        get keyring.
>
>        In order to demonstrate this program, we first create  a  suit‐
>        able entry in the file /etc/request-key.conf.
>
>            $ sudo sh
>            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
>                      > /etc/request-keys.conf
>            # exit
>
>        This entry specifies that when a new "user" key with the prefix
>        "mtk:" must be instantiated, that task should be performed  via
>        the  keyctl(1)  command's  instantiate operation.  (The program
>        could The arguments supplied to the instantiate operation  are:
>        the  ID  of  the uninstantiated key (%k); the callout data sup‐
>        plied to the request_key() call (%c); and the  session  keyring
>        (%S)  of  the  requestor  (i.e.,  the caller of request)key()).
>        i(See request-key.conf(5) for details of these % specifiers.)
>
>        Then we run the program and check the contents of /proc/keys to
>        verify that the requested kay has been instantiated:
>
>            $ ./a.out user mtk:key1 "Payload data"
>            $ grep '2dddaf50' /proc/keys
>            2dddaf50 I--Q---   1 perm 3f010000  1000  1000 user   mtk:key1: 12
>
>    Program source
>        The program below
>        #include <sys/types.h>
>        #include <keyutils.h>
>        #include <stdio.h>
>        #include <stdlib.h>
>        #include <string.h>
>
>        #define errExit(msg)    do { perror(msg); exit(EXIT_FAILURE); \
>                                } while (0)
>
>        int
>        main(int argc, char *argv[])
>        {
>            key_serial_t key;
>
>            if (argc != 4) {
>                fprintf(stderr, "Usage: %s type description callout-data\n",
>                        argv[0]);
>                exit(EXIT_FAILURE);
>            }
>
>            key = request_key(argv[1], argv[2], argv[3],
>                              KEY_SPEC_SESSION_KEYRING);
>            if (key == -1)
>                errExit("request_key");
>
>            printf("Key ID is %lx\n", (long) key);
>
>            exit(EXIT_SUCCESS);
>        }
>
> SEE ALSO
>        keyctl(1), add_key(2), keyctl(2), keyctl(3), keyrings(7),
>        keyutils(7), capabilities(7), persistent-keyring(7),
>        process-keyring(7), session-keyring(7), thread-keyring(7),
>        user-keyring(7), user-session-keyring(7), request-key(8)
>
>        The kernel source files Documentation/security/keys.txt and
>        Documentation/security/keys-request-key.txt.
>
>
>
> Linux                         2016-10-08                REQUEST_KEY(2)
>
> --
> Michael Kerrisk
> Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
> Linux/UNIX System Programming Training: http://man7.org/training/



-- 
Michael Kerrisk
Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/

Re: Revised request_key(2) man page for review

[David Howells]

Michael Kerrisk (man-pages) <mtk.manpages@gmail.com> wrote:

> >        │Is 'keyring' allowed to be 0? Reading the source, it │
> >        │appears so.  In this case, by default,  the  key  is │
> >        │assigned   to   the   session   keyring.   But,  the │
> >        │KEYCTL_SET_REQKEY_KEYRING  also  seems  to  have  an │
> >        │influence here.  What are the details here?          │

Yes, the destination keyring can be 0.  If you don't specify a destination
keyring, then:

 (1) If the key is found to already exist, the serial number is returned, but
     no extra link is made.

 (2) If an error occurs other than "this key doesn't exist", then you'll just
     get the error.

 (3) If we have to construct a new key, this will be attached to the default
     keyring (as there's no destination keyring to attach to).

> >            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
> >                      > /etc/request-keys.conf

There's a /etc/request-keys.d/ directory now.

David

Re: Revised request_key(2) man page for review

[David Howells]

Michael Kerrisk (man-pages) <mtk.manpages-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:

> >        │Is 'keyring' allowed to be 0? Reading the source, it │
> >        │appears so.  In this case, by default,  the  key  is │
> >        │assigned   to   the   session   keyring.   But,  the │
> >        │KEYCTL_SET_REQKEY_KEYRING  also  seems  to  have  an │
> >        │influence here.  What are the details here?          │

Yes, the destination keyring can be 0.  If you don't specify a destination
keyring, then:

 (1) If the key is found to already exist, the serial number is returned, but
     no extra link is made.

 (2) If an error occurs other than "this key doesn't exist", then you'll just
     get the error.

 (3) If we have to construct a new key, this will be attached to the default
     keyring (as there's no destination keyring to attach to).

> >            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
> >                      > /etc/request-keys.conf

There's a /etc/request-keys.d/ directory now.

David
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Re: Revised request_key(2) man page for review

[Michael Kerrisk (man-pages)]

Hello David,

On 12/15/2016 11:10 AM, David Howells wrote:
> Michael Kerrisk (man-pages) <mtk.manpages@gmail.com> wrote:
> 
>>>        │Is 'keyring' allowed to be 0? Reading the source, it │
>>>        │appears so.  In this case, by default,  the  key  is │
>>>        │assigned   to   the   session   keyring.   But,  the │
>>>        │KEYCTL_SET_REQKEY_KEYRING  also  seems  to  have  an │
>>>        │influence here.  What are the details here?          │
> 
> Yes, the destination keyring can be 0.  If you don't specify a destination
> keyring, then:
> 
>  (1) If the key is found to already exist, the serial number is returned, but
>      no extra link is made.
> 
>  (2) If an error occurs other than "this key doesn't exist", then you'll just
>      get the error.
> 
>  (3) If we have to construct a new key, this will be attached to the default
>      keyring (as there's no destination keyring to attach to).

Okay. Please take a look at the revised text that I'll send out
after applying Eugene's patch. (Mail in a few minutes.)

>>>            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
>>>                      > /etc/request-keys.conf
> 
> There's a /etc/request-keys.d/ directory now.

Yes, I'm aware. Did you mean I should fix something on this page?

Cheers,

Michael


-- 
Michael Kerrisk
Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/

Re: Revised request_key(2) man page for review

[Michael Kerrisk (man-pages)]

Hello David,

On 12/15/2016 11:10 AM, David Howells wrote:
> Michael Kerrisk (man-pages) <mtk.manpages-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:
> 
>>>        │Is 'keyring' allowed to be 0? Reading the source, it │
>>>        │appears so.  In this case, by default,  the  key  is │
>>>        │assigned   to   the   session   keyring.   But,  the │
>>>        │KEYCTL_SET_REQKEY_KEYRING  also  seems  to  have  an │
>>>        │influence here.  What are the details here?          │
> 
> Yes, the destination keyring can be 0.  If you don't specify a destination
> keyring, then:
> 
>  (1) If the key is found to already exist, the serial number is returned, but
>      no extra link is made.
> 
>  (2) If an error occurs other than "this key doesn't exist", then you'll just
>      get the error.
> 
>  (3) If we have to construct a new key, this will be attached to the default
>      keyring (as there's no destination keyring to attach to).

Okay. Please take a look at the revised text that I'll send out
after applying Eugene's patch. (Mail in a few minutes.)

>>>            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
>>>                      > /etc/request-keys.conf
> 
> There's a /etc/request-keys.d/ directory now.

Yes, I'm aware. Did you mean I should fix something on this page?

Cheers,

Michael


-- 
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Linux man-pages maintainer; http://www.kernel.org/doc/man-pages/
Linux/UNIX System Programming Training: http://man7.org/training/
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Re: Revised request_key(2) man page for review

[David Howells]

Michael Kerrisk (man-pages) <mtk.manpages@gmail.com> wrote:

> >>>            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
> >>>                      > /etc/request-keys.conf
> > 
> > There's a /etc/request-keys.d/ directory now.
> 
> Yes, I'm aware. Did you mean I should fix something on this page?

I mean you probably shouldn't modify /etc/request-keys.conf, but rather put
something in the .d dir.

David

Re: Revised request_key(2) man page for review

[David Howells]

Michael Kerrisk (man-pages) <mtk.manpages-Re5JQEeQqe8AvxtiuMwx3w@public.gmane.org> wrote:

> >>>            # echo 'create user mtk:* *   /bin/keyctl instantiate %k %c %S' \
> >>>                      > /etc/request-keys.conf
> > 
> > There's a /etc/request-keys.d/ directory now.
> 
> Yes, I'm aware. Did you mean I should fix something on this page?

I mean you probably shouldn't modify /etc/request-keys.conf, but rather put
something in the .d dir.

David
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