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authorMax Filippov <jcmvbkbc@gmail.com>2016-04-13 05:20:02 +0300
committerMax Filippov <jcmvbkbc@gmail.com>2016-07-24 06:33:58 +0300
commita9f2fc628e3a26a829fd79aff74eb49839d1e74b (patch)
tree7dad4e57c917757d39bb3470720392ac2b92b335 /Documentation/xtensa
parentd39af90265feb40ec198c4ca8268724645b4b50e (diff)
downloadlinux-a9f2fc628e3a26a829fd79aff74eb49839d1e74b.tar.xz
xtensa: cleanup MMU setup and kernel layout macros
Make kernel load address explicit, independent of the selected MMU configuration and configurable from Kconfig. Do not restrict it to the first 512MB of the physical address space. Cleanup kernel memory layout macros: - rename VECBASE_RESET_VADDR to VECBASE_VADDR, XC_VADDR to VECTOR_VADDR; - drop VIRTUAL_MEMORY_ADDRESS and LOAD_MEMORY_ADDRESS; - introduce PHYS_OFFSET and use it in __va and __pa definitions; - synchronize MMU/noMMU vectors, drop unused NMI vector; - replace hardcoded vectors offset of 0x3000 with Kconfig symbol. Signed-off-by: Max Filippov <jcmvbkbc@gmail.com>
Diffstat (limited to 'Documentation/xtensa')
-rw-r--r--Documentation/xtensa/mmu.txt49
1 files changed, 22 insertions, 27 deletions
diff --git a/Documentation/xtensa/mmu.txt b/Documentation/xtensa/mmu.txt
index 867c0f837e28..222a2c6748e6 100644
--- a/Documentation/xtensa/mmu.txt
+++ b/Documentation/xtensa/mmu.txt
@@ -3,15 +3,8 @@ MMUv3 initialization sequence.
The code in the initialize_mmu macro sets up MMUv3 memory mapping
identically to MMUv2 fixed memory mapping. Depending on
CONFIG_INITIALIZE_XTENSA_MMU_INSIDE_VMLINUX symbol this code is
-located in one of the following address ranges:
-
- 0xF0000000..0xFFFFFFFF (will keep same address in MMU v2 layout;
- typically ROM)
- 0x00000000..0x07FFFFFF (system RAM; this code is actually linked
- at 0xD0000000..0xD7FFFFFF [cached]
- or 0xD8000000..0xDFFFFFFF [uncached];
- in any case, initially runs elsewhere
- than linked, so have to be careful)
+located in addresses it was linked for (symbol undefined), or not
+(symbol defined), so it needs to be position-independent.
The code has the following assumptions:
This code fragment is run only on an MMU v3.
@@ -28,24 +21,26 @@ TLB setup proceeds along the following steps.
PA = physical address (two upper nibbles of it);
pc = physical range that contains this code;
-After step 2, we jump to virtual address in 0x40000000..0x5fffffff
-that corresponds to next instruction to execute in this code.
-After step 4, we jump to intended (linked) address of this code.
-
- Step 0 Step1 Step 2 Step3 Step 4 Step5
- ============ ===== ============ ===== ============ =====
- VA PA PA VA PA PA VA PA PA
- ------ -- -- ------ -- -- ------ -- --
- E0..FF -> E0 -> E0 E0..FF -> E0 F0..FF -> F0 -> F0
- C0..DF -> C0 -> C0 C0..DF -> C0 E0..EF -> F0 -> F0
- A0..BF -> A0 -> A0 A0..BF -> A0 D8..DF -> 00 -> 00
- 80..9F -> 80 -> 80 80..9F -> 80 D0..D7 -> 00 -> 00
- 60..7F -> 60 -> 60 60..7F -> 60
- 40..5F -> 40 40..5F -> pc -> pc 40..5F -> pc
- 20..3F -> 20 -> 20 20..3F -> 20
- 00..1F -> 00 -> 00 00..1F -> 00
-
-The default location of IO peripherals is above 0xf0000000. This may change
+After step 2, we jump to virtual address in the range 0x40000000..0x5fffffff
+or 0x00000000..0x1fffffff, depending on whether the kernel was loaded below
+0x40000000 or above. That address corresponds to next instruction to execute
+in this code. After step 4, we jump to intended (linked) address of this code.
+The scheme below assumes that the kernel is loaded below 0x40000000.
+
+ Step0 Step1 Step2 Step3 Step4 Step5
+ ===== ===== ===== ===== ===== =====
+ VA PA PA PA PA VA PA PA
+ ------ -- -- -- -- ------ -- --
+ E0..FF -> E0 -> E0 -> E0 F0..FF -> F0 -> F0
+ C0..DF -> C0 -> C0 -> C0 E0..EF -> F0 -> F0
+ A0..BF -> A0 -> A0 -> A0 D8..DF -> 00 -> 00
+ 80..9F -> 80 -> 80 -> 80 D0..D7 -> 00 -> 00
+ 60..7F -> 60 -> 60 -> 60
+ 40..5F -> 40 -> pc -> pc 40..5F -> pc
+ 20..3F -> 20 -> 20 -> 20
+ 00..1F -> 00 -> 00 -> 00
+
+The default location of IO peripherals is above 0xf0000000. This may be changed
using a "ranges" property in a device tree simple-bus node. See ePAPR 1.1, ยง6.5
for details on the syntax and semantic of simple-bus nodes. The following
limitations apply: