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authorLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-16 15:20:36 -0700
committerLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-16 15:20:36 -0700
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+ =====================================
+ FUJITSU FR-V KERNEL ATOMIC OPERATIONS
+ =====================================
+
+On the FR-V CPUs, there is only one atomic Read-Modify-Write operation: the SWAP/SWAPI
+instruction. Unfortunately, this alone can't be used to implement the following operations:
+
+ (*) Atomic add to memory
+
+ (*) Atomic subtract from memory
+
+ (*) Atomic bit modification (set, clear or invert)
+
+ (*) Atomic compare and exchange
+
+On such CPUs, the standard way of emulating such operations in uniprocessor mode is to disable
+interrupts, but on the FR-V CPUs, modifying the PSR takes a lot of clock cycles, and it has to be
+done twice. This means the CPU runs for a relatively long time with interrupts disabled,
+potentially having a great effect on interrupt latency.
+
+
+=============
+NEW ALGORITHM
+=============
+
+To get around this, the following algorithm has been implemented. It operates in a way similar to
+the LL/SC instruction pairs supported on a number of platforms.
+
+ (*) The CCCR.CC3 register is reserved within the kernel to act as an atomic modify abort flag.
+
+ (*) In the exception prologues run on kernel->kernel entry, CCCR.CC3 is set to 0 (Undefined
+ state).
+
+ (*) All atomic operations can then be broken down into the following algorithm:
+
+ (1) Set ICC3.Z to true and set CC3 to True (ORCC/CKEQ/ORCR).
+
+ (2) Load the value currently in the memory to be modified into a register.
+
+ (3) Make changes to the value.
+
+ (4) If CC3 is still True, simultaneously and atomically (by VLIW packing):
+
+ (a) Store the modified value back to memory.
+
+ (b) Set ICC3.Z to false (CORCC on GR29 is sufficient for this - GR29 holds the current
+ task pointer in the kernel, and so is guaranteed to be non-zero).
+
+ (5) If ICC3.Z is still true, go back to step (1).
+
+This works in a non-SMP environment because any interrupt or other exception that happens between
+steps (1) and (4) will set CC3 to the Undefined, thus aborting the store in (4a), and causing the
+condition in ICC3 to remain with the Z flag set, thus causing step (5) to loop back to step (1).
+
+
+This algorithm suffers from two problems:
+
+ (1) The condition CCCR.CC3 is cleared unconditionally by an exception, irrespective of whether or
+ not any changes were made to the target memory location during that exception.
+
+ (2) The branch from step (5) back to step (1) may have to happen more than once until the store
+ manages to take place. In theory, this loop could cycle forever because there are too many
+ interrupts coming in, but it's unlikely.
+
+
+=======
+EXAMPLE
+=======
+
+Taking an example from include/asm-frv/atomic.h:
+
+ static inline int atomic_add_return(int i, atomic_t *v)
+ {
+ unsigned long val;
+
+ asm("0: \n"
+
+It starts by setting ICC3.Z to true for later use, and also transforming that into CC3 being in the
+True state.
+
+ " orcc gr0,gr0,gr0,icc3 \n" <-- (1)
+ " ckeq icc3,cc7 \n" <-- (1)
+
+Then it does the load. Note that the final phase of step (1) is done at the same time as the
+load. The VLIW packing ensures they are done simultaneously. The ".p" on the load must not be
+removed without swapping the order of these two instructions.
+
+ " ld.p %M0,%1 \n" <-- (2)
+ " orcr cc7,cc7,cc3 \n" <-- (1)
+
+Then the proposed modification is generated. Note that the old value can be retained if required
+(such as in test_and_set_bit()).
+
+ " add%I2 %1,%2,%1 \n" <-- (3)
+
+Then it attempts to store the value back, contingent on no exception having cleared CC3 since it
+was set to True.
+
+ " cst.p %1,%M0 ,cc3,#1 \n" <-- (4a)
+
+It simultaneously records the success or failure of the store in ICC3.Z.
+
+ " corcc gr29,gr29,gr0 ,cc3,#1 \n" <-- (4b)
+
+Such that the branch can then be taken if the operation was aborted.
+
+ " beq icc3,#0,0b \n" <-- (5)
+ : "+U"(v->counter), "=&r"(val)
+ : "NPr"(i)
+ : "memory", "cc7", "cc3", "icc3"
+ );
+
+ return val;
+ }
+
+
+=============
+CONFIGURATION
+=============
+
+The atomic ops implementation can be made inline or out-of-line by changing the
+CONFIG_FRV_OUTOFLINE_ATOMIC_OPS configuration variable. Making it out-of-line has a number of
+advantages:
+
+ - The resulting kernel image may be smaller
+ - Debugging is easier as atomic ops can just be stepped over and they can be breakpointed
+
+Keeping it inline also has a number of advantages:
+
+ - The resulting kernel may be Faster
+ - no out-of-line function calls need to be made
+ - the compiler doesn't have half its registers clobbered by making a call
+
+The out-of-line implementations live in arch/frv/lib/atomic-ops.S.
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