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authorDavid Howells <dhowells@redhat.com>2006-06-29 02:24:28 -0700
committerLinus Torvalds <torvalds@g5.osdl.org>2006-06-29 10:26:20 -0700
commit4e54f08543d05e519e601368571cc3787fefae96 (patch)
tree0cd9d982e5bb25abcb9251d26c36ff11e7dc81a5 /Documentation/keys-request-key.txt
parent94583779e6625154e8d7fce33d097ae7d089e9de (diff)
[PATCH] Keys: Allow in-kernel key requestor to pass auxiliary data to upcaller
The proposed NFS key type uses its own method of passing key requests to userspace (upcalling) rather than invoking /sbin/request-key. This is because the responsible userspace daemon should already be running and will be contacted through rpc_pipefs. This patch permits the NFS filesystem to pass auxiliary data to the upcall operation (struct key_type::request_key) so that the upcaller can use a pre-existing communications channel more easily. Signed-off-by: David Howells <dhowells@redhat.com> Acked-By: Kevin Coffman <kwc@citi.umich.edu> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
Diffstat (limited to 'Documentation/keys-request-key.txt')
-rw-r--r--Documentation/keys-request-key.txt54
1 files changed, 36 insertions, 18 deletions
diff --git a/Documentation/keys-request-key.txt b/Documentation/keys-request-key.txt
index 22488d79116..c1f64fdf84c 100644
--- a/Documentation/keys-request-key.txt
+++ b/Documentation/keys-request-key.txt
@@ -3,16 +3,23 @@
===================
The key request service is part of the key retention service (refer to
-Documentation/keys.txt). This document explains more fully how that the
-requesting algorithm works.
+Documentation/keys.txt). This document explains more fully how the requesting
+algorithm works.
The process starts by either the kernel requesting a service by calling
-request_key():
+request_key*():
struct key *request_key(const struct key_type *type,
const char *description,
const char *callout_string);
+or:
+
+ struct key *request_key_with_auxdata(const struct key_type *type,
+ const char *description,
+ const char *callout_string,
+ void *aux);
+
Or by userspace invoking the request_key system call:
key_serial_t request_key(const char *type,
@@ -20,16 +27,26 @@ Or by userspace invoking the request_key system call:
const char *callout_info,
key_serial_t dest_keyring);
-The main difference between the two access points is that the in-kernel
-interface does not need to link the key to a keyring to prevent it from being
-immediately destroyed. The kernel interface returns a pointer directly to the
-key, and it's up to the caller to destroy the key.
+The main difference between the access points is that the in-kernel interface
+does not need to link the key to a keyring to prevent it from being immediately
+destroyed. The kernel interface returns a pointer directly to the key, and
+it's up to the caller to destroy the key.
+
+The request_key_with_auxdata() call is like the in-kernel request_key() call,
+except that it permits auxiliary data to be passed to the upcaller (the default
+is NULL). This is only useful for those key types that define their own upcall
+mechanism rather than using /sbin/request-key.
The userspace interface links the key to a keyring associated with the process
to prevent the key from going away, and returns the serial number of the key to
the caller.
+The following example assumes that the key types involved don't define their
+own upcall mechanisms. If they do, then those should be substituted for the
+forking and execution of /sbin/request-key.
+
+
===========
THE PROCESS
===========
@@ -40,8 +57,8 @@ A request proceeds in the following manner:
interface].
(2) request_key() searches the process's subscribed keyrings to see if there's
- a suitable key there. If there is, it returns the key. If there isn't, and
- callout_info is not set, an error is returned. Otherwise the process
+ a suitable key there. If there is, it returns the key. If there isn't,
+ and callout_info is not set, an error is returned. Otherwise the process
proceeds to the next step.
(3) request_key() sees that A doesn't have the desired key yet, so it creates
@@ -62,7 +79,7 @@ A request proceeds in the following manner:
instantiation.
(7) The program may want to access another key from A's context (say a
- Kerberos TGT key). It just requests the appropriate key, and the keyring
+ Kerberos TGT key). It just requests the appropriate key, and the keyring
search notes that the session keyring has auth key V in its bottom level.
This will permit it to then search the keyrings of process A with the
@@ -79,10 +96,11 @@ A request proceeds in the following manner:
(10) The program then exits 0 and request_key() deletes key V and returns key
U to the caller.
-This also extends further. If key W (step 7 above) didn't exist, key W would be
-created uninstantiated, another auth key (X) would be created (as per step 3)
-and another copy of /sbin/request-key spawned (as per step 4); but the context
-specified by auth key X will still be process A, as it was in auth key V.
+This also extends further. If key W (step 7 above) didn't exist, key W would
+be created uninstantiated, another auth key (X) would be created (as per step
+3) and another copy of /sbin/request-key spawned (as per step 4); but the
+context specified by auth key X will still be process A, as it was in auth key
+V.
This is because process A's keyrings can't simply be attached to
/sbin/request-key at the appropriate places because (a) execve will discard two
@@ -118,17 +136,17 @@ A search of any particular keyring proceeds in the following fashion:
(2) It considers all the non-keyring keys within that keyring and, if any key
matches the criteria specified, calls key_permission(SEARCH) on it to see
- if the key is allowed to be found. If it is, that key is returned; if
+ if the key is allowed to be found. If it is, that key is returned; if
not, the search continues, and the error code is retained if of higher
priority than the one currently set.
(3) It then considers all the keyring-type keys in the keyring it's currently
- searching. It calls key_permission(SEARCH) on each keyring, and if this
+ searching. It calls key_permission(SEARCH) on each keyring, and if this
grants permission, it recurses, executing steps (2) and (3) on that
keyring.
The process stops immediately a valid key is found with permission granted to
-use it. Any error from a previous match attempt is discarded and the key is
+use it. Any error from a previous match attempt is discarded and the key is
returned.
When search_process_keyrings() is invoked, it performs the following searches
@@ -153,7 +171,7 @@ The moment one succeeds, all pending errors are discarded and the found key is
returned.
Only if all these fail does the whole thing fail with the highest priority
-error. Note that several errors may have come from LSM.
+error. Note that several errors may have come from LSM.
The error priority is: