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https://github.com/FEX-Emu/linux.git
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c60232029a
In CoreNet systems it is not allowed to mix M and non-M mappings to the same memory, and coherent DMA accesses are considered to be M mappings for this purpose. Ignoring this has been observed to cause hard lockups in non-SMP kernels on e6500. Furthermore, e6500 implements the LRAT (logical to real address table) which allows KVM guests to control the WIMGE bits. This means that KVM cannot force the M bit on the way it usually does, so the guest had better set it itself. Signed-off-by: Scott Wood <scottwood@freescale.com>
241 lines
5.6 KiB
ArmAsm
241 lines
5.6 KiB
ArmAsm
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/* 1. Find the index of the entry we're executing in */
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bl invstr /* Find our address */
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invstr: mflr r6 /* Make it accessible */
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mfmsr r7
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rlwinm r4,r7,27,31,31 /* extract MSR[IS] */
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mfspr r7, SPRN_PID0
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slwi r7,r7,16
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or r7,r7,r4
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mtspr SPRN_MAS6,r7
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tlbsx 0,r6 /* search MSR[IS], SPID=PID0 */
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mfspr r7,SPRN_MAS1
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andis. r7,r7,MAS1_VALID@h
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bne match_TLB
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mfspr r7,SPRN_MMUCFG
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rlwinm r7,r7,21,28,31 /* extract MMUCFG[NPIDS] */
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cmpwi r7,3
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bne match_TLB /* skip if NPIDS != 3 */
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mfspr r7,SPRN_PID1
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slwi r7,r7,16
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or r7,r7,r4
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mtspr SPRN_MAS6,r7
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tlbsx 0,r6 /* search MSR[IS], SPID=PID1 */
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mfspr r7,SPRN_MAS1
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andis. r7,r7,MAS1_VALID@h
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bne match_TLB
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mfspr r7, SPRN_PID2
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slwi r7,r7,16
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or r7,r7,r4
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mtspr SPRN_MAS6,r7
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tlbsx 0,r6 /* Fall through, we had to match */
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match_TLB:
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mfspr r7,SPRN_MAS0
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rlwinm r3,r7,16,20,31 /* Extract MAS0(Entry) */
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mfspr r7,SPRN_MAS1 /* Insure IPROT set */
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oris r7,r7,MAS1_IPROT@h
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mtspr SPRN_MAS1,r7
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tlbwe
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/* 2. Invalidate all entries except the entry we're executing in */
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mfspr r9,SPRN_TLB1CFG
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andi. r9,r9,0xfff
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li r6,0 /* Set Entry counter to 0 */
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1: lis r7,0x1000 /* Set MAS0(TLBSEL) = 1 */
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rlwimi r7,r6,16,4,15 /* Setup MAS0 = TLBSEL | ESEL(r6) */
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mtspr SPRN_MAS0,r7
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tlbre
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mfspr r7,SPRN_MAS1
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rlwinm r7,r7,0,2,31 /* Clear MAS1 Valid and IPROT */
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cmpw r3,r6
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beq skpinv /* Dont update the current execution TLB */
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mtspr SPRN_MAS1,r7
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tlbwe
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isync
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skpinv: addi r6,r6,1 /* Increment */
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cmpw r6,r9 /* Are we done? */
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bne 1b /* If not, repeat */
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/* Invalidate TLB0 */
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li r6,0x04
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tlbivax 0,r6
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TLBSYNC
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/* Invalidate TLB1 */
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li r6,0x0c
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tlbivax 0,r6
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TLBSYNC
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/* 3. Setup a temp mapping and jump to it */
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andi. r5, r3, 0x1 /* Find an entry not used and is non-zero */
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addi r5, r5, 0x1
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lis r7,0x1000 /* Set MAS0(TLBSEL) = 1 */
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rlwimi r7,r3,16,4,15 /* Setup MAS0 = TLBSEL | ESEL(r3) */
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mtspr SPRN_MAS0,r7
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tlbre
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/* grab and fixup the RPN */
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mfspr r6,SPRN_MAS1 /* extract MAS1[SIZE] */
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rlwinm r6,r6,25,27,31
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li r8,-1
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addi r6,r6,10
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slw r6,r8,r6 /* convert to mask */
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bl 1f /* Find our address */
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1: mflr r7
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mfspr r8,SPRN_MAS3
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#ifdef CONFIG_PHYS_64BIT
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mfspr r23,SPRN_MAS7
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#endif
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and r8,r6,r8
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subfic r9,r6,-4096
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and r9,r9,r7
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or r25,r8,r9
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ori r8,r25,(MAS3_SX|MAS3_SW|MAS3_SR)
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/* Just modify the entry ID and EPN for the temp mapping */
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lis r7,0x1000 /* Set MAS0(TLBSEL) = 1 */
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rlwimi r7,r5,16,4,15 /* Setup MAS0 = TLBSEL | ESEL(r5) */
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mtspr SPRN_MAS0,r7
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xori r6,r4,1 /* Setup TMP mapping in the other Address space */
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slwi r6,r6,12
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oris r6,r6,(MAS1_VALID|MAS1_IPROT)@h
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ori r6,r6,(MAS1_TSIZE(BOOK3E_PAGESZ_4K))@l
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mtspr SPRN_MAS1,r6
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mfspr r6,SPRN_MAS2
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li r7,0 /* temp EPN = 0 */
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rlwimi r7,r6,0,20,31
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mtspr SPRN_MAS2,r7
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mtspr SPRN_MAS3,r8
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tlbwe
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xori r6,r4,1
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slwi r6,r6,5 /* setup new context with other address space */
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bl 1f /* Find our address */
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1: mflr r9
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rlwimi r7,r9,0,20,31
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addi r7,r7,(2f - 1b)
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mtspr SPRN_SRR0,r7
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mtspr SPRN_SRR1,r6
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rfi
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2:
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/* 4. Clear out PIDs & Search info */
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li r6,0
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mtspr SPRN_MAS6,r6
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mtspr SPRN_PID0,r6
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mfspr r7,SPRN_MMUCFG
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rlwinm r7,r7,21,28,31 /* extract MMUCFG[NPIDS] */
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cmpwi r7,3
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bne 2f /* skip if NPIDS != 3 */
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mtspr SPRN_PID1,r6
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mtspr SPRN_PID2,r6
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/* 5. Invalidate mapping we started in */
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2:
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lis r7,0x1000 /* Set MAS0(TLBSEL) = 1 */
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rlwimi r7,r3,16,4,15 /* Setup MAS0 = TLBSEL | ESEL(r3) */
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mtspr SPRN_MAS0,r7
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tlbre
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mfspr r6,SPRN_MAS1
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rlwinm r6,r6,0,2,0 /* clear IPROT */
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mtspr SPRN_MAS1,r6
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tlbwe
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/* Invalidate TLB1 */
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li r9,0x0c
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tlbivax 0,r9
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TLBSYNC
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/*
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* The mapping only needs to be cache-coherent on SMP, except on
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* Freescale e500mc derivatives where it's also needed for coherent DMA.
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*/
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#if defined(CONFIG_SMP) || defined(CONFIG_PPC_E500MC)
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#define M_IF_NEEDED MAS2_M
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#else
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#define M_IF_NEEDED 0
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#endif
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#if defined(ENTRY_MAPPING_BOOT_SETUP)
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/* 6. Setup KERNELBASE mapping in TLB1[0] */
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lis r6,0x1000 /* Set MAS0(TLBSEL) = TLB1(1), ESEL = 0 */
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mtspr SPRN_MAS0,r6
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lis r6,(MAS1_VALID|MAS1_IPROT)@h
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ori r6,r6,(MAS1_TSIZE(BOOK3E_PAGESZ_64M))@l
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mtspr SPRN_MAS1,r6
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lis r6,MAS2_VAL(PAGE_OFFSET, BOOK3E_PAGESZ_64M, M_IF_NEEDED)@h
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ori r6,r6,MAS2_VAL(PAGE_OFFSET, BOOK3E_PAGESZ_64M, M_IF_NEEDED)@l
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mtspr SPRN_MAS2,r6
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mtspr SPRN_MAS3,r8
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tlbwe
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/* 7. Jump to KERNELBASE mapping */
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lis r6,(KERNELBASE & ~0xfff)@h
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ori r6,r6,(KERNELBASE & ~0xfff)@l
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rlwinm r7,r25,0,0x03ffffff
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add r6,r7,r6
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#elif defined(ENTRY_MAPPING_KEXEC_SETUP)
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/*
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* 6. Setup a 1:1 mapping in TLB1. Esel 0 is unsued, 1 or 2 contains the tmp
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* mapping so we start at 3. We setup 8 mappings, each 256MiB in size. This
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* will cover the first 2GiB of memory.
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*/
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lis r10, (MAS1_VALID|MAS1_IPROT)@h
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ori r10,r10, (MAS1_TSIZE(BOOK3E_PAGESZ_256M))@l
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li r11, 0
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li r0, 8
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mtctr r0
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next_tlb_setup:
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addi r0, r11, 3
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rlwinm r0, r0, 16, 4, 15 // Compute esel
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rlwinm r9, r11, 28, 0, 3 // Compute [ER]PN
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oris r0, r0, (MAS0_TLBSEL(1))@h
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mtspr SPRN_MAS0,r0
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mtspr SPRN_MAS1,r10
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mtspr SPRN_MAS2,r9
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ori r9, r9, (MAS3_SX|MAS3_SW|MAS3_SR)
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mtspr SPRN_MAS3,r9
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tlbwe
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addi r11, r11, 1
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bdnz+ next_tlb_setup
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/* 7. Jump to our 1:1 mapping */
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mr r6, r25
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#else
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#error You need to specify the mapping or not use this at all.
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#endif
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lis r7,MSR_KERNEL@h
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ori r7,r7,MSR_KERNEL@l
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bl 1f /* Find our address */
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1: mflr r9
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rlwimi r6,r9,0,20,31
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addi r6,r6,(2f - 1b)
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mtspr SPRN_SRR0,r6
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mtspr SPRN_SRR1,r7
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rfi /* start execution out of TLB1[0] entry */
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/* 8. Clear out the temp mapping */
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2: lis r7,0x1000 /* Set MAS0(TLBSEL) = 1 */
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rlwimi r7,r5,16,4,15 /* Setup MAS0 = TLBSEL | ESEL(r5) */
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mtspr SPRN_MAS0,r7
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tlbre
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mfspr r8,SPRN_MAS1
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rlwinm r8,r8,0,2,0 /* clear IPROT */
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mtspr SPRN_MAS1,r8
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tlbwe
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/* Invalidate TLB1 */
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li r9,0x0c
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tlbivax 0,r9
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TLBSYNC
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