* Therefore, we define 2 APG groups. lsb is _PMD_USER
* 0 => Kernel => 01 (all accesses performed according to page definition)
* 1 => User => 00 (all accesses performed as supervisor iaw page definition)
- * 2-16 => NA => 11 (all accesses performed as user iaw page definition)
+ * 2-15 => Not Used
*/
-#define MI_APG_INIT 0x4fffffff
+#define MI_APG_INIT 0x40000000
/*
* 0 => Kernel => 01 (all accesses performed according to page definition)
* 1 => User => 10 (all accesses performed according to swaped page definition)
- * 2-16 => NA => 11 (all accesses performed as user iaw page definition)
+ * 2-15 => Not Used
*/
-#define MI_APG_KUEP 0x6fffffff
+#define MI_APG_KUEP 0x60000000
/* The effective page number register. When read, contains the information
* about the last instruction TLB miss. When MI_RPN is written, bits in
* Therefore, we define 2 APG groups. lsb is _PMD_USER
* 0 => Kernel => 01 (all accesses performed according to page definition)
* 1 => User => 00 (all accesses performed as supervisor iaw page definition)
- * 2-16 => NA => 11 (all accesses performed as user iaw page definition)
+ * 2-15 => Not Used
*/
-#define MD_APG_INIT 0x4fffffff
+#define MD_APG_INIT 0x40000000
/*
* 0 => No user => 01 (all accesses performed according to page definition)
* 1 => User => 10 (all accesses performed according to swaped page definition)
- * 2-16 => NA => 11 (all accesses performed as user iaw page definition)
+ * 2-15 => Not Used
*/
-#define MD_APG_KUAP 0x6fffffff
+#define MD_APG_KUAP 0x60000000
/* The effective page number register. When read, contains the information
* about the last instruction TLB miss. When MD_RPN is written, bits in