]> git.saurik.com Git - apple/xnu.git/blobdiff - osfmk/ppc/pcb.c
xnu-344.32.tar.gz
[apple/xnu.git] / osfmk / ppc / pcb.c
index 8354f64191e3c7df9dc7cc67fb4e0274562b4a13..493c9f7f7ee0ad41ad139d434daa52e073e6fd34 100644 (file)
@@ -3,22 +3,19 @@
  *
  * @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@
  */
@@ -131,26 +128,30 @@ machine_kernel_stack_init(
        void            (*start_pos)(thread_t))
 {
     vm_offset_t        stack;
-    unsigned int                       *kss, *stck;
+    unsigned int                       *kss;
        struct savearea                 *sv;
 
     assert(thread->top_act->mact.pcb);
     assert(thread->kernel_stack);
     stack = thread->kernel_stack;
 
+#if    MACH_ASSERT
+    if (watchacts & WA_PCB)
+               printf("machine_kernel_stack_init(thr=%x,stk=%x,start_pos=%x)\n", thread,stack,start_pos);
+#endif /* MACH_ASSERT */
+       
        kss = (unsigned int *)STACK_IKS(stack);
        sv = thread->top_act->mact.pcb;                                         /* This for the sake of C */
 
-       sv->save_lr = (uint64_t) start_pos;                                     /* Set up the execution address */
-       sv->save_srr0 = (uint64_t) start_pos;                           /* Here too */
+       sv->save_lr = (unsigned int) start_pos;                         /* Set up the execution address */
+       sv->save_srr0 = (unsigned int) start_pos;                       /* Here too */
        sv->save_srr1  = MSR_SUPERVISOR_INT_OFF;                        /* Set the normal running MSR */
-       stck = (unsigned int *)((unsigned int)kss - KF_SIZE);   /* Point to the top frame */
-       sv->save_r1 = (uint64_t)stck;                                           /* Point to the top frame on the stack */
+       sv->save_r1 = (vm_offset_t) ((int)kss - KF_SIZE);       /* Point to the top frame on the stack */
        sv->save_fpscr = 0;                                                                     /* Clear all floating point exceptions */
        sv->save_vrsave = 0;                                                            /* Set the vector save state */
        sv->save_vscr[3] = 0x00010000;                                          /* Supress java mode */
 
-       *stck = 0;                                                                                      /* Zero the frame backpointer */
+       *((int *)sv->save_r1) = 0;                                                      /* Zero the frame backpointer */
        thread->top_act->mact.ksp = 0;                                          /* Show that the kernel stack is in use already */
 
 }
@@ -170,8 +171,7 @@ switch_context(
        register struct thread_shuttle* retval;
        pmap_t  new_pmap;
        facility_context *fowner;
-       struct per_proc_info *ppinfo;
-       
+       int     my_cpu;
        
 #if    MACH_LDEBUG || MACH_KDB
        log_thread_action("switch", 
@@ -180,10 +180,11 @@ switch_context(
                          (long)__builtin_return_address(0));
 #endif
 
-       ppinfo = getPerProc();                                                          /* Get our processor block */
-
-       ppinfo->old_thread = (unsigned int)old;
-       ppinfo->cpu_flags &= ~traceBE;                                           /* disable branch tracing if on */
+       my_cpu = cpu_number();
+       per_proc_info[my_cpu].old_thread = (unsigned int)old;
+       per_proc_info[my_cpu].cpu_flags &= ~traceBE;  /* disable branch tracing if on */
+       assert(old_act->kernel_loaded ||
+              active_stacks[my_cpu] == old_act->thread->kernel_stack);
               
        check_simple_locks();
 
@@ -192,13 +193,13 @@ switch_context(
         * so that it can be found by the other if needed
         */
        if(real_ncpus > 1) {                                                            /* This is potentially slow, so only do when actually SMP */
-               fowner = ppinfo->FPU_owner;                                             /* Cache this because it may change */
+               fowner = per_proc_info[my_cpu].FPU_owner;       /* Cache this because it may change */
                if(fowner) {                                                                    /* Is there any live context? */
                        if(fowner->facAct == old->top_act) {            /* Is it for us? */
                                fpu_save(fowner);                                               /* Yes, save it */
                        }
                }
-               fowner = ppinfo->VMX_owner;                                             /* Cache this because it may change */
+               fowner = per_proc_info[my_cpu].VMX_owner;       /* Cache this because it may change */
                if(fowner) {                                                                    /* Is there any live context? */
                        if(fowner->facAct == old->top_act) {            /* Is it for us? */
                                vec_save(fowner);                                               /* Yes, save it */
@@ -206,13 +207,20 @@ switch_context(
                }
        }
 
+#if DEBUG
+       if (watchacts & WA_PCB) {
+               printf("switch_context(0x%08x, 0x%x, 0x%08x)\n",
+                      old,continuation,new);
+       }
+#endif /* DEBUG */
+
        /*
         * If old thread is running VM, save per proc userProtKey and FamVMmode spcFlags bits in the thread spcFlags
         * This bits can be modified in the per proc without updating the thread spcFlags
         */
        if(old_act->mact.specFlags & runningVM) {
                old_act->mact.specFlags &=  ~(userProtKey|FamVMmode);
-               old_act->mact.specFlags |= (ppinfo->spcFlags) & (userProtKey|FamVMmode);
+               old_act->mact.specFlags |= (per_proc_info[my_cpu].spcFlags) & (userProtKey|FamVMmode);
        }
 
        /*
@@ -224,9 +232,8 @@ switch_context(
 
        if(new_act->mact.specFlags & runningVM) {                       /* Is the new guy running a VM? */
                pmap_switch(new_act->mact.vmmCEntry->vmmPmap);  /* Switch to the VM's pmap */
-               ppinfo->VMMareaPhys = new_act->mact.vmmCEntry->vmmContextPhys;
-               ppinfo->VMMXAFlgs = new_act->mact.vmmCEntry->vmmXAFlgs;
-               ppinfo->FAMintercept = new_act->mact.vmmCEntry->vmmFAMintercept;
+               per_proc_info[my_cpu].VMMareaPhys = (vm_offset_t)new_act->mact.vmmCEntry->vmmContextPhys;
+               per_proc_info[my_cpu].FAMintercept = new_act->mact.vmmCEntry->vmmFAMintercept;
        }
        else {                                                                                          /* otherwise, we use the task's pmap */
                new_pmap = new_act->task->map->pmap;
@@ -235,25 +242,14 @@ switch_context(
                }
        }
 
-       if(old_act->mact.cioSpace != invalSpace) {                      /* Does our old guy have an active copyin/out? */
-               old_act->mact.cioSpace |= cioSwitchAway;                /* Show we switched away from this guy */
-               hw_blow_seg(copyIOaddr);                                                /* Blow off the first segment */
-               hw_blow_seg(copyIOaddr + 0x10000000ULL);                /* Blow off the second segment */
-       }
-
        KERNEL_DEBUG_CONSTANT(MACHDBG_CODE(DBG_MACH_SCHED,MACH_SCHED) | DBG_FUNC_NONE,
                     (int)old, (int)new, old->sched_pri, new->sched_pri, 0);
 
-/*     *********** SWITCH HERE **************/
        retval = Switch_context(old, continuation, new);
        assert(retval != (struct thread_shuttle*)NULL);
-/*     *********** SWITCH HERE **************/
-
 
-       if (branch_tracing_enabled()) {
-               ppinfo = getPerProc();                                                  /* Get our processor block */
-               ppinfo->cpu_flags |= traceBE;                                   /* restore branch tracing */
-       }
+       if (branch_tracing_enabled())
+         per_proc_info[my_cpu].cpu_flags |= traceBE;  /* restore branch tracing */
 
        /* We've returned from having switched context, so we should be
         * back in the original context.
@@ -272,6 +268,11 @@ thread_set_syscall_return(
        kern_return_t   retval)
 {
 
+#if    MACH_ASSERT
+       if (watchacts & WA_PCB)
+               printf("thread_set_syscall_return(thr=%x,retval=%d)\n", thread,retval);
+#endif /* MACH_ASSERT */
+
         thread->top_act->mact.pcb->save_r3 = retval;
 }
 
@@ -289,6 +290,11 @@ thread_machine_create(
        unsigned int    *CIsTooLimited, i;
 
 
+#if    MACH_ASSERT
+    if (watchacts & WA_PCB)
+       printf("thread_machine_create(thr=%x,thr_act=%x,st=%x)\n", thread, thr_act, start_pos);
+#endif /* MACH_ASSERT */
+
        hw_atomic_add(&saveanchor.savetarget, 4);                               /* Account for the number of saveareas we think we "need"
                                                                                                                           for this activation */
        assert(thr_act->mact.pcb == (savearea *)0);                             /* Make sure there was no previous savearea */
@@ -300,12 +306,15 @@ thread_machine_create(
        sv->save_hdr.save_prev = 0;                                                             /* Clear the back pointer */
        sv->save_hdr.save_flags = (sv->save_hdr.save_flags & ~SAVtype) | (SAVgeneral << SAVtypeshft);   /* Mark as in use */
        sv->save_hdr.save_act = thr_act;                                                /* Set who owns it */
+       sv->save_vscr[3] = 0x00010000;                                                  /* Supress java mode */
        thr_act->mact.pcb = sv;                                                                 /* Point to the save area */
        thr_act->mact.curctx = &thr_act->mact.facctx;                   /* Initialize facility context */
        thr_act->mact.facctx.facAct = thr_act;                                  /* Initialize facility context pointer to activation */
-       thr_act->mact.cioSpace = invalSpace;                                    /* Initialize copyin/out space to invalid */
-       thr_act->mact.preemption_count = 0;                                             /* Initialize preemption counter */
 
+#if    MACH_ASSERT
+       if (watchacts & WA_PCB)
+               printf("pcb_init(%x) pcb=%x\n", thr_act, sv);
+#endif /* MACH_ASSERT */
        /*
         * User threads will pull their context from the pcb when first
         * returning to user mode, so fill in all the necessary values.
@@ -313,14 +322,13 @@ thread_machine_create(
         * at the base of the kernel stack (see stack_attach()).
         */
 
-       sv->save_srr1 = (uint64_t)MSR_EXPORT_MASK_SET;                  /* Set the default user MSR */
-       sv->save_fpscr = 0;                                                                             /* Clear all floating point exceptions */
-       sv->save_vrsave = 0;                                                                    /* Set the vector save state */
-       sv->save_vscr[0] = 0x00000000;                                  
-       sv->save_vscr[1] = 0x00000000;                                  
-       sv->save_vscr[2] = 0x00000000;                                  
-       sv->save_vscr[3] = 0x00010000;                                                  /* Disable java mode and clear saturated */
+       sv->save_srr1 = MSR_EXPORT_MASK_SET;                                    /* Set the default user MSR */
        
+       CIsTooLimited = (unsigned int *)(&sv->save_sr0);                /* Make a pointer 'cause C can't cast on the left */
+       for(i=0; i<16; i++) {                                                                   /* Initialize all SRs */
+               CIsTooLimited[i] = SEG_REG_PROT | (i << 20) | thr_act->task->map->pmap->space;  /* Set the SR value */
+       }
+
     return(KERN_SUCCESS);
 }
 
@@ -369,22 +377,19 @@ machine_switch_act(
 {
        pmap_t          new_pmap;
        facility_context *fowner;
-       struct per_proc_info *ppinfo;
-       
-       ppinfo = getPerProc();                                                          /* Get our processor block */
 
        /* Our context might wake up on another processor, so we must
         * not keep hot state in our FPU, it must go back to the pcb
         * so that it can be found by the other if needed
         */
        if(real_ncpus > 1) {                                                            /* This is potentially slow, so only do when actually SMP */
-               fowner = ppinfo->FPU_owner;                                             /* Cache this because it may change */
+               fowner = per_proc_info[cpu_number()].FPU_owner; /* Cache this because it may change */
                if(fowner) {                                                                    /* Is there any live context? */
                        if(fowner->facAct == old) {                                     /* Is it for us? */
                                fpu_save(fowner);                                               /* Yes, save it */
                        }
                }
-               fowner = ppinfo->VMX_owner;                                             /* Cache this because it may change */
+               fowner = per_proc_info[cpu_number()].VMX_owner; /* Cache this because it may change */
                if(fowner) {                                                                    /* Is there any live context? */
                        if(fowner->facAct == old) {                                     /* Is it for us? */
                                vec_save(fowner);                                               /* Yes, save it */
@@ -392,8 +397,6 @@ machine_switch_act(
                }
        }
 
-       old->mact.cioSpace |= cioSwitchAway;                            /* Show we switched away from this guy */
-
        active_stacks[cpu] = thread->kernel_stack;
 
        ast_context(new, cpu);
@@ -403,8 +406,8 @@ machine_switch_act(
         * Change space if needed
         */
 
-       if(new->mact.specFlags & runningVM) {                           /* Is the new guy running a VM? */
-               pmap_switch(new->mact.vmmCEntry->vmmPmap);              /* Switch to the VM's pmap */
+       if(new->mact.specFlags & runningVM) {                   /* Is the new guy running a VM? */
+               pmap_switch(new->mact.vmmCEntry->vmmPmap);      /* Switch to the VM's pmap */
        }
        else {                                                                                          /* otherwise, we use the task's pmap */
                new_pmap = new->task->map->pmap;
@@ -413,14 +416,13 @@ machine_switch_act(
                }
        }
 
-
 }
 
 void
 pcb_user_to_kernel(thread_act_t act)
 {
 
-       return;                                                                                         /* Not needed, I hope... */
+       return;                                                                                                 /* Not needed, I hope... */
 }
 
 
@@ -435,8 +437,8 @@ void
 act_machine_sv_free(thread_act_t act)
 {
        register savearea *pcb, *userpcb;
-       register savearea_vec *vsv, *vpst, *vsvt;
-       register savearea_fpu *fsv, *fpst, *fsvt;
+       register savearea_vec *vsv, *vpsv;
+       register savearea_fpu *fsv, *fpsv;
        register savearea *svp;
        register int i;
 
@@ -448,68 +450,40 @@ act_machine_sv_free(thread_act_t act)
  *
  *     Walk through and release all floating point and vector contexts that are not
  *     user state.  We will also blow away live context if it belongs to non-user state.
- *     Note that the level can not change while we are in this code.  Nor can another
- *     context be pushed on the stack.
- *
- *     We do nothing here if the current level is user.  Otherwise,
- *     the live context is cleared.  Then we find the user saved context.
- *     Next,  we take the sync lock (to keep us from munging things in *_switch).
- *     The level is set to 0 and all stacked context other than user is dequeued.
- *     Then we unlock.  Next, all of the old kernel contexts are released.
  *
  */
  
        if(act->mact.curctx->VMXlevel) {                                                /* Is the current level user state? */
-               
                toss_live_vec(act->mact.curctx);                                        /* Dump live vectors if is not user */
+               act->mact.curctx->VMXlevel = 0;                                         /* Mark as user state */
+       }
 
-               vsv = act->mact.curctx->VMXsave;                                        /* Get the top vector savearea */
-               
-               while(vsv && vsv->save_hdr.save_level) vsv = (savearea_vec *)vsv->save_hdr.save_prev;   /* Find user context if any */
-       
-               if(!hw_lock_to((hw_lock_t)&act->mact.curctx->VMXsync, LockTimeOut)) {   /* Get the sync lock */ 
-                       panic("act_machine_sv_free - timeout getting VMX sync lock\n"); /* Tell all and die */
-               }
-               
-               vsvt = act->mact.curctx->VMXsave;                                       /* Get the top of the chain */
-               act->mact.curctx->VMXsave = vsv;                                        /* Point to the user context */
-               act->mact.curctx->VMXlevel = 0;                                         /* Set the level to user */
-               hw_lock_unlock((hw_lock_t)&act->mact.curctx->VMXsync);  /* Unlock */
-               
-               while(vsvt) {                                                                           /* Clear any VMX saved state */
-                       if (vsvt == vsv) break;                                                 /* Done when hit user if any */
-                       vpst = vsvt;                                                                    /* Remember so we can toss this */
-                       vsvt = (savearea_vec *)vsvt->save_hdr.save_prev;        /* Get one underneath our's */          
-                       save_ret((savearea *)vpst);                                             /* Release it */
-               }
-               
+       vsv = act->mact.curctx->VMXsave;                                                /* Get the top vector savearea */
+       
+       while(vsv) {                                                                                    /* Any VMX saved state? */
+               vpsv = vsv;                                                                                     /* Remember so we can toss this */
+               if (!vsv->save_hdr.save_level) break;                           /* Done when hit user if any */
+               vsv = (savearea_vec *)vsv->save_hdr.save_prev;          /* Get one underneath our's */          
+               save_ret((savearea *)vpsv);                                                     /* Release it */
        }
+       
+       act->mact.curctx->VMXsave = vsv;                                                /* Queue the user context to the top */
  
        if(act->mact.curctx->FPUlevel) {                                                /* Is the current level user state? */
-               
-               toss_live_fpu(act->mact.curctx);                                        /* Dump live floats if is not user */
+               toss_live_fpu(act->mact.curctx);                                        /* Dump live float if is not user */
+               act->mact.curctx->FPUlevel = 0;                                         /* Mark as user state */
+       }
 
-               fsv = act->mact.curctx->FPUsave;                                        /* Get the top floats savearea */
-               
-               while(fsv && fsv->save_hdr.save_level) fsv = (savearea_fpu *)fsv->save_hdr.save_prev;   /* Find user context if any */
+       fsv = act->mact.curctx->FPUsave;                                                /* Get the top float savearea */
        
-               if(!hw_lock_to((hw_lock_t)&act->mact.curctx->FPUsync, LockTimeOut)) {   /* Get the sync lock */ 
-                       panic("act_machine_sv_free - timeout getting FPU sync lock\n"); /* Tell all and die */
-               }
-               
-               fsvt = act->mact.curctx->FPUsave;                                       /* Get the top of the chain */
-               act->mact.curctx->FPUsave = fsv;                                        /* Point to the user context */
-               act->mact.curctx->FPUlevel = 0;                                         /* Set the level to user */
-               hw_lock_unlock((hw_lock_t)&act->mact.curctx->FPUsync);  /* Unlock */
-               
-               while(fsvt) {                                                                           /* Clear any VMX saved state */
-                       if (fsvt == fsv) break;                                                 /* Done when hit user if any */
-                       fpst = fsvt;                                                                    /* Remember so we can toss this */
-                       fsvt = (savearea_fpu *)fsvt->save_hdr.save_prev;        /* Get one underneath our's */          
-                       save_ret((savearea *)fpst);                                             /* Release it */
-               }
-               
+       while(fsv) {                                                                                    /* Any float saved state? */
+               fpsv = fsv;                                                                                     /* Remember so we can toss this */
+               if (!fsv->save_hdr.save_level) break;                           /* Done when hit user if any */
+               fsv = (savearea_fpu *)fsv->save_hdr.save_prev;          /* Get one underneath our's */          
+               save_ret((savearea *)fpsv);                                                     /* Release it */
        }
+       
+       act->mact.curctx->FPUsave = fsv;                                                /* Queue the user context to the top */
 
 /*
  * free all regular saveareas except a user savearea, if any
@@ -562,6 +536,11 @@ act_machine_destroy(thread_act_t act)
        register savearea *svp;
        register int i;
 
+#if    MACH_ASSERT
+       if (watchacts & WA_PCB)
+               printf("act_machine_destroy(0x%x)\n", act);
+#endif /* MACH_ASSERT */
+
 /*
  *     This function will release all context.
  */
@@ -628,6 +607,10 @@ act_machine_create(task_t task, thread_act_t thr_act)
 
 void act_machine_init()
 {
+#if    MACH_ASSERT
+    if (watchacts & WA_PCB)
+       printf("act_machine_init()\n");
+#endif /* MACH_ASSERT */
 
     /* Good to verify these once */
     assert( THREAD_MACHINE_STATE_MAX <= THREAD_STATE_MAX );
@@ -648,6 +631,14 @@ act_machine_return(int code)
 {
     thread_act_t thr_act = current_act();
 
+#if    MACH_ASSERT
+    if (watchacts & WA_EXIT)
+       printf("act_machine_return(0x%x) cur_act=%x(%d) thr=%x(%d)\n",
+              code, thr_act, thr_act->ref_count,
+              thr_act->thread, thr_act->thread->ref_count);
+#endif /* MACH_ASSERT */
+
+
        /*
         * This code is called with nothing locked.
         * It also returns with nothing locked, if it returns.
@@ -815,8 +806,6 @@ stack_handoff(thread_t old,
        pmap_t new_pmap;
        facility_context *fowner;
        int     my_cpu;
-       mapping *mp;
-       struct per_proc_info *ppinfo;
        
        assert(new->top_act);
        assert(old->top_act);
@@ -830,18 +819,16 @@ stack_handoff(thread_t old,
                new->stack_privilege = stack;
        }
 
-       ppinfo = getPerProc();                                                          /* Get our processor block */
-
-       ppinfo->cpu_flags &= ~traceBE;                                          /* Turn off special branch trace */
+       per_proc_info[my_cpu].cpu_flags &= ~traceBE;
 
        if(real_ncpus > 1) {                                                            /* This is potentially slow, so only do when actually SMP */
-               fowner = ppinfo->FPU_owner;                                             /* Cache this because it may change */
+               fowner = per_proc_info[my_cpu].FPU_owner;       /* Cache this because it may change */
                if(fowner) {                                                                    /* Is there any live context? */
                        if(fowner->facAct == old->top_act) {            /* Is it for us? */
                                fpu_save(fowner);                                               /* Yes, save it */
                        }
                }
-               fowner = ppinfo->VMX_owner;                                             /* Cache this because it may change */
+               fowner = per_proc_info[my_cpu].VMX_owner;       /* Cache this because it may change */
                if(fowner) {                                                                    /* Is there any live context? */
                        if(fowner->facAct == old->top_act) {            /* Is it for us? */
                                vec_save(fowner);                                               /* Yes, save it */
@@ -854,7 +841,7 @@ stack_handoff(thread_t old,
         */
        if(old->top_act->mact.specFlags & runningVM) {                  /* Is the current thread running a VM? */
                old->top_act->mact.specFlags &= ~(userProtKey|FamVMmode);
-               old->top_act->mact.specFlags |= (ppinfo->spcFlags) & (userProtKey|FamVMmode);
+               old->top_act->mact.specFlags |= (per_proc_info[my_cpu].spcFlags) & (userProtKey|FamVMmode);
        }
 
        KERNEL_DEBUG_CONSTANT(MACHDBG_CODE(DBG_MACH_SCHED,MACH_STACK_HANDOFF) | DBG_FUNC_NONE,
@@ -863,9 +850,8 @@ stack_handoff(thread_t old,
 
        if(new->top_act->mact.specFlags & runningVM) {  /* Is the new guy running a VM? */
                pmap_switch(new->top_act->mact.vmmCEntry->vmmPmap);     /* Switch to the VM's pmap */
-               ppinfo->VMMareaPhys = new->top_act->mact.vmmCEntry->vmmContextPhys;
-               ppinfo->VMMXAFlgs = new->top_act->mact.vmmCEntry->vmmXAFlgs;
-               ppinfo->FAMintercept = new->top_act->mact.vmmCEntry->vmmFAMintercept;
+               per_proc_info[my_cpu].VMMareaPhys = (vm_offset_t)new->top_act->mact.vmmCEntry->vmmContextPhys;
+               per_proc_info[my_cpu].FAMintercept = new->top_act->mact.vmmCEntry->vmmFAMintercept;
        }
        else {                                                                                  /* otherwise, we use the task's pmap */
                new_pmap = new->top_act->task->map->pmap;
@@ -876,19 +862,15 @@ stack_handoff(thread_t old,
 
        thread_machine_set_current(new);
        active_stacks[my_cpu] = new->kernel_stack;
-       ppinfo->Uassist = new->top_act->mact.cthread_self;
+       per_proc_info[my_cpu].Uassist = new->top_act->mact.cthread_self;
 
-       ppinfo->ppbbTaskEnv = new->top_act->mact.bbTaskEnv;
-       ppinfo->spcFlags = new->top_act->mact.specFlags;
-       
-       old->top_act->mact.cioSpace |= cioSwitchAway;   /* Show we switched away from this guy */
-       mp = (mapping *)&ppinfo->ppCIOmp;
-       mp->mpSpace = invalSpace;                                               /* Since we can't handoff in the middle of copy in/out, just invalidate */
+       per_proc_info[my_cpu].ppbbTaskEnv = new->top_act->mact.bbTaskEnv;
+       per_proc_info[my_cpu].spcFlags = new->top_act->mact.specFlags;
 
        if (branch_tracing_enabled()) 
-               ppinfo->cpu_flags |= traceBE;
+               per_proc_info[my_cpu].cpu_flags |= traceBE;
     
-       if(trcWork.traceMask) dbgTrace(0x12345678, (unsigned int)old->top_act, (unsigned int)new->top_act, 0);  /* Cut trace entry if tracing */    
+       if(trcWork.traceMask) dbgTrace(0x12345678, (unsigned int)old->top_act, (unsigned int)new->top_act);     /* Cut trace entry if tracing */    
     
   return;
 }