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[apple/xnu.git] / osfmk / ppc / machine_routines_asm.s
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 /*
- * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2000-2005 Apple Computer, Inc. All rights reserved.
  *
  * @APPLE_LICENSE_HEADER_START@
  * 
- * Copyright (c) 1999-2003 Apple Computer, Inc.  All Rights Reserved.
+ * The contents of this file constitute Original Code as defined in and
+ * are subject to the Apple Public Source License Version 1.1 (the
+ * "License").  You may not use this file except in compliance with the
+ * License.  Please obtain a copy of the License at
+ * http://www.apple.com/publicsource and read it before using this file.
  * 
- * This file contains Original Code and/or Modifications of Original Code
- * as defined in and that are subject to the Apple Public Source License
- * Version 2.0 (the 'License'). You may not use this file except in
- * compliance with the License. Please obtain a copy of the License at
- * http://www.opensource.apple.com/apsl/ and read it before using this
- * file.
- * 
- * The Original Code and all software distributed under the License are
- * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * This Original Code and all software distributed under the License are
+ * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
  * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
- * Please see the License for the specific language governing rights and
- * limitations under the License.
+ * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
+ * License for the specific language governing rights and limitations
+ * under the License.
  * 
  * @APPLE_LICENSE_HEADER_END@
  */
 #include <ppc/asm.h>
 #include <ppc/proc_reg.h>
-#include <cpus.h>
 #include <assym.s>
 #include <debug.h>
 #include <mach/ppc/vm_param.h>
 #include <ppc/exception.h>
        
+    
+/*
+ * ml_set_physical()                   -- turn off DR and (if 64-bit) turn SF on
+ *                                                                it is assumed that pf64Bit is already in cr6
+ * ml_set_physical_get_ffs()   -- turn DR off, SF on, and get feature flags 
+ * ml_set_physical_disabled()  -- turn DR and EE off, SF on, get feature flags
+ * ml_set_translation_off()            -- turn DR, IR, and EE off, SF on, get feature flags
+ *
+ * Callable only from assembler, these return:
+ *      r2 -- new MSR
+ *     r11 -- old MSR
+ *     r10 -- feature flags (pf64Bit etc, ie SPRG 2)
+ *     cr6 -- feature flags 24-27, ie pf64Bit, pf128Byte, and pf32Byte
+ *
+ * Uses r0 and r2.  ml_set_translation_off also uses r3 and cr5.
+ */
+
+        .align 4
+        .globl EXT(ml_set_translation_off)
+LEXT(ml_set_translation_off)
+        mfsprg r10,2                                           // get feature flags
+               li              r0,0                                            ; Clear this
+        mtcrf  0x02,r10                                        // move pf64Bit etc to cr6
+        ori            r0,r0,lo16(MASK(MSR_EE)+MASK(MSR_FP)+MASK(MSR_IR)+MASK(MSR_DR)) // turn off all 4
+        mfmsr  r11                                                     // get MSR
+               oris    r0,r0,hi16(MASK(MSR_VEC))       // Turn off vector too
+        mtcrf  0x04,r10                                        // move pfNoMSRir etc to cr5
+        andc   r2,r11,r0                                       // turn off EE, IR, and DR
+        bt++   pf64Bitb,ml_set_physical_64     // skip if 64-bit (only they take the hint)
+        bf             pfNoMSRirb,ml_set_physical_32   // skip if we can load MSR directly
+        li             r0,loadMSR                                      // Get the MSR setter SC
+        mr             r3,r2                                           // copy new MSR to r2
+        sc                                                                     // Set it
+        blr
+        
+               .align  4
+               .globl  EXT(ml_set_physical_disabled)
+
+LEXT(ml_set_physical_disabled)
+               li              r0,0                                            ; Clear
+        mfsprg r10,2                                           // get feature flags
+        ori            r0,r0,lo16(MASK(MSR_EE))        // turn EE and fp off
+        mtcrf  0x02,r10                                        // move pf64Bit etc to cr6
+        b              ml_set_physical_join
+
+               .align  5
+               .globl  EXT(ml_set_physical_get_ffs)
+
+LEXT(ml_set_physical_get_ffs)
+        mfsprg r10,2                                           // get feature flags
+        mtcrf  0x02,r10                                        // move pf64Bit etc to cr6
+
+               .globl  EXT(ml_set_physical)
+LEXT(ml_set_physical)
+
+        li             r0,0                                            // do not turn off interrupts
+
+ml_set_physical_join:
+               oris    r0,r0,hi16(MASK(MSR_VEC))       // Always gonna turn of vectors
+        mfmsr  r11                                                     // get MSR
+        ori            r0,r0,lo16(MASK(MSR_DR)+MASK(MSR_FP))   // always turn off DR and FP bit
+        andc   r2,r11,r0                                       // turn off DR and maybe EE
+        bt++   pf64Bitb,ml_set_physical_64     // skip if 64-bit (only they take the hint)
+ml_set_physical_32:
+        mtmsr  r2                                                      // turn off translation
+        isync
+        blr
+        
+ml_set_physical_64:
+        li             r0,1                                            // get a 1 to slam into SF
+        rldimi r2,r0,63,MSR_SF_BIT                     // set SF bit (bit 0)
+        mtmsrd r2                                                      // set 64-bit mode, turn off data relocation
+        isync                                                          // synchronize
+        blr
+    
+
+/*
+ * ml_restore(old_MSR)
+ *
+ * Callable only from assembler, restores the MSR in r11 saved by ml_set_physical.
+ * We assume cr6 and r11 are as set by ml_set_physical, ie:
+ *     cr6 - pf64Bit flag (feature flags 24-27)
+ *     r11 - old MSR
+ */
+               .align  5
+               .globl  EXT(ml_restore)
+
+LEXT(ml_restore)
+        bt++   pf64Bitb,ml_restore_64          // handle 64-bit cpus (only they take the hint)
+        mtmsr  r11                                                     // restore a 32-bit MSR
+        isync
+        blr
+        
+ml_restore_64:
+        mtmsrd r11                                                     // restore a 64-bit MSR
+        isync
+        blr
+
+    
 /* PCI config cycle probing
  *
  *     boolean_t ml_probe_read(vm_offset_t paddr, unsigned int *val)
 LEXT(ml_probe_read)
 
                        mfsprg  r9,2                                                    ; Get feature flags
+                       
+                       rlwinm. r0,r9,0,pf64Bitb,pf64Bitb               ; Are we on a 64-bit machine?
+                       rlwinm  r3,r3,0,0,31                                    ; Clean up for 64-bit machines
+                       bne++   mpr64bit                                                ; Go do this the 64-bit way...
+
+mpr32bit:      lis             r8,hi16(MASK(MSR_VEC))                  ; Get the vector flag
                        mfmsr   r0                                                              ; Save the current MSR
-                       rlwinm  r0,r0,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r0,r0,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
+                       ori             r8,r8,lo16(MASK(MSR_FP))                ; Add the FP flag
+
                        neg             r10,r3                                                  ; Number of bytes to end of page
-                       rlwinm  r2,r0,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Clear interruptions
+                       andc    r0,r0,r8                                                ; Clear VEC and FP
                        rlwinm. r10,r10,0,20,31                                 ; Clear excess junk and test for page bndry
+                       ori             r8,r8,lo16(MASK(MSR_EE)|MASK(MSR_IR)|MASK(MSR_DR))              ; Drop EE, IR, and DR
                        mr              r12,r3                                                  ; Save the load address
+                       andc    r2,r0,r8                                                ; Clear VEC, FP, and EE
                        mtcrf   0x04,r9                                                 ; Set the features                      
                        cmplwi  cr1,r10,4                                               ; At least 4 bytes left in page?
-                       rlwinm  r2,r2,0,MSR_DR_BIT+1,MSR_IR_BIT-1       ; Clear translation                     
                        beq-    mprdoit                                                 ; We are right on the boundary...
                        li              r3,0
                        bltlr-  cr1                                                             ; No, just return failure...
@@ -132,9 +235,6 @@ mprNoMuM:
                        mtmsr   r2                                                              ; Turn translation back off
                        isync
                        
-                       mtspr   hid0, r6                                                        ; Restore HID0
-                       isync
-                       
                        lis             r10,hi16(EXT(shadow_BAT)+shdDBAT)       ; Get shadow address
                        ori             r10,r10,lo16(EXT(shadow_BAT)+shdDBAT)   ; Get shadow address
                        
@@ -164,121 +264,421 @@ mprNoMuM:
                        .globl  EXT(ml_probe_read_mck)
 LEXT(ml_probe_read_mck)
 
-/* Read physical address
+    
+/* PCI config cycle probing - 64-bit
+ *
+ *     boolean_t ml_probe_read_64(addr64_t paddr, unsigned int *val)
+ *
+ *     Read the memory location at physical address paddr.
+ *  This is a part of a device probe, so there is a good chance we will
+ *  have a machine check here. So we have to be able to handle that.
+ *  We assume that machine checks are enabled both in MSR and HIDs
+ */
+
+;                      Force a line boundry here
+                       .align  6
+                       .globl  EXT(ml_probe_read_64)
+
+LEXT(ml_probe_read_64)
+
+                       mfsprg  r9,2                                                    ; Get feature flags
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwinm. r0,r9,0,pf64Bitb,pf64Bitb               ; Are we on a 64-bit machine?
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits                   
+                       
+                       mr              r4,r5                                                   ; Move result to common register
+                       beq--   mpr32bit                                                ; Go do this the 32-bit way...
+
+mpr64bit:      andi.   r0,r3,3                                                 ; Check if we are on a word boundary
+                       li              r0,0                                                    ; Clear the EE bit (and everything else for that matter)
+                       bne--   mprFail                                                 ; Boundary not good...
+                       mfmsr   r11                                                             ; Get the MSR
+                       mtmsrd  r0,1                                                    ; Set the EE bit only (do not care about RI)
+                       rlwinm  r11,r11,0,MSR_EE_BIT,MSR_EE_BIT ; Isolate just the EE bit
+                       mfmsr   r10                                                             ; Refresh our view of the MSR (VMX/FP may have changed)
+                       or              r12,r10,r11                                             ; Turn on EE if on before we turned it off
+                       ori             r0,r0,lo16(MASK(MSR_IR)|MASK(MSR_DR))   ; Get the IR and DR bits
+                       li              r2,1                                                    ; Get a 1
+                       sldi    r2,r2,63                                                ; Get the 64-bit bit
+                       andc    r10,r10,r0                                              ; Clear IR and DR
+                       or              r10,r10,r2                                              ; Set 64-bit
+                       
+                       li              r0,1                                                    ; Get a 1
+                       mtmsrd  r10                                                             ; Translation and EE off, 64-bit on
+                       isync                   
+                       
+                       sldi    r0,r0,32+8                                              ; Get the right bit to inhibit caching
+
+                       mfspr   r8,hid4                                                 ; Get HID4
+                       or              r2,r8,r0                                                ; Set bit to make real accesses cache-inhibited
+                       sync                                                                    ; Sync up
+                       mtspr   hid4,r2                                                 ; Make real accesses cache-inhibited
+                       isync                                                                   ; Toss prefetches
+                       
+                       lis             r7,0xE000                                               ; Get the unlikeliest ESID possible
+                       srdi    r7,r7,1                                                 ; Make 0x7FFFFFFFF0000000
+                       slbie   r7                                                              ; Make sure the ERAT is cleared 
+                       
+                       sync
+                       isync
+
+                       eieio                                                                   ; Make sure of all previous accesses
+                       
+                       lwz             r11,0(r3)                                               ; Get it and maybe machine check here
+                       
+                       eieio                                                                   ; Make sure of ordering again
+                       sync                                                                    ; Get caught up yet again
+                       isync                                                                   ; Do not go further till we are here
+
+                       sync                                                                    ; Sync up
+                       mtspr   hid4,r8                                                 ; Make real accesses not cache-inhibited
+                       isync                                                                   ; Toss prefetches
+
+                       lis             r7,0xE000                                               ; Get the unlikeliest ESID possible
+                       srdi    r7,r7,1                                                 ; Make 0x7FFFFFFFF0000000
+                       slbie   r7                                                              ; Make sure the ERAT is cleared 
+
+                       mtmsrd  r12                                                             ; Restore entry MSR
+                       isync
+                       
+                       stw             r11,0(r4)                                               ; Pass back the result
+                       li              r3,1                                                    ; Indicate success
+                       blr                                                                             ; Leave...
+
+mprFail:       li              r3,0                                                    ; Set failure
+                       blr                                                                             ; Leave...
+
+;                      Force a line boundry here. This means we will be able to check addresses better
+                       .align  6
+                       .globl  EXT(ml_probe_read_mck_64)
+LEXT(ml_probe_read_mck_64)
+
+
+/* Read physical address byte
  *
  *     unsigned int ml_phys_read_byte(vm_offset_t paddr)
+ *     unsigned int ml_phys_read_byte_64(addr64_t paddr)
  *
  *     Read the byte at physical address paddr. Memory should not be cache inhibited.
  */
 
 ;                      Force a line boundry here
+
                        .align  5
+                       .globl  EXT(ml_phys_read_byte_64)
+
+LEXT(ml_phys_read_byte_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits
+            b          ml_phys_read_byte_join                  
+
                        .globl  EXT(ml_phys_read_byte)
 
 LEXT(ml_phys_read_byte)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_read_byte_join:                                                                ; r3 = address to read (reg64_t)
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
+                       
+                       lbz             r3,0(r3)                                                ; Get the byte
+                       b               rdwrpost                                                ; Clean up and leave...
 
-                       mfmsr   r10                                                             ; Save the current MSR
-                       rlwinm  r10,r10,0,MSR_FP_BIT+1,MSR_FP_BIT-1     ; Force floating point off
-                       rlwinm  r10,r10,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1   ; Force vectors off
-                       rlwinm  r4,r10,0,MSR_EE_BIT+1,MSR_EE_BIT-1      ; Clear interruptions
-                       rlwinm  r4,r4,0,MSR_DR_BIT+1,MSR_DR_BIT-1       ; Clear translation     
 
-                       mtmsr   r4                                                              ; Translation and all off
-                       isync                                                                   ; Toss prefetch
+/* Read physical address half word
+ *
+ *     unsigned int ml_phys_read_half(vm_offset_t paddr)
+ *     unsigned int ml_phys_read_half_64(addr64_t paddr)
+ *
+ *     Read the half word at physical address paddr. Memory should not be cache inhibited.
+ */
 
-                       lbz             r3,0(r3)                                                ; Get the byte
-                       sync
+;                      Force a line boundry here
 
-                       mtmsr   r10                                                             ; Restore translation and rupts
-                       isync
-                       blr
+                       .align  5
+                       .globl  EXT(ml_phys_read_half_64)
+
+LEXT(ml_phys_read_half_64)
 
-/* Read physical address
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits
+            b          ml_phys_read_half_join          
+
+                       .globl  EXT(ml_phys_read_half)
+
+LEXT(ml_phys_read_half)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_read_half_join:                                                                ; r3 = address to read (reg64_t)
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
+                       
+                       lhz             r3,0(r3)                                                ; Get the half word
+                       b               rdwrpost                                                ; Clean up and leave...
+
+
+/* Read physical address word
  *
  *     unsigned int ml_phys_read(vm_offset_t paddr)
+ *     unsigned int ml_phys_read_64(addr64_t paddr)
+ *     unsigned int ml_phys_read_word(vm_offset_t paddr)
+ *     unsigned int ml_phys_read_word_64(addr64_t paddr)
  *
  *     Read the word at physical address paddr. Memory should not be cache inhibited.
  */
 
 ;                      Force a line boundry here
+
                        .align  5
+                       .globl  EXT(ml_phys_read_64)
+                       .globl  EXT(ml_phys_read_word_64)
+
+LEXT(ml_phys_read_64)
+LEXT(ml_phys_read_word_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits
+            b          ml_phys_read_word_join          
+
                        .globl  EXT(ml_phys_read)
+                       .globl  EXT(ml_phys_read_word)
 
 LEXT(ml_phys_read)
+LEXT(ml_phys_read_word)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_read_word_join:                                                                ; r3 = address to read (reg64_t)
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
+                       
+                       lwz             r3,0(r3)                                                ; Get the word
+                       b               rdwrpost                                                ; Clean up and leave...
 
-                       mfmsr   r0                                                              ; Save the current MSR
-                       rlwinm  r0,r0,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r0,r0,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r4,r0,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Clear interruptions
-                       rlwinm  r4,r4,0,MSR_DR_BIT+1,MSR_DR_BIT-1       ; Clear translation     
 
-                       mtmsr   r4                                                              ; Translation and all off
-                       isync                                                                   ; Toss prefetch
+/* Read physical address double word
+ *
+ *     unsigned long long ml_phys_read_double(vm_offset_t paddr)
+ *     unsigned long long ml_phys_read_double_64(addr64_t paddr)
+ *
+ *     Read the double word at physical address paddr. Memory should not be cache inhibited.
+ */
+
+;                      Force a line boundry here
+
+                       .align  5
+                       .globl  EXT(ml_phys_read_double_64)
+
+LEXT(ml_phys_read_double_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits                   
+            b          ml_phys_read_double_join                
+
+                       .globl  EXT(ml_phys_read_double)
+
+LEXT(ml_phys_read_double)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_read_double_join:                                                      ; r3 = address to read (reg64_t)
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
                        
-                       lwz             r3,0(r3)                                                ; Get the word
-                       sync
+                       lwz             r4,4(r3)                                                ; Get the low word
+                       lwz             r3,0(r3)                                                ; Get the high word
+                       b               rdwrpost                                                ; Clean up and leave...
 
-                       mtmsr   r0                                                              ; Restore translation and rupts
-                       isync
-                       blr
 
 /* Write physical address byte
  *
  *     void ml_phys_write_byte(vm_offset_t paddr, unsigned int data)
+ *     void ml_phys_write_byte_64(addr64_t paddr, unsigned int data)
  *
  *     Write the byte at physical address paddr. Memory should not be cache inhibited.
  */
 
-;                      Force a line boundry here
                        .align  5
+                       .globl  EXT(ml_phys_write_byte_64)
+
+LEXT(ml_phys_write_byte_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits                   
+                       mr              r4,r5                                                   ; Copy over the data
+            b          ml_phys_write_byte_join
+
                        .globl  EXT(ml_phys_write_byte)
 
 LEXT(ml_phys_write_byte)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_write_byte_join:                                                       ; r3 = address to write (reg64_t), r4 = data
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
+                       
+                       stb             r4,0(r3)                                                ; Set the byte
+                       b               rdwrpost                                                ; Clean up and leave...
 
-                       mfmsr   r0                                                              ; Save the current MSR
-                       rlwinm  r0,r0,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r0,r0,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r5,r0,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Clear interruptions
-                       rlwinm  r5,r5,0,MSR_DR_BIT+1,MSR_DR_BIT-1       ; Clear translation     
 
-                       mtmsr   r5                                                              ; Translation and all off
-                       isync                                                                   ; Toss prefetch
+/* Write physical address half word
+ *
+ *     void ml_phys_write_half(vm_offset_t paddr, unsigned int data)
+ *     void ml_phys_write_half_64(addr64_t paddr, unsigned int data)
+ *
+ *     Write the half word at physical address paddr. Memory should not be cache inhibited.
+ */
+
+                       .align  5
+                       .globl  EXT(ml_phys_write_half_64)
+
+LEXT(ml_phys_write_half_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits                   
+                       mr              r4,r5                                                   ; Copy over the data
+            b          ml_phys_write_half_join
+
+                       .globl  EXT(ml_phys_write_half)
+
+LEXT(ml_phys_write_half)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_write_half_join:                                                       ; r3 = address to write (reg64_t), r4 = data
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
                        
-                       stb             r4,0(r3)                                                ; Set the byte
-                       sync
+                       sth             r4,0(r3)                                                ; Set the half word
+                       b               rdwrpost                                                ; Clean up and leave...
 
-                       mtmsr   r0                                                              ; Restore translation and rupts
-                       isync
-                       blr
 
-/* Write physical address
+/* Write physical address word
  *
  *     void ml_phys_write(vm_offset_t paddr, unsigned int data)
+ *     void ml_phys_write_64(addr64_t paddr, unsigned int data)
+ *     void ml_phys_write_word(vm_offset_t paddr, unsigned int data)
+ *     void ml_phys_write_word_64(addr64_t paddr, unsigned int data)
  *
  *     Write the word at physical address paddr. Memory should not be cache inhibited.
  */
 
-;                      Force a line boundry here
                        .align  5
+                       .globl  EXT(ml_phys_write_64)
+                       .globl  EXT(ml_phys_write_word_64)
+
+LEXT(ml_phys_write_64)
+LEXT(ml_phys_write_word_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits                   
+                       mr              r4,r5                                                   ; Copy over the data
+            b          ml_phys_write_word_join
+
                        .globl  EXT(ml_phys_write)
+                       .globl  EXT(ml_phys_write_word)
 
 LEXT(ml_phys_write)
+LEXT(ml_phys_write_word)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_write_word_join:                                                       ; r3 = address to write (reg64_t), r4 = data
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
+                       
+                       stw             r4,0(r3)                                                ; Set the word
+                       b               rdwrpost                                                ; Clean up and leave...
 
-                       mfmsr   r0                                                              ; Save the current MSR
-                       rlwinm  r0,r0,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r0,r0,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r5,r0,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Clear interruptions
-                       rlwinm  r5,r5,0,MSR_DR_BIT+1,MSR_DR_BIT-1       ; Clear translation     
 
-                       mtmsr   r5                                                              ; Translation and all off
-                       isync                                                                   ; Toss prefetch
+/* Write physical address double word
+ *
+ *     void ml_phys_write_double(vm_offset_t paddr, unsigned long long data)
+ *     void ml_phys_write_double_64(addr64_t paddr, unsigned long long data)
+ *
+ *     Write the double word at physical address paddr. Memory should not be cache inhibited.
+ */
+
+                       .align  5
+                       .globl  EXT(ml_phys_write_double_64)
+
+LEXT(ml_phys_write_double_64)
+
+                       rlwinm  r3,r3,0,1,0                                             ; Copy low 32 bits to top 32
+                       rlwimi  r3,r4,0,0,31                                    ; Insert low part of 64-bit address in bottom 32 bits                   
+                       mr              r4,r5                                                   ; Copy over the high data
+                       mr              r5,r6                                                   ; Copy over the low data
+            b          ml_phys_write_double_join
+
+                       .globl  EXT(ml_phys_write_double)
+
+LEXT(ml_phys_write_double)
+            rlwinm   r3,r3,0,0,31                              ; truncate address to 32-bits
+ml_phys_write_double_join:                                                     ; r3 = address to write (reg64_t), r4,r5 = data (long long)
+                       mflr    r11                                                             ; Save the return
+                       bl              rdwrpre                                                 ; Get set up, translation/interrupts off, 64-bit on, etc.
+                       
+                       stw             r4,0(r3)                                                ; Set the high word
+                       stw             r5,4(r3)                                                ; Set the low word
+                       b               rdwrpost                                                ; Clean up and leave...
+
+
+                       .align  5
+
+rdwrpre:       mfsprg  r12,2                                                   ; Get feature flags 
+                       lis             r8,hi16(MASK(MSR_VEC))                  ; Get the vector flag
+                       mfmsr   r10                                                             ; Save the MSR 
+                       ori             r8,r8,lo16(MASK(MSR_FP))                ; Add the FP flag
+                       mtcrf   0x02,r12                                                ; move pf64Bit
+                       andc    r10,r10,r8                                              ; Clear VEC and FP
+                       ori             r9,r8,lo16(MASK(MSR_EE)|MASK(MSR_IR)|MASK(MSR_DR))              ; Drop EE, DR, and IR
+                       li              r2,1                                                    ; Prepare for 64 bit
+                       andc    r9,r10,r9                                               ; Clear VEC, FP, DR, and EE
+                       bf--    pf64Bitb,rdwrpre32                              ; Join 32-bit code...
+                       
+                       srdi    r7,r3,31                                                ; Get a 1 if address is in I/O memory
+                       rldimi  r9,r2,63,MSR_SF_BIT                             ; set SF bit (bit 0)
+                       cmpldi  cr7,r7,1                                                ; Is source in I/O memory?
+                       mtmsrd  r9                                                              ; set 64-bit mode, turn off EE, DR, and IR
+                       isync                                                                   ; synchronize
+
+                       sldi    r0,r2,32+8                                              ; Get the right bit to turn off caching
+                       
+                       bnelr++ cr7                                                             ; We are not in the I/O area, all ready...
+                       
+                       mfspr   r8,hid4                                                 ; Get HID4
+                       or              r2,r8,r0                                                ; Set bit to make real accesses cache-inhibited
+                       sync                                                                    ; Sync up
+                       mtspr   hid4,r2                                                 ; Make real accesses cache-inhibited
+                       isync                                                                   ; Toss prefetches
+                       
+                       lis             r7,0xE000                                               ; Get the unlikeliest ESID possible
+                       srdi    r7,r7,1                                                 ; Make 0x7FFFFFFFF0000000
+                       slbie   r7                                                              ; Make sure the ERAT is cleared 
                        
-                       stw             r4,0(r3)                                                ; Set the word
                        sync
+                       isync
+                       blr                                                                             ; Finally,  all ready...
+       
+                       .align  5
+                       
+rdwrpre32:     rlwimi  r9,r10,0,MSR_IR_BIT,MSR_IR_BIT  ; Leave the IR bit unchanged
+                       mtmsr   r9                                                              ; Drop EE, DR, and leave IR unchanged
+                       isync
+                       blr                                                                             ; All set up, leave...
+                       
+                       .align  5
+                       
+rdwrpost:      mtlr    r11                                                             ; Restore the return
+                       bt++    pf64Bitb,rdwrpost64                             ; Join 64-bit code...
+                       
+                       mtmsr   r10                                                             ; Restore entry MSR (sans FP and VEC)
+                       isync
+                       blr                                                                             ; Leave...
+                       
+rdwrpost64:    bne++   cr7,rdwrpcok                                    ; Skip enabling real mode caching if we did not change it...
+
+                       sync                                                                    ; Sync up
+                       mtspr   hid4,r8                                                 ; Make real accesses not cache-inhibited
+                       isync                                                                   ; Toss prefetches
+
+                       lis             r7,0xE000                                               ; Get the unlikeliest ESID possible
+                       srdi    r7,r7,1                                                 ; Make 0x7FFFFFFFF0000000
+                       slbie   r7                                                              ; Make sure the ERAT is cleared 
 
-                       mtmsr   r0                                                              ; Restore translation and rupts
+rdwrpcok:      mtmsrd  r10                                                             ; Restore entry MSR (sans FP and VEC)
                        isync
-                       blr
+                       blr                                                                             ; Leave...
 
 
 /* set interrupts enabled or disabled
@@ -294,59 +694,101 @@ LEXT(ml_phys_write)
  
 LEXT(ml_set_interrupts_enabled)
 
-                       mfsprg  r7,0
-                       lwz             r4,PP_INTS_ENABLED(r7)
-                       mr.             r4,r4
-                       beq-    EXT(fake_set_interrupts_enabled)
+                       andi.   r4,r3,1                                                 ; Are we turning interruptions on?
+                       lis             r0,hi16(MASK(MSR_VEC))                  ; Get vector enable
                        mfmsr   r5                                                              ; Get the current MSR
-                       rlwinm  r5,r5,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       mr              r4,r3                                                   ; Save the old value
-                       rlwinm  r5,r5,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
+                       ori             r0,r0,lo16(MASK(MSR_EE)|MASK(MSR_FP))   ; Get float enable and EE enable
                        rlwinm  r3,r5,17,31,31                                  ; Set return value
-                       rlwimi  r5,r4,15,16,16                                  ; Insert new EE bit
-                       andi.   r8,r5,lo16(MASK(MSR_EE))                        ; Interruptions
-                       bne     CheckPreemption
-NoPreemption:
-                       mtmsr   r5                              ; Slam enablement
+                       andc    r5,r5,r0                                                ; Force VEC and FP off
+                       bne         CheckPreemption                                     ; Interrupts going on, check ASTs...
+
+                       mtmsr   r5                              ; Slam diable (always going disabled here)
+                       isync                                                                   ; Need this because FP/Vec might go off
                        blr
 
+                       .align  5
+
 CheckPreemption:
-                       lwz             r8,PP_NEED_AST(r7)
-                       li              r6,AST_URGENT
-                       lwz             r8,0(r8)
-                       lwz             r7,PP_PREEMPT_CNT(r7)
-                       lis             r0,HIGH_ADDR(DoPreemptCall)
-                       and.    r8,r8,r6
-                       ori             r0,r0,LOW_ADDR(DoPreemptCall)   
-                       beq+    NoPreemption
-                       cmpi    cr0, r7, 0
+                       mfsprg  r9,1                                                    ; Get current activation
+                       lwz             r7,ACT_PER_PROC(r9)                             ; Get the per_proc block
+                       ori             r5,r5,lo16(MASK(MSR_EE))                ; Turn on the enable
+                       lwz             r8,PP_PENDING_AST(r7)                   ; Get pending AST mask
+                       li              r6,AST_URGENT                                   ; Get the type we will preempt for 
+                       lwz             r7,ACT_PREEMPT_CNT(r9)                  ; Get preemption count
+                       lis             r0,hi16(DoPreemptCall)                  ; High part of Preempt FW call
+                       cmpwi   cr1,r7,0                                                ; Are preemptions masked off?
+                       and.    r8,r8,r6                                                ; Are we urgent?
+                       crorc   cr1_eq,cr0_eq,cr1_eq                    ; Remember if preemptions are masked or not urgent
+                       ori             r0,r0,lo16(DoPreemptCall)       ; Bottome of FW call
+
                        mtmsr   r5                                                              ; Restore the MSR now, before we can preempt
-                       bnelr+                                                                  ; Return if no premption
+                       isync                                                                   ; Need this because FP/Vec might go off
+
+                       beqlr++ cr1                                                             ; Return if no premption...
                        sc                                                                              ; Preempt
                        blr
 
-
-/*  Emulate a decremeter exception
- *
- *     void machine_clock_assist(void)
- *
- */
+;                      Force a line boundry here
+                       .align  5
+                       .globl  EXT(timer_update)
+LEXT(timer_update)
+                       stw             r4,TIMER_HIGHCHK(r3)
+                       eieio
+                       stw             r5,TIMER_LOW(r3)
+                       eieio
+                       stw             r4,TIMER_HIGH(r3)
+                       blr
 
 ;                      Force a line boundry here
                        .align  5
-                       .globl  EXT(machine_clock_assist)
+                       .globl  EXT(timer_grab)
  
-LEXT(machine_clock_assist)
+LEXT(timer_grab)
+0:                     lwz             r11,TIMER_HIGH(r3)
+                       lwz             r4,TIMER_LOW(r3)
+                       isync
+                       lwz             r9,TIMER_HIGHCHK(r3)
+                       cmpw    r11,r9
+                       bne--   0b
+                       mr              r3,r11
+                       blr
 
-                       mfsprg  r7,0
-                       lwz             r4,PP_INTS_ENABLED(r7)
-                       mr.             r4,r4
-                       beq-    EXT(CreateFakeDEC)
+;                      Force a line boundry here
+                       .align  5
+                       .globl  EXT(timer_event)
+LEXT(timer_event)
+                       mfsprg  r10,1                                                   ; Get the current activation
+                       lwz             r10,ACT_PER_PROC(r10)                   ; Get the per_proc block
+                       addi    r10,r10,PP_PROCESSOR
+                       lwz             r11,CURRENT_TIMER(r10)
+
+                       lwz             r9,TIMER_LOW(r11)
+                       lwz             r2,TIMER_TSTAMP(r11)
+                       add             r0,r9,r3
+                       subf    r5,r2,r0
+                       cmplw   r5,r9
+                       bge++   0f
+
+                       lwz             r6,TIMER_HIGH(r11)
+                       addi    r6,r6,1
+                       stw             r6,TIMER_HIGHCHK(r11)
+                       eieio
+                       stw             r5,TIMER_LOW(r11)
+                       eieio
+                       stw             r6,TIMER_HIGH(r11)
+                       b               1f
+
+0:                     stw             r5,TIMER_LOW(r11)
+
+1:                     stw             r4,CURRENT_TIMER(r10)
+                       stw             r3,TIMER_TSTAMP(r4)
                        blr
 
 /*  Set machine into idle power-saving mode. 
  *
- *     void machine_idle_ppc(void)
+ *     void machine_idle(void)
  *
  *     We will use the PPC NAP or DOZE for this. 
  *     This call always returns.  Must be called with spllo (i.e., interruptions
@@ -354,23 +796,32 @@ LEXT(machine_clock_assist)
  *
  */
 
-
 ;                      Force a line boundry here
                        .align  5
-                       .globl  EXT(machine_idle_ppc)
-
-LEXT(machine_idle_ppc)
+                       .globl  EXT(machine_idle)
+
+LEXT(machine_idle)
+
+                       mfsprg  r12,1                                                   ; Get the current activation
+                       lwz             r12,ACT_PER_PROC(r12)                   ; Get the per_proc block
+                       lhz             r10,PP_CPU_FLAGS(r12)                   ; Get the flags
+                       lwz             r11,PP_INTS_ENABLED(r12)                ; Get interrupt enabled state
+                       andi.   r10,r10,SignalReady                             ; Are Signal ready?
+                       cmpwi   cr1,r11,0                                               ; Are interrupt disabled?
+                       cror    cr0_eq, cr1_eq, cr0_eq                  ; Interrupt disabled or Signal not ready?
+                       mfmsr   r3                                                              ; Save the MSR 
+                       
+                       beq--   nonap                                                   ; Yes, return after re-enabling interrupts
+                       lis             r0,hi16(MASK(MSR_VEC))                  ; Get the vector flag
+                       ori             r0,r0,lo16(MASK(MSR_FP))                ; Add the FP flag
+                       andc    r3,r3,r0                                                ; Clear VEC and FP
+                       ori             r0,r0,lo16(MASK(MSR_EE))                ; Drop EE also
+                       andc    r5,r3,r0                                                ; Clear VEC, FP, DR, and EE
 
-                       mfmsr   r3                                                              ; Get the current MSR
-                       rlwinm  r3,r3,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r3,r3,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r5,r3,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Turn off interruptions
                        mtmsr   r5                                                              ; Hold up interruptions for now
                        isync                                                                   ; May have messed with fp/vec
-                       mfsprg  r12,0                                                   ; Get the per_proc_info
-                       mfspr   r6,hid0                                                 ; Get the current power-saving mode
                        mfsprg  r11,2                                                   ; Get CPU specific features
-                       rlwinm  r6,r6,0,sleep+1,doze-1                  ; Clear all possible power-saving modes (not DPM though)        
+                       mfspr   r6,hid0                                                 ; Get the current power-saving mode
                        mtcrf   0xC7,r11                                                ; Get the facility flags
 
                        lis             r4,hi16(napm)                                   ; Assume we can nap
@@ -378,8 +829,9 @@ LEXT(machine_idle_ppc)
                        
                        lis             r4,hi16(dozem)                                  ; Assume we can doze
                        bt              pfCanDozeb,yesnap                               ; We can sleep or doze one this machine...
+
+nonap:         ori             r3,r3,lo16(MASK(MSR_EE))                ; Flip on EE
                        
-                       ori             r3,r3,lo16(MASK(MSR_EE))                ; Flip on EE
                        mtmsr   r3                                                              ; Turn interruptions back on
                        blr                                                                             ; Leave...
 
@@ -387,50 +839,117 @@ yesnap:          mftbu   r9                                                              ; Get the upper timebase
                        mftb    r7                                                              ; Get the lower timebase
                        mftbu   r8                                                              ; Get the upper one again
                        cmplw   r9,r8                                                   ; Did the top tick?
-                       bne-    yesnap                                                  ; Yeah, need to get it again...
+                       bne--   yesnap                                                  ; Yeah, need to get it again...
                        stw             r8,napStamp(r12)                                ; Set high order time stamp
                        stw             r7,napStamp+4(r12)                              ; Set low order nap stamp
 
-                       rlwinm. r7,r11,0,pfNoL2PFNapb,pfNoL2PFNapb                      ; Turn off L2 Prefetch before nap?
-                       beq     miL2PFok
+                       rlwinm. r0,r11,0,pfAltivecb,pfAltivecb  ; Do we have altivec?
+                       beq--   minovec                                                 ; No...
+                       dssall                                                                  ; Stop the streams before we nap/doze
+                       sync
+                       lwz             r8,napStamp(r12)                                ; Reload high order time stamp
+clearpipe:
+                       cmplw   r8,r8
+                       bne-    clearpipe
+                       isync
+
+minovec:       rlwinm. r7,r11,0,pfNoL2PFNapb,pfNoL2PFNapb      ; Turn off L2 Prefetch before nap?
+                       beq++   miL2PFok
 
                        mfspr   r7,msscr0                                               ; Get currect MSSCR0 value
-                       rlwinm  r7,r7,0,0,l2pfes-1                                      ; Dissable L2 Prefetch
+                       rlwinm  r7,r7,0,0,l2pfes-1                              ; Disable L2 Prefetch
                        mtspr   msscr0,r7                                               ; Updates MSSCR0 value
                        sync
                        isync
 
 miL2PFok:
-                       rlwinm. r7,r11,0,pfSlowNapb,pfSlowNapb                          ; Should nap at slow speed?
+                       rlwinm. r7,r11,0,pfSlowNapb,pfSlowNapb  ; Should nap at slow speed?
                        beq     minoslownap
 
                        mfspr   r7,hid1                                                 ; Get current HID1 value
-                       oris    r7,r7,hi16(hid1psm)                                     ; Select PLL1
+                       oris    r7,r7,hi16(hid1psm)                             ; Select PLL1
                        mtspr   hid1,r7                                                 ; Update HID1 value
 
-minoslownap:
 
 ;
 ;                      We have to open up interruptions here because book 4 says that we should
-;                      turn on only the POW bit and that we should have interrupts enabled
+;                      turn on only the POW bit and that we should have interrupts enabled.
 ;                      The interrupt handler will detect that nap or doze is set if an interrupt
 ;                      is taken and set everything up to return directly to machine_idle_ret.
 ;                      So, make sure everything we need there is already set up...
 ;
-                       ori             r7,r5,lo16(MASK(MSR_EE))                ; Flip on EE
+
+minoslownap:
+                       lis             r10,hi16(dozem|napm|sleepm)             ; Mask of power management bits
+               
+                       bf--    pf64Bitb,mipNSF1                                ; skip if 32-bit...
+                       
+                       sldi    r4,r4,32                                                ; Position the flags
+                       sldi    r10,r10,32                                              ; Position the masks
+
+mipNSF1:       li              r2,lo16(MASK(MSR_DR)|MASK(MSR_IR))      ; Get the translation mask
+                       andc    r6,r6,r10                                               ; Clean up the old power bits           
+                       ori             r7,r5,lo16(MASK(MSR_EE))                ; Flip on EE to make exit msr
+                       andc    r5,r5,r2                                                ; Clear IR and DR from current MSR
                        or              r6,r6,r4                                                ; Set nap or doze
-                       oris    r5,r7,hi16(MASK(MSR_POW))               ; Turn on power management in next MSR
+                       ori             r5,r5,lo16(MASK(MSR_EE))                ; Flip on EE to make nap msr
+                       oris    r2,r5,hi16(MASK(MSR_POW))               ; Turn on power management in next MSR
+                       
+                       sync
                        mtspr   hid0,r6                                                 ; Set up the HID for nap/doze
+                       mfspr   r6,hid0                                                 ; Yes, this is silly, keep it here
+                       mfspr   r6,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r6,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r6,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r6,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r6,hid0                                                 ; Yes, this is a duplicate, keep it here
                        isync                                                                   ; Make sure it is set
-                       mtmsr   r7                                                              ; Enable for interrupts
-                       rlwinm. r11,r11,0,pfAltivecb,pfAltivecb ; Do we have altivec?
-                       beq-    minovec                                                 ; No...
-                       dssall                                                                  ; Stop the streams before we nap/doze
 
-minovec:       sync                                                                    ; Make sure queues are clear                    
-                       mtmsr   r5                                                              ; Nap or doze
+
+;
+;                      Turn translation off to nap
+;
+
+                       bt              pfNoMSRirb,miNoMSR                              ; Jump if we need to use SC for this...
+                       mtmsr   r5                                                              ; Turn translation off, interrupts on
+                       isync                                                                   ; Wait for it
+                       b               miNoMSRx                                                ; Jump back in line...
+                       
+miNoMSR:       mr              r3,r5                                                   ; Pass in the new MSR value 
+                       li              r0,loadMSR                                              ; MSR setter ultrafast
+                       sc                                                                              ; Do it to it like you never done before...
+
+miNoMSRx:      bf--    pf64Bitb,mipowloop                              ; skip if 32-bit...
+                       
+                       li              r3,0x10                                                 ; Fancy nap threshold is 0x10 ticks
+                       mftb    r8                                                              ; Get the low half of the time base
+                       mfdec   r4                                                              ; Get the decrementer ticks
+                       cmplw   r4,r3                                                   ; Less than threshold?
+                       blt             mipowloop
+                       
+                       mtdec   r3                                                              ; Load decrementer with threshold
+                       isync                                                                   ; and make sure,
+                       mfdec   r3                                                              ; really sure, it gets there
+                       
+                       rlwinm  r6,r2,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Clear out the EE bit
+                       sync                                                                    ; Make sure queues are clear
+                       mtmsr   r6                                                              ; Set MSR with EE off but POW on
                        isync                                                                   ; Make sure this takes before we proceed
-                       b               minovec                                                 ; loop if POW does not take
+                       
+                       mftb    r9                                                              ; Get the low half of the time base
+                       sub             r9,r9,r8                                                ; Get the number of ticks spent waiting
+                       sub             r4,r4,r9                                                ; Adjust the decrementer value
+                       
+                       mtdec   r4                                                              ; Load decrementer with the rest of the timeout
+                       isync                                                                   ; and make sure,
+                       mfdec   r4                                                              ; really sure, it gets there
+                       
+mipowloop:
+                       sync                                                                    ; Make sure queues are clear
+                       mtmsr   r2                                                              ; Nap or doze, MSR with POW, EE set, translation off
+                       isync                                                                   ; Make sure this takes before we proceed
+                       b               mipowloop                                               ; loop if POW does not take
+
 ;
 ;                      Note that the interrupt handler will turn off the nap/doze bits in the hid.
 ;                      Also remember that the interrupt handler will force return to here whenever
@@ -440,14 +959,23 @@ minovec:  sync                                                                    ; Make sure queues are clear
 LEXT(machine_idle_ret)
                        mtmsr   r7                                                              ; Make sure the MSR is what we want
                        isync                                                                   ; In case we turn on translation
-                       
+;
+;                      Protect against a lost decrementer trap if the current decrementer value is negative
+;                      by more than 10 ticks, re-arm it since it is unlikely to fire at this point...
+;                      A hardware interrupt got us out of machine_idle and may also be contributing to this state
+; 
+                       mfdec   r6                                                              ; Get decrementer
+                       cmpwi   cr0,r6,-10                                              ; Compare decrementer with -10
+                       bgelr++                                                                 ; Return if greater
+                       li              r0,1                                                    ; Load 1
+                       mtdec   r0                                                              ; Set decrementer to 1
                        blr                                                                             ; Return...
 
 /*  Put machine to sleep. 
  *     This call never returns. We always exit sleep via a soft reset.
  *     All external interruptions must be drained at this point and disabled.
  *
- *     void ml_ppc_sleep(void)
+ *     void ml_ppc_do_sleep(void)
  *
  *     We will use the PPC SLEEP for this. 
  *
@@ -461,9 +989,9 @@ LEXT(machine_idle_ret)
 
 ;                      Force a line boundry here
                        .align  5
-                       .globl  EXT(ml_ppc_sleep)
+                       .globl  EXT(ml_ppc_do_sleep)
 
-LEXT(ml_ppc_sleep)
+LEXT(ml_ppc_do_sleep)
 
 #if 0
                        mfmsr   r5                                                              ; Hack to spin instead of sleep 
@@ -478,35 +1006,58 @@ deadsleep:       addi    r3,r3,1                                                 ; Make analyzer happy
                        b               deadsleep                                               ; Die the death of 1000 joys...
 #endif 
                        
-                       mfspr   r4,hid0                                                 ; Get the current power-saving mode
-                       eqv             r10,r10,r10                                             ; Get all foxes
+                       mfsprg  r12,1                                                   ; Get the current activation
+                       lwz             r12,ACT_PER_PROC(r12)                   ; Get the per_proc block
                        mfsprg  r11,2                                                   ; Get CPU specific features
+                       eqv             r10,r10,r10                                             ; Get all foxes
+                       mtcrf   0x04,r11                                                ; move pfNoMSRirb to cr5
+                       mfspr   r4,hid0                                                 ; Get the current power-saving mode
+                       mtcrf   0x02,r11                                                ; move pf64Bit to cr6
 
-                       rlwinm. r5,r11,0,pfNoL2PFNapb,pfNoL2PFNapb                      ; Turn off L2 Prefetch before sleep?
+                       rlwinm. r5,r11,0,pfNoL2PFNapb,pfNoL2PFNapb      ; Turn off L2 Prefetch before sleep?
                        beq     mpsL2PFok
 
                        mfspr   r5,msscr0                                               ; Get currect MSSCR0 value
-                       rlwinm  r5,r5,0,0,l2pfes-1                                      ; Dissable L2 Prefetch
+                       rlwinm  r5,r5,0,0,l2pfes-1                              ; Disable L2 Prefetch
                        mtspr   msscr0,r5                                               ; Updates MSSCR0 value
                        sync
                        isync
 
 mpsL2PFok:
+                       bt++    pf64Bitb,mpsPF64bit                             ; PM bits are shifted on 64bit systems.
+
+                       rlwinm  r4,r4,0,sleep+1,doze-1                  ; Clear all possible power-saving modes (not DPM though)
+                       oris    r4,r4,hi16(sleepm)                              ; Set sleep
+                       b               mpsClearDEC
+
+mpsPF64bit:
+                       lis             r5, hi16(dozem|napm|sleepm)             ; Clear all possible power-saving modes (not DPM though)
+                       sldi    r5, r5, 32
+                       andc    r4, r4, r5
+                       lis             r5, hi16(napm)                                  ; Set sleep
+                       sldi    r5, r5, 32
+                       or              r4, r4, r5
+
+mpsClearDEC:
                        mfmsr   r5                                                              ; Get the current MSR
                        rlwinm  r10,r10,0,1,31                                  ; Make 0x7FFFFFFF
-                       rlwinm  r4,r4,0,sleep+1,doze-1                  ; Clear all possible power-saving modes (not DPM though)        
                        mtdec   r10                                                             ; Load decrimenter with 0x7FFFFFFF
                        isync                                                                   ; and make sure,
                        mfdec   r9                                                              ; really sure, it gets there
                        
-                       mtcrf   0x07,r11                                                ; Get the cache flags, etc
-
-                       oris    r4,r4,hi16(sleepm)                              ; Set sleep
+                       li              r2,1                                                    ; Prepare for 64 bit
                        rlwinm  r5,r5,0,MSR_DR_BIT+1,MSR_IR_BIT-1       ; Turn off translation          
 ;
 ;                      Note that we need translation off before we set the HID to sleep.  Otherwise
 ;                      we will ignore any PTE misses that occur and cause an infinite loop.
 ;
+                       bf++    pf64Bitb,mpsCheckMSR                    ; check 64-bit processor
+                       rldimi  r5,r2,63,MSR_SF_BIT                             ; set SF bit (bit 0)
+                       mtmsrd  r5                                                              ; set 64-bit mode, turn off EE, DR, and IR
+                       isync                                                                   ; Toss prefetch                           
+                       b               mpsNoMSRx
+
+mpsCheckMSR:
                        bt              pfNoMSRirb,mpsNoMSR                             ; No MSR...
 
                        mtmsr   r5                                                              ; Translation off
@@ -522,6 +1073,12 @@ mpsNoMSRx:
                        ori             r3,r5,lo16(MASK(MSR_EE))                ; Flip on EE
                        sync
                        mtspr   hid0,r4                                                 ; Set up the HID to sleep
+                       mfspr   r4,hid0                                                 ; Yes, this is silly, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
 
                        mtmsr   r3                                                              ; Enable for interrupts to drain decrimenter
                                
@@ -543,10 +1100,30 @@ mpsNoMSRx:
                        mfmsr   r5                                                              ; Get the current MSR
                        oris    r5,r5,hi16(MASK(MSR_POW))               ; Turn on power management in next MSR
                                                                                                        ; Leave EE off because power goes off shortly
-
-slSleepNow:    sync                                                                    ; Sync it all up
+                       mfsprg  r12,0                                                   ; Get the per_proc_info
+                       li              r10,PP_CPU_FLAGS
+                       lhz             r11,PP_CPU_FLAGS(r12)                   ; Get the flags
+                       ori             r11,r11,SleepState                              ; Marked SleepState
+                       sth             r11,PP_CPU_FLAGS(r12)                   ; Set the flags
+                       dcbf    r10,r12
+                       
+                       mfsprg  r11,2                                                   ; Get CPU specific features
+                       rlwinm. r0,r11,0,pf64Bitb,pf64Bitb              ; Test for 64 bit processor
+                       eqv             r4,r4,r4                                                ; Get all foxes
+                       rlwinm  r4,r4,0,1,31                                    ; Make 0x7FFFFFFF
+                       beq             slSleepNow                                              ; skip if 32-bit...
+                       li              r3, 0x4000                                              ; Cause decrimenter to roll over soon
+                       mtdec   r3                                                              ; Load decrimenter with 0x00004000
+                       isync                                                                   ; and make sure,
+                       mfdec   r3                                                              ; really sure, it gets there
+                       
+slSleepNow:
+                       sync                                                                    ; Sync it all up
                        mtmsr   r5                                                              ; Do sleep with interruptions enabled
                        isync                                                                   ; Take a pill
+                       mtdec   r4                                                              ; Load decrimenter with 0x7FFFFFFF
+                       isync                                                                   ; and make sure,
+                       mfdec   r3                                                              ; really sure, it gets there
                        b               slSleepNow                                              ; Go back to sleep if we wake up...
                        
 
@@ -576,14 +1153,25 @@ LEXT(cacheInit)
                        
                        mfsprg  r11,2                                                   ; Get CPU specific features
                        mfmsr   r7                                                              ; Get the current MSR
-                       rlwinm  r4,r9,0,dpm+1,doze-1                    ; Clear all possible power-saving modes (also disable DPM)      
                        rlwinm  r7,r7,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
                        rlwinm  r7,r7,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
                        rlwimi  r11,r11,pfLClckb+1,31,31                ; Move pfLClck to another position (to keep from using non-volatile CRs)
                        rlwinm  r5,r7,0,MSR_DR_BIT+1,MSR_IR_BIT-1       ; Turn off translation          
                        rlwinm  r5,r5,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Turn off interruptions
                        mtcrf   0x87,r11                                                ; Get the feature flags
+                       lis             r10,hi16(dozem|napm|sleepm|dpmm)        ; Mask of power management bits
+                       bf--    pf64Bitb,cIniNSF1                               ; Skip if 32-bit...
+                       
+                       sldi    r10,r10,32                                              ; Position the masks
+
+cIniNSF1:      andc    r4,r9,r10                                               ; Clean up the old power bits           
                        mtspr   hid0,r4                                                 ; Set up the HID
+                       mfspr   r4,hid0                                                 ; Yes, this is silly, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r4,hid0                                                 ; Yes, this is a duplicate, keep it here
 
                        bt              pfNoMSRirb,ciNoMSR                              ; No MSR...
 
@@ -602,11 +1190,12 @@ ciNoMSRx:
                        dssall                                                                  ; Stop streams
                        sync
 
-cinoDSS:       lis             r5,hi16(EXT(tlb_system_lock))   ; Get the TLBIE lock
+cinoDSS:       li              r5,tlbieLock                                    ; Get the TLBIE lock
                        li              r0,128                                                  ; Get number of TLB entries
-                       ori             r5,r5,lo16(EXT(tlb_system_lock))        ; Grab up the bottom part
                        
                        li              r6,0                                                    ; Start at 0
+                       bf--    pf64Bitb,citlbhang                              ; Skip if 32-bit...
+                       li              r0,1024                                                 ; Get the number of TLB entries
 
 citlbhang:     lwarx   r2,0,r5                                                 ; Get the TLBIE lock
                        mr.             r2,r2                                                   ; Is it locked?
@@ -630,14 +1219,19 @@ cipurgeTLB:      tlbie   r6                                                              ; Purge this entry
                        sync
                        isync
                        
-cinoSMP:       stw             r2,0(r5)                                                ; Unlock TLBIE lock
+                       bf--    pf64Bitb,cinoSMP                                ; Skip if 32-bit...
+                       ptesync                                                                 ; Wait for quiet again
+                       sync
+                       
+cinoSMP:       stw             r2,tlbieLock(0)                                 ; Unlock TLBIE lock
+
+                       bt++    pf64Bitb,cin64                                  ; Skip if 64-bit...
 
-                       cror    cr0_eq,pfL1ib,pfL1db                    ; Check for either I- or D-cache
-                       bf-             cr0_eq,cinoL1                                   ; No level 1 to flush...
                        rlwinm. r0,r9,0,ice,dce                                 ; Were either of the level 1s on?
                        beq-    cinoL1                                                  ; No, no need to flush...
                        
-                       bf              pfL1fab,ciswdl1                                 ; If no hw flush assist, go do by software...
+            rlwinm.    r0,r11,0,pfL1fab,pfL1fab                ; do we have L1 flush assist?
+                       beq             ciswdl1                                                 ; If no hw flush assist, go do by software...
                        
                        mfspr   r8,msscr0                                               ; Get the memory system control register
                        oris    r8,r8,hi16(dl1hwfm)                             ; Turn on the hardware flush request
@@ -761,7 +1355,9 @@ cinoL1:
 ;
 ;                      Flush and disable the level 2
 ;
-                       bf              pfL2b,cinol2                                    ; No level 2 cache to flush
+            mfsprg     r10,2                                                   ; need to check 2 features we did not put in CR
+            rlwinm.    r0,r10,0,pfL2b,pfL2b                    ; do we have L2?
+                       beq             cinol2                                                  ; No level 2 cache to flush
 
                        mfspr   r8,l2cr                                                 ; Get the L2CR
                        lwz             r3,pfl2cr(r12)                                  ; Get the L2CR value
@@ -776,7 +1372,8 @@ cinoL1:
                        bne-    ciinvdl2                                                ; Yes, just invalidate and get PLL synced...            
                        
 ciflushl2:
-                       bf              pfL2fab,ciswfl2                                 ; Flush not in hardware...
+            rlwinm.    r0,r10,0,pfL2fab,pfL2fab                ; hardware-assisted L2 flush?
+                       beq             ciswfl2                                                 ; Flush not in hardware...
                        
                        mr              r10,r8                                                  ; Take a copy now
                        
@@ -827,7 +1424,7 @@ ciswfldl2a:        lwz             r0,0(r10)                                               ; Load something to flush something
                        addi    r10,r10,32                                              ; Next line
                        bdnz    ciswfldl2a                                              ; Do the lot...
                        
-ciinvdl2:      rlwinm  r8,r3,0,l2e+1,31                                ; Use the saved L2CR and clear the enable bit
+ciinvdl2:      rlwinm  r8,r3,0,l2e+1,31                                ; Clear the enable bit
                        b               cinla                                                   ; Branch to next line...
 
                        .align  5
@@ -854,7 +1451,9 @@ ciinvl2:   sync
                        sync
                        isync
 ciinvdl2a:     mfspr   r2,l2cr                                                 ; Get the L2CR
-                       bf              pfL2ib,ciinvdl2b                                ; Flush not in hardware...
+            mfsprg     r0,2                                                    ; need to check a feature in "non-volatile" set
+            rlwinm.    r0,r0,0,pfL2ib,pfL2ib                   ; flush in HW?
+                       beq             ciinvdl2b                                               ; Flush not in hardware...
                        rlwinm. r2,r2,0,l2i,l2i                                 ; Is the invalidate still going?
                        bne+    ciinvdl2a                                               ; Assume so, this will take a looong time...
                        sync
@@ -906,7 +1505,7 @@ cihwfl3:   mfspr   r10,l3cr                                                ; Get back the L3CR
                        rlwinm. r10,r10,0,l3hwf,l3hwf                   ; Is the flush over?
                        bne+    cihwfl3                                                 ; Nope, keep going...
 
-ciinvdl3:      rlwinm  r8,r3,0,l3e+1,31                                ; Use saved L3CR value and clear the enable bit
+ciinvdl3:      rlwinm  r8,r3,0,l3e+1,31                                ; Clear the enable bit
                        sync                                                                    ; Make sure of life, liberty, and justice
                        mtspr   l3cr,r8                                                 ; Disable L3
                        sync
@@ -956,11 +1555,13 @@ ciinvdl3c:       addi    r2,r2,-1                                                ; ?
                        mtspr   l3cr,r3                                                 ; Enable it as desired
                        sync
 cinol3:
-                       bf              pfL2b,cinol2a                                   ; No level 2 cache to enable
+            mfsprg     r0,2                                                    ; need to check a feature in "non-volatile" set
+            rlwinm.    r0,r0,0,pfL2b,pfL2b                             ; is there an L2 cache?
+                       beq             cinol2a                                                 ; No level 2 cache to enable
 
                        lwz             r3,pfl2cr(r12)                                  ; Get the L2CR value
                        cmplwi          r3, 0                                           ; Should the L2 be all the way off?
-                       beq             cinol2a                                         : Yes, done with L2
+                       beq             cinol2a                                                 : Yes, done with L2
                        mtspr   l2cr,r3                                                 ; Enable it as desired
                        sync
 
@@ -989,6 +1590,157 @@ cinoexit:        mtspr   hid0,r9                                                 ; Turn off the invalidate (needed for some older m
                        blr                                                                             ; Return...
 
 
+;
+;                      Handle 64-bit architecture
+;                      This processor can not run without caches, so we just push everything out
+;                      and flush.  It will be relativily clean afterwards
+;
+                       
+                       .align  5
+                       
+cin64:         
+                       mfspr   r10,hid1                                                ; Save hid1
+                       mfspr   r4,hid4                                                 ; Save hid4
+                       mr              r12,r10                                                 ; Really save hid1
+                       mr              r11,r4                                                  ; Get a working copy of hid4
+
+                       li              r0,0                                                    ; Get a 0
+                       eqv             r2,r2,r2                                                ; Get all foxes
+                       
+                       rldimi  r10,r0,55,7                                             ; Clear I$ prefetch bits (7:8)
+                       
+                       isync
+                       mtspr   hid1,r10                                                ; Stick it
+                       mtspr   hid1,r10                                                ; Stick it again
+                       isync
+
+                       rldimi  r11,r2,38,25                                    ; Disable D$ prefetch (25:25)
+                       
+                       sync
+                       mtspr   hid4,r11                                                ; Stick it
+                       isync
+
+                       li              r3,8                                                    ; Set bit 28+32
+                       sldi    r3,r3,32                                                ; Make it bit 28
+                       or              r3,r3,r11                                               ; Turn on the flash invalidate L1D$
+                       
+                       oris    r5,r11,0x0600                                   ; Set disable L1D$ bits         
+                       sync
+                       mtspr   hid4,r3                                                 ; Invalidate
+                       isync
+       
+                       mtspr   hid4,r5                                                 ; Un-invalidate and disable L1D$
+                       isync
+                       
+                       lis             r8,GUSModeReg                                   ; Get the GUS mode ring address
+                       mfsprg  r0,2                                                    ; Get the feature flags
+                       ori             r8,r8,0x8000                                    ; Set to read data
+                       rlwinm. r0,r0,pfSCOMFixUpb+1,31,31              ; Set shift if we need a fix me up
+
+                       sync
+
+                       mtspr   scomc,r8                                                ; Request the GUS mode
+                       mfspr   r11,scomd                                               ; Get the GUS mode
+                       mfspr   r8,scomc                                                ; Get back the status (we just ignore it)
+                       sync
+                       isync                                                   
+
+                       sld             r11,r11,r0                                              ; Fix up if needed
+
+                       ori             r6,r11,lo16(GUSMdmapen)                 ; Set the bit that means direct L2 cache address
+                       lis             r8,GUSModeReg                                   ; Get GUS mode register address
+                               
+                       sync
+
+                       mtspr   scomd,r6                                                ; Set that we want direct L2 mode
+                       mtspr   scomc,r8                                                ; Tell GUS we want direct L2 mode
+                       mfspr   r3,scomc                                                ; Get back the status
+                       sync
+                       isync                                                   
+
+                       li              r3,0                                                    ; Clear start point
+               
+cflushlp:      lis             r6,0x0040                                               ; Pick 4MB line as our target
+                       or              r6,r6,r3                                                ; Put in the line offset
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+                       addis   r6,r6,8                                                 ; Roll bit 42:44
+                       lwz             r5,0(r6)                                                ; Load a line
+
+                       addi    r3,r3,128                                               ; Next line
+                       andis.  r5,r3,8                                                 ; Have we done enough?
+                       beq++   cflushlp                                                ; Not yet...
+                       
+                       sync
+
+                       lis             r6,0x0040                                               ; Pick 4MB line as our target
+
+cflushx:       dcbf    0,r6                                                    ; Flush line and invalidate
+                       addi    r6,r6,128                                               ; Next line
+                       andis.  r5,r6,0x0080                                    ; Have we done enough?
+                       beq++   cflushx                                                 ; Keep on flushing...
+
+                       mr              r3,r10                                                  ; Copy current hid1
+                       rldimi  r3,r2,54,9                                              ; Set force icbi match mode
+                       
+                       li              r6,0                                                    ; Set start if ICBI range
+                       isync
+                       mtspr   hid1,r3                                                 ; Stick it
+                       mtspr   hid1,r3                                                 ; Stick it again
+                       isync
+
+cflicbi:       icbi    0,r6                                                    ; Kill I$
+                       addi    r6,r6,128                                               ; Next line
+                       andis.  r5,r6,1                                                 ; Have we done them all?
+                       beq++   cflicbi                                                 ; Not yet...
+
+                       lis             r8,GUSModeReg                                   ; Get GUS mode register address
+                               
+                       sync
+
+                       mtspr   scomd,r11                                               ; Set that we do not want direct mode
+                       mtspr   scomc,r8                                                ; Tell GUS we do not want direct mode
+                       mfspr   r3,scomc                                                ; Get back the status
+                       sync
+                       isync                                                   
+
+                       isync
+                       mtspr   hid0,r9                                                 ; Restore entry hid0
+                       mfspr   r9,hid0                                                 ; Yes, this is silly, keep it here
+                       mfspr   r9,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r9,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r9,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r9,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       mfspr   r9,hid0                                                 ; Yes, this is a duplicate, keep it here
+                       isync
+
+                       isync
+                       mtspr   hid1,r12                                                ; Restore entry hid1
+                       mtspr   hid1,r12                                                ; Stick it again
+                       isync
+               
+                       sync
+                       mtspr   hid4,r4                                                 ; Restore entry hid4
+                       isync
+
+                       sync
+                       mtmsr   r7                                                              ; Restore MSR to entry
+                       isync
+                       blr                                                                             ; Return...
+                       
+                       
+
 /*  Disables all caches
  *
  *     void cacheDisable(void)
@@ -1012,13 +1764,16 @@ LEXT(cacheDisable)
                        
 cdNoAlt:       sync
                        
+                       btlr    pf64Bitb                                                ; No way to disable a 64-bit machine...
+                       
                        mfspr   r5,hid0                                                 ; Get the hid
                        rlwinm  r5,r5,0,dce+1,ice-1                             ; Clear the I- and D- cache enables
                        mtspr   hid0,r5                                                 ; Turn off dem caches
                        sync
 
-                       bf              pfL2b,cdNoL2                                    ; Skip if no L2...
-                       
+            rlwinm.    r0,r11,0,pfL2b,pfL2b                    ; is there an L2?
+                       beq             cdNoL2                                                  ; Skip if no L2...
+
                        mfspr   r5,l2cr                                                 ; Get the L2
                        rlwinm  r5,r5,0,l2e+1,31                                ; Turn off enable bit
 
@@ -1037,7 +1792,7 @@ cinlbb:           sync                                                                    ; Finish memory stuff
                        b               cinlcc                                                  ; Jump back up and turn off cache...
 
 cdNoL2:
-                       
+
                        bf              pfL3b,cdNoL3                                    ; Skip down if no L3...
                        
                        mfspr   r5,l3cr                                                 ; Get the L3
@@ -1053,10 +1808,7 @@ cdNoL3:
 /*  Initialize processor thermal monitoring  
  *     void ml_thrm_init(void)
  *
- *     Build initial TAU registers and start them all going.
- *     We ca not do this at initial start up because we need to have the processor frequency first.
- *     And just why is this in assembler when it does not have to be?? Cause I am just too 
- *     lazy to open up a "C" file, thats why.
+ *     Obsolete, deprecated and will be removed.
  */
 
 ;                      Force a line boundry here
@@ -1064,53 +1816,12 @@ cdNoL3:
                        .globl  EXT(ml_thrm_init)
 
 LEXT(ml_thrm_init)
-
-                       mfsprg  r12,0                                                   ; Get the per_proc blok
-                       lis             r11,hi16(EXT(gPEClockFrequencyInfo))    ; Get top of processor information
-                       mfsprg  r10,2                                                   ; Get CPU specific features
-                       ori             r11,r11,lo16(EXT(gPEClockFrequencyInfo))        ; Get bottom of processor information
-                       mtcrf   0x40,r10                                                ; Get the installed features
-
-                       li              r3,lo16(thrmtidm|thrmvm)                ; Set for lower-than thermal event at 0 degrees
-                       bflr    pfThermalb                                              ; No thermal monitoring on this cpu
-                       mtspr   thrm1,r3                                                ; Do it
-
-                       lwz             r3,thrmthrottleTemp(r12)                ; Get our throttle temprature
-                       rlwinm  r3,r3,31-thrmthre,thrmthrs,thrmthre     ; Position it
-                       ori             r3,r3,lo16(thrmvm)                              ; Set for higher-than event 
-                       mtspr   thrm2,r3                                                ; Set it
-
-                       lis             r4,hi16(1000000)                                ; Top of million
-;
-;                      Note: some CPU manuals say this is processor clocks, some say bus rate.  The latter
-;                      makes more sense because otherwise we can not get over about 400MHz.
-#if 0
-                       lwz             r3,PECFIcpurate(r11)                            ; Get the processor speed
-#else
-                       lwz             r3,PECFIbusrate(r11)                            ; Get the bus speed
-#endif
-                       ori             r4,r4,lo16(1000000)                             ; Bottom of million
-                       lis             r7,hi16(thrmsitvm>>1)                   ; Get top of highest possible value
-                       divwu   r3,r3,r4                                                ; Get number of cycles per microseconds
-                       ori             r7,r7,lo16(thrmsitvm>>1)                ; Get the bottom of the highest possible value
-                       addi    r3,r3,1                                                 ; Insure we have enough
-                       mulli   r3,r3,20                                                ; Get 20 microseconds worth of cycles
-                       cmplw   r3,r7                                                   ; Check against max
-                       ble+    smallenuf                                               ; It is ok...
-                       mr              r3,r7                                                   ; Saturate
-                       
-smallenuf:     rlwinm  r3,r3,31-thrmsitve,thrmsitvs,thrmsitve  ; Position                      
-                       ori             r3,r3,lo16(thrmem)                              ; Enable with at least 20micro sec sample
-                       stw             r3,thrm3val(r12)                                ; Save this in case we need it later
-                       mtspr   thrm3,r3                                                ; Do it
                        blr
 
-
 /*  Set thermal monitor bounds 
  *     void ml_thrm_set(unsigned int low, unsigned int high)
  *
- *     Set TAU to interrupt below low and above high.  A value of
- *     zero disables interruptions in that direction.
+ *     Obsolete, deprecated and will be removed.
  */
 
 ;                      Force a line boundry here
@@ -1118,42 +1829,12 @@ smallenuf:      rlwinm  r3,r3,31-thrmsitve,thrmsitvs,thrmsitve  ; Position
                        .globl  EXT(ml_thrm_set)
 
 LEXT(ml_thrm_set)
-
-                       mfmsr   r0                                                              ; Get the MSR
-                       rlwinm  r0,r0,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r0,r0,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r6,r0,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Clear EE bit
-                       mtmsr   r6
-                       isync
-
-                       mfsprg  r12,0                                                   ; Get the per_proc blok
-
-                       rlwinm. r6,r3,31-thrmthre,thrmthrs,thrmthre     ; Position it and see if enabled
-                       mfsprg  r9,2                                                    ; Get CPU specific features
-                       stw             r3,thrmlowTemp(r12)                             ; Set the low temprature
-                       mtcrf   0x40,r9                                                 ; See if we can thermal this machine
-                       rlwinm  r9,r9,(((31-thrmtie)+(pfThermIntb+1))&31),thrmtie,thrmtie       ; Set interrupt enable if this machine can handle it
-                       bf              pfThermalb,tsetcant                             ; No can do...
-                       beq             tsetlowo                                                ; We are setting the low off...
-                       ori             r6,r6,lo16(thrmtidm|thrmvm)             ; Set the lower-than and valid bit
-                       or              r6,r6,r9                                                ; Set interruption request if supported
-
-tsetlowo:      mtspr   thrm1,r6                                                ; Cram the register
-                       
-                       rlwinm. r6,r4,31-thrmthre,thrmthrs,thrmthre     ; Position it and see if enabled
-                       stw             r4,thrmhighTemp(r12)                    ; Set the high temprature
-                       beq             tsethigho                                               ; We are setting the high off...
-                       ori             r6,r6,lo16(thrmvm)                              ; Set valid bit
-                       or              r6,r6,r9                                                ; Set interruption request if supported
-
-tsethigho:     mtspr   thrm2,r6                                                ; Cram the register
-
-tsetcant:      mtmsr   r0                                                              ; Reenable interruptions
-                       blr                                                                             ; Leave...
+                       blr
 
 /*  Read processor temprature  
  *     unsigned int ml_read_temp(void)
  *
+ *     Obsolete, deprecated and will be removed.
  */
 
 ;                      Force a line boundry here
@@ -1161,57 +1842,8 @@ tsetcant:        mtmsr   r0                                                              ; Reenable interruptions
                        .globl  EXT(ml_read_temp)
 
 LEXT(ml_read_temp)
-
-                       mfmsr   r9                                                              ; Save the MSR
-                       li              r5,15                                                   ; Starting point for ranging (start at 15 so we do not overflow)
-                       rlwinm  r9,r9,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r9,r9,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r8,r9,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Turn off interruptions
-                       mfsprg  r7,2                                                    ; Get CPU specific features
-                       mtmsr   r8                                                              ; Do not allow interruptions
-                       mtcrf   0x40,r7                                                 ; See if we can thermal this machine
-                       bf              pfThermalb,thrmcant                             ; No can do...
-
-                       mfspr   r11,thrm1                                               ; Save thrm1
-
-thrmrange:     rlwinm  r4,r5,31-thrmthre,thrmthrs,thrmthre     ; Position it
-                       ori             r4,r4,lo16(thrmtidm|thrmvm)             ; Flip on the valid bit and make comparision for less than
-
-                       mtspr   thrm1,r4                                                ; Set the test value
-                       
-thrmreada:     mfspr   r3,thrm1                                                ; Get the thermal register back
-                       rlwinm. r0,r3,0,thrmtiv,thrmtiv                 ; Has it settled yet?
-                       beq+    thrmreada                                               ; Nope...
-
-                       rlwinm. r0,r3,0,thrmtin,thrmtin                 ; Are we still under the threshold?
-                       bne             thrmsearch                                              ; No, we went over...
-
-                       addi    r5,r5,16                                                ; Start by trying every 16 degrees
-                       cmplwi  r5,127                                                  ; Have we hit the max?
-                       blt-    thrmrange                                               ; Got some more to do...
-
-thrmsearch:    rlwinm  r4,r5,31-thrmthre,thrmthrs,thrmthre     ; Position it
-                       ori             r4,r4,lo16(thrmtidm|thrmvm)             ; Flip on the valid bit and make comparision for less than
-                       
-                       mtspr   thrm1,r4                                                ; Set the test value
-                       
-thrmread:      mfspr   r3,thrm1                                                ; Get the thermal register back
-                       rlwinm. r0,r3,0,thrmtiv,thrmtiv                 ; Has it settled yet?
-                       beq+    thrmread                                                ; Nope...
-                       
-                       rlwinm. r0,r3,0,thrmtin,thrmtin                 ; Are we still under the threshold?
-                       beq             thrmdone                                                ; No, we hit it...
-                       addic.  r5,r5,-1                                                ; Go down a degree
-                       bge+    thrmsearch                                              ; Try again (until we are below freezing)...
-                       
-thrmdone:      addi    r3,r5,1                                                 ; Return the temprature (bump it up to make it correct)
-                       mtspr   thrm1,r11                                               ; Restore the thermal register
-                       mtmsr   r9                                                              ; Re-enable interruptions
-                       blr                                                                             ; Leave...
-                       
-thrmcant:      eqv             r3,r3,r3                                                ; Return bogus temprature because we can not read it
-                       mtmsr   r9                                                              ; Re-enable interruptions
-                       blr                                                                             ; Leave...
+                       li              r3,-1
+                       blr
 
 /*  Throttle processor speed up or down
  *     unsigned int ml_throttle(unsigned int step)
@@ -1219,6 +1851,7 @@ thrmcant: eqv             r3,r3,r3                                                ; Return bogus temprature because we can not read i
  *     Returns old speed and sets new.  Both step and return are values from 0 to
  *     255 that define number of throttle steps, 0 being off and "ictcfim" is max * 2.
  *
+ *     Obsolete, deprecated and will be removed.
  */
 
 ;                      Force a line boundry here
@@ -1226,26 +1859,8 @@ thrmcant:        eqv             r3,r3,r3                                                ; Return bogus temprature because we can not read i
                        .globl  EXT(ml_throttle)
 
 LEXT(ml_throttle)
-
-                       mfmsr   r9                                                              ; Save the MSR
-                       rlwinm  r9,r9,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-                       rlwinm  r9,r9,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-                       rlwinm  r8,r9,0,MSR_EE_BIT+1,MSR_EE_BIT-1       ; Turn off interruptions
-                       cmplwi  r3,lo16(ictcfim>>1)                             ; See if we are going too far                                   
-                       mtmsr   r8                                                              ; Do not allow interruptions    
-                       isync           
-                       ble+    throtok                                                 ; Throttle value is ok...
-                       li              r3,lo16(ictcfim>>1)                             ; Set max
-
-throtok:       rlwinm. r4,r3,1,ictcfib,ictcfie                 ; Set the throttle
-                       beq             throtoff                                                ; Skip if we are turning it off...
-                       ori             r4,r4,lo16(thrmvm)                              ; Turn on the valid bit
-                       
-throtoff:      mfspr   r3,ictc                                                 ; Get the old throttle
-                       mtspr   ictc,r4                                                 ; Set the new
-                       rlwinm  r3,r3,31,1,31                                   ; Shift throttle value over
-                       mtmsr   r9                                                              ; Restore interruptions
-                       blr                                                                             ; Return...
+                       li              r3,0
+                       blr
 
 /*
 **      ml_get_timebase()
@@ -1262,36 +1877,121 @@ throtoff:      mfspr   r3,ictc                                                 ; Get the old throttle
 LEXT(ml_get_timebase)
 
 loop:
-        mftbu   r4
-        mftb    r5
-        mftbu   r6
-        cmpw    r6, r4
-        bne-    loop
+                       mftbu   r4
+                       mftb    r5
+                       mftbu   r6
+                       cmpw    r6, r4
+                       bne-    loop
+                       
+                       stw     r4, 0(r3)
+                       stw     r5, 4(r3)
+                       
+                       blr
 
-        stw     r4, 0(r3)
-        stw     r5, 4(r3)
+/*
+ *             unsigned int cpu_number(void)
+ *
+ *                     Returns the current cpu number. 
+ */
 
-        blr
+                       .align  5
+                       .globl  EXT(cpu_number)
+
+LEXT(cpu_number)
+                       mfsprg  r4,1                                                    ; Get the current activation
+                       lwz             r4,ACT_PER_PROC(r4)                             ; Get the per_proc block
+                       lhz             r3,PP_CPU_NUMBER(r4)                    ; Get CPU number 
+                       blr                                                                             ; Return...
 
 /*
- *             The routine that implements cpu_number.
+ *             processor_t current_processor(void)
+ *
+ *                     Returns the current processor. 
  */
 
-               .align  5
-               .globl  EXT(cpu_number)
-LEXT(cpu_number)
-               mfmsr   r9                                              /* Save the old MSR */
-               rlwinm  r9,r9,0,MSR_FP_BIT+1,MSR_FP_BIT-1       ; Force floating point off
-               rlwinm  r9,r9,0,MSR_VEC_BIT+1,MSR_VEC_BIT-1     ; Force vectors off
-               rlwinm  r8,r9,0,17,15                   /* Clear interruptions */
-               mtmsr   r8                                              /* Interrupts off */
-               isync
-               mfsprg  r7,0                                    /* Get per-proc block */
-               lhz             r3,PP_CPU_NUMBER(r7)    /* Get CPU number */
-               mtmsr   r9                                              /* Restore interruptions to entry */
-               blr                                                             /* Return... */
+                       .align  5
+                       .globl  EXT(current_processor)
+
+LEXT(current_processor)
+                       mfsprg  r3,1                                                    ; Get the current activation
+                       lwz             r3,ACT_PER_PROC(r3)                             ; Get the per_proc block
+                       addi    r3,r3,PP_PROCESSOR
+                       blr
+
+#if    PROCESSOR_SIZE > PP_PROCESSOR_SIZE
+#error processor overflows per_proc
+#endif
+
+/*
+ *             ast_t   *ast_pending(void)
+ *
+ *             Returns the address of the pending AST mask for the current processor.
+ */
+
+                       .align  5
+                       .globl  EXT(ast_pending)
+
+LEXT(ast_pending)
+                       mfsprg  r3,1                                                    ; Get the current activation
+                       lwz             r3,ACT_PER_PROC(r3)                             ; Get the per_proc block
+                       addi    r3,r3,PP_PENDING_AST
+                       blr                                                                             ; Return...
+
+/*
+ *             void machine_set_current_thread(thread_t)
+ *
+ *                     Set the current thread
+ */
+                       .align  5
+                       .globl  EXT(machine_set_current_thread)
+
+LEXT(machine_set_current_thread)
+
+                       mfsprg  r4,1                                                    ; Get spr1
+                       lwz             r5,ACT_PER_PROC(r4)                             ; Get the PerProc from the previous active thread
+                       stw             r5,ACT_PER_PROC(r3)                             ; Set the PerProc in the active thread
+                       mtsprg  1,r3                                                    ; Set spr1 with the active thread
+                       blr                                                                             ; Return...
+
+/*
+ *             thread_t current_thread(void)
+ *             thread_t current_act(void)
+ *
+ *
+ *                     Return the current thread for outside components.
+ */
+                       .align  5
+                       .globl  EXT(current_thread)
+                       .globl  EXT(current_act)
+
+LEXT(current_thread)
+LEXT(current_act)
+
+                       mfsprg  r3,1
+                       blr
+
+                       .align  5
+                       .globl  EXT(clock_get_uptime)
+LEXT(clock_get_uptime)
+1:                     mftbu   r9
+                       mftb    r0
+                       mftbu   r11
+                       cmpw    r11,r9
+                       bne--   1b
+                       stw             r0,4(r3)
+                       stw             r9,0(r3)
+                       blr
+
+               
+                       .align  5
+                       .globl  EXT(mach_absolute_time)
+LEXT(mach_absolute_time)
+1:                     mftbu   r3
+                       mftb    r4
+                       mftbu   r0
+                       cmpw    r0,r3
+                       bne--   1b  
+                       blr
 
 /*
 **      ml_sense_nmi()
@@ -1306,42 +2006,157 @@ LEXT(ml_sense_nmi)
                        blr                                                                             ; Leave...
 
 /*
-**      ml_set_processor_speed()
+**      ml_set_processor_speed_powertune()
 **
 */
 ;                      Force a line boundry here
                        .align  5
-                       .globl  EXT(ml_set_processor_speed)
+                       .globl  EXT(ml_set_processor_speed_powertune)
+
+LEXT(ml_set_processor_speed_powertune)
+                       mflr    r0                                                                              ; Save the link register
+                       stwu    r1, -(FM_ALIGN(4*4)+FM_SIZE)(r1)                ; Make some space on the stack
+                       stw             r28, FM_ARG0+0x00(r1)                                   ; Save a register
+                       stw             r29, FM_ARG0+0x04(r1)                                   ; Save a register
+                       stw             r30, FM_ARG0+0x08(r1)                                   ; Save a register
+                       stw             r31, FM_ARG0+0x0C(r1)                                   ; Save a register
+                       stw             r0, (FM_ALIGN(4*4)+FM_SIZE+FM_LR_SAVE)(r1)      ; Save the return
+
+                       mfsprg  r31,1                                                                   ; Get the current activation
+                       lwz             r31,ACT_PER_PROC(r31)                                   ; Get the per_proc block
+
+                       rlwinm  r28, r3, 31-dnap, dnap, dnap                    ; Shift the 1 bit to the dnap+32 bit
+                       rlwinm  r3, r3, 2, 29, 29                                               ; Shift the 1 to a 4 and mask
+                       addi    r3, r3, pfPowerTune0                                    ; Add in the pfPowerTune0 offset
+                       lwzx    r29, r31, r3                                                    ; Load the PowerTune number 0 or 1
+
+                       sldi    r28, r28, 32                                                    ; Shift to the top half
+                       ld              r3, pfHID0(r31)                                                 ; Load the saved hid0 value
+                       and             r28, r28, r3                                                    ; Save the dnap bit
+                       lis             r4, hi16(dnapm)                                                 ; Make a mask for the dnap bit
+                       sldi    r4, r4, 32                                                              ; Shift to the top half
+                       andc    r3, r3, r4                                                              ; Clear the dnap bit
+                       or              r28, r28, r3                                                    ; Insert the dnap bit as needed for later
 
-LEXT(ml_set_processor_speed)
-                       mfsprg  r5, 0                                                           ; Get the per_proc_info
+                       sync
+                       mtspr   hid0, r3                                                                ; Turn off dnap in hid0
+                       mfspr   r3, hid0                                                                ; Yes, this is silly, keep it here
+                       mfspr   r3, hid0                                                                ; Yes, this is a duplicate, keep it here
+                       mfspr   r3, hid0                                                                ; Yes, this is a duplicate, keep it here
+                       mfspr   r3, hid0                                                                ; Yes, this is a duplicate, keep it here
+                       mfspr   r3, hid0                                                                ; Yes, this is a duplicate, keep it here
+                       mfspr   r3, hid0                                                                ; Yes, this is a duplicate, keep it here
+                       isync                                                                                   ; Make sure it is set
+
+                       lis             r3, hi16(PowerTuneControlReg)                   ; Write zero to the PCR
+                       ori             r3, r3, lo16(PowerTuneControlReg)
+                       li              r4, 0
+                       li              r5, 0
+                       bl              _ml_scom_write
+
+                       lis             r3, hi16(PowerTuneControlReg)                   ; Write the PowerTune value to the PCR
+                       ori             r3, r3, lo16(PowerTuneControlReg)
+                       li              r4, 0
+                       mr              r5, r29
+                       bl              _ml_scom_write
+
+                       rlwinm  r29, r29, 13-6, 6, 7                                    ; Move to PSR speed location and isolate the requested speed
+spsPowerTuneLoop:
+                       lis             r3, hi16(PowerTuneStatusReg)                    ; Read the status from the PSR
+                       ori             r3, r3, lo16(PowerTuneStatusReg)
+                       li              r4, 0
+                       bl              _ml_scom_read
+                       srdi    r5, r5, 32
+                       rlwinm  r0, r5, 0, 6, 7                                                 ; Isolate the current speed
+                       rlwimi  r0, r5, 0, 2, 2                                                 ; Copy in the change in progress bit
+                       cmpw    r0, r29                                                                 ; Compare the requested and current speeds
+                       beq             spsPowerTuneDone
+                       rlwinm. r0, r5, 0, 3, 3
+                       beq             spsPowerTuneLoop
+
+spsPowerTuneDone:
+                       sync
+                       mtspr   hid0, r28                                                               ; Turn on dnap in hid0 if needed
+                       mfspr   r28, hid0                                                               ; Yes, this is silly, keep it here
+                       mfspr   r28, hid0                                                               ; Yes, this is a duplicate, keep it here
+                       mfspr   r28, hid0                                                               ; Yes, this is a duplicate, keep it here
+                       mfspr   r28, hid0                                                               ; Yes, this is a duplicate, keep it here
+                       mfspr   r28, hid0                                                               ; Yes, this is a duplicate, keep it here
+                       mfspr   r28, hid0                                                               ; Yes, this is a duplicate, keep it here
+                       isync                                                                                   ; Make sure it is set
+
+                       lwz             r0, (FM_ALIGN(4*4)+FM_SIZE+FM_LR_SAVE)(r1)      ; Get the return
+                       lwz             r28, FM_ARG0+0x00(r1)                                   ; Restore a register
+                       lwz             r29, FM_ARG0+0x04(r1)                                   ; Restore a register
+                       lwz             r30, FM_ARG0+0x08(r1)                                   ; Restore a register
+                       lwz             r31, FM_ARG0+0x0C(r1)                                   ; Restore a register
+                       lwz             r1, FM_BACKPTR(r1)                                              ; Pop the stack
+                       mtlr    r0
+                       blr
+
+/*
+**      ml_set_processor_speed_dpll()
+**
+*/
+;                      Force a line boundry here
+                       .align  5
+                       .globl  EXT(ml_set_processor_speed_dpll)
 
-                       cmpli   cr0, r3, 0                                                      ; Turn off BTIC before low speed
-                       beq     sps1
-                       mfspr   r4, hid0                                                        ; Get the current hid0 value
-                       rlwinm  r4, r4, 0, btic+1, btic-1                                       ; Clear the BTIC bit
+LEXT(ml_set_processor_speed_dpll)
+                       mfsprg  r5,1                                                                    ; Get the current activation
+                       lwz             r5,ACT_PER_PROC(r5)                                             ; Get the per_proc block
+                       
+                       cmplwi  r3, 0                                                                   ; Turn off BTIC before low speed
+                       beq             spsDPLL1
+                       mfspr   r4, hid0                                                                ; Get the current hid0 value
+                       rlwinm  r4, r4, 0, btic+1, btic-1                               ; Clear the BTIC bit
                        sync
-                       mtspr   hid0, r4                                                        ; Set the new hid0 value
+                       mtspr   hid0, r4                                                                ; Set the new hid0 value
                        isync
                        sync
 
-sps1:
-                       mfspr   r4, hid1                                                        ; Get the current PLL settings
-                       rlwimi  r4, r3, 31-hid1ps, hid1ps, hid1ps                               ; Copy the PLL Select bit
-                       stw     r4, pfHID1(r5)                                                  ; Save the new hid1 value
-                       mtspr   hid1, r4                                                        ; Select desired PLL
+spsDPLL1:
+                       mfspr   r4, hid1                                                                ; Get the current PLL settings
+                       rlwimi  r4, r3, 31-hid1ps, hid1ps, hid1ps               ; Copy the PLL Select bit
+                       stw             r4, pfHID1(r5)                                                  ; Save the new hid1 value
+                       mtspr   hid1, r4                                                                ; Select desired PLL
 
-                       cmpli   cr0, r3, 0                                                      ; Restore BTIC after high speed
-                       bne     sps2
-                       lwz     r4, pfHID0(r5)                                                  ; Load the hid0 value
+                       cmplwi  r3, 0                                                                   ; Restore BTIC after high speed
+                       bne             spsDPLL2
+                       lwz             r4, pfHID0(r5)                                                  ; Load the hid0 value
                        sync
-                       mtspr   hid0, r4                                                        ; Set the hid0 value
+                       mtspr   hid0, r4                                                                ; Set the hid0 value
                        isync
                        sync
+spsDPLL2:
+                       blr
+
 
-sps2:
+/*
+**      ml_set_processor_speed_dfs(divideby)
+**                     divideby == 0 then divide by 1 (full speed)
+**                     divideby == 1 then divide by 2 (half speed)
+**                     divideby == 2 then divide by 4 (quarter speed)
+**                     divideby == 3 then divide by 4 (quarter speed) - preferred
+**
+*/
+;                      Force a line boundry here
+                       .align  5
+                       .globl  EXT(ml_set_processor_speed_dfs)
+
+LEXT(ml_set_processor_speed_dfs)
+
+                       mfspr   r4,hid1                                                                 ; Get the current HID1
+                       mfsprg  r5,0                                                                    ; Get the per_proc_info
+                       rlwimi  r4,r3,31-hid1dfs1,hid1dfs0,hid1dfs1             ; Stick the new divider bits in
+                       stw             r4,pfHID1(r5)                                                   ; Save the new hid1 value
+                       sync
+                       mtspr   hid1,r4                                                                 ; Set the new HID1
+                       sync
+                       isync
                        blr
 
+
 /*
 **      ml_set_processor_voltage()
 **
@@ -1351,8 +2166,149 @@ sps2:
                        .globl  EXT(ml_set_processor_voltage)
 
 LEXT(ml_set_processor_voltage)
-                       mfspr   r4, hid2                                                        ; Get HID2 value
-                       rlwimi  r4, r3, 31-hid2vmin, hid2vmin, hid2vmin                         ; Insert the voltage mode bit
-                       mtspr   hid2, r4                                                        ; Set the voltage mode
-                       sync                                                                    ; Make sure it is done
+                       mfsprg  r5,1                                                                    ; Get the current activation
+                       lwz             r5,ACT_PER_PROC(r5)                                             ; Get the per_proc block
+
+                       lwz             r6, pfPowerModes(r5)                                    ; Get the supported power modes
+
+                       rlwinm. r0, r6, 0, pmDPLLVminb, pmDPLLVminb             ; Is DPLL Vmin supported
+                       beq             spvDone
+
+                       mfspr   r4, hid2                                                                ; Get HID2 value
+                       rlwimi  r4, r3, 31-hid2vmin, hid2vmin, hid2vmin ; Insert the voltage mode bit
+                       mtspr   hid2, r4                                                                ; Set the voltage mode
+                       sync                                                                                    ; Make sure it is done
+
+spvDone:
                        blr
+
+
+;
+;                      unsigned int ml_scom_write(unsigned int reg, unsigned long long data)
+;                      64-bit machines only
+;                      returns status
+;
+
+                       .align  5
+                       .globl  EXT(ml_scom_write)
+
+LEXT(ml_scom_write)
+
+                       rldicr  r3,r3,8,47                                                      ; Align register it correctly
+                       rldimi  r5,r4,32,0                                                      ; Merge the high part of data
+                       sync                                                                            ; Clean up everything
+                       
+                       mtspr   scomd,r5                                                        ; Stick in the data
+                       mtspr   scomc,r3                                                        ; Set write to register
+                       sync
+                       isync                                   
+
+                       mfspr   r3,scomc                                                        ; Read back status
+                       blr                                                                                     ; leave....                                                     
+
+;
+;                      unsigned int ml_read_scom(unsigned int reg, unsigned long long *data)
+;                      64-bit machines only
+;                      returns status
+;                      ASM Callers: data (r4) can be zero and the 64 bit data will be returned in r5
+;
+
+                       .align  5
+                       .globl  EXT(ml_scom_read)
+
+LEXT(ml_scom_read)
+
+                       mfsprg  r0,2                                                            ; Get the feature flags
+                       rldicr  r3,r3,8,47                                                      ; Align register it correctly
+                       rlwinm  r0,r0,pfSCOMFixUpb+1,31,31                      ; Set shift if we need a fix me up
+                       
+                       ori             r3,r3,0x8000                                            ; Set to read data
+                       sync
+
+                       mtspr   scomc,r3                                                        ; Request the register
+                       mfspr   r5,scomd                                                        ; Get the register contents
+                       mfspr   r3,scomc                                                        ; Get back the status
+                       sync
+                       isync                                                   
+
+                       sld             r5,r5,r0                                                        ; Fix up if needed
+
+                       cmplwi  r4, 0                                                           ; If data pointer is null, just return
+                       beqlr                                                                           ; the received data in r5
+                       std             r5,0(r4)                                                        ; Pass back the received data                   
+                       blr                                                                                     ; Leave...
+
+;
+;                      Calculates the hdec to dec ratio
+;
+
+                       .align  5
+                       .globl  EXT(ml_hdec_ratio)
+
+LEXT(ml_hdec_ratio)
+
+                       li              r0,0                                                            ; Clear the EE bit (and everything else for that matter)
+                       mfmsr   r11                                                                     ; Get the MSR
+                       mtmsrd  r0,1                                                            ; Set the EE bit only (do not care about RI)
+                       rlwinm  r11,r11,0,MSR_EE_BIT,MSR_EE_BIT         ; Isolate just the EE bit
+                       mfmsr   r10                                                                     ; Refresh our view of the MSR (VMX/FP may have changed)
+                       or              r12,r10,r11                                                     ; Turn on EE if on before we turned it off
+
+                       mftb    r9                                                                      ; Get time now
+                       mfspr   r2,hdec                                                         ; Save hdec
+
+mhrcalc:       mftb    r8                                                                      ; Get time now
+                       sub             r8,r8,r9                                                        ; How many ticks?
+                       cmplwi  r8,10000                                                        ; 10000 yet?
+                       blt             mhrcalc                                                         ; Nope...
+
+                       mfspr   r9,hdec                                                         ; Get hdec now
+                       sub             r3,r2,r9                                                        ; How many ticks?
+                       mtmsrd  r12,1                                                           ; Flip EE on if needed
+                       blr                                                                                     ; Leave...
+
+
+;
+;                      int setPop(time)
+;      
+;                      Calculates the number of ticks to the supplied event and
+;                      sets the decrementer.  Never set the time for less that the
+;                      minimum, which is 10, nor more than maxDec, which is usually 0x7FFFFFFF
+;                      and never more than that but can be set by root.
+;
+;
+
+                       .align  7
+                       .globl  EXT(setPop)
+
+#define kMin   10
+
+LEXT(setPop)
+
+spOver:                mftbu   r8                                                                      ; Get upper time
+                       addic   r2,r4,-kMin                                                     ; Subtract minimum from target
+                       mftb    r9                                                                      ; Get lower
+                       addme   r11,r3                                                          ; Do you have any bits I could borrow?
+                       mftbu   r10                                                                     ; Get upper again
+                       subfe   r0,r0,r0                                                        ; Get -1 if we went negative 0 otherwise
+                       subc    r7,r2,r9                                                        ; Subtract bottom and get carry
+                       cmplw   r8,r10                                                          ; Did timebase upper tick?
+                       subfe   r6,r8,r11                                                       ; Get the upper difference accounting for borrow
+                       lwz             r12,maxDec(0)                                           ; Get the maximum decrementer size 
+                       addme   r0,r0                                                           ; Get -1 or -2 if anything negative, 0 otherwise
+                       addic   r2,r6,-1                                                        ; Set carry if diff < 2**32
+                       srawi   r0,r0,1                                                         ; Make all foxes
+                       subi    r10,r12,kMin                                            ; Adjust maximum for minimum adjust
+                       andc    r7,r7,r0                                                        ; Pin time at 0 if under minimum
+                       subfe   r2,r2,r2                                                        ; 0 if diff > 2**32, -1 otherwise               
+                       sub             r7,r7,r10                                                       ; Negative if duration is less than (max - min)
+                       or              r2,r2,r0                                                        ; If the duration is negative, it isn't too big
+                       srawi   r0,r7,31                                                        ; -1 if duration is too small
+                       and             r7,r7,r2                                                        ; Clear duration if high part too big
+                       and             r7,r7,r0                                                        ; Clear duration if low part too big
+                       bne--   spOver                                                          ; Timer ticked...
+                       add             r3,r7,r12                                                       ; Add back the max for total                            
+                       mtdec   r3                                                                      ; Set the decrementer
+                       blr                                                                                     ; Leave...
+
+