This patchset provides the following:
* Generic: Percpu infrastructure to rebase the per cpu area to zero
This provides for the capability of accessing the percpu variables
using a local register instead of having to go through a table
on node 0 to find the cpu-specific offsets. It also would allow
atomic operations on percpu variables to reduce required locking.
* x86_64: Fold pda into per cpu area
Declare the pda as a per cpu variable. This will move the pda
area to an address accessible by the x86_64 per cpu macros.
Subtraction of __per_cpu_start will make the offset based from
the beginning of the per cpu area. Since %gs is pointing to the
pda, it will then also point to the per cpu variables and can be
accessed thusly:
%gs:[&per_cpu_xxxx - __per_cpu_start]
* x86_64: Rebase per cpu variables to zero
Take advantage of the zero-based per cpu area provided above.
Then we can directly use the x86_32 percpu operations. x86_32
offsets %fs by __per_cpu_start. x86_64 has %gs pointing directly
to the pda and the per cpu area thereby allowing access to the
pda with the x86_64 pda operations and access to the per cpu
variables using x86_32 percpu operations.
Based on 2.6.24-rc8-mm1
Signed-off-by: Mike Travis <[EMAIL PROTECTED]>
Reviewed-by: Christoph Lameter <[EMAIL PROTECTED]>
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