Lines Matching refs:low
108 * Make mapping - not block or I/O - note: this is low-level, upper should remove duplicates
123 * Make mapping - block or I/O - note: this is low-level, upper should remove duplicates
213 slw r9,r23,r22 ; Isolate the low part
291 xor r10,r10,r8 ; Calculate the low 32 bits of the VSID
672 rlwimi r23,r30,0,0,31 ; Insert low under high part of address
1464 ; r30: low-order 32 bits of guest virtual address
1476 rlwinm r30,r30,0,0xFFFFF000 ; Clean up low-order bits of 32-bit guest vaddr
2109 * r5 : low-order 32 bits of guest virtual address
2411 mr r30,r5 ; Save next va low half
2422 ; physical to virtual and we only do 32-bit virtual, we only need the low order
2630 ori r27,r27,lo16(hwpOpBase) ; Get low order of op base
2679 ; PTE low in R5. The PCA address is in R7. The PTEG come back locked.
2680 ; If there is no PTE, PTE low is obtained from mapping
2767 ; PTE low in R5. PTEG comes back locked if there is one
2941 rlwimi r5,r2,0,0,31 ; Insert low 23 to make full physical address
3207 mr r30,r5 ; Save next va low half
3534 lis r3,ha16(EXT(pmap_mem_regions)) ; Get high order of physent table (note use of ha16 to get value appropriate for an addi of low part)
3536 addi r4,r4,lo16(EXT(pmap_mem_regions)) ; Get low part of address of entry
3774 mr r23,r30 ; Save the low part of faulting address
3864 ori r10,r10,lo16(EXT(pmapTrans)) ; Get the translate table low part
3984 ; r23: relocated low-order 32 bits of vaddr
3989 ; r30: low-order 32 bits of faulting vaddr
4004 rlwimi r21,r21,28,0,3 ; Get low order of 3rd copy of space at top of register
4010 rlwinm r15,r15,12,0,19 ; Slide the last nybble into the low order segment position
4056 mr r5,r30 ; ESID low half
4161 or r10,r10,r12 ; Move in low part and keys
4545 xor r11,r11,r19 ; Hash backwards to get low bits of VPN
4557 rldimi r12,r11,0,41 ; Stick the low part of the page number into the AVPN
4781 rldimi r10,r29,32,0 ; cleaning up low-order 12 bits
5148 li r10,0 ; Start low
5243 rlwinm r8,r8,0,1,0 ; Dup low part into high (does nothing on 32-bit machines)
5244 rlwinm r2,r0,28,0,31 ; Rotate rotate low nybble to top of low half
5387 rlwinm r9,r4,0,0,3 ; Save low segment address and make sure it is clean
6109 ; r6 : host virtual address, low-order 32 bits
6111 ; r8 : guest virtual address, low-order 32 bits
6149 rlwinm r29,r6,0,0xFFFFF000 ; Clean up low-order 32 bits of host vaddr
6150 rlwinm r30,r8,0,0xFFFFF000 ; Clean up low-order 32 bits of guest vaddr
6474 ; r6 : guest virtual address, low-order 32 bits (with mpHWFlags)
6518 rlwimi r30,r6,0,0,31 ; Get low-order 32 bits of guest vaddr
6852 ; r6 : guest virtual address, low-order 32 bits
6884 rlwinm r30,r6,0,0xFFFFF000 ; Clean up low-order 32 bits of guest vaddr
7056 ; r6 : guest virtual address, low-order 32 bits
7093 rlwinm r30,r6,0,0xFFFFF000 ; Clean up low-order 20 bits of guest vaddr
7311 ; r5 : guest virtual address, low-order 32 bits
7347 rlwinm r30,r5,0,0xFFFFF000 ; Clean up low-order 32 bits of guest vaddr
7563 ; r5 : guest virtual address, low-order 32 bits
7598 rlwinm r30,r5,0,0xFFFFF000 ; Clean up low-order 32 bits of guest vaddr
7778 ; r5 : guest virtual address, low-order 32 bits
7812 rlwinm r30,r5,0,0xFFFFF000 ; Clean up low-order 32 bits of guest vaddr
8044 ; an entry. The sub-tag is a 16 entry 4 bit array that contains the low order 4 bits
8058 ; R5 = ESID low half
8112 rlwimi r10,r10,12,4,7 ; Stick in the low-order adjacent quad
8113 rlwimi r9,r9,12,4,7 ; Stick in the low-order adjacent quad
8248 ; and the low 12 bits of mpVAddr valid in R5. R3 will contain 0.