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authorTrent Piepho <tpiepho@freescale.com>2008-05-28 09:48:32 +1000
committerPaul Mackerras <paulus@samba.org>2008-06-09 13:54:36 +1000
commit0f3d6bcd391b058c619fc30e8022e8a29fbf4bef (patch)
treeab5f0b8fb95afc01c7b1fd4c5254045ad30bbe4c /arch/ppc/syslib/ppc4xx_dma.c
parent19fc65b5251dfd90312ae0142cc8650cd273e6a6 (diff)
powerpc: Improve (in|out)_[bl]eXX() asm code
Since commit 4cb3cee03d558fd457cb58f56c80a2a09a66110c the code generated for the in_beXX() and out_beXX() mmio functions has been sub-optimal. The out_leXX() family of functions are created with the macro DEF_MMIO_OUT_LE() while the out_beXX() family are created with DEF_MMIO_OUT_BE(). In what was perhaps a bit too much macro use, both of these macros are in turn created via the macro DEF_MMIO_OUT(). For the LE versions, eventually they boil down to an asm that will look something like this: asm("sync; stwbrx %1,0,%2" : "=m" (*addr) : "r" (val), "r" (addr)); The issue is that the "stwbrx" instruction only comes in an indexed, or 'x', version, in which the address is represented by the sum of two registers (the "0,%2"). Unfortunately, gcc doesn't have a constraint for an indexed memory reference. The "m" constraint allows both indexed and offset, i.e. register plus constant, memory references and there is no "stwbr" version for offset references. "m" also allows updating addresses and there is no 'u' version of "stwbrx" like there is with "stwux". The unused first operand to the asm is just to tell gcc that *addr is an output of the asm. The address used is passed in a single register via the third asm operand, and the index register is just hard coded as 0. This means gcc is forced to put the address in a single register and can't use index addressing, e.g. if one has the data in register 9, a base address in register 3 and an index in register 4, gcc must emit code like "add 11,4,3; stwbrx 9,0,11" instead of just "stwbrx 9,4,3". This costs an extra add instruction and another register. For gcc 4.0 and older, there doesn't appear to be anything that can be done. But for 4.1 and newer, there is a 'Z' constraint. It does not allow "updating" addresses, but does allow both indexed and offset addresses. However, the only allowed constant offset is 0. We can then use the undocumented 'y' operand modifier, which causes gcc to convert "0(reg)" into the equivilient "0,reg" format that can be used with stwbrx. This brings us the to problem with the BE version. In this case, the "stw" instruction does have both indexed and non-indexed versions. The final asm ends up looking like this: asm("sync; stw%U0%X0 %1,%0" : "=m" (*addr) : "r" (val), "r" (addr)); The undocumented codes "%U0" and "%0X" will generate a 'u' if the memory reference should be an auto-updating one, and an 'x' if the memory reference is indexed, respectively. The third operand is unused, it's just there because asm the code is reused from the LE version. However, gcc does not know this, and generates unnecessary code to stick addr in a register! To use the example from the LE version, gcc will generate "add 11,4,3; stwx 9,4,3". It is able to use the indexed address "4,3" for the "stwx", but still thinks it needs to put 4+3 into register 11, which will never be used. This also ends up happening a lot for the offset addressing mode, where common code like this: out_be32(&device_registers->some_register, data); uses an instruction like "stw 9, 42(3)", where register 3 has the pointer device_registers and 42 is the offset of some_register in that structure. gcc will be forced to generate the unnecessary instruction "addi 11, 3, 42" to put the address into a single (unused) register. The in_* versions end up having these exact same problems as well. Signed-off-by: Trent Piepho <tpiepho@freescale.com> CC: Benjamin Herrenschmidt <benh@kernel.crashing.org> CC: Andreas Schwab <schwab@suse.de> Signed-off-by: Paul Mackerras <paulus@samba.org>
Diffstat (limited to 'arch/ppc/syslib/ppc4xx_dma.c')
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