litmus-rt.git/arch/sh/mm/Makefile_32, branch master The LITMUS^RT kernel. sh: Merge the _32/_64 variants of arch/sh/mm/Makefile. 2009-08-15T18:49:21+00:00 Paul Mundt lethal@linux-sh.org 2009-08-15T18:49:21+00:00 1b3edd9745ef3a9ee831fe5a611757686579c9e1 Now that there is sufficient shared infrastructure, merge the Makefiles. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
Now that there is sufficient shared infrastructure, merge the Makefiles.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: consolidate nommu stubs in arch/sh/mm/nommu.c. 2009-08-15T00:57:57+00:00 Paul Mundt lethal@linux-sh.org 2009-08-15T00:57:57+00:00 aae4d1428c03b03f9fe6204a83e35822fe9cc591 These were previous littered around tlb-nommu.c and pg-nommu.c, though at this point there are more stubs than are strictly TLB or page op related, so just consolidate them in a single nommu.c. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
These were previous littered around tlb-nommu.c and pg-nommu.c, though at
this point there are more stubs than are strictly TLB or page op related,
so just consolidate them in a single nommu.c.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: rename pg-mmu.c -> cache.c, enable generically. 2009-08-15T00:30:39+00:00 Paul Mundt lethal@linux-sh.org 2009-08-15T00:30:39+00:00 cbbe2f68f678a90bebeb30b8a7fcd8aed0614879 This builds in the newly created cache.c (renamed from pg-mmu.c) for both MMU and NOMMU configurations. The kmap_coherent() stubs and alias information recorded by each CPU family takes care of doing the right thing while enabling the code to be commonly shared. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This builds in the newly created cache.c (renamed from pg-mmu.c) for both
MMU and NOMMU configurations. The kmap_coherent() stubs and alias
information recorded by each CPU family takes care of doing the right
thing while enabling the code to be commonly shared.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: Provide the kmap_coherent() interface generically. 2009-08-15T00:19:19+00:00 Paul Mundt lethal@linux-sh.org 2009-08-15T00:19:19+00:00 2739742c24f1a55365e71f0722bfdce8994e9c4e This plugs in kmap_coherent() for the non-SH4 cases to permit the pg-mmu.c bits to be used generically across all CPUs. SH-5 is still in the TODO state, but will move over to fixmap and the generic interface gradually. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This plugs in kmap_coherent() for the non-SH4 cases to permit the
pg-mmu.c bits to be used generically across all CPUs. SH-5 is still in
the TODO state, but will move over to fixmap and the generic interface
gradually.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: Split out SH-4 __flush_xxx_region() ops. 2009-08-04T09:06:01+00:00 Paul Mundt lethal@linux-sh.org 2009-08-04T09:06:01+00:00 817425275271f2514f0dc6952182aa057ce80973 This splits out the SH-4 __flush_xxx_region() functions and defines them as weak symbols. This allows us to provide optimized versions without having to ifdef cache-sh4.c to death. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This splits out the SH-4 __flush_xxx_region() functions and defines them
as weak symbols. This allows us to provide optimized versions without
having to ifdef cache-sh4.c to death.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: Use the now generic SH-4 clear/copy page ops for all MMU platforms. 2009-07-27T12:30:17+00:00 Paul Mundt lethal@linux-sh.org 2009-07-27T12:30:17+00:00 0dfae7d5a21901b28ec0452d71be64adf5ea323e Now that the SH-4 page clear/copy ops are generic, they can be used for all platforms with CONFIG_MMU=y. SH-5 remains the odd one out, but it too will gradually be converted over to using this interface. SH-3 platforms which do not contain aliases will see no impact from this change, while aliasing SH-3 platforms will get the same interface as SH-4. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
Now that the SH-4 page clear/copy ops are generic, they can be used for
all platforms with CONFIG_MMU=y. SH-5 remains the odd one out, but it too
will gradually be converted over to using this interface.

SH-3 platforms which do not contain aliases will see no impact from this
change, while aliasing SH-3 platforms will get the same interface as
SH-4.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: wire up clear_user_highpage() for sh4, convert sh7705. 2009-07-27T11:53:22+00:00 Paul Mundt lethal@linux-sh.org 2009-07-27T11:53:22+00:00 dfff0fa65ab15db45acd64b3189787d37ab163cd This wires up clear_user_highpage() on SH-4 and subsequently converts the SH7705 32kB cache mode over to using it. Now that the SH-4 implementation handles all of the dcache purging directly in the aliasing case, there is no need to do this in the default clear_page() implementation. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This wires up clear_user_highpage() on SH-4 and subsequently converts the
SH7705 32kB cache mode over to using it. Now that the SH-4 implementation
handles all of the dcache purging directly in the aliasing case, there is
no need to do this in the default clear_page() implementation.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: Support for extended ASIDs on PTEAEX-capable SH-X3 cores. 2009-03-17T08:49:49+00:00 Paul Mundt lethal@linux-sh.org 2009-03-17T08:49:49+00:00 8263a67e169fdf0d06d172acbf6c03ae172a69d4 This adds support for extended ASIDs (up to 16-bits) on newer SH-X3 cores that implement the PTAEX register and respective functionality. Presently only the 65nm SH7786 (90nm only supports legacy 8-bit ASIDs). The main change is in how the PTE is written out when loading the entry in to the TLB, as well as in how the TLB entry is selectively flushed. While SH-X2 extended mode splits out the memory-mapped U and I-TLB data arrays for extra bits, extended ASID mode splits out the address arrays. While we don't use the memory-mapped data array access, the address array accesses are necessary for selective TLB flushes, so these are implemented newly and replace the generic SH-4 implementation. With this, TLB flushes in switch_mm() are almost non-existent on newer parts. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This adds support for extended ASIDs (up to 16-bits) on newer SH-X3 cores
that implement the PTAEX register and respective functionality. Presently
only the 65nm SH7786 (90nm only supports legacy 8-bit ASIDs).

The main change is in how the PTE is written out when loading the entry
in to the TLB, as well as in how the TLB entry is selectively flushed.

While SH-X2 extended mode splits out the memory-mapped U and I-TLB data
arrays for extra bits, extended ASID mode splits out the address arrays.
While we don't use the memory-mapped data array access, the address
array accesses are necessary for selective TLB flushes, so these are
implemented newly and replace the generic SH-4 implementation.

With this, TLB flushes in switch_mm() are almost non-existent on newer
parts.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: Support fixed 32-bit PMB mappings from bootloader. 2009-03-10T06:49:54+00:00 Yoshihiro Shimoda shimoda.yoshihiro@renesas.com 2009-03-10T06:49:54+00:00 2f47f44790a9c8fc43e515df3c6be19a35ee5de5 This provides a method for supporting fixed PMB mappings inherited from the bootloader, as an alternative to the dynamic PMB mapping currently used by the kernel. In the future these methods will be combined. P1/P2 area is handled like a regular 29-bit physical address, and local bus device are assigned P3 area addresses. Signed-off-by: Yoshihiro Shimoda <shimoda.yoshihiro@renesas.com> Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This provides a method for supporting fixed PMB mappings inherited from
the bootloader, as an alternative to the dynamic PMB mapping currently
used by the kernel. In the future these methods will be combined.

P1/P2 area is handled like a regular 29-bit physical address, and local
bus device are assigned P3 area addresses.

Signed-off-by: Yoshihiro Shimoda <shimoda.yoshihiro@renesas.com>
Signed-off-by: Paul Mundt <lethal@linux-sh.org>
sh: Convert sh64 /proc/asids to debugfs and generic sh. 2008-12-22T09:44:03+00:00 Paul Mundt lethal@linux-sh.org 2008-12-10T09:06:36+00:00 a99d6fde69dd9c73ac0b4e42a77ed1ebc714e56a This converts the sh64 /proc/asids entry to debugfs and enables it for all SH parts that have debugfs enabled. On MMU systems this can be used to determine which processes are using which ASIDs which in turn can be used for finer grained cache tag analysis. Signed-off-by: Paul Mundt <lethal@linux-sh.org> 
This converts the sh64 /proc/asids entry to debugfs and enables it for
all SH parts that have debugfs enabled.

On MMU systems this can be used to determine which processes are using
which ASIDs which in turn can be used for finer grained cache tag
analysis.

Signed-off-by: Paul Mundt <lethal@linux-sh.org>