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authorStephen Smalley <sds@tycho.nsa.gov>2009-09-30 13:37:50 -0400
committerJames Morris <jmorris@namei.org>2009-10-07 21:56:42 +1100
commitc6d3aaa4e35c71a32a86ececacd4eea7ecfc316c (patch)
tree1a5475b4370655a22670fd6eb35e54d8b131b362 /scripts
parent23acb98de5a4109a60b5fe3f0439389218b039d7 (diff)
selinux: dynamic class/perm discovery
Modify SELinux to dynamically discover class and permission values upon policy load, based on the dynamic object class/perm discovery logic from libselinux. A mapping is created between kernel-private class and permission indices used outside the security server and the policy values used within the security server. The mappings are only applied upon kernel-internal computations; similar mappings for the private indices of userspace object managers is handled on a per-object manager basis by the userspace AVC. The interfaces for compute_av and transition_sid are split for kernel vs. userspace; the userspace functions are distinguished by a _user suffix. The kernel-private class indices are no longer tied to the policy values and thus do not need to skip indices for userspace classes; thus the kernel class index values are compressed. The flask.h definitions were regenerated by deleting the userspace classes from refpolicy's definitions and then regenerating the headers. Going forward, we can just maintain the flask.h, av_permissions.h, and classmap.h definitions separately from policy as they are no longer tied to the policy values. The next patch introduces a utility to automate generation of flask.h and av_permissions.h from the classmap.h definitions. The older kernel class and permission string tables are removed and replaced by a single security class mapping table that is walked at policy load to generate the mapping. The old kernel class validation logic is completely replaced by the mapping logic. The handle unknown logic is reworked. reject_unknown=1 is handled when the mappings are computed at policy load time, similar to the old handling by the class validation logic. allow_unknown=1 is handled when computing and mapping decisions - if the permission was not able to be mapped (i.e. undefined, mapped to zero), then it is automatically added to the allowed vector. If the class was not able to be mapped (i.e. undefined, mapped to zero), then all permissions are allowed for it if allow_unknown=1. avc_audit leverages the new security class mapping table to lookup the class and permission names from the kernel-private indices. The mdp program is updated to use the new table when generating the class definitions and allow rules for a minimal boot policy for the kernel. It should be noted that this policy will not include any userspace classes, nor will its policy index values for the kernel classes correspond with the ones in refpolicy (they will instead match the kernel-private indices). Signed-off-by: Stephen Smalley <sds@tycho.nsa.gov> Signed-off-by: James Morris <jmorris@namei.org>
Diffstat (limited to 'scripts')
-rw-r--r--scripts/selinux/mdp/mdp.c151
1 files changed, 28 insertions, 123 deletions
diff --git a/scripts/selinux/mdp/mdp.c b/scripts/selinux/mdp/mdp.c
index b4ced856258..62b34ce1f50 100644
--- a/scripts/selinux/mdp/mdp.c
+++ b/scripts/selinux/mdp/mdp.c
@@ -29,86 +29,27 @@
#include <unistd.h>
#include <string.h>
-#include "flask.h"
-
static void usage(char *name)
{
printf("usage: %s [-m] policy_file context_file\n", name);
exit(1);
}
-static void find_common_name(char *cname, char *dest, int len)
-{
- char *start, *end;
-
- start = strchr(cname, '_')+1;
- end = strchr(start, '_');
- if (!start || !end || start-cname > len || end-start > len) {
- printf("Error with commons defines\n");
- exit(1);
- }
- strncpy(dest, start, end-start);
- dest[end-start] = '\0';
-}
-
-#define S_(x) x,
-static char *classlist[] = {
-#include "class_to_string.h"
- NULL
+/* Class/perm mapping support */
+struct security_class_mapping {
+ const char *name;
+ const char *perms[sizeof(unsigned) * 8 + 1];
};
-#undef S_
+#include "classmap.h"
#include "initial_sid_to_string.h"
-#define TB_(x) char *x[] = {
-#define TE_(x) NULL };
-#define S_(x) x,
-#include "common_perm_to_string.h"
-#undef TB_
-#undef TE_
-#undef S_
-
-struct common {
- char *cname;
- char **perms;
-};
-struct common common[] = {
-#define TB_(x) { #x, x },
-#define S_(x)
-#define TE_(x)
-#include "common_perm_to_string.h"
-#undef TB_
-#undef TE_
-#undef S_
-};
-
-#define S_(x, y, z) {x, #y},
-struct av_inherit {
- int class;
- char *common;
-};
-struct av_inherit av_inherit[] = {
-#include "av_inherit.h"
-};
-#undef S_
-
-#include "av_permissions.h"
-#define S_(x, y, z) {x, y, z},
-struct av_perms {
- int class;
- int perm_i;
- char *perm_s;
-};
-struct av_perms av_perms[] = {
-#include "av_perm_to_string.h"
-};
-#undef S_
-
int main(int argc, char *argv[])
{
int i, j, mls = 0;
+ int initial_sid_to_string_len;
char **arg, *polout, *ctxout;
- int classlist_len, initial_sid_to_string_len;
+
FILE *fout;
if (argc < 3)
@@ -127,64 +68,25 @@ int main(int argc, char *argv[])
usage(argv[0]);
}
- classlist_len = sizeof(classlist) / sizeof(char *);
/* print out the classes */
- for (i=1; i < classlist_len; i++) {
- if(classlist[i])
- fprintf(fout, "class %s\n", classlist[i]);
- else
- fprintf(fout, "class user%d\n", i);
- }
+ for (i = 0; secclass_map[i].name; i++)
+ fprintf(fout, "class %s\n", secclass_map[i].name);
fprintf(fout, "\n");
initial_sid_to_string_len = sizeof(initial_sid_to_string) / sizeof (char *);
/* print out the sids */
- for (i=1; i < initial_sid_to_string_len; i++)
+ for (i = 1; i < initial_sid_to_string_len; i++)
fprintf(fout, "sid %s\n", initial_sid_to_string[i]);
fprintf(fout, "\n");
- /* print out the commons */
- for (i=0; i< sizeof(common)/sizeof(struct common); i++) {
- char cname[101];
- find_common_name(common[i].cname, cname, 100);
- cname[100] = '\0';
- fprintf(fout, "common %s\n{\n", cname);
- for (j=0; common[i].perms[j]; j++)
- fprintf(fout, "\t%s\n", common[i].perms[j]);
- fprintf(fout, "}\n\n");
- }
- fprintf(fout, "\n");
-
/* print out the class permissions */
- for (i=1; i < classlist_len; i++) {
- if (classlist[i]) {
- int firstperm = -1, numperms = 0;
-
- fprintf(fout, "class %s\n", classlist[i]);
- /* does it inherit from a common? */
- for (j=0; j < sizeof(av_inherit)/sizeof(struct av_inherit); j++)
- if (av_inherit[j].class == i)
- fprintf(fout, "inherits %s\n", av_inherit[j].common);
-
- for (j=0; j < sizeof(av_perms)/sizeof(struct av_perms); j++) {
- if (av_perms[j].class == i) {
- if (firstperm == -1)
- firstperm = j;
- numperms++;
- }
- }
- if (!numperms) {
- fprintf(fout, "\n");
- continue;
- }
-
- fprintf(fout, "{\n");
- /* print out the av_perms */
- for (j=0; j < numperms; j++) {
- fprintf(fout, "\t%s\n", av_perms[firstperm+j].perm_s);
- }
- fprintf(fout, "}\n\n");
- }
+ for (i = 0; secclass_map[i].name; i++) {
+ struct security_class_mapping *map = &secclass_map[i];
+ fprintf(fout, "class %s\n", map->name);
+ fprintf(fout, "{\n");
+ for (j = 0; map->perms[j]; j++)
+ fprintf(fout, "\t%s\n", map->perms[j]);
+ fprintf(fout, "}\n\n");
}
fprintf(fout, "\n");
@@ -197,31 +99,34 @@ int main(int argc, char *argv[])
/* types, roles, and allows */
fprintf(fout, "type base_t;\n");
fprintf(fout, "role base_r types { base_t };\n");
- for (i=1; i < classlist_len; i++) {
- if (classlist[i])
- fprintf(fout, "allow base_t base_t:%s *;\n", classlist[i]);
- else
- fprintf(fout, "allow base_t base_t:user%d *;\n", i);
- }
+ for (i = 0; secclass_map[i].name; i++)
+ fprintf(fout, "allow base_t base_t:%s *;\n",
+ secclass_map[i].name);
fprintf(fout, "user user_u roles { base_r };\n");
fprintf(fout, "\n");
/* default sids */
- for (i=1; i < initial_sid_to_string_len; i++)
+ for (i = 1; i < initial_sid_to_string_len; i++)
fprintf(fout, "sid %s user_u:base_r:base_t\n", initial_sid_to_string[i]);
fprintf(fout, "\n");
-
fprintf(fout, "fs_use_xattr ext2 user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_xattr ext3 user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_xattr ext4 user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_xattr jfs user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_xattr xfs user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_xattr reiserfs user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_xattr jffs2 user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_xattr gfs2 user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_xattr lustre user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_task eventpollfs user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_task pipefs user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_task sockfs user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_trans mqueue user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_trans devpts user_u:base_r:base_t;\n");
+ fprintf(fout, "fs_use_trans hugetlbfs user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_trans tmpfs user_u:base_r:base_t;\n");
fprintf(fout, "fs_use_trans shm user_u:base_r:base_t;\n");