xnu-6153.11.26.tar.gz

[apple/xnu.git] / osfmk / x86_64 / pmap.c

diff --git a/osfmk/x86_64/pmap.c b/osfmk/x86_64/pmap.c
index 45be582574e381f16b027ad6b772d5462cbb51d8..87298757b174eacc92f7274de743d11972286acf 100644 (file)
--- a/osfmk/x86_64/pmap.c
+++ b/osfmk/x86_64/pmap.c
@@ -1,8 +1,8 @@
 /*
- * Copyright (c) 2000-2010 Apple Inc. All rights reserved.
+ * Copyright (c) 2000-2019 Apple Inc. All rights reserved.
  *
  * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
- * 
+ *
  * 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
@@ -11,10 +11,10 @@
  * unlawful or unlicensed copies of an Apple operating system, or to
  * circumvent, violate, or enable the circumvention or violation of, any
  * terms of an Apple operating system software license agreement.
- * 
+ *
  * 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
  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
@@ -22,7 +22,7 @@
  * 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.
- * 
+ *
  * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
  */
 /*
@@ -32,24 +32,24 @@
  * Mach Operating System
  * Copyright (c) 1991,1990,1989,1988 Carnegie Mellon University
  * All Rights Reserved.
- * 
+ *
  * Permission to use, copy, modify and distribute this software and its
  * documentation is hereby granted, provided that both the copyright
  * notice and this permission notice appear in all copies of the
  * software, derivative works or modified versions, and any portions
  * thereof, and that both notices appear in supporting documentation.
- * 
+ *
  * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
  * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
  * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
- * 
+ *
  * Carnegie Mellon requests users of this software to return to
- * 
+ *
  *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
  *  School of Computer Science
  *  Carnegie Mellon University
  *  Pittsburgh PA 15213-3890
- * 
+ *
  * any improvements or extensions that they make and grant Carnegie Mellon
  * the rights to redistribute these changes.
  */
@@ -116,7 +116,7 @@
 #include <mach/machine/vm_param.h>
 #include <machine/thread.h>
 
-#include <kern/misc_protos.h>                  /* prototyping */
+#include <kern/misc_protos.h>                   /* prototyping */
 #include <i386/misc_protos.h>
 #include <i386/i386_lowmem.h>
 #include <x86_64/lowglobals.h>
@@ -138,23 +138,27 @@
 #endif
 
 #include <vm/vm_protos.h>
+#include <san/kasan.h>
 
 #include <i386/mp.h>
 #include <i386/mp_desc.h>
 #include <libkern/kernel_mach_header.h>
 
 #include <pexpert/i386/efi.h>
-
+#include <libkern/section_keywords.h>
+#if MACH_ASSERT
+int pmap_stats_assert = 1;
+#endif /* MACH_ASSERT */
 
 #ifdef IWANTTODEBUG
-#undef DEBUG
+#undef  DEBUG
 #define DEBUG 1
 #define POSTCODE_DELAY 1
 #include <i386/postcode.h>
 #endif /* IWANTTODEBUG */
 
-#ifdef PMAP_DEBUG
-#define DBG(x...)      kprintf("DBG: " x)
+#ifdef  PMAP_DEBUG
+#define DBG(x...)       kprintf("DBG: " x)
 #else
 #define DBG(x...)
 #endif
@@ -164,13 +168,21 @@
 char pmap_cpu_data_assert[(((offsetof(cpu_data_t, cpu_tlb_invalid) - offsetof(cpu_data_t, cpu_active_cr3)) == 8) && (offsetof(cpu_data_t, cpu_active_cr3) % 64 == 0)) ? 1 : -1];
 boolean_t pmap_trace = FALSE;
 
-boolean_t      no_shared_cr3 = DEBUG;          /* TRUE for DEBUG by default */
+boolean_t       no_shared_cr3 = DEBUG;          /* TRUE for DEBUG by default */
 
-int nx_enabled = 1;                    /* enable no-execute protection */
-int allow_data_exec  = VM_ABI_32;      /* 32-bit apps may execute data by default, 64-bit apps may not */
-int allow_stack_exec = 0;              /* No apps may execute from the stack by default */
+#if DEVELOPMENT || DEBUG
+int nx_enabled = 1;                     /* enable no-execute protection -- set during boot */
+#else
+const int nx_enabled = 1;
+#endif
 
-const boolean_t cpu_64bit  = TRUE; /* Mais oui! */
+#if DEBUG || DEVELOPMENT
+int allow_data_exec  = VM_ABI_32;       /* 32-bit apps may execute data by default, 64-bit apps may not */
+int allow_stack_exec = 0;               /* No apps may execute from the stack by default */
+#else /* DEBUG || DEVELOPMENT */
+const int allow_data_exec  = VM_ABI_32; /* 32-bit apps may execute data by default, 64-bit apps may not */
+const int allow_stack_exec = 0;         /* No apps may execute from the stack by default */
+#endif /* DEBUG || DEVELOPMENT */
 
 uint64_t max_preemption_latency_tsc = 0;
 
@@ -178,40 +190,33 @@ pv_hashed_entry_t     *pv_hash_table;  /* hash lists */
 
 uint32_t npvhashmask = 0, npvhashbuckets = 0;
 
-pv_hashed_entry_t      pv_hashed_free_list = PV_HASHED_ENTRY_NULL;
-pv_hashed_entry_t      pv_hashed_kern_free_list = PV_HASHED_ENTRY_NULL;
-decl_simple_lock_data(,pv_hashed_free_list_lock)
-decl_simple_lock_data(,pv_hashed_kern_free_list_lock)
-decl_simple_lock_data(,pv_hash_table_lock)
+pv_hashed_entry_t       pv_hashed_free_list = PV_HASHED_ENTRY_NULL;
+pv_hashed_entry_t       pv_hashed_kern_free_list = PV_HASHED_ENTRY_NULL;
+decl_simple_lock_data(, pv_hashed_free_list_lock);
+decl_simple_lock_data(, pv_hashed_kern_free_list_lock);
+decl_simple_lock_data(, pv_hash_table_lock);
 
-decl_simple_lock_data(,phys_backup_lock)
+decl_simple_lock_data(, phys_backup_lock);
 
-zone_t         pv_hashed_list_zone;    /* zone of pv_hashed_entry structures */
+zone_t          pv_hashed_list_zone;    /* zone of pv_hashed_entry structures */
 
 /*
  *     First and last physical addresses that we maintain any information
  *     for.  Initialized to zero so that pmap operations done before
  *     pmap_init won't touch any non-existent structures.
  */
-boolean_t      pmap_initialized = FALSE;/* Has pmap_init completed? */
+boolean_t       pmap_initialized = FALSE;/* Has pmap_init completed? */
 
-static struct vm_object kptobj_object_store;
-static struct vm_object kpml4obj_object_store;
-static struct vm_object kpdptobj_object_store;
+static struct vm_object kptobj_object_store __attribute__((aligned(VM_PACKED_POINTER_ALIGNMENT)));
+static struct vm_object kpml4obj_object_store __attribute__((aligned(VM_PACKED_POINTER_ALIGNMENT)));
+static struct vm_object kpdptobj_object_store __attribute__((aligned(VM_PACKED_POINTER_ALIGNMENT)));
 
 /*
  *     Array of physical page attribites for managed pages.
  *     One byte per physical page.
  */
-char           *pmap_phys_attributes;
-ppnum_t                last_managed_page = 0;
-
-/*
- *     Amount of virtual memory mapped by one
- *     page-directory entry.
- */
-
-uint64_t pde_mapped_size = PDE_MAPPED_SIZE;
+char            *pmap_phys_attributes;
+ppnum_t         last_managed_page = 0;
 
 unsigned pmap_memory_region_count;
 unsigned pmap_memory_region_current;
@@ -221,43 +226,44 @@ pmap_memory_region_t pmap_memory_regions[PMAP_MEMORY_REGIONS_SIZE];
 /*
  *     Other useful macros.
  */
-#define current_pmap()         (vm_map_pmap(current_thread()->map))
+#define current_pmap()          (vm_map_pmap(current_thread()->map))
 
-struct pmap    kernel_pmap_store;
-pmap_t         kernel_pmap;
+struct pmap     kernel_pmap_store;
+SECURITY_READ_ONLY_LATE(pmap_t)          kernel_pmap = NULL;
 
-struct zone    *pmap_zone;             /* zone of pmap structures */
+struct zone     *pmap_zone;             /* zone of pmap structures */
 
-struct zone    *pmap_anchor_zone;
-int            pmap_debug = 0;         /* flag for debugging prints */
+struct zone     *pmap_anchor_zone;
+struct zone     *pmap_uanchor_zone;
+int             pmap_debug = 0;         /* flag for debugging prints */
 
-unsigned int   inuse_ptepages_count = 0;
-long long      alloc_ptepages_count __attribute__((aligned(8))) = 0; /* aligned for atomic access */
-unsigned int   bootstrap_wired_pages = 0;
-int            pt_fake_zone_index = -1;
+unsigned int    inuse_ptepages_count = 0;
+long long       alloc_ptepages_count __attribute__((aligned(8))) = 0; /* aligned for atomic access */
+unsigned int    bootstrap_wired_pages = 0;
+int             pt_fake_zone_index = -1;
 
-extern         long    NMIPI_acks;
+extern  long    NMIPI_acks;
 
-boolean_t      kernel_text_ps_4K = TRUE;
-boolean_t      wpkernel = TRUE;
+SECURITY_READ_ONLY_LATE(boolean_t)       kernel_text_ps_4K = TRUE;
 
-extern char    end;
+extern char     end;
 
-static int     nkpt;
+static int      nkpt;
 
-pt_entry_t     *DMAP1, *DMAP2;
-caddr_t         DADDR1;
-caddr_t         DADDR2;
-
-boolean_t      pmap_disable_kheap_nx = FALSE;
-boolean_t      pmap_disable_kstack_nx = FALSE;
-extern boolean_t doconstro_override;
+#if DEVELOPMENT || DEBUG
+SECURITY_READ_ONLY_LATE(boolean_t)       pmap_disable_kheap_nx = FALSE;
+SECURITY_READ_ONLY_LATE(boolean_t)       pmap_disable_kstack_nx = FALSE;
+SECURITY_READ_ONLY_LATE(boolean_t)       wpkernel = TRUE;
+#else
+const boolean_t wpkernel = TRUE;
+#endif
 
 extern long __stack_chk_guard[];
 
+static uint64_t pmap_eptp_flags = 0;
 boolean_t pmap_ept_support_ad = FALSE;
 
-
+static void process_pmap_updates(pmap_t, bool, addr64_t, addr64_t);
 /*
  *     Map memory at initialization.  The physical addresses being
  *     mapped are not managed and are never unmapped.
@@ -267,35 +273,44 @@ boolean_t pmap_ept_support_ad = FALSE;
  */
 vm_offset_t
 pmap_map(
-       vm_offset_t     virt,
-       vm_map_offset_t start_addr,
-       vm_map_offset_t end_addr,
-       vm_prot_t       prot,
-       unsigned int    flags)
+       vm_offset_t     virt,
+       vm_map_offset_t start_addr,
+       vm_map_offset_t end_addr,
+       vm_prot_t       prot,
+       unsigned int    flags)
 {
-       int             ps;
+       kern_return_t   kr;
+       int             ps;
 
        ps = PAGE_SIZE;
        while (start_addr < end_addr) {
-               pmap_enter(kernel_pmap, (vm_map_offset_t)virt,
-                          (ppnum_t) i386_btop(start_addr), prot, VM_PROT_NONE, flags, TRUE);
+               kr = pmap_enter(kernel_pmap, (vm_map_offset_t)virt,
+                   (ppnum_t) i386_btop(start_addr), prot, VM_PROT_NONE, flags, TRUE);
+
+               if (kr != KERN_SUCCESS) {
+                       panic("%s: failed pmap_enter, "
+                           "virt=%p, start_addr=%p, end_addr=%p, prot=%#x, flags=%#x",
+                           __FUNCTION__,
+                           (void *)virt, (void *)start_addr, (void *)end_addr, prot, flags);
+               }
+
                virt += ps;
                start_addr += ps;
        }
-       return(virt);
+       return virt;
 }
 
-extern char                    *first_avail;
-extern vm_offset_t             virtual_avail, virtual_end;
-extern pmap_paddr_t            avail_start, avail_end;
-extern  vm_offset_t            sHIB;
-extern  vm_offset_t            eHIB;
-extern  vm_offset_t            stext;
-extern  vm_offset_t            etext;
-extern  vm_offset_t            sdata, edata;
-extern  vm_offset_t            sconstdata, econstdata;
+extern  char                    *first_avail;
+extern  vm_offset_t             virtual_avail, virtual_end;
+extern  pmap_paddr_t            avail_start, avail_end;
+extern  vm_offset_t             sHIB;
+extern  vm_offset_t             eHIB;
+extern  vm_offset_t             stext;
+extern  vm_offset_t             etext;
+extern  vm_offset_t             sdata, edata;
+extern  vm_offset_t             sconst, econst;
 
-extern void                    *KPTphys;
+extern void                     *KPTphys;
 
 boolean_t pmap_smep_enabled = FALSE;
 boolean_t pmap_smap_enabled = FALSE;
@@ -303,56 +318,72 @@ boolean_t pmap_smap_enabled = FALSE;
 void
 pmap_cpu_init(void)
 {
-       cpu_data_t      *cdp = current_cpu_datap();
-       /*
-        * Here early in the life of a processor (from cpu_mode_init()).
-        * Ensure global page feature is disabled at this point.
-        */
+       cpu_data_t      *cdp = current_cpu_datap();
 
-       set_cr4(get_cr4() &~ CR4_PGE);
+       set_cr4(get_cr4() | CR4_PGE);
 
        /*
         * Initialize the per-cpu, TLB-related fields.
         */
        cdp->cpu_kernel_cr3 = kernel_pmap->pm_cr3;
+       cpu_shadowp(cdp->cpu_number)->cpu_kernel_cr3 = cdp->cpu_kernel_cr3;
        cdp->cpu_active_cr3 = kernel_pmap->pm_cr3;
-       cdp->cpu_tlb_invalid = FALSE;
+       cdp->cpu_tlb_invalid = 0;
        cdp->cpu_task_map = TASK_MAP_64BIT;
+
        pmap_pcid_configure();
        if (cpuid_leaf7_features() & CPUID_LEAF7_FEATURE_SMEP) {
+               pmap_smep_enabled = TRUE;
+#if     DEVELOPMENT || DEBUG
                boolean_t nsmep;
-               if (!PE_parse_boot_argn("-pmap_smep_disable", &nsmep, sizeof(nsmep))) {
+               if (PE_parse_boot_argn("-pmap_smep_disable", &nsmep, sizeof(nsmep))) {
+                       pmap_smep_enabled = FALSE;
+               }
+#endif
+               if (pmap_smep_enabled) {
                        set_cr4(get_cr4() | CR4_SMEP);
-                       pmap_smep_enabled = TRUE;
                }
        }
        if (cpuid_leaf7_features() & CPUID_LEAF7_FEATURE_SMAP) {
+               pmap_smap_enabled = TRUE;
+#if DEVELOPMENT || DEBUG
                boolean_t nsmap;
-               if (!PE_parse_boot_argn("-pmap_smap_disable", &nsmap, sizeof(nsmap))) {
+               if (PE_parse_boot_argn("-pmap_smap_disable", &nsmap, sizeof(nsmap))) {
+                       pmap_smap_enabled = FALSE;
+               }
+#endif
+               if (pmap_smap_enabled) {
                        set_cr4(get_cr4() | CR4_SMAP);
-                       pmap_smap_enabled = TRUE;
                }
        }
 
+#if !MONOTONIC
        if (cdp->cpu_fixed_pmcs_enabled) {
                boolean_t enable = TRUE;
                cpu_pmc_control(&enable);
        }
+#endif /* !MONOTONIC */
 }
 
-static uint32_t pmap_scale_shift(void) {
+static uint32_t
+pmap_scale_shift(void)
+{
        uint32_t scale = 0;
 
-       if (sane_size <= 8*GB) {
+       if (sane_size <= 8 * GB) {
                scale = (uint32_t)(sane_size / (2 * GB));
-       } else if (sane_size <= 32*GB) {
-               scale = 4 + (uint32_t)((sane_size - (8 * GB))/ (4 * GB)); 
+       } else if (sane_size <= 32 * GB) {
+               scale = 4 + (uint32_t)((sane_size - (8 * GB)) / (4 * GB));
        } else {
-               scale = 10 + (uint32_t)MIN(4, ((sane_size - (32 * GB))/ (8 * GB))); 
+               scale = 10 + (uint32_t)MIN(4, ((sane_size - (32 * GB)) / (8 * GB)));
        }
        return scale;
 }
 
+lck_grp_t               pmap_lck_grp;
+lck_grp_attr_t          pmap_lck_grp_attr;
+lck_attr_t              pmap_lck_rw_attr;
+
 /*
  *     Bootstrap the system enough to run with virtual memory.
  *     Map the kernel's code and data, and allocate the system page table.
@@ -361,17 +392,17 @@ static uint32_t pmap_scale_shift(void) {
 
 void
 pmap_bootstrap(
-       __unused vm_offset_t    load_start,
-       __unused boolean_t      IA32e)
+       __unused vm_offset_t    load_start,
+       __unused boolean_t      IA32e)
 {
 #if NCOPY_WINDOWS > 0
-       vm_offset_t     va;
+       vm_offset_t     va;
        int i;
 #endif
        assert(IA32e);
 
-       vm_last_addr = VM_MAX_KERNEL_ADDRESS;   /* Set the highest address
-                                                * known to VM */
+       vm_last_addr = VM_MAX_KERNEL_ADDRESS;   /* Set the highest address
+                                                * known to VM */
        /*
         *      The kernel's pmap is statically allocated so we don't
         *      have to use pmap_create, which is unlikely to work
@@ -379,24 +410,25 @@ pmap_bootstrap(
         */
 
        kernel_pmap = &kernel_pmap_store;
-       kernel_pmap->ref_count = 1;
+       os_ref_init(&kernel_pmap->ref_count, NULL);
+#if DEVELOPMENT || DEBUG
        kernel_pmap->nx_enabled = TRUE;
+#endif
        kernel_pmap->pm_task_map = TASK_MAP_64BIT;
        kernel_pmap->pm_obj = (vm_object_t) NULL;
-       kernel_pmap->dirbase = (pd_entry_t *)((uintptr_t)IdlePTD);
-       kernel_pmap->pm_pdpt = (pd_entry_t *) ((uintptr_t)IdlePDPT);
        kernel_pmap->pm_pml4 = IdlePML4;
+       kernel_pmap->pm_upml4 = IdlePML4;
        kernel_pmap->pm_cr3 = (uintptr_t)ID_MAP_VTOP(IdlePML4);
+       kernel_pmap->pm_ucr3 = (uintptr_t)ID_MAP_VTOP(IdlePML4);
        kernel_pmap->pm_eptp = 0;
-       pmap_pcid_initialize_kernel(kernel_pmap);
 
-       
+       pmap_pcid_initialize_kernel(kernel_pmap);
 
-       current_cpu_datap()->cpu_kernel_cr3 = (addr64_t) kernel_pmap->pm_cr3;
+       current_cpu_datap()->cpu_kernel_cr3 = cpu_shadowp(cpu_number())->cpu_kernel_cr3 = (addr64_t) kernel_pmap->pm_cr3;
 
        nkpt = NKPT;
-       OSAddAtomic(NKPT,  &inuse_ptepages_count);
-       OSAddAtomic64(NKPT,  &alloc_ptepages_count);
+       OSAddAtomic(NKPT, &inuse_ptepages_count);
+       OSAddAtomic64(NKPT, &alloc_ptepages_count);
        bootstrap_wired_pages = NKPT;
 
        virtual_avail = (vm_offset_t)(VM_MIN_KERNEL_ADDRESS) + (vm_offset_t)first_avail;
@@ -407,39 +439,35 @@ pmap_bootstrap(
         * Reserve some special page table entries/VA space for temporary
         * mapping of pages.
         */
-#define        SYSMAP(c, p, v, n)      \
+#define SYSMAP(c, p, v, n)      \
        v = (c)va; va += ((n)*INTEL_PGBYTES);
 
        va = virtual_avail;
 
-        for (i=0; i<PMAP_NWINDOWS; i++) {
+       for (i = 0; i < PMAP_NWINDOWS; i++) {
 #if 1
-           kprintf("trying to do SYSMAP idx %d %p\n", i,
-               current_cpu_datap());
-           kprintf("cpu_pmap %p\n", current_cpu_datap()->cpu_pmap);
-           kprintf("mapwindow %p\n", current_cpu_datap()->cpu_pmap->mapwindow);
-           kprintf("two stuff %p %p\n",
-                  (void *)(current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP),
-                   (void *)(current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CADDR));
+               kprintf("trying to do SYSMAP idx %d %p\n", i,
+                   current_cpu_datap());
+               kprintf("cpu_pmap %p\n", current_cpu_datap()->cpu_pmap);
+               kprintf("mapwindow %p\n", current_cpu_datap()->cpu_pmap->mapwindow);
+               kprintf("two stuff %p %p\n",
+                   (void *)(current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP),
+                   (void *)(current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CADDR));
 #endif
-            SYSMAP(caddr_t,
-                  (current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP),
-                   (current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CADDR),
-                  1);
-           current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP =
-               &(current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP_store);
-            *current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP = 0;
-        }
-
-       /* DMAP user for debugger */
-       SYSMAP(caddr_t, DMAP1, DADDR1, 1);
-       SYSMAP(caddr_t, DMAP2, DADDR2, 1);  /* XXX temporary - can remove */
+               SYSMAP(caddr_t,
+                   (current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP),
+                   (current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CADDR),
+                   1);
+               current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP =
+                   &(current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP_store);
+               *current_cpu_datap()->cpu_pmap->mapwindow[i].prv_CMAP = 0;
+       }
+
 
        virtual_avail = va;
 #endif
-       if (!PE_parse_boot_argn("npvhash", &npvhashmask, sizeof (npvhashmask))) {
+       if (!PE_parse_boot_argn("npvhash", &npvhashmask, sizeof(npvhashmask))) {
                npvhashmask = ((NPVHASHBUCKETS) << pmap_scale_shift()) - 1;
-
        }
 
        npvhashbuckets = npvhashmask + 1;
@@ -449,26 +477,38 @@ pmap_bootstrap(
                    "using default %d\n", npvhashmask, NPVHASHMASK);
        }
 
-       simple_lock_init(&kernel_pmap->lock, 0);
+       lck_grp_attr_setdefault(&pmap_lck_grp_attr);
+       lck_grp_init(&pmap_lck_grp, "pmap", &pmap_lck_grp_attr);
+
+       lck_attr_setdefault(&pmap_lck_rw_attr);
+       lck_attr_cleardebug(&pmap_lck_rw_attr);
+
+       lck_rw_init(&kernel_pmap->pmap_rwl, &pmap_lck_grp, &pmap_lck_rw_attr);
+       kernel_pmap->pmap_rwl.lck_rw_can_sleep = FALSE;
+
        simple_lock_init(&pv_hashed_free_list_lock, 0);
        simple_lock_init(&pv_hashed_kern_free_list_lock, 0);
-       simple_lock_init(&pv_hash_table_lock,0);
+       simple_lock_init(&pv_hash_table_lock, 0);
        simple_lock_init(&phys_backup_lock, 0);
 
        pmap_cpu_init();
 
-       if (pmap_pcid_ncpus)
+       if (pmap_pcid_ncpus) {
                printf("PMAP: PCID enabled\n");
+       }
 
-       if (pmap_smep_enabled)
+       if (pmap_smep_enabled) {
                printf("PMAP: Supervisor Mode Execute Protection enabled\n");
-       if (pmap_smap_enabled)
+       }
+       if (pmap_smap_enabled) {
                printf("PMAP: Supervisor Mode Access Protection enabled\n");
+       }
 
-#if    DEBUG
+#if     DEBUG
        printf("Stack canary: 0x%lx\n", __stack_chk_guard[0]);
        printf("early_random(): 0x%qx\n", early_random());
 #endif
+#if     DEVELOPMENT || DEBUG
        boolean_t ptmp;
        /* Check if the user has requested disabling stack or heap no-execute
         * enforcement. These are "const" variables; that qualifier is cast away
@@ -485,6 +525,7 @@ pmap_bootstrap(
                boolean_t *pdknhp = (boolean_t *) &pmap_disable_kstack_nx;
                *pdknhp = TRUE;
        }
+#endif /* DEVELOPMENT || DEBUG */
 
        boot_args *args = (boot_args *)PE_state.bootArgs;
        if (args->efiMode == kBootArgsEfiMode32) {
@@ -492,27 +533,35 @@ pmap_bootstrap(
                virtual_end = VM_MAX_KERNEL_ADDRESS_EFI32;
        }
        kprintf("Kernel virtual space from 0x%lx to 0x%lx.\n",
-                       (long)KERNEL_BASE, (long)virtual_end);
+           (long)KERNEL_BASE, (long)virtual_end);
        kprintf("Available physical space from 0x%llx to 0x%llx\n",
-                       avail_start, avail_end);
+           avail_start, avail_end);
 
        /*
         * The -no_shared_cr3 boot-arg is a debugging feature (set by default
         * in the DEBUG kernel) to force the kernel to switch to its own map
         * (and cr3) when control is in kernelspace. The kernel's map does not
         * include (i.e. share) userspace so wild references will cause
-        * a panic. Only copyin and copyout are exempt from this. 
+        * a panic. Only copyin and copyout are exempt from this.
         */
        (void) PE_parse_boot_argn("-no_shared_cr3",
-                                 &no_shared_cr3, sizeof (no_shared_cr3));
-       if (no_shared_cr3)
+           &no_shared_cr3, sizeof(no_shared_cr3));
+       if (no_shared_cr3) {
                kprintf("Kernel not sharing user map\n");
-               
-#ifdef PMAP_TRACES
-       if (PE_parse_boot_argn("-pmap_trace", &pmap_trace, sizeof (pmap_trace))) {
+       }
+
+#ifdef  PMAP_TRACES
+       if (PE_parse_boot_argn("-pmap_trace", &pmap_trace, sizeof(pmap_trace))) {
                kprintf("Kernel traces for pmap operations enabled\n");
-       }       
-#endif /* PMAP_TRACES */
+       }
+#endif  /* PMAP_TRACES */
+
+#if MACH_ASSERT
+       PE_parse_boot_argn("pmap_asserts", &pmap_asserts_enabled, sizeof(pmap_asserts_enabled));
+       PE_parse_boot_argn("pmap_stats_assert",
+           &pmap_stats_assert,
+           sizeof(pmap_stats_assert));
+#endif /* MACH_ASSERT */
 }
 
 void
@@ -531,36 +580,36 @@ pmap_virtual_space(
 
 #include <IOKit/IOHibernatePrivate.h>
 
-int32_t                pmap_npages;
-int32_t                pmap_teardown_last_valid_compact_indx = -1;
+int32_t         pmap_npages;
+int32_t         pmap_teardown_last_valid_compact_indx = -1;
 
 
-void   hibernate_rebuild_pmap_structs(void);
-void   hibernate_teardown_pmap_structs(addr64_t *, addr64_t *);
-void   pmap_pack_index(uint32_t);
-int32_t        pmap_unpack_index(pv_rooted_entry_t);
+void    hibernate_rebuild_pmap_structs(void);
+void    hibernate_teardown_pmap_structs(addr64_t *, addr64_t *);
+void    pmap_pack_index(uint32_t);
+int32_t pmap_unpack_index(pv_rooted_entry_t);
 
 
 int32_t
 pmap_unpack_index(pv_rooted_entry_t pv_h)
 {
-       int32_t indx = 0;
+       int32_t indx = 0;
 
        indx = (int32_t)(*((uint64_t *)(&pv_h->qlink.next)) >> 48);
        indx = indx << 16;
        indx |= (int32_t)(*((uint64_t *)(&pv_h->qlink.prev)) >> 48);
-       
+
        *((uint64_t *)(&pv_h->qlink.next)) |= ((uint64_t)0xffff << 48);
        *((uint64_t *)(&pv_h->qlink.prev)) |= ((uint64_t)0xffff << 48);
 
-       return (indx);
+       return indx;
 }
 
 
 void
 pmap_pack_index(uint32_t indx)
 {
-       pv_rooted_entry_t       pv_h;
+       pv_rooted_entry_t       pv_h;
 
        pv_h = &pv_head_table[indx];
 
@@ -575,36 +624,37 @@ pmap_pack_index(uint32_t indx)
 void
 hibernate_teardown_pmap_structs(addr64_t *unneeded_start, addr64_t *unneeded_end)
 {
-       int32_t         i;
-       int32_t         compact_target_indx;
+       int32_t         i;
+       int32_t         compact_target_indx;
 
        compact_target_indx = 0;
 
        for (i = 0; i < pmap_npages; i++) {
                if (pv_head_table[i].pmap == PMAP_NULL) {
-
-                       if (pv_head_table[compact_target_indx].pmap != PMAP_NULL)
+                       if (pv_head_table[compact_target_indx].pmap != PMAP_NULL) {
                                compact_target_indx = i;
+                       }
                } else {
                        pmap_pack_index((uint32_t)i);
 
                        if (pv_head_table[compact_target_indx].pmap == PMAP_NULL) {
                                /*
-                                 * we've got a hole to fill, so
-                                 * move this pv_rooted_entry_t to it's new home
-                                 */
+                                * we've got a hole to fill, so
+                                * move this pv_rooted_entry_t to it's new home
+                                */
                                pv_head_table[compact_target_indx] = pv_head_table[i];
                                pv_head_table[i].pmap = PMAP_NULL;
-                               
+
                                pmap_teardown_last_valid_compact_indx = compact_target_indx;
                                compact_target_indx++;
-                       } else
+                       } else {
                                pmap_teardown_last_valid_compact_indx = i;
+                       }
                }
        }
-       *unneeded_start = (addr64_t)&pv_head_table[pmap_teardown_last_valid_compact_indx+1];
-       *unneeded_end = (addr64_t)&pv_head_table[pmap_npages-1];
-       
+       *unneeded_start = (addr64_t)&pv_head_table[pmap_teardown_last_valid_compact_indx + 1];
+       *unneeded_end = (addr64_t)&pv_head_table[pmap_npages - 1];
+
        HIBLOG("hibernate_teardown_pmap_structs done: last_valid_compact_indx %d\n", pmap_teardown_last_valid_compact_indx);
 }
 
@@ -612,13 +662,12 @@ hibernate_teardown_pmap_structs(addr64_t *unneeded_start, addr64_t *unneeded_end
 void
 hibernate_rebuild_pmap_structs(void)
 {
-       int32_t                 cindx, eindx, rindx;
-       pv_rooted_entry_t       pv_h;
+       int32_t                 cindx, eindx, rindx = 0;
+       pv_rooted_entry_t       pv_h;
 
        eindx = (int32_t)pmap_npages;
 
        for (cindx = pmap_teardown_last_valid_compact_indx; cindx >= 0; cindx--) {
-
                pv_h = &pv_head_table[cindx];
 
                rindx = pmap_unpack_index(pv_h);
@@ -631,24 +680,56 @@ hibernate_rebuild_pmap_structs(void)
                         */
                        pv_head_table[rindx] = pv_head_table[cindx];
                }
-               if (rindx+1 != eindx) {
+               if (rindx + 1 != eindx) {
                        /*
                         * the 'hole' between this vm_rooted_entry_t and the previous
-                        * vm_rooted_entry_t we moved needs to be initialized as 
+                        * vm_rooted_entry_t we moved needs to be initialized as
                         * a range of zero'd vm_rooted_entry_t's
                         */
-                       bzero((char *)&pv_head_table[rindx+1], (eindx - rindx - 1) * sizeof (struct pv_rooted_entry));
+                       bzero((char *)&pv_head_table[rindx + 1], (eindx - rindx - 1) * sizeof(struct pv_rooted_entry));
                }
                eindx = rindx;
        }
-       if (rindx)
-               bzero ((char *)&pv_head_table[0], rindx * sizeof (struct pv_rooted_entry));
+       if (rindx) {
+               bzero((char *)&pv_head_table[0], rindx * sizeof(struct pv_rooted_entry));
+       }
 
        HIBLOG("hibernate_rebuild_pmap_structs done: last_valid_compact_indx %d\n", pmap_teardown_last_valid_compact_indx);
 }
 
 #endif
 
+/*
+ * Create pv entries for kernel pages mapped by early startup code.
+ * These have to exist so we can ml_static_mfree() them later.
+ */
+static void
+pmap_pv_fixup(vm_offset_t start_va, vm_offset_t end_va)
+{
+       ppnum_t           ppn;
+       pv_rooted_entry_t pv_h;
+       uint32_t          pgsz;
+
+       start_va = round_page(start_va);
+       end_va = trunc_page(end_va);
+       while (start_va < end_va) {
+               pgsz = PAGE_SIZE;
+               ppn = pmap_find_phys(kernel_pmap, start_va);
+               if (ppn != 0 && IS_MANAGED_PAGE(ppn)) {
+                       pv_h = pai_to_pvh(ppn);
+                       assert(pv_h->qlink.next == 0);           /* shouldn't be init'd yet */
+                       assert(pv_h->pmap == 0);
+                       pv_h->va_and_flags = start_va;
+                       pv_h->pmap = kernel_pmap;
+                       queue_init(&pv_h->qlink);
+                       if (pmap_query_pagesize(kernel_pmap, start_va) == I386_LPGBYTES) {
+                               pgsz = I386_LPGBYTES;
+                       }
+               }
+               start_va += pgsz;
+       }
+}
+
 /*
  *     Initialize the pmap module.
  *     Called by vm_init, to initialize any structures that the pmap
@@ -657,10 +738,10 @@ hibernate_rebuild_pmap_structs(void)
 void
 pmap_init(void)
 {
-       long                    npages;
-       vm_offset_t             addr;
-       vm_size_t               s, vsize;
-       vm_map_offset_t         vaddr;
+       long                    npages;
+       vm_offset_t             addr;
+       vm_size_t               s, vsize;
+       vm_map_offset_t         vaddr;
        ppnum_t ppn;
 
 
@@ -686,17 +767,18 @@ pmap_init(void)
        npages = i386_btop(avail_end);
 #if HIBERNATION
        pmap_npages = (uint32_t)npages;
-#endif 
+#endif
        s = (vm_size_t) (sizeof(struct pv_rooted_entry) * npages
-                        + (sizeof (struct pv_hashed_entry_t *) * (npvhashbuckets))
-                        + pv_lock_table_size(npages)
-                        + pv_hash_lock_table_size((npvhashbuckets))
-                               + npages);
+           + (sizeof(struct pv_hashed_entry_t *) * (npvhashbuckets))
+           + pv_lock_table_size(npages)
+           + pv_hash_lock_table_size((npvhashbuckets))
+           + npages);
        s = round_page(s);
        if (kernel_memory_allocate(kernel_map, &addr, s, 0,
-                                  KMA_KOBJECT | KMA_PERMANENT, VM_KERN_MEMORY_PMAP)
-           != KERN_SUCCESS)
+           KMA_KOBJECT | KMA_PERMANENT, VM_KERN_MEMORY_PMAP)
+           != KERN_SUCCESS) {
                panic("pmap_init");
+       }
 
        memset((char *)addr, 0, s);
 
@@ -704,7 +786,9 @@ pmap_init(void)
        vsize = s;
 
 #if PV_DEBUG
-       if (0 == npvhashmask) panic("npvhashmask not initialized");
+       if (0 == npvhashmask) {
+               panic("npvhashmask not initialized");
+       }
 #endif
 
        /*
@@ -725,21 +809,25 @@ pmap_init(void)
        pmap_phys_attributes = (char *) addr;
 
        ppnum_t  last_pn = i386_btop(avail_end);
-        unsigned int i;
+       unsigned int i;
        pmap_memory_region_t *pmptr = pmap_memory_regions;
        for (i = 0; i < pmap_memory_region_count; i++, pmptr++) {
-               if (pmptr->type != kEfiConventionalMemory)
+               if (pmptr->type != kEfiConventionalMemory) {
                        continue;
+               }
                ppnum_t pn;
                for (pn = pmptr->base; pn <= pmptr->end; pn++) {
                        if (pn < last_pn) {
                                pmap_phys_attributes[pn] |= PHYS_MANAGED;
 
-                               if (pn > last_managed_page)
+                               if (pn > last_managed_page) {
                                        last_managed_page = pn;
+                               }
 
-                               if (pn >= lowest_hi && pn <= highest_hi)
+                               if ((pmap_high_used_bottom <= pn && pn <= pmap_high_used_top) ||
+                                   (pmap_middle_used_bottom <= pn && pn <= pmap_middle_used_top)) {
                                        pmap_phys_attributes[pn] |= PHYS_NOENCRYPT;
+                               }
                        }
                }
        }
@@ -756,8 +844,8 @@ pmap_init(void)
         *      and of the physical-to-virtual entries.
         */
        s = (vm_size_t) sizeof(struct pmap);
-       pmap_zone = zinit(s, 400*s, 4096, "pmap"); /* XXX */
-        zone_change(pmap_zone, Z_NOENCRYPT, TRUE);
+       pmap_zone = zinit(s, 400 * s, 4096, "pmap"); /* XXX */
+       zone_change(pmap_zone, Z_NOENCRYPT, TRUE);
 
        pmap_anchor_zone = zinit(PAGE_SIZE, task_max, PAGE_SIZE, "pagetable anchors");
        zone_change(pmap_anchor_zone, Z_NOENCRYPT, TRUE);
@@ -768,26 +856,35 @@ pmap_init(void)
         */
 
        zone_change(pmap_anchor_zone, Z_ALIGNMENT_REQUIRED, TRUE);
+/* TODO: possible general optimisation...pre-allocate via zones commonly created
+ * level3/2 pagetables
+ */
+       pmap_uanchor_zone = zinit(PAGE_SIZE, task_max, PAGE_SIZE, "pagetable user anchors");
+       zone_change(pmap_uanchor_zone, Z_NOENCRYPT, TRUE);
+
+       /* The anchor is required to be page aligned. Zone debugging adds
+        * padding which may violate that requirement. Tell the zone
+        * subsystem that alignment is required.
+        */
+
+       zone_change(pmap_uanchor_zone, Z_ALIGNMENT_REQUIRED, TRUE);
 
        s = (vm_size_t) sizeof(struct pv_hashed_entry);
-       pv_hashed_list_zone = zinit(s, 10000*s /* Expandable zone */,
+       pv_hashed_list_zone = zinit(s, 10000 * s /* Expandable zone */,
            4096 * 3 /* LCM x86_64*/, "pv_list");
        zone_change(pv_hashed_list_zone, Z_NOENCRYPT, TRUE);
+       zone_change(pv_hashed_list_zone, Z_GZALLOC_EXEMPT, TRUE);
 
-       /* create pv entries for kernel pages mapped by low level
-          startup code.  these have to exist so we can pmap_remove()
-          e.g. kext pages from the middle of our addr space */
-
-       vaddr = (vm_map_offset_t) VM_MIN_KERNEL_ADDRESS;
-       for (ppn = VM_MIN_KERNEL_PAGE; ppn < i386_btop(avail_start); ppn++) {
-               pv_rooted_entry_t pv_e;
+       /*
+        * Create pv entries for kernel pages that might get pmap_remove()ed.
+        *
+        * - very low pages that were identity mapped.
+        * - vm_pages[] entries that might be unused and reclaimed.
+        */
+       assert((uintptr_t)VM_MIN_KERNEL_ADDRESS + avail_start <= (uintptr_t)vm_page_array_beginning_addr);
+       pmap_pv_fixup((uintptr_t)VM_MIN_KERNEL_ADDRESS, (uintptr_t)VM_MIN_KERNEL_ADDRESS + avail_start);
+       pmap_pv_fixup((uintptr_t)vm_page_array_beginning_addr, (uintptr_t)vm_page_array_ending_addr);
 
-               pv_e = pai_to_pvh(ppn);
-               pv_e->va = vaddr;
-               vaddr += PAGE_SIZE;
-               pv_e->pmap = kernel_pmap;
-               queue_init(&pv_e->qlink);
-       }
        pmap_initialized = TRUE;
 
        max_preemption_latency_tsc = tmrCvt((uint64_t)MAX_PREEMPTION_LATENCY_NS, tscFCvtn2t);
@@ -799,14 +896,15 @@ pmap_init(void)
        pmap_expand_pml4(kernel_pmap, KERNEL_BASEMENT, PMAP_EXPAND_OPTIONS_NONE);
 
 #if CONFIG_VMX
-       pmap_ept_support_ad = vmx_hv_support()  && (VMX_CAP(MSR_IA32_VMX_EPT_VPID_CAP, MSR_IA32_VMX_EPT_VPID_CAP_AD_SHIFT, 1) ? TRUE : FALSE);
-#else
-       pmap_ept_support_ad = FALSE;
+       pmap_ept_support_ad = vmx_hv_support() && (VMX_CAP(MSR_IA32_VMX_EPT_VPID_CAP, MSR_IA32_VMX_EPT_VPID_CAP_AD_SHIFT, 1) ? TRUE : FALSE);
+       pmap_eptp_flags = HV_VMX_EPTP_MEMORY_TYPE_WB | HV_VMX_EPTP_WALK_LENGTH(4) | (pmap_ept_support_ad ? HV_VMX_EPTP_ENABLE_AD_FLAGS : 0);
 #endif /* CONFIG_VMX */
 }
 
 static
-void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, boolean_t ro) {
+void
+pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, boolean_t ro)
+{
        uint64_t ev = sv + nxrosz, cv = sv;
        pd_entry_t *pdep;
        pt_entry_t *ptep = NULL;
@@ -819,10 +917,12 @@ void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, b
                uint64_t pdev = (cv & ~((uint64_t)PDEMASK));
 
                if (*pdep & INTEL_PTE_PS) {
-                       if (NX)
+                       if (NX) {
                                *pdep |= INTEL_PTE_NX;
-                       if (ro)
+                       }
+                       if (ro) {
                                *pdep &= ~INTEL_PTE_WRITE;
+                       }
                        cv += NBPD;
                        cv &= ~((uint64_t) PDEMASK);
                        pdep = pmap_pde(npmap, cv);
@@ -830,10 +930,12 @@ void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, b
                }
 
                for (ptep = pmap_pte(npmap, cv); ptep != NULL && (cv < (pdev + NBPD)) && (cv < ev);) {
-                       if (NX)
+                       if (NX) {
                                *ptep |= INTEL_PTE_NX;
-                       if (ro)
+                       }
+                       if (ro) {
                                *ptep &= ~INTEL_PTE_WRITE;
+                       }
                        cv += NBPT;
                        ptep = pmap_pte(npmap, cv);
                }
@@ -841,6 +943,24 @@ void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, b
        DPRINTF("%s(0x%llx, 0x%llx, %u, %u): 0x%llx, 0x%llx\n", __FUNCTION__, sv, nxrosz, NX, ro, cv, ptep ? *ptep: 0);
 }
 
+/*
+ * Reclaim memory for early boot 4K page tables that were converted to large page mappings.
+ * We know this memory is part of the KPTphys[] array that was allocated in Idle_PTs_init(),
+ * so we can free it using its address in that array.
+ */
+static void
+pmap_free_early_PT(ppnum_t ppn, uint32_t cnt)
+{
+       ppnum_t KPTphys_ppn;
+       vm_offset_t offset;
+
+       KPTphys_ppn = pmap_find_phys(kernel_pmap, (uintptr_t)KPTphys);
+       assert(ppn >= KPTphys_ppn);
+       assert(ppn + cnt <= KPTphys_ppn + NKPT);
+       offset = (ppn - KPTphys_ppn) << PAGE_SHIFT;
+       ml_static_mfree((uintptr_t)KPTphys + offset, PAGE_SIZE * cnt);
+}
+
 /*
  * Called once VM is fully initialized so that we can release unused
  * sections of low memory to the general pool.
@@ -858,14 +978,14 @@ void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, b
  * through linker directives. Large pages are used only if this alignment
  * exists (and not overriden by the -kernel_text_page_4K boot-arg). The
  * memory layout is:
- * 
+ *
  *                       :                :
  *                       |     __DATA     |
  *               sdata:  ==================  2Meg
  *                       |                |
  *                       |  zero-padding  |
  *                       |                |
- *               etext:  ------------------ 
+ *               etext:  ------------------
  *                       |                |
  *                       :                :
  *                       |                |
@@ -877,7 +997,7 @@ void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, b
  *                       |                |
  *                       |  zero-padding  |
  *                       |                |
- *               eHIB:   ------------------ 
+ *               eHIB:   ------------------
  *                       |     __HIB      |
  *                       :                :
  *
@@ -886,12 +1006,14 @@ void pmap_mark_range(pmap_t npmap, uint64_t sv, uint64_t nxrosz, boolean_t NX, b
  * 4K pages covering [stext,etext] are coalesced as 2M large pages.
  * The now unused level-1 PTE pages are also freed.
  */
-extern ppnum_t vm_kernel_base_page;
+extern ppnum_t  vm_kernel_base_page;
+static uint32_t dataptes = 0;
+
 void
 pmap_lowmem_finalize(void)
 {
        spl_t           spl;
-       int             i;
+       int             i;
 
        /*
         * Update wired memory statistics for early boot pages
@@ -910,34 +1032,38 @@ pmap_lowmem_finalize(void)
         * needs has to be released to VM.
         */
        for (i = 0;
-            pmap_memory_regions[i].end < vm_kernel_base_page;
-            i++) {
-               vm_offset_t     pbase = i386_ptob(pmap_memory_regions[i].base);
-               vm_offset_t     pend  = i386_ptob(pmap_memory_regions[i].end+1);
+           pmap_memory_regions[i].end < vm_kernel_base_page;
+           i++) {
+               vm_offset_t     pbase = i386_ptob(pmap_memory_regions[i].base);
+               vm_offset_t     pend  = i386_ptob(pmap_memory_regions[i].end + 1);
 
                DBG("pmap region %d [%p..[%p\n",
                    i, (void *) pbase, (void *) pend);
 
-               if (pmap_memory_regions[i].attribute & EFI_MEMORY_KERN_RESERVED)
+               if (pmap_memory_regions[i].attribute & EFI_MEMORY_KERN_RESERVED) {
                        continue;
+               }
                /*
                 * rdar://6332712
                 * Adjust limits not to free pages in range 0xc0000-0xff000.
                 */
-               if (pbase >= 0xc0000 && pend <= 0x100000)
+               if (pbase >= 0xc0000 && pend <= 0x100000) {
                        continue;
+               }
                if (pbase < 0xc0000 && pend > 0x100000) {
                        /* page range entirely within region, free lower part */
                        DBG("- ml_static_mfree(%p,%p)\n",
                            (void *) ml_static_ptovirt(pbase),
-                           (void *) (0xc0000-pbase));
-                       ml_static_mfree(ml_static_ptovirt(pbase),0xc0000-pbase);
+                           (void *) (0xc0000 - pbase));
+                       ml_static_mfree(ml_static_ptovirt(pbase), 0xc0000 - pbase);
                        pbase = 0x100000;
                }
-               if (pbase < 0xc0000)
+               if (pbase < 0xc0000) {
                        pend = MIN(pend, 0xc0000);
-               if (pend  > 0x100000)
+               }
+               if (pend > 0x100000) {
                        pbase = MAX(pbase, 0x100000);
+               }
                DBG("- ml_static_mfree(%p,%p)\n",
                    (void *) ml_static_ptovirt(pbase),
                    (void *) (pend - pbase));
@@ -951,10 +1077,18 @@ pmap_lowmem_finalize(void)
 
        /*
         * Remove all mappings past the boot-cpu descriptor aliases and low globals.
-        * Non-boot-cpu GDT aliases will be remapped later as needed. 
+        * Non-boot-cpu GDT aliases will be remapped later as needed.
         */
        pmap_remove(kernel_pmap, LOWGLOBAL_ALIAS + PAGE_SIZE, vm_kernel_base);
 
+       /*
+        * Release any memory for early boot 4K page table pages that got replaced
+        * with large page mappings for vm_pages[]. We know this memory is part of
+        * the KPTphys[] array that was allocated in Idle_PTs_init(), so we can free
+        * it using that address.
+        */
+       pmap_free_early_PT(released_PT_ppn, released_PT_cnt);
+
        /*
         * If text and data are both 2MB-aligned,
         * we can map text with large-pages,
@@ -964,24 +1098,27 @@ pmap_lowmem_finalize(void)
                kprintf("Kernel text is 2MB aligned");
                kernel_text_ps_4K = FALSE;
                if (PE_parse_boot_argn("-kernel_text_ps_4K",
-                                      &kernel_text_ps_4K,
-                                      sizeof (kernel_text_ps_4K)))
+                   &kernel_text_ps_4K,
+                   sizeof(kernel_text_ps_4K))) {
                        kprintf(" but will be mapped with 4K pages\n");
-               else
+               } else {
                        kprintf(" and will be mapped with 2M pages\n");
+               }
        }
-
-       (void) PE_parse_boot_argn("wpkernel", &wpkernel, sizeof (wpkernel));
-       if (wpkernel)
+#if     DEVELOPMENT || DEBUG
+       (void) PE_parse_boot_argn("wpkernel", &wpkernel, sizeof(wpkernel));
+#endif
+       if (wpkernel) {
                kprintf("Kernel text %p-%p to be write-protected\n",
-                       (void *) stext, (void *) etext);
+                   (void *) stext, (void *) etext);
+       }
 
        spl = splhigh();
 
        /*
         * Scan over text if mappings are to be changed:
-        * - Remap kernel text readonly unless the "wpkernel" boot-arg is 0 
-        * - Change to large-pages if possible and not overriden.
+        * - Remap kernel text readonly unless the "wpkernel" boot-arg is 0
+        * - Change to large-pages if possible and not overriden.
         */
        if (kernel_text_ps_4K && wpkernel) {
                vm_offset_t     myva;
@@ -989,8 +1126,9 @@ pmap_lowmem_finalize(void)
                        pt_entry_t     *ptep;
 
                        ptep = pmap_pte(kernel_pmap, (vm_map_offset_t)myva);
-                       if (ptep)
+                       if (ptep) {
                                pmap_store_pte(ptep, *ptep & ~INTEL_PTE_WRITE);
+                       }
                }
        }
 
@@ -1001,99 +1139,66 @@ pmap_lowmem_finalize(void)
                 * Release zero-filled page padding used for 2M-alignment.
                 */
                DBG("ml_static_mfree(%p,%p) for padding below text\n",
-                       (void *) eHIB, (void *) (stext - eHIB));
+                   (void *) eHIB, (void *) (stext - eHIB));
                ml_static_mfree(eHIB, stext - eHIB);
                DBG("ml_static_mfree(%p,%p) for padding above text\n",
-                       (void *) etext, (void *) (sdata - etext));
+                   (void *) etext, (void *) (sdata - etext));
                ml_static_mfree(etext, sdata - etext);
 
                /*
                 * Coalesce text pages into large pages.
                 */
                for (myva = stext; myva < sdata; myva += I386_LPGBYTES) {
-                       pt_entry_t      *ptep;
-                       vm_offset_t     pte_phys;
-                       pt_entry_t      *pdep;
-                       pt_entry_t      pde;
+                       pt_entry_t      *ptep;
+                       vm_offset_t     pte_phys;
+                       pt_entry_t      *pdep;
+                       pt_entry_t      pde;
+                       ppnum_t         KPT_ppn;
 
                        pdep = pmap_pde(kernel_pmap, (vm_map_offset_t)myva);
+                       KPT_ppn = (ppnum_t)((*pdep & PG_FRAME) >> PAGE_SHIFT);
                        ptep = pmap_pte(kernel_pmap, (vm_map_offset_t)myva);
                        DBG("myva: %p pdep: %p ptep: %p\n",
-                               (void *) myva, (void *) pdep, (void *) ptep);
-                       if ((*ptep & INTEL_PTE_VALID) == 0)
+                           (void *) myva, (void *) pdep, (void *) ptep);
+                       if ((*ptep & INTEL_PTE_VALID) == 0) {
                                continue;
+                       }
                        pte_phys = (vm_offset_t)(*ptep & PG_FRAME);
-                       pde = *pdep & PTMASK;   /* page attributes from pde */
-                       pde |= INTEL_PTE_PS;    /* make it a 2M entry */
-                       pde |= pte_phys;        /* take page frame from pte */
+                       pde = *pdep & PTMASK;   /* page attributes from pde */
+                       pde |= INTEL_PTE_PS;    /* make it a 2M entry */
+                       pde |= pte_phys;        /* take page frame from pte */
 
-                       if (wpkernel)
+                       if (wpkernel) {
                                pde &= ~INTEL_PTE_WRITE;
+                       }
                        DBG("pmap_store_pte(%p,0x%llx)\n",
-                               (void *)pdep, pde);
+                           (void *)pdep, pde);
                        pmap_store_pte(pdep, pde);
 
                        /*
                         * Free the now-unused level-1 pte.
-                        * Note: ptep is a virtual address to the pte in the
-                        *   recursive map. We can't use this address to free
-                        *   the page. Instead we need to compute its address
-                        *   in the Idle PTEs in "low memory".
                         */
-                       vm_offset_t vm_ptep = (vm_offset_t) KPTphys
-                                               + (pte_phys >> PTPGSHIFT);
-                       DBG("ml_static_mfree(%p,0x%x) for pte\n",
-                               (void *) vm_ptep, PAGE_SIZE);
-                       ml_static_mfree(vm_ptep, PAGE_SIZE);
+                       pmap_free_early_PT(KPT_ppn, 1);
                }
 
                /* Change variable read by sysctl machdep.pmap */
                pmap_kernel_text_ps = I386_LPGBYTES;
        }
 
-       boolean_t doconstro = TRUE;
-
-       (void) PE_parse_boot_argn("dataconstro", &doconstro, sizeof(doconstro));
-
-       if ((sconstdata | econstdata) & PAGE_MASK) {
-               kprintf("Const DATA misaligned 0x%lx 0x%lx\n", sconstdata, econstdata);
-               if ((sconstdata & PAGE_MASK) || (doconstro_override == FALSE))
-                       doconstro = FALSE;
-       }
-
-       if ((sconstdata > edata) || (sconstdata < sdata) || ((econstdata - sconstdata) >= (edata - sdata))) {
-               kprintf("Const DATA incorrect size 0x%lx 0x%lx 0x%lx 0x%lx\n", sconstdata, econstdata, sdata, edata);
-               doconstro = FALSE;
-       }
-
-       if (doconstro)
-               kprintf("Marking const DATA read-only\n");
-
        vm_offset_t dva;
 
        for (dva = sdata; dva < edata; dva += I386_PGBYTES) {
                assert(((sdata | edata) & PAGE_MASK) == 0);
-               if ( (sdata | edata) & PAGE_MASK) {
-                       kprintf("DATA misaligned, 0x%lx, 0x%lx\n", sdata, edata);
-                       break;
-               }
-
                pt_entry_t dpte, *dptep = pmap_pte(kernel_pmap, dva);
 
                dpte = *dptep;
-
                assert((dpte & INTEL_PTE_VALID));
-               if ((dpte & INTEL_PTE_VALID) == 0) {
-                       kprintf("Missing data mapping 0x%lx 0x%lx 0x%lx\n", dva, sdata, edata);
-                       continue;
-               }
-
                dpte |= INTEL_PTE_NX;
-               if (doconstro && (dva >= sconstdata) && (dva < econstdata)) {
-                       dpte &= ~INTEL_PTE_WRITE;
-               }
                pmap_store_pte(dptep, dpte);
+               dataptes++;
        }
+       assert(dataptes > 0);
+
        kernel_segment_command_t * seg;
        kernel_section_t         * sec;
 
@@ -1108,8 +1213,9 @@ pmap_lowmem_finalize(void)
                }
                if (!strcmp(seg->segname, "__HIB")) {
                        for (sec = firstsect(seg); sec != NULL; sec = nextsect(seg, sec)) {
-                               if (sec->addr & PAGE_MASK)
+                               if (sec->addr & PAGE_MASK) {
                                        panic("__HIB segment's sections misaligned");
+                               }
                                if (!strcmp(sec->sectname, "__text")) {
                                        pmap_mark_range(kernel_pmap, sec->addr, round_page(sec->size), FALSE, TRUE);
                                } else {
@@ -1127,61 +1233,132 @@ pmap_lowmem_finalize(void)
         */
        if (debug_boot_arg) {
                pt_entry_t *pte = NULL;
-               if (0 == (pte = pmap_pte(kernel_pmap, LOWGLOBAL_ALIAS)))
+               if (0 == (pte = pmap_pte(kernel_pmap, LOWGLOBAL_ALIAS))) {
                        panic("lowmem pte");
+               }
                /* make sure it is defined on page boundary */
                assert(0 == ((vm_offset_t) &lowGlo & PAGE_MASK));
                pmap_store_pte(pte, kvtophys((vm_offset_t)&lowGlo)
-                                       | INTEL_PTE_REF
-                                       | INTEL_PTE_MOD
-                                       | INTEL_PTE_WIRED
-                                       | INTEL_PTE_VALID
-                                       | INTEL_PTE_WRITE
-                                       | INTEL_PTE_NX);
+                   | INTEL_PTE_REF
+                   | INTEL_PTE_MOD
+                   | INTEL_PTE_WIRED
+                   | INTEL_PTE_VALID
+                   | INTEL_PTE_WRITE
+                   | INTEL_PTE_NX);
        } else {
                pmap_remove(kernel_pmap,
-                           LOWGLOBAL_ALIAS, LOWGLOBAL_ALIAS + PAGE_SIZE);
+                   LOWGLOBAL_ALIAS, LOWGLOBAL_ALIAS + PAGE_SIZE);
        }
-       
+       pmap_tlbi_range(0, ~0ULL, true, 0);
        splx(spl);
-       if (pmap_pcid_ncpus)
-               tlb_flush_global();
-       else
-               flush_tlb_raw();
 }
 
+/*
+ *     Mark the const data segment as read-only, non-executable.
+ */
+void
+x86_64_protect_data_const()
+{
+       boolean_t doconstro = TRUE;
+#if DEVELOPMENT || DEBUG
+       (void) PE_parse_boot_argn("dataconstro", &doconstro, sizeof(doconstro));
+#endif
+       if (doconstro) {
+               if (sconst & PAGE_MASK) {
+                       panic("CONST segment misaligned 0x%lx 0x%lx\n",
+                           sconst, econst);
+               }
+               kprintf("Marking const DATA read-only\n");
+               pmap_protect(kernel_pmap, sconst, econst, VM_PROT_READ);
+       }
+}
 /*
  * this function is only used for debugging fron the vm layer
  */
 boolean_t
 pmap_verify_free(
-                ppnum_t pn)
+       ppnum_t pn)
 {
-       pv_rooted_entry_t       pv_h;
-       int             pai;
-       boolean_t       result;
+       pv_rooted_entry_t       pv_h;
+       int             pai;
+       boolean_t       result;
 
        assert(pn != vm_page_fictitious_addr);
 
-       if (!pmap_initialized)
-               return(TRUE);
+       if (!pmap_initialized) {
+               return TRUE;
+       }
 
-       if (pn == vm_page_guard_addr)
+       if (pn == vm_page_guard_addr) {
                return TRUE;
+       }
 
        pai = ppn_to_pai(pn);
-       if (!IS_MANAGED_PAGE(pai))
-               return(FALSE);
+       if (!IS_MANAGED_PAGE(pai)) {
+               return FALSE;
+       }
        pv_h = pai_to_pvh(pn);
        result = (pv_h->pmap == PMAP_NULL);
-       return(result);
+       return result;
+}
+
+#if MACH_ASSERT
+void
+pmap_assert_free(ppnum_t pn)
+{
+       int pai;
+       pv_rooted_entry_t pv_h = NULL;
+       pmap_t pmap = NULL;
+       vm_offset_t va = 0;
+       static char buffer[32];
+       static char *pr_name = "not managed pn";
+       uint_t attr;
+       pt_entry_t *ptep;
+       pt_entry_t pte = -1ull;
+
+       if (pmap_verify_free(pn)) {
+               return;
+       }
+
+       if (pn > last_managed_page) {
+               attr = 0xff;
+               goto done;
+       }
+
+       pai = ppn_to_pai(pn);
+       attr = pmap_phys_attributes[pai];
+       pv_h = pai_to_pvh(pai);
+       va = pv_h->va_and_flags;
+       pmap = pv_h->pmap;
+       if (pmap == kernel_pmap) {
+               pr_name = "kernel";
+       } else if (pmap == NULL) {
+               pr_name = "pmap NULL";
+       } else if (pmap->pmap_procname[0] != 0) {
+               pr_name = &pmap->pmap_procname[0];
+       } else {
+               snprintf(buffer, sizeof(buffer), "pmap %p", pv_h->pmap);
+               pr_name = buffer;
+       }
+
+       if (pmap != NULL) {
+               ptep = pmap_pte(pmap, va);
+               if (ptep != NULL) {
+                       pte = (uintptr_t)*ptep;
+               }
+       }
+
+done:
+       panic("page not FREE page: 0x%lx attr: 0x%x %s va: 0x%lx PTE: 0x%llx",
+           (ulong_t)pn, attr, pr_name, va, pte);
 }
+#endif /* MACH_ASSERT */
 
 boolean_t
 pmap_is_empty(
-       pmap_t          pmap,
-       vm_map_offset_t va_start,
-       vm_map_offset_t va_end)
+       pmap_t          pmap,
+       vm_map_offset_t va_start,
+       vm_map_offset_t va_end)
 {
        vm_map_offset_t offset;
        ppnum_t         phys_page;
@@ -1198,17 +1375,18 @@ pmap_is_empty(
         * This assumes the count is correct
         * .. the debug kernel ought to be checking perhaps by page table walk.
         */
-       if (pmap->stats.resident_count == 0)
+       if (pmap->stats.resident_count == 0) {
                return TRUE;
+       }
 
        for (offset = va_start;
-            offset < va_end;
-            offset += PAGE_SIZE_64) {
+           offset < va_end;
+           offset += PAGE_SIZE_64) {
                phys_page = pmap_find_phys(pmap, offset);
                if (phys_page) {
                        kprintf("pmap_is_empty(%p,0x%llx,0x%llx): "
-                               "page %d at 0x%llx\n",
-                               pmap, va_start, va_end, phys_page, offset);
+                           "page %d at 0x%llx\n",
+                           pmap, va_start, va_end, phys_page, offset);
                        return FALSE;
                }
        }
@@ -1239,6 +1417,22 @@ hv_ept_pmap_create(void **ept_pmap, void **eptp)
        return;
 }
 
+/*
+ * pmap_create() is used by some special, legacy 3rd party kexts.
+ * In our kernel code, always use pmap_create_options().
+ */
+extern pmap_t pmap_create(ledger_t ledger, vm_map_size_t sz, boolean_t is_64bit);
+
+__attribute__((used))
+pmap_t
+pmap_create(
+       ledger_t      ledger,
+       vm_map_size_t sz,
+       boolean_t     is_64bit)
+{
+       return pmap_create_options(ledger, sz, is_64bit ? PMAP_CREATE_64BIT : 0);
+}
+
 /*
  *     Create and return a physical map.
  *
@@ -1251,19 +1445,20 @@ hv_ept_pmap_create(void **ept_pmap, void **eptp)
  *     the map will be used in software only, and
  *     is bounded by that size.
  */
+
 pmap_t
 pmap_create_options(
-       ledger_t        ledger,
-       vm_map_size_t   sz,
-       int             flags)
+       ledger_t        ledger,
+       vm_map_size_t   sz,
+       unsigned int    flags)
 {
-       pmap_t          p;
-       vm_size_t       size;
+       pmap_t          p;
+       vm_size_t       size;
        pml4_entry_t    *pml4;
        pml4_entry_t    *kpml4;
+       int             i;
 
-       PMAP_TRACE(PMAP_CODE(PMAP__CREATE) | DBG_FUNC_START,
-                  (uint32_t) (sz>>32), (uint32_t) sz, flags, 0, 0);
+       PMAP_TRACE(PMAP_CODE(PMAP__CREATE) | DBG_FUNC_START, sz, flags);
 
        size = (vm_size_t) sz;
 
@@ -1272,89 +1467,131 @@ pmap_create_options(
         */
 
        if (size != 0) {
-               return(PMAP_NULL);
+               return PMAP_NULL;
        }
 
        /*
         *      Return error when unrecognized flags are passed.
         */
-       if ((flags & ~(PMAP_CREATE_KNOWN_FLAGS)) != 0) {
-               return(PMAP_NULL);
+       if (__improbable((flags & ~(PMAP_CREATE_KNOWN_FLAGS)) != 0)) {
+               return PMAP_NULL;
        }
 
        p = (pmap_t) zalloc(pmap_zone);
-       if (PMAP_NULL == p)
+       if (PMAP_NULL == p) {
                panic("pmap_create zalloc");
+       }
+
        /* Zero all fields */
        bzero(p, sizeof(*p));
-       /* init counts now since we'll be bumping some */
-       simple_lock_init(&p->lock, 0);
-#if 00
-       p->stats.resident_count = 0;
-       p->stats.resident_max = 0;
-       p->stats.wired_count = 0;
-#else
-       bzero(&p->stats, sizeof (p->stats));
-#endif
-       p->ref_count = 1;
+
+       lck_rw_init(&p->pmap_rwl, &pmap_lck_grp, &pmap_lck_rw_attr);
+       p->pmap_rwl.lck_rw_can_sleep = FALSE;
+
+       bzero(&p->stats, sizeof(p->stats));
+       os_ref_init(&p->ref_count, NULL);
+#if DEVELOPMENT || DEBUG
        p->nx_enabled = 1;
+#endif
        p->pm_shared = FALSE;
        ledger_reference(ledger);
        p->ledger = ledger;
 
        p->pm_task_map = ((flags & PMAP_CREATE_64BIT) ? TASK_MAP_64BIT : TASK_MAP_32BIT);
-       if (pmap_pcid_ncpus)
+
+       p->pagezero_accessible = FALSE;
+
+       if (pmap_pcid_ncpus) {
                pmap_pcid_initialize(p);
+       }
 
        p->pm_pml4 = zalloc(pmap_anchor_zone);
+       p->pm_upml4 = zalloc(pmap_uanchor_zone); //cleanup for EPT
 
        pmap_assert((((uintptr_t)p->pm_pml4) & PAGE_MASK) == 0);
+       pmap_assert((((uintptr_t)p->pm_upml4) & PAGE_MASK) == 0);
 
        memset((char *)p->pm_pml4, 0, PAGE_SIZE);
+       memset((char *)p->pm_upml4, 0, PAGE_SIZE);
 
        if (flags & PMAP_CREATE_EPT) {
-               p->pm_eptp = (pmap_paddr_t)kvtophys((vm_offset_t)p->pm_pml4);
+               p->pm_eptp = (pmap_paddr_t)kvtophys((vm_offset_t)p->pm_pml4) | pmap_eptp_flags;
                p->pm_cr3 = 0;
        } else {
                p->pm_eptp = 0;
                p->pm_cr3 = (pmap_paddr_t)kvtophys((vm_offset_t)p->pm_pml4);
+               p->pm_ucr3 = (pmap_paddr_t)kvtophys((vm_offset_t)p->pm_upml4);
        }
 
        /* allocate the vm_objs to hold the pdpt, pde and pte pages */
 
-       p->pm_obj_pml4 = vm_object_allocate((vm_object_size_t)(NPML4PGS) * PAGE_SIZE);
-       if (NULL == p->pm_obj_pml4)
+       p->pm_obj_pml4 = vm_object_allocate((vm_object_size_t)(NPML4PGS) *PAGE_SIZE);
+       if (NULL == p->pm_obj_pml4) {
                panic("pmap_create pdpt obj");
+       }
 
-       p->pm_obj_pdpt = vm_object_allocate((vm_object_size_t)(NPDPTPGS) * PAGE_SIZE);
-       if (NULL == p->pm_obj_pdpt)
+       p->pm_obj_pdpt = vm_object_allocate((vm_object_size_t)(NPDPTPGS) *PAGE_SIZE);
+       if (NULL == p->pm_obj_pdpt) {
                panic("pmap_create pdpt obj");
+       }
 
-       p->pm_obj = vm_object_allocate((vm_object_size_t)(NPDEPGS) * PAGE_SIZE);
-       if (NULL == p->pm_obj)
+       p->pm_obj = vm_object_allocate((vm_object_size_t)(NPDEPGS) *PAGE_SIZE);
+       if (NULL == p->pm_obj) {
                panic("pmap_create pte obj");
+       }
+
+       if (!(flags & PMAP_CREATE_EPT)) {
+               /* All host pmaps share the kernel's pml4 */
+               pml4 = pmap64_pml4(p, 0ULL);
+               kpml4 = kernel_pmap->pm_pml4;
+               for (i = KERNEL_PML4_INDEX; i < (KERNEL_PML4_INDEX + KERNEL_PML4_COUNT); i++) {
+                       pml4[i] = kpml4[i];
+               }
+               pml4[KERNEL_KEXTS_INDEX]   = kpml4[KERNEL_KEXTS_INDEX];
+               for (i = KERNEL_PHYSMAP_PML4_INDEX; i < (KERNEL_PHYSMAP_PML4_INDEX + KERNEL_PHYSMAP_PML4_COUNT); i++) {
+                       pml4[i] = kpml4[i];
+               }
+               pml4[KERNEL_DBLMAP_PML4_INDEX] = kpml4[KERNEL_DBLMAP_PML4_INDEX];
+#if KASAN
+               for (i = KERNEL_KASAN_PML4_FIRST; i <= KERNEL_KASAN_PML4_LAST; i++) {
+                       pml4[i] = kpml4[i];
+               }
+#endif
+               pml4_entry_t    *pml4u = pmap64_user_pml4(p, 0ULL);
+               pml4u[KERNEL_DBLMAP_PML4_INDEX] = kpml4[KERNEL_DBLMAP_PML4_INDEX];
+       }
 
-       /* All pmaps share the kernel's pml4 */
-       pml4 = pmap64_pml4(p, 0ULL);
-       kpml4 = kernel_pmap->pm_pml4;
-       pml4[KERNEL_PML4_INDEX]    = kpml4[KERNEL_PML4_INDEX];
-       pml4[KERNEL_KEXTS_INDEX]   = kpml4[KERNEL_KEXTS_INDEX];
-       pml4[KERNEL_PHYSMAP_PML4_INDEX] = kpml4[KERNEL_PHYSMAP_PML4_INDEX];
+#if MACH_ASSERT
+       p->pmap_stats_assert = TRUE;
+       p->pmap_pid = 0;
+       strlcpy(p->pmap_procname, "<nil>", sizeof(p->pmap_procname));
+#endif /* MACH_ASSERT */
 
-       PMAP_TRACE(PMAP_CODE(PMAP__CREATE) | DBG_FUNC_START,
-                  p, flags, 0, 0, 0);
+       PMAP_TRACE(PMAP_CODE(PMAP__CREATE) | DBG_FUNC_END,
+           VM_KERNEL_ADDRHIDE(p));
 
-       return(p);
+       return p;
 }
 
-pmap_t
-pmap_create(
-       ledger_t        ledger,
-       vm_map_size_t   sz,
-       boolean_t       is_64bit)
+/*
+ * We maintain stats and ledgers so that a task's physical footprint is:
+ * phys_footprint = ((internal - alternate_accounting)
+ *                   + (internal_compressed - alternate_accounting_compressed)
+ *                   + iokit_mapped
+ *                   + purgeable_nonvolatile
+ *                   + purgeable_nonvolatile_compressed
+ *                   + page_table)
+ * where "alternate_accounting" includes "iokit" and "purgeable" memory.
+ */
+
+#if MACH_ASSERT
+static void pmap_check_ledgers(pmap_t pmap);
+#else /* MACH_ASSERT */
+static inline void
+pmap_check_ledgers(__unused pmap_t pmap)
 {
-       return pmap_create_options(ledger, sz, ((is_64bit) ? PMAP_CREATE_64BIT : 0));
 }
+#endif /* MACH_ASSERT */
 
 /*
  *     Retire the given physical map from service.
@@ -1364,41 +1601,42 @@ pmap_create(
 extern int vm_wired_objects_page_count;
 
 void
-pmap_destroy(pmap_t    p)
+pmap_destroy(pmap_t     p)
 {
-       int             c;
+       os_ref_count_t c;
 
-       if (p == PMAP_NULL)
+       if (p == PMAP_NULL) {
                return;
+       }
 
        PMAP_TRACE(PMAP_CODE(PMAP__DESTROY) | DBG_FUNC_START,
-                  p, 0, 0, 0, 0);
+           VM_KERNEL_ADDRHIDe(p));
 
-       PMAP_LOCK(p);
+       PMAP_LOCK_EXCLUSIVE(p);
 
-       c = --p->ref_count;
+       c = os_ref_release_locked(&p->ref_count);
 
        pmap_assert((current_thread() && (current_thread()->map)) ? (current_thread()->map->pmap != p) : TRUE);
 
        if (c == 0) {
-               /* 
+               /*
                 * If some cpu is not using the physical pmap pointer that it
                 * is supposed to be (see set_dirbase), we might be using the
                 * pmap that is being destroyed! Make sure we are
                 * physically on the right pmap:
                 */
                PMAP_UPDATE_TLBS(p, 0x0ULL, 0xFFFFFFFFFFFFF000ULL);
-               if (pmap_pcid_ncpus)
+               if (pmap_pcid_ncpus) {
                        pmap_destroy_pcid_sync(p);
+               }
        }
 
-       PMAP_UNLOCK(p);
+       PMAP_UNLOCK_EXCLUSIVE(p);
 
        if (c != 0) {
-               PMAP_TRACE(PMAP_CODE(PMAP__DESTROY) | DBG_FUNC_END,
-                          p, 1, 0, 0, 0);
+               PMAP_TRACE(PMAP_CODE(PMAP__DESTROY) | DBG_FUNC_END);
                pmap_assert(p == kernel_pmap);
-               return; /* still in use */
+               return; /* still in use */
        }
 
        /*
@@ -1408,6 +1646,7 @@ pmap_destroy(pmap_t       p)
        int inuse_ptepages = 0;
 
        zfree(pmap_anchor_zone, p->pm_pml4);
+       zfree(pmap_uanchor_zone, p->pm_upml4);
 
        inuse_ptepages += p->pm_obj_pml4->resident_page_count;
        vm_object_deallocate(p->pm_obj_pml4);
@@ -1418,13 +1657,14 @@ pmap_destroy(pmap_t     p)
        inuse_ptepages += p->pm_obj->resident_page_count;
        vm_object_deallocate(p->pm_obj);
 
-       OSAddAtomic(-inuse_ptepages,  &inuse_ptepages_count);
+       OSAddAtomic(-inuse_ptepages, &inuse_ptepages_count);
        PMAP_ZINFO_PFREE(p, inuse_ptepages * PAGE_SIZE);
+
+       pmap_check_ledgers(p);
        ledger_dereference(p->ledger);
        zfree(pmap_zone, p);
 
-       PMAP_TRACE(PMAP_CODE(PMAP__DESTROY) | DBG_FUNC_END,
-                  0, 0, 0, 0, 0);
+       PMAP_TRACE(PMAP_CODE(PMAP__DESTROY) | DBG_FUNC_END);
 }
 
 /*
@@ -1432,12 +1672,12 @@ pmap_destroy(pmap_t     p)
  */
 
 void
-pmap_reference(pmap_t  p)
+pmap_reference(pmap_t   p)
 {
        if (p != PMAP_NULL) {
-               PMAP_LOCK(p);
-               p->ref_count++;
-               PMAP_UNLOCK(p);;
+               PMAP_LOCK_EXCLUSIVE(p);
+               os_ref_retain_locked(&p->ref_count);
+               PMAP_UNLOCK_EXCLUSIVE(p);;
        }
 }
 
@@ -1447,21 +1687,19 @@ pmap_reference(pmap_t   p)
  */
 void
 pmap_remove_some_phys(
-       __unused pmap_t         map,
+       __unused pmap_t         map,
        __unused ppnum_t         pn)
 {
-
 /* Implement to support working set code */
-
 }
 
 
 void
 pmap_protect(
-       pmap_t          map,
-       vm_map_offset_t sva,
-       vm_map_offset_t eva,
-       vm_prot_t       prot)
+       pmap_t          map,
+       vm_map_offset_t sva,
+       vm_map_offset_t eva,
+       vm_prot_t       prot)
 {
        pmap_protect_options(map, sva, eva, prot, 0, NULL);
 }
@@ -1470,91 +1708,107 @@ pmap_protect(
 /*
  *     Set the physical protection on the
  *     specified range of this map as requested.
- *     Will not increase permissions.
+ *
+ * VERY IMPORTANT: Will *NOT* increase permissions.
+ *     pmap_protect_options() should protect the range against any access types
+ *      that are not in "prot" but it should never grant extra access.
+ *     For example, if "prot" is READ|EXECUTE, that means "remove write
+ *      access" but it does *not* mean "add read and execute" access.
+ *     VM relies on getting soft-faults to enforce extra checks (code
+ *     signing, for example), for example.
+ *     New access permissions are granted via pmap_enter() only.
  */
 void
 pmap_protect_options(
-       pmap_t          map,
-       vm_map_offset_t sva,
-       vm_map_offset_t eva,
-       vm_prot_t       prot,
-       unsigned int    options,
-       void            *arg)
-{
-       pt_entry_t      *pde;
-       pt_entry_t      *spte, *epte;
+       pmap_t          map,
+       vm_map_offset_t sva,
+       vm_map_offset_t eva,
+       vm_prot_t       prot,
+       unsigned int    options,
+       void            *arg)
+{
+       pt_entry_t      *pde;
+       pt_entry_t      *spte, *epte;
        vm_map_offset_t lva;
        vm_map_offset_t orig_sva;
        boolean_t       set_NX;
        int             num_found = 0;
-       boolean_t       is_ept;
+       boolean_t       is_ept;
 
        pmap_intr_assert();
 
-       if (map == PMAP_NULL)
+       if (map == PMAP_NULL) {
                return;
+       }
 
        if (prot == VM_PROT_NONE) {
                pmap_remove_options(map, sva, eva, options);
                return;
        }
+
        PMAP_TRACE(PMAP_CODE(PMAP__PROTECT) | DBG_FUNC_START,
-                  map,
-                  (uint32_t) (sva >> 32), (uint32_t) sva,
-                  (uint32_t) (eva >> 32), (uint32_t) eva);
+           VM_KERNEL_ADDRHIDE(map), VM_KERNEL_ADDRHIDE(sva),
+           VM_KERNEL_ADDRHIDE(eva));
 
-       if ((prot & VM_PROT_EXECUTE) || !nx_enabled || !map->nx_enabled)
+       if (prot & VM_PROT_EXECUTE) {
                set_NX = FALSE;
-       else
+       } else {
                set_NX = TRUE;
+       }
 
+#if DEVELOPMENT || DEBUG
+       if (__improbable(set_NX && (!nx_enabled || !map->nx_enabled))) {
+               set_NX = FALSE;
+       }
+#endif
        is_ept = is_ept_pmap(map);
 
-
-       PMAP_LOCK(map);
+       PMAP_LOCK_EXCLUSIVE(map);
 
        orig_sva = sva;
        while (sva < eva) {
-               lva = (sva + pde_mapped_size) & ~(pde_mapped_size - 1);
-               if (lva > eva)
+               lva = (sva + PDE_MAPPED_SIZE) & ~(PDE_MAPPED_SIZE - 1);
+               if (lva > eva) {
                        lva = eva;
+               }
                pde = pmap_pde(map, sva);
                if (pde && (*pde & PTE_VALID_MASK(is_ept))) {
                        if (*pde & PTE_PS) {
                                /* superpage */
                                spte = pde;
-                               epte = spte+1; /* excluded */
+                               epte = spte + 1; /* excluded */
                        } else {
-                               spte = pmap_pte(map, (sva & ~(pde_mapped_size - 1)));
+                               spte = pmap_pte(map, (sva & ~(PDE_MAPPED_SIZE - 1)));
                                spte = &spte[ptenum(sva)];
                                epte = &spte[intel_btop(lva - sva)];
                        }
 
                        for (; spte < epte; spte++) {
-                               if (!(*spte & PTE_VALID_MASK(is_ept)))
+                               if (!(*spte & PTE_VALID_MASK(is_ept))) {
                                        continue;
+                               }
 
                                if (is_ept) {
-                                       if (prot & VM_PROT_READ)
-                                               pmap_update_pte(spte, 0, PTE_READ(is_ept));
-                                       else
+                                       if (!(prot & VM_PROT_READ)) {
                                                pmap_update_pte(spte, PTE_READ(is_ept), 0);
+                                       }
                                }
-                               if (prot & VM_PROT_WRITE)
-                                       pmap_update_pte(spte, 0, PTE_WRITE(is_ept));
-                               else
+                               if (!(prot & VM_PROT_WRITE)) {
                                        pmap_update_pte(spte, PTE_WRITE(is_ept), 0);
+                               }
+#if DEVELOPMENT || DEBUG
+                               else if ((options & PMAP_OPTIONS_PROTECT_IMMEDIATE) &&
+                                   map == kernel_pmap) {
+                                       pmap_update_pte(spte, 0, PTE_WRITE(is_ept));
+                               }
+#endif /* DEVELOPMENT || DEBUG */
 
                                if (set_NX) {
-                                       if (!is_ept)
+                                       if (!is_ept) {
                                                pmap_update_pte(spte, 0, INTEL_PTE_NX);
-                                       else
+                                       } else {
                                                pmap_update_pte(spte, INTEL_EPT_EX, 0);
-                               } else {
-                                       if (!is_ept)
-                                               pmap_update_pte(spte, INTEL_PTE_NX, 0);
-                                       else
-                                               pmap_update_pte(spte, 0, INTEL_EPT_EX);
+                                       }
                                }
                                num_found++;
                        }
@@ -1562,72 +1816,97 @@ pmap_protect_options(
                sva = lva;
        }
        if (num_found) {
-               if (options & PMAP_OPTIONS_NOFLUSH)
+               if (options & PMAP_OPTIONS_NOFLUSH) {
                        PMAP_UPDATE_TLBS_DELAYED(map, orig_sva, eva, (pmap_flush_context *)arg);
-               else
+               } else {
                        PMAP_UPDATE_TLBS(map, orig_sva, eva);
+               }
        }
-       PMAP_UNLOCK(map);
 
-       PMAP_TRACE(PMAP_CODE(PMAP__PROTECT) | DBG_FUNC_END,
-                  0, 0, 0, 0, 0);
+       PMAP_UNLOCK_EXCLUSIVE(map);
 
+       PMAP_TRACE(PMAP_CODE(PMAP__PROTECT) | DBG_FUNC_END);
 }
 
 /* Map a (possibly) autogenned block */
-void
+kern_return_t
 pmap_map_block(
-       pmap_t          pmap, 
-       addr64_t        va,
-       ppnum_t         pa,
-       uint32_t        size,
-       vm_prot_t       prot,
-       int             attr,
-       __unused unsigned int   flags)
+       pmap_t          pmap,
+       addr64_t        va,
+       ppnum_t         pa,
+       uint32_t        size,
+       vm_prot_t       prot,
+       int             attr,
+       __unused unsigned int   flags)
 {
+       kern_return_t   kr;
+       addr64_t        original_va = va;
        uint32_t        page;
-       int             cur_page_size;
+       int             cur_page_size;
 
-       if (attr & VM_MEM_SUPERPAGE)
+       if (attr & VM_MEM_SUPERPAGE) {
                cur_page_size =  SUPERPAGE_SIZE;
-       else 
+       } else {
                cur_page_size =  PAGE_SIZE;
+       }
+
+       for (page = 0; page < size; page += cur_page_size / PAGE_SIZE) {
+               kr = pmap_enter(pmap, va, pa, prot, VM_PROT_NONE, attr, TRUE);
+
+               if (kr != KERN_SUCCESS) {
+                       /*
+                        * This will panic for now, as it is unclear that
+                        * removing the mappings is correct.
+                        */
+                       panic("%s: failed pmap_enter, "
+                           "pmap=%p, va=%#llx, pa=%u, size=%u, prot=%#x, flags=%#x",
+                           __FUNCTION__,
+                           pmap, va, pa, size, prot, flags);
+
+                       pmap_remove(pmap, original_va, va - original_va);
+                       return kr;
+               }
 
-       for (page = 0; page < size; page+=cur_page_size/PAGE_SIZE) {
-               pmap_enter(pmap, va, pa, prot, VM_PROT_NONE, attr, TRUE);
                va += cur_page_size;
-               pa+=cur_page_size/PAGE_SIZE;
+               pa += cur_page_size / PAGE_SIZE;
        }
+
+       return KERN_SUCCESS;
 }
 
 kern_return_t
 pmap_expand_pml4(
-       pmap_t          map,
-       vm_map_offset_t vaddr,
+       pmap_t          map,
+       vm_map_offset_t vaddr,
        unsigned int options)
 {
-       vm_page_t       m;
-       pmap_paddr_t    pa;
-       uint64_t        i;
-       ppnum_t         pn;
-       pml4_entry_t    *pml4p;
-       boolean_t       is_ept = is_ept_pmap(map);
+       vm_page_t       m;
+       pmap_paddr_t    pa;
+       uint64_t        i;
+       ppnum_t         pn;
+       pml4_entry_t    *pml4p;
+       boolean_t       is_ept = is_ept_pmap(map);
 
        DBG("pmap_expand_pml4(%p,%p)\n", map, (void *)vaddr);
 
+       /* With the exception of the kext "basement", the kernel's level 4
+        * pagetables must not be dynamically expanded.
+        */
+       assert(map != kernel_pmap || (vaddr == KERNEL_BASEMENT));
        /*
         *      Allocate a VM page for the pml4 page
         */
        while ((m = vm_page_grab()) == VM_PAGE_NULL) {
-               if (options & PMAP_EXPAND_OPTIONS_NOWAIT)
+               if (options & PMAP_EXPAND_OPTIONS_NOWAIT) {
                        return KERN_RESOURCE_SHORTAGE;
+               }
                VM_PAGE_WAIT();
        }
        /*
         *      put the page into the pmap's obj list so it
         *      can be found later.
         */
-       pn = m->phys_page;
+       pn = VM_PAGE_GET_PHYS_PAGE(m);
        pa = i386_ptob(pn);
        i = pml4idx(map, vaddr);
 
@@ -1640,33 +1919,33 @@ pmap_expand_pml4(
        vm_page_wire(m, VM_KERN_MEMORY_PTE, TRUE);
        vm_page_unlock_queues();
 
-       OSAddAtomic(1,  &inuse_ptepages_count);
-       OSAddAtomic64(1,  &alloc_ptepages_count);
+       OSAddAtomic(1, &inuse_ptepages_count);
+       OSAddAtomic64(1, &alloc_ptepages_count);
        PMAP_ZINFO_PALLOC(map, PAGE_SIZE);
 
        /* Take the oject lock (mutex) before the PMAP_LOCK (spinlock) */
        vm_object_lock(map->pm_obj_pml4);
 
-       PMAP_LOCK(map);
+       PMAP_LOCK_EXCLUSIVE(map);
        /*
         *      See if someone else expanded us first
         */
        if (pmap64_pdpt(map, vaddr) != PDPT_ENTRY_NULL) {
-               PMAP_UNLOCK(map);
+               PMAP_UNLOCK_EXCLUSIVE(map);
                vm_object_unlock(map->pm_obj_pml4);
 
                VM_PAGE_FREE(m);
 
-               OSAddAtomic(-1,  &inuse_ptepages_count);
+               OSAddAtomic(-1, &inuse_ptepages_count);
                PMAP_ZINFO_PFREE(map, PAGE_SIZE);
                return KERN_SUCCESS;
        }
 
 #if 0 /* DEBUG */
-       if (0 != vm_page_lookup(map->pm_obj_pml4, (vm_object_offset_t)i * PAGE_SIZE)) {
-              panic("pmap_expand_pml4: obj not empty, pmap %p pm_obj %p vaddr 0x%llx i 0x%llx\n",
-                    map, map->pm_obj_pml4, vaddr, i);
-       }
+       if (0 != vm_page_lookup(map->pm_obj_pml4, (vm_object_offset_t)i * PAGE_SIZE)) {
+               panic("pmap_expand_pml4: obj not empty, pmap %p pm_obj %p vaddr 0x%llx i 0x%llx\n",
+                   map, map->pm_obj_pml4, vaddr, i);
+       }
 #endif
        vm_page_insert_wired(m, map->pm_obj_pml4, (vm_object_offset_t)i * PAGE_SIZE, VM_KERN_MEMORY_PTE);
        vm_object_unlock(map->pm_obj_pml4);
@@ -1677,11 +1956,18 @@ pmap_expand_pml4(
        pml4p = pmap64_pml4(map, vaddr); /* refetch under lock */
 
        pmap_store_pte(pml4p, pa_to_pte(pa)
-                               | PTE_READ(is_ept)
-                               | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
-                               | PTE_WRITE(is_ept));
+           | PTE_READ(is_ept)
+           | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
+           | PTE_WRITE(is_ept));
+       pml4_entry_t    *upml4p;
 
-       PMAP_UNLOCK(map);
+       upml4p = pmap64_user_pml4(map, vaddr);
+       pmap_store_pte(upml4p, pa_to_pte(pa)
+           | PTE_READ(is_ept)
+           | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
+           | PTE_WRITE(is_ept));
+
+       PMAP_UNLOCK_EXCLUSIVE(map);
 
        return KERN_SUCCESS;
 }
@@ -1689,27 +1975,29 @@ pmap_expand_pml4(
 kern_return_t
 pmap_expand_pdpt(pmap_t map, vm_map_offset_t vaddr, unsigned int options)
 {
-       vm_page_t       m;
-       pmap_paddr_t    pa;
-       uint64_t        i;
-       ppnum_t         pn;
-       pdpt_entry_t    *pdptp;
-       boolean_t       is_ept = is_ept_pmap(map);
+       vm_page_t       m;
+       pmap_paddr_t    pa;
+       uint64_t        i;
+       ppnum_t         pn;
+       pdpt_entry_t    *pdptp;
+       boolean_t       is_ept = is_ept_pmap(map);
 
        DBG("pmap_expand_pdpt(%p,%p)\n", map, (void *)vaddr);
 
        while ((pdptp = pmap64_pdpt(map, vaddr)) == PDPT_ENTRY_NULL) {
                kern_return_t pep4kr = pmap_expand_pml4(map, vaddr, options);
-               if (pep4kr != KERN_SUCCESS)
+               if (pep4kr != KERN_SUCCESS) {
                        return pep4kr;
+               }
        }
 
        /*
         *      Allocate a VM page for the pdpt page
         */
        while ((m = vm_page_grab()) == VM_PAGE_NULL) {
-               if (options & PMAP_EXPAND_OPTIONS_NOWAIT)
+               if (options & PMAP_EXPAND_OPTIONS_NOWAIT) {
                        return KERN_RESOURCE_SHORTAGE;
+               }
                VM_PAGE_WAIT();
        }
 
@@ -1717,7 +2005,7 @@ pmap_expand_pdpt(pmap_t map, vm_map_offset_t vaddr, unsigned int options)
         *      put the page into the pmap's obj list so it
         *      can be found later.
         */
-       pn = m->phys_page;
+       pn = VM_PAGE_GET_PHYS_PAGE(m);
        pa = i386_ptob(pn);
        i = pdptidx(map, vaddr);
 
@@ -1730,33 +2018,33 @@ pmap_expand_pdpt(pmap_t map, vm_map_offset_t vaddr, unsigned int options)
        vm_page_wire(m, VM_KERN_MEMORY_PTE, TRUE);
        vm_page_unlock_queues();
 
-       OSAddAtomic(1,  &inuse_ptepages_count);
-       OSAddAtomic64(1,  &alloc_ptepages_count);
+       OSAddAtomic(1, &inuse_ptepages_count);
+       OSAddAtomic64(1, &alloc_ptepages_count);
        PMAP_ZINFO_PALLOC(map, PAGE_SIZE);
 
        /* Take the oject lock (mutex) before the PMAP_LOCK (spinlock) */
        vm_object_lock(map->pm_obj_pdpt);
 
-       PMAP_LOCK(map);
+       PMAP_LOCK_EXCLUSIVE(map);
        /*
         *      See if someone else expanded us first
         */
-       if (pmap64_pde(map, vaddr) != PD_ENTRY_NULL) {
-               PMAP_UNLOCK(map);
+       if (pmap_pde(map, vaddr) != PD_ENTRY_NULL) {
+               PMAP_UNLOCK_EXCLUSIVE(map);
                vm_object_unlock(map->pm_obj_pdpt);
 
                VM_PAGE_FREE(m);
 
-               OSAddAtomic(-1,  &inuse_ptepages_count);
+               OSAddAtomic(-1, &inuse_ptepages_count);
                PMAP_ZINFO_PFREE(map, PAGE_SIZE);
                return KERN_SUCCESS;
        }
 
 #if 0 /* DEBUG */
-       if (0 != vm_page_lookup(map->pm_obj_pdpt, (vm_object_offset_t)i * PAGE_SIZE)) {
-              panic("pmap_expand_pdpt: obj not empty, pmap %p pm_obj %p vaddr 0x%llx i 0x%llx\n",
-                    map, map->pm_obj_pdpt, vaddr, i);
-       }
+       if (0 != vm_page_lookup(map->pm_obj_pdpt, (vm_object_offset_t)i * PAGE_SIZE)) {
+               panic("pmap_expand_pdpt: obj not empty, pmap %p pm_obj %p vaddr 0x%llx i 0x%llx\n",
+                   map, map->pm_obj_pdpt, vaddr, i);
+       }
 #endif
        vm_page_insert_wired(m, map->pm_obj_pdpt, (vm_object_offset_t)i * PAGE_SIZE, VM_KERN_MEMORY_PTE);
        vm_object_unlock(map->pm_obj_pdpt);
@@ -1767,14 +2055,13 @@ pmap_expand_pdpt(pmap_t map, vm_map_offset_t vaddr, unsigned int options)
        pdptp = pmap64_pdpt(map, vaddr); /* refetch under lock */
 
        pmap_store_pte(pdptp, pa_to_pte(pa)
-                               | PTE_READ(is_ept)
-                               | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
-                               | PTE_WRITE(is_ept));
+           | PTE_READ(is_ept)
+           | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
+           | PTE_WRITE(is_ept));
 
-       PMAP_UNLOCK(map);
+       PMAP_UNLOCK_EXCLUSIVE(map);
 
        return KERN_SUCCESS;
-
 }
 
 
@@ -1796,40 +2083,45 @@ pmap_expand_pdpt(pmap_t map, vm_map_offset_t vaddr, unsigned int options)
  */
 kern_return_t
 pmap_expand(
-       pmap_t          map,
-       vm_map_offset_t vaddr,
+       pmap_t          map,
+       vm_map_offset_t vaddr,
        unsigned int options)
 {
-       pt_entry_t              *pdp;
-       register vm_page_t      m;
-       register pmap_paddr_t   pa;
-       uint64_t                i;
+       pt_entry_t              *pdp;
+       vm_page_t               m;
+       pmap_paddr_t            pa;
+       uint64_t                i;
        ppnum_t                 pn;
-       boolean_t               is_ept = is_ept_pmap(map);
+       boolean_t               is_ept = is_ept_pmap(map);
 
 
        /*
-        * For the kernel, the virtual address must be in or above the basement
+        * For the kernel, the virtual address must be in or above the basement
         * which is for kexts and is in the 512GB immediately below the kernel..
         * XXX - should use VM_MIN_KERNEL_AND_KEXT_ADDRESS not KERNEL_BASEMENT
         */
-       if (map == kernel_pmap && 
-           !(vaddr >= KERNEL_BASEMENT && vaddr <= VM_MAX_KERNEL_ADDRESS))
-               panic("pmap_expand: bad vaddr 0x%llx for kernel pmap", vaddr);
-
+       if (__improbable(map == kernel_pmap &&
+           !(vaddr >= KERNEL_BASEMENT && vaddr <= VM_MAX_KERNEL_ADDRESS))) {
+               if ((options & PMAP_EXPAND_OPTIONS_ALIASMAP) == 0) {
+                       panic("pmap_expand: bad vaddr 0x%llx for kernel pmap", vaddr);
+               }
+       }
 
-       while ((pdp = pmap64_pde(map, vaddr)) == PD_ENTRY_NULL) {
+       while ((pdp = pmap_pde(map, vaddr)) == PD_ENTRY_NULL) {
+               assert((options & PMAP_EXPAND_OPTIONS_ALIASMAP) == 0);
                kern_return_t pepkr = pmap_expand_pdpt(map, vaddr, options);
-               if (pepkr != KERN_SUCCESS)
+               if (pepkr != KERN_SUCCESS) {
                        return pepkr;
+               }
        }
 
        /*
         *      Allocate a VM page for the pde entries.
         */
        while ((m = vm_page_grab()) == VM_PAGE_NULL) {
-               if (options & PMAP_EXPAND_OPTIONS_NOWAIT)
+               if (options & PMAP_EXPAND_OPTIONS_NOWAIT) {
                        return KERN_RESOURCE_SHORTAGE;
+               }
                VM_PAGE_WAIT();
        }
 
@@ -1837,7 +2129,7 @@ pmap_expand(
         *      put the page into the pmap's obj list so it
         *      can be found later.
         */
-       pn = m->phys_page;
+       pn = VM_PAGE_GET_PHYS_PAGE(m);
        pa = i386_ptob(pn);
        i = pdeidx(map, vaddr);
 
@@ -1850,34 +2142,34 @@ pmap_expand(
        vm_page_wire(m, VM_KERN_MEMORY_PTE, TRUE);
        vm_page_unlock_queues();
 
-       OSAddAtomic(1,  &inuse_ptepages_count);
-       OSAddAtomic64(1,  &alloc_ptepages_count);
+       OSAddAtomic(1, &inuse_ptepages_count);
+       OSAddAtomic64(1, &alloc_ptepages_count);
        PMAP_ZINFO_PALLOC(map, PAGE_SIZE);
 
        /* Take the oject lock (mutex) before the PMAP_LOCK (spinlock) */
        vm_object_lock(map->pm_obj);
 
-       PMAP_LOCK(map);
+       PMAP_LOCK_EXCLUSIVE(map);
 
        /*
         *      See if someone else expanded us first
         */
        if (pmap_pte(map, vaddr) != PT_ENTRY_NULL) {
-               PMAP_UNLOCK(map);
+               PMAP_UNLOCK_EXCLUSIVE(map);
                vm_object_unlock(map->pm_obj);
 
                VM_PAGE_FREE(m);
 
-               OSAddAtomic(-1,  &inuse_ptepages_count);
+               OSAddAtomic(-1, &inuse_ptepages_count); //todo replace all with inlines
                PMAP_ZINFO_PFREE(map, PAGE_SIZE);
                return KERN_SUCCESS;
        }
 
 #if 0 /* DEBUG */
-       if (0 != vm_page_lookup(map->pm_obj, (vm_object_offset_t)i * PAGE_SIZE)) {
-              panic("pmap_expand: obj not empty, pmap 0x%x pm_obj 0x%x vaddr 0x%llx i 0x%llx\n",
-                    map, map->pm_obj, vaddr, i);
-       }
+       if (0 != vm_page_lookup(map->pm_obj, (vm_object_offset_t)i * PAGE_SIZE)) {
+               panic("pmap_expand: obj not empty, pmap 0x%x pm_obj 0x%x vaddr 0x%llx i 0x%llx\n",
+                   map, map->pm_obj, vaddr, i);
+       }
 #endif
        vm_page_insert_wired(m, map->pm_obj, (vm_object_offset_t)i * PAGE_SIZE, VM_KERN_MEMORY_PTE);
        vm_object_unlock(map->pm_obj);
@@ -1887,77 +2179,162 @@ pmap_expand(
         */
        pdp = pmap_pde(map, vaddr);
        pmap_store_pte(pdp, pa_to_pte(pa)
-                               | PTE_READ(is_ept)
-                               | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
-                               | PTE_WRITE(is_ept));
+           | PTE_READ(is_ept)
+           | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
+           | PTE_WRITE(is_ept));
 
-       PMAP_UNLOCK(map);
+       PMAP_UNLOCK_EXCLUSIVE(map);
 
        return KERN_SUCCESS;
 }
-
-/* On K64 machines with more than 32GB of memory, pmap_steal_memory
- * will allocate past the 1GB of pre-expanded virtual kernel area. This
- * function allocates all the page tables using memory from the same pool
- * that pmap_steal_memory uses, rather than calling vm_page_grab (which
- * isn't available yet). */
-void
-pmap_pre_expand(pmap_t pmap, vm_map_offset_t vaddr)
+/*
+ * Query a pmap to see what size a given virtual address is mapped with.
+ * If the vaddr is not mapped, returns 0.
+ */
+vm_size_t
+pmap_query_pagesize(
+       pmap_t          pmap,
+       vm_map_offset_t vaddr)
 {
-       ppnum_t pn;
-       pt_entry_t              *pte;
-       boolean_t               is_ept = is_ept_pmap(pmap);
+       pd_entry_t      *pdep;
+       vm_size_t       size = 0;
 
-       PMAP_LOCK(pmap);
+       assert(!is_ept_pmap(pmap));
+       PMAP_LOCK_EXCLUSIVE(pmap);
 
-       if(pmap64_pdpt(pmap, vaddr) == PDPT_ENTRY_NULL) {
-               if (!pmap_next_page_hi(&pn))
-                       panic("pmap_pre_expand");
+       pdep = pmap_pde(pmap, vaddr);
+       if (pdep != PD_ENTRY_NULL) {
+               if (*pdep & INTEL_PTE_PS) {
+                       size = I386_LPGBYTES;
+               } else if (pmap_pte(pmap, vaddr) != PT_ENTRY_NULL) {
+                       size = I386_PGBYTES;
+               }
+       }
+
+       PMAP_UNLOCK_EXCLUSIVE(pmap);
+
+       return size;
+}
+
+/*
+ * Ensure the page table hierarchy is filled in down to
+ * the large page level. Additionally returns FAILURE if
+ * a lower page table already exists.
+ */
+static kern_return_t
+pmap_pre_expand_large_internal(
+       pmap_t          pmap,
+       vm_map_offset_t vaddr)
+{
+       ppnum_t         pn;
+       pt_entry_t      *pte;
+       boolean_t       is_ept = is_ept_pmap(pmap);
+       kern_return_t   kr = KERN_SUCCESS;
+
+       if (pmap64_pdpt(pmap, vaddr) == PDPT_ENTRY_NULL) {
+               if (!pmap_next_page_hi(&pn, FALSE)) {
+                       panic("pmap_pre_expand_large no PDPT");
+               }
 
                pmap_zero_page(pn);
 
                pte = pmap64_pml4(pmap, vaddr);
 
-               pmap_store_pte(pte, pa_to_pte(i386_ptob(pn))
-                               | PTE_READ(is_ept)
-                               | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
-                               | PTE_WRITE(is_ept));
+               pmap_store_pte(pte, pa_to_pte(i386_ptob(pn)) |
+                   PTE_READ(is_ept) |
+                   (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER) |
+                   PTE_WRITE(is_ept));
+
+               pte = pmap64_user_pml4(pmap, vaddr);
+
+               pmap_store_pte(pte, pa_to_pte(i386_ptob(pn)) |
+                   PTE_READ(is_ept) |
+                   (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER) |
+                   PTE_WRITE(is_ept));
        }
 
-       if(pmap64_pde(pmap, vaddr) == PD_ENTRY_NULL) {
-               if (!pmap_next_page_hi(&pn))
-                       panic("pmap_pre_expand");
+       if (pmap_pde(pmap, vaddr) == PD_ENTRY_NULL) {
+               if (!pmap_next_page_hi(&pn, FALSE)) {
+                       panic("pmap_pre_expand_large no PDE");
+               }
 
                pmap_zero_page(pn);
 
                pte = pmap64_pdpt(pmap, vaddr);
 
-               pmap_store_pte(pte, pa_to_pte(i386_ptob(pn))
-                               | PTE_READ(is_ept)
-                               | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
-                               | PTE_WRITE(is_ept));
+               pmap_store_pte(pte, pa_to_pte(i386_ptob(pn)) |
+                   PTE_READ(is_ept) |
+                   (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER) |
+                   PTE_WRITE(is_ept));
+       } else if (pmap_pte(pmap, vaddr) != PT_ENTRY_NULL) {
+               kr = KERN_FAILURE;
        }
 
-       if(pmap_pte(pmap, vaddr) == PT_ENTRY_NULL) {
-               if (!pmap_next_page_hi(&pn))
-                       panic("pmap_pre_expand");
+       return kr;
+}
 
-               pmap_zero_page(pn);
+/*
+ * Wrapper that locks the pmap.
+ */
+kern_return_t
+pmap_pre_expand_large(
+       pmap_t          pmap,
+       vm_map_offset_t vaddr)
+{
+       kern_return_t   kr;
+
+       PMAP_LOCK_EXCLUSIVE(pmap);
+       kr = pmap_pre_expand_large_internal(pmap, vaddr);
+       PMAP_UNLOCK_EXCLUSIVE(pmap);
+       return kr;
+}
+
+/*
+ * On large memory machines, pmap_steal_memory() will allocate past
+ * the 1GB of pre-allocated/mapped virtual kernel area. This function
+ * expands kernel the page tables to cover a given vaddr. It uses pages
+ * from the same pool that pmap_steal_memory() uses, since vm_page_grab()
+ * isn't available yet.
+ */
+void
+pmap_pre_expand(
+       pmap_t          pmap,
+       vm_map_offset_t vaddr)
+{
+       ppnum_t         pn;
+       pt_entry_t      *pte;
+       boolean_t       is_ept = is_ept_pmap(pmap);
 
-               pte = pmap64_pde(pmap, vaddr);
+       /*
+        * This returns failure if a 4K page table already exists.
+        * Othewise it fills in the page table hierarchy down
+        * to that level.
+        */
+       PMAP_LOCK_EXCLUSIVE(pmap);
+       if (pmap_pre_expand_large_internal(pmap, vaddr) == KERN_FAILURE) {
+               PMAP_UNLOCK_EXCLUSIVE(pmap);
+               return;
+       }
 
-               pmap_store_pte(pte, pa_to_pte(i386_ptob(pn))
-                               | PTE_READ(is_ept)
-                               | (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER)
-                               | PTE_WRITE(is_ept));
+       /* Add the lowest table */
+       if (!pmap_next_page_hi(&pn, FALSE)) {
+               panic("pmap_pre_expand");
        }
 
-       PMAP_UNLOCK(pmap);
+       pmap_zero_page(pn);
+
+       pte = pmap_pde(pmap, vaddr);
+
+       pmap_store_pte(pte, pa_to_pte(i386_ptob(pn)) |
+           PTE_READ(is_ept) |
+           (is_ept ? INTEL_EPT_EX : INTEL_PTE_USER) |
+           PTE_WRITE(is_ept));
+       PMAP_UNLOCK_EXCLUSIVE(pmap);
 }
 
 /*
  * pmap_sync_page_data_phys(ppnum_t pa)
- * 
+ *
  * Invalidates all of the instruction cache on a physical page and
  * pushes any dirty data from the data cache for the same physical page
  * Not required in i386.
@@ -1970,7 +2347,7 @@ pmap_sync_page_data_phys(__unused ppnum_t pa)
 
 /*
  * pmap_sync_page_attributes_phys(ppnum_t pa)
- * 
+ *
  * Write back and invalidate all cachelines on a physical page.
  */
 void
@@ -1979,128 +2356,12 @@ pmap_sync_page_attributes_phys(ppnum_t pa)
        cache_flush_page_phys(pa);
 }
 
-
-
-#ifdef CURRENTLY_UNUSED_AND_UNTESTED
-
-int    collect_ref;
-int    collect_unref;
-
-/*
- *     Routine:        pmap_collect
- *     Function:
- *             Garbage collects the physical map system for
- *             pages which are no longer used.
- *             Success need not be guaranteed -- that is, there
- *             may well be pages which are not referenced, but
- *             others may be collected.
- *     Usage:
- *             Called by the pageout daemon when pages are scarce.
- */
-void
-pmap_collect(
-       pmap_t          p)
-{
-       register pt_entry_t     *pdp, *ptp;
-       pt_entry_t              *eptp;
-       int                     wired;
-       boolean_t               is_ept;
-
-       if (p == PMAP_NULL)
-               return;
-
-       if (p == kernel_pmap)
-               return;
-
-       is_ept = is_ept_pmap(p);
-
-       /*
-        *      Garbage collect map.
-        */
-       PMAP_LOCK(p);
-
-       for (pdp = (pt_entry_t *)p->dirbase;
-            pdp < (pt_entry_t *)&p->dirbase[(UMAXPTDI+1)];
-            pdp++)
-       {
-               if (*pdp & PTE_VALID_MASK(is_ept)) {
-                       if (*pdp & PTE_REF(is_ept)) {
-                               pmap_store_pte(pdp, *pdp & ~PTE_REF(is_ept));
-                               collect_ref++;
-                       } else {
-                               collect_unref++;
-                               ptp = pmap_pte(p, pdetova(pdp - (pt_entry_t *)p->dirbase));
-                               eptp = ptp + NPTEPG;
-
-                               /*
-                                * If the pte page has any wired mappings, we cannot
-                                * free it.
-                                */
-                               wired = 0;
-                               {
-                                       register pt_entry_t *ptep;
-                                       for (ptep = ptp; ptep < eptp; ptep++) {
-                                               if (iswired(*ptep)) {
-                                                       wired = 1;
-                                                       break;
-                                               }
-                                       }
-                               }
-                               if (!wired) {
-                                       /*
-                                        * Remove the virtual addresses mapped by this pte page.
-                                        */
-                                               pmap_remove_range(p,
-                                                       pdetova(pdp - (pt_entry_t *)p->dirbase),
-                                                       ptp,
-                                                       eptp);
-
-                                       /*
-                                        * Invalidate the page directory pointer.
-                                        */
-                                       pmap_store_pte(pdp, 0x0);
-
-                                       PMAP_UNLOCK(p);
-
-                                       /*
-                                        * And free the pte page itself.
-                                        */
-                                       {
-                                               register vm_page_t m;
-
-                                               vm_object_lock(p->pm_obj);
-
-                                               m = vm_page_lookup(p->pm_obj,(vm_object_offset_t)(pdp - (pt_entry_t *)&p->dirbase[0]) * PAGE_SIZE);
-                                               if (m == VM_PAGE_NULL)
-                                                       panic("pmap_collect: pte page not in object");
-
-                                               vm_object_unlock(p->pm_obj);
-
-                                               VM_PAGE_FREE(m);
-
-                                               OSAddAtomic(-1,  &inuse_ptepages_count);
-                                               PMAP_ZINFO_PFREE(p, PAGE_SIZE);
-                                       }
-
-                                       PMAP_LOCK(p);
-                               }
-                       }
-               }
-       }
-
-       PMAP_UPDATE_TLBS(p, 0x0, 0xFFFFFFFFFFFFF000ULL);
-       PMAP_UNLOCK(p);
-       return;
-}
-#endif
-
-
 void
 pmap_copy_page(ppnum_t src, ppnum_t dst)
 {
        bcopy_phys((addr64_t)i386_ptob(src),
-                  (addr64_t)i386_ptob(dst),
-                  PAGE_SIZE);
+           (addr64_t)i386_ptob(dst),
+           PAGE_SIZE);
 }
 
 
@@ -2120,28 +2381,28 @@ pmap_copy_page(ppnum_t src, ppnum_t dst)
  */
 void
 pmap_pageable(
-       __unused pmap_t                 pmap,
-       __unused vm_map_offset_t        start_addr,
-       __unused vm_map_offset_t        end_addr,
-       __unused boolean_t              pageable)
+       __unused pmap_t                 pmap,
+       __unused vm_map_offset_t        start_addr,
+       __unused vm_map_offset_t        end_addr,
+       __unused boolean_t              pageable)
 {
-#ifdef lint
+#ifdef  lint
        pmap++; start_addr++; end_addr++; pageable++;
-#endif /* lint */
+#endif  /* lint */
 }
 
-void 
-invalidate_icache(__unused vm_offset_t addr,
-                 __unused unsigned     cnt,
-                 __unused int          phys)
+void
+invalidate_icache(__unused vm_offset_t  addr,
+    __unused unsigned     cnt,
+    __unused int          phys)
 {
        return;
 }
 
-void 
-flush_dcache(__unused vm_offset_t      addr,
-            __unused unsigned          count,
-            __unused int               phys)
+void
+flush_dcache(__unused vm_offset_t       addr,
+    __unused unsigned          count,
+    __unused int               phys)
 {
        return;
 }
@@ -2153,42 +2414,45 @@ flush_dcache(__unused vm_offset_t       addr,
 extern kern_return_t dtrace_copyio_preflight(addr64_t);
 extern kern_return_t dtrace_copyio_postflight(addr64_t);
 
-kern_return_t dtrace_copyio_preflight(__unused addr64_t va)
+kern_return_t
+dtrace_copyio_preflight(__unused addr64_t va)
 {
        thread_t thread = current_thread();
        uint64_t ccr3;
-       if (current_map() == kernel_map)
+       if (current_map() == kernel_map) {
                return KERN_FAILURE;
-       else if (((ccr3 = get_cr3_base()) != thread->map->pmap->pm_cr3) && (no_shared_cr3 == FALSE))
+       } else if (((ccr3 = get_cr3_base()) != thread->map->pmap->pm_cr3) && (no_shared_cr3 == FALSE)) {
                return KERN_FAILURE;
-       else if (no_shared_cr3 && (ccr3 != kernel_pmap->pm_cr3))
+       } else if (no_shared_cr3 && (ccr3 != kernel_pmap->pm_cr3)) {
                return KERN_FAILURE;
-       else
+       } else {
                return KERN_SUCCESS;
+       }
 }
- 
-kern_return_t dtrace_copyio_postflight(__unused addr64_t va)
+
+kern_return_t
+dtrace_copyio_postflight(__unused addr64_t va)
 {
        return KERN_SUCCESS;
 }
 #endif /* CONFIG_DTRACE */
 
 #include <mach_vm_debug.h>
-#if    MACH_VM_DEBUG
+#if     MACH_VM_DEBUG
 #include <vm/vm_debug.h>
 
 int
 pmap_list_resident_pages(
-       __unused pmap_t         pmap,
-       __unused vm_offset_t    *listp,
-       __unused int            space)
+       __unused pmap_t         pmap,
+       __unused vm_offset_t    *listp,
+       __unused int            space)
 {
        return 0;
 }
-#endif /* MACH_VM_DEBUG */
-
+#endif  /* MACH_VM_DEBUG */
 
 
+#if CONFIG_COREDUMP
 /* temporary workaround */
 boolean_t
 coredumpok(__unused vm_map_t map, __unused vm_offset_t va)
@@ -2197,28 +2461,32 @@ coredumpok(__unused vm_map_t map, __unused vm_offset_t va)
        pt_entry_t     *ptep;
 
        ptep = pmap_pte(map->pmap, va);
-       if (0 == ptep)
+       if (0 == ptep) {
                return FALSE;
-       return ((*ptep & (INTEL_PTE_NCACHE | INTEL_PTE_WIRED)) != (INTEL_PTE_NCACHE | INTEL_PTE_WIRED));
+       }
+       return (*ptep & (INTEL_PTE_NCACHE | INTEL_PTE_WIRED)) != (INTEL_PTE_NCACHE | INTEL_PTE_WIRED);
 #else
        return TRUE;
 #endif
 }
-
+#endif
 
 boolean_t
 phys_page_exists(ppnum_t pn)
 {
        assert(pn != vm_page_fictitious_addr);
 
-       if (!pmap_initialized)
+       if (!pmap_initialized) {
                return TRUE;
+       }
 
-       if (pn == vm_page_guard_addr)
+       if (pn == vm_page_guard_addr) {
                return FALSE;
+       }
 
-       if (!IS_MANAGED_PAGE(ppn_to_pai(pn)))
+       if (!IS_MANAGED_PAGE(ppn_to_pai(pn))) {
                return FALSE;
+       }
 
        return TRUE;
 }
@@ -2228,11 +2496,10 @@ phys_page_exists(ppnum_t pn)
 void
 pmap_switch(pmap_t tpmap)
 {
-        spl_t  s;
-
-       s = splhigh();          /* Make sure interruptions are disabled */
+       PMAP_TRACE_CONSTANT(PMAP_CODE(PMAP__SWITCH) | DBG_FUNC_START, VM_KERNEL_ADDRHIDE(tpmap));
+       assert(ml_get_interrupts_enabled() == FALSE);
        set_dirbase(tpmap, current_thread(), cpu_number());
-       splx(s);
+       PMAP_TRACE_CONSTANT(PMAP_CODE(PMAP__SWITCH) | DBG_FUNC_END);
 }
 
 
@@ -2241,12 +2508,14 @@ pmap_switch(pmap_t tpmap)
  * the specified pmap
  */
 void
-pmap_disable_NX(pmap_t pmap)
+pmap_disable_NX(__unused pmap_t pmap)
 {
-        pmap->nx_enabled = 0;
+#if DEVELOPMENT || DEBUG
+       pmap->nx_enabled = 0;
+#endif
 }
 
-void 
+void
 pt_fake_zone_init(int zone_index)
 {
        pt_fake_zone_index = zone_index;
@@ -2254,22 +2523,22 @@ pt_fake_zone_init(int zone_index)
 
 void
 pt_fake_zone_info(
-       int             *count,
-       vm_size_t       *cur_size,
-       vm_size_t       *max_size,
-       vm_size_t       *elem_size,
-       vm_size_t       *alloc_size,
-       uint64_t        *sum_size,
-       int             *collectable,
-       int             *exhaustable,
-       int             *caller_acct)
-{
-        *count      = inuse_ptepages_count;
+       int             *count,
+       vm_size_t       *cur_size,
+       vm_size_t       *max_size,
+       vm_size_t       *elem_size,
+       vm_size_t       *alloc_size,
+       uint64_t        *sum_size,
+       int             *collectable,
+       int             *exhaustable,
+       int             *caller_acct)
+{
+       *count      = inuse_ptepages_count;
        *cur_size   = PAGE_SIZE * inuse_ptepages_count;
        *max_size   = PAGE_SIZE * (inuse_ptepages_count +
-                                  vm_page_inactive_count +
-                                  vm_page_active_count +
-                                  vm_page_free_count);
+           vm_page_inactive_count +
+           vm_page_active_count +
+           vm_page_free_count);
        *elem_size  = PAGE_SIZE;
        *alloc_size = PAGE_SIZE;
        *sum_size = alloc_ptepages_count * PAGE_SIZE;
@@ -2287,19 +2556,53 @@ pmap_flush_context_init(pmap_flush_context *pfc)
        pfc->pfc_invalid_global = 0;
 }
 
-extern unsigned TLBTimeOut;
+static bool
+pmap_tlbi_response(uint32_t lcpu, uint32_t rcpu, bool ngflush)
+{
+       bool responded = false;
+       bool gflushed = (cpu_datap(rcpu)->cpu_tlb_invalid_global_count !=
+           cpu_datap(lcpu)->cpu_tlb_gen_counts_global[rcpu]);
+
+       if (ngflush) {
+               if (gflushed) {
+                       responded = true;
+               }
+       } else {
+               if (gflushed) {
+                       responded = true;
+               } else {
+                       bool lflushed = (cpu_datap(rcpu)->cpu_tlb_invalid_local_count !=
+                           cpu_datap(lcpu)->cpu_tlb_gen_counts_local[rcpu]);
+                       if (lflushed) {
+                               responded = true;
+                       }
+               }
+       }
+
+       if (responded == false) {
+               if ((cpu_datap(rcpu)->cpu_tlb_invalid == 0) ||
+                   !CPU_CR3_IS_ACTIVE(rcpu) ||
+                   !cpu_is_running(rcpu)) {
+                       responded = true;
+               }
+       }
+       return responded;
+}
+
+extern uint64_t TLBTimeOut;
 void
 pmap_flush(
        pmap_flush_context *pfc)
 {
-       unsigned int    my_cpu;
-       unsigned int    cpu;
-       unsigned int    cpu_bit;
-       cpumask_t       cpus_to_respond = 0;
-       cpumask_t       cpus_to_signal = 0;
-       cpumask_t       cpus_signaled = 0;
-       boolean_t       flush_self = FALSE;
-       uint64_t        deadline;
+       unsigned int    my_cpu;
+       unsigned int    cpu;
+       cpumask_t       cpu_bit;
+       cpumask_t       cpus_to_respond = 0;
+       cpumask_t       cpus_to_signal = 0;
+       cpumask_t       cpus_signaled = 0;
+       boolean_t       flush_self = FALSE;
+       uint64_t        deadline;
+       bool            need_global_flush = false;
 
        mp_disable_preemption();
 
@@ -2307,21 +2610,24 @@ pmap_flush(
        cpus_to_signal = pfc->pfc_cpus;
 
        PMAP_TRACE_CONSTANT(PMAP_CODE(PMAP__FLUSH_DELAYED_TLBS) | DBG_FUNC_START,
-                           NULL, cpus_to_signal, 0, 0, 0);
+           NULL, cpus_to_signal);
 
        for (cpu = 0, cpu_bit = 1; cpu < real_ncpus && cpus_to_signal; cpu++, cpu_bit <<= 1) {
-
                if (cpus_to_signal & cpu_bit) {
-
                        cpus_to_signal &= ~cpu_bit;
 
-                       if (!cpu_datap(cpu)->cpu_running)
+                       if (!cpu_is_running(cpu)) {
                                continue;
+                       }
 
-                       if (pfc->pfc_invalid_global & cpu_bit)
-                               cpu_datap(cpu)->cpu_tlb_invalid_global = TRUE;
-                       else
-                               cpu_datap(cpu)->cpu_tlb_invalid_local = TRUE;
+                       if (pfc->pfc_invalid_global & cpu_bit) {
+                               cpu_datap(cpu)->cpu_tlb_invalid_global = 1;
+                               need_global_flush = true;
+                       } else {
+                               cpu_datap(cpu)->cpu_tlb_invalid_local = 1;
+                       }
+                       cpu_datap(my_cpu)->cpu_tlb_gen_counts_global[cpu] = cpu_datap(cpu)->cpu_tlb_invalid_global_count;
+                       cpu_datap(my_cpu)->cpu_tlb_gen_counts_local[cpu] = cpu_datap(cpu)->cpu_tlb_invalid_local_count;
                        mfence();
 
                        if (cpu == my_cpu) {
@@ -2340,15 +2646,15 @@ pmap_flush(
         * Flush local tlb if required.
         * Do this now to overlap with other processors responding.
         */
-       if (flush_self && cpu_datap(my_cpu)->cpu_tlb_invalid != FALSE)
-               process_pmap_updates();
+       if (flush_self) {
+               process_pmap_updates(NULL, (pfc->pfc_invalid_global != 0), 0ULL, ~0ULL);
+       }
 
        if (cpus_to_respond) {
-
                deadline = mach_absolute_time() +
-                               (TLBTimeOut ? TLBTimeOut : LockTimeOut);
+                   (TLBTimeOut ? TLBTimeOut : LockTimeOut);
                boolean_t is_timeout_traced = FALSE;
-               
+
                /*
                 * Wait for those other cpus to acknowledge
                 */
@@ -2356,43 +2662,44 @@ pmap_flush(
                        long orig_acks = 0;
 
                        for (cpu = 0, cpu_bit = 1; cpu < real_ncpus; cpu++, cpu_bit <<= 1) {
-                               /* Consider checking local/global invalidity
-                                * as appropriate in the PCID case.
-                                */
+                               bool responded = false;
                                if ((cpus_to_respond & cpu_bit) != 0) {
-                                       if (!cpu_datap(cpu)->cpu_running ||
-                                           cpu_datap(cpu)->cpu_tlb_invalid == FALSE ||
-                                           !CPU_CR3_IS_ACTIVE(cpu)) {
+                                       responded = pmap_tlbi_response(my_cpu, cpu, need_global_flush);
+                                       if (responded) {
                                                cpus_to_respond &= ~cpu_bit;
                                        }
                                        cpu_pause();
                                }
-                               if (cpus_to_respond == 0)
+
+                               if (cpus_to_respond == 0) {
                                        break;
+                               }
                        }
                        if (cpus_to_respond && (mach_absolute_time() > deadline)) {
-                               if (machine_timeout_suspended())
+                               if (machine_timeout_suspended()) {
                                        continue;
+                               }
                                if (TLBTimeOut == 0) {
-                                       if (is_timeout_traced)
+                                       if (is_timeout_traced) {
                                                continue;
+                                       }
+
                                        PMAP_TRACE_CONSTANT(PMAP_CODE(PMAP__FLUSH_TLBS_TO),
-                                               NULL, cpus_to_signal, cpus_to_respond, 0, 0);
+                                           NULL, cpus_to_signal, cpus_to_respond);
+
                                        is_timeout_traced = TRUE;
                                        continue;
                                }
-                               pmap_tlb_flush_timeout = TRUE;
                                orig_acks = NMIPI_acks;
-                               mp_cpus_NMIPI(cpus_to_respond);
-
-                               panic("TLB invalidation IPI timeout: "
-                                   "CPU(s) failed to respond to interrupts, unresponsive CPU bitmap: 0x%llx, NMIPI acks: orig: 0x%lx, now: 0x%lx",
-                                   cpus_to_respond, orig_acks, NMIPI_acks);
+                               NMIPI_panic(cpus_to_respond, TLB_FLUSH_TIMEOUT);
+                               panic("Uninterruptible processor(s): CPU bitmap: 0x%llx, NMIPI acks: 0x%lx, now: 0x%lx, deadline: %llu",
+                                   cpus_to_respond, orig_acks, NMIPI_acks, deadline);
                        }
                }
        }
+
        PMAP_TRACE_CONSTANT(PMAP_CODE(PMAP__FLUSH_DELAYED_TLBS) | DBG_FUNC_END,
-                           NULL, cpus_signaled, flush_self, 0, 0);
+           NULL, cpus_signaled, flush_self);
 
        mp_enable_preemption();
 }
@@ -2406,9 +2713,9 @@ invept(void *eptp)
                uint64_t reserved;
        } __attribute__((aligned(16), packed)) invept_descriptor = {(uint64_t)eptp, 0};
 
-       __asm__ volatile("invept (%%rax), %%rcx"
-               : : "c" (PMAP_INVEPT_SINGLE_CONTEXT), "a" (&invept_descriptor)
-               : "cc", "memory");
+       __asm__ volatile ("invept (%%rax), %%rcx"
+                 : : "c" (PMAP_INVEPT_SINGLE_CONTEXT), "a" (&invept_descriptor)
+                 : "cc", "memory");
 }
 
 /*
@@ -2422,42 +2729,48 @@ invept(void *eptp)
  */
 
 void
-pmap_flush_tlbs(pmap_t pmap, vm_map_offset_t startv, vm_map_offset_t endv, int options, pmap_flush_context *pfc)
-{
-       unsigned int    cpu;
-       unsigned int    cpu_bit;
-       cpumask_t       cpus_to_signal;
-       unsigned int    my_cpu = cpu_number();
-       pmap_paddr_t    pmap_cr3 = pmap->pm_cr3;
-       boolean_t       flush_self = FALSE;
-       uint64_t        deadline;
-       boolean_t       pmap_is_shared = (pmap->pm_shared || (pmap == kernel_pmap));
-       boolean_t       need_global_flush = FALSE;
-       uint32_t        event_code;
-       vm_map_offset_t event_startv, event_endv;
-       boolean_t       is_ept = is_ept_pmap(pmap);
+pmap_flush_tlbs(pmap_t  pmap, vm_map_offset_t startv, vm_map_offset_t endv, int options, pmap_flush_context *pfc)
+{
+       unsigned int    cpu;
+       cpumask_t       cpu_bit;
+       cpumask_t       cpus_to_signal = 0;
+       unsigned int    my_cpu = cpu_number();
+       pmap_paddr_t    pmap_cr3 = pmap->pm_cr3;
+       boolean_t       flush_self = FALSE;
+       uint64_t        deadline;
+       boolean_t       pmap_is_shared = (pmap->pm_shared || (pmap == kernel_pmap));
+       bool            need_global_flush = false;
+       uint32_t        event_code;
+       vm_map_offset_t event_startv, event_endv;
+       boolean_t       is_ept = is_ept_pmap(pmap);
 
        assert((processor_avail_count < 2) ||
-              (ml_get_interrupts_enabled() && get_preemption_level() != 0));
-
-       if (pmap == kernel_pmap) {
-               event_code = PMAP_CODE(PMAP__FLUSH_KERN_TLBS);
-               event_startv = VM_KERNEL_UNSLIDE_OR_PERM(startv);
-               event_endv = VM_KERNEL_UNSLIDE_OR_PERM(endv);
-       } else if (is_ept) {
-               event_code = PMAP_CODE(PMAP__FLUSH_EPT);
-               event_startv = startv;
-               event_endv = endv;
-       } else {
-               event_code = PMAP_CODE(PMAP__FLUSH_TLBS);
-               event_startv = startv;
-               event_endv = endv;
+           (ml_get_interrupts_enabled() && get_preemption_level() != 0));
+
+       assert((endv - startv) >= PAGE_SIZE);
+       assert(((endv | startv) & PAGE_MASK) == 0);
+
+       if (__improbable(kdebug_enable)) {
+               if (pmap == kernel_pmap) {
+                       event_code = PMAP_CODE(PMAP__FLUSH_KERN_TLBS);
+                       event_startv = VM_KERNEL_UNSLIDE_OR_PERM(startv);
+                       event_endv = VM_KERNEL_UNSLIDE_OR_PERM(endv);
+               } else if (__improbable(is_ept)) {
+                       event_code = PMAP_CODE(PMAP__FLUSH_EPT);
+                       event_startv = startv;
+                       event_endv = endv;
+               } else {
+                       event_code = PMAP_CODE(PMAP__FLUSH_TLBS);
+                       event_startv = startv;
+                       event_endv = endv;
+               }
        }
 
        PMAP_TRACE_CONSTANT(event_code | DBG_FUNC_START,
-                               VM_KERNEL_UNSLIDE_OR_PERM(pmap), options, event_startv, event_endv, 0);
+           VM_KERNEL_UNSLIDE_OR_PERM(pmap), options,
+           event_startv, event_endv);
 
-       if (is_ept) {
+       if (__improbable(is_ept)) {
                mp_cpus_call(CPUMASK_ALL, ASYNC, invept, (void*)pmap->pm_eptp);
                goto out;
        }
@@ -2467,39 +2780,45 @@ pmap_flush_tlbs(pmap_t  pmap, vm_map_offset_t startv, vm_map_offset_t endv, int o
         * For idle cpus (with no active map) we mark them invalid but
         * don't signal -- they'll check as they go busy.
         */
-       cpus_to_signal = 0;
-
        if (pmap_pcid_ncpus) {
-               if (pmap_is_shared)
-                       need_global_flush = TRUE;
+               if (pmap_is_shared) {
+                       need_global_flush = true;
+               }
                pmap_pcid_invalidate_all_cpus(pmap);
                mfence();
        }
+
        for (cpu = 0, cpu_bit = 1; cpu < real_ncpus; cpu++, cpu_bit <<= 1) {
-               if (!cpu_datap(cpu)->cpu_running)
+               if (!cpu_is_running(cpu)) {
                        continue;
-               uint64_t        cpu_active_cr3 = CPU_GET_ACTIVE_CR3(cpu);
-               uint64_t        cpu_task_cr3 = CPU_GET_TASK_CR3(cpu);
+               }
+               uint64_t        cpu_active_cr3 = CPU_GET_ACTIVE_CR3(cpu);
+               uint64_t        cpu_task_cr3 = CPU_GET_TASK_CR3(cpu);
 
                if ((pmap_cr3 == cpu_task_cr3) ||
                    (pmap_cr3 == cpu_active_cr3) ||
                    (pmap_is_shared)) {
-
                        if (options & PMAP_DELAY_TLB_FLUSH) {
-                               if (need_global_flush == TRUE)
+                               if (need_global_flush == true) {
                                        pfc->pfc_invalid_global |= cpu_bit;
+                               }
                                pfc->pfc_cpus |= cpu_bit;
 
                                continue;
                        }
+                       if (need_global_flush == true) {
+                               cpu_datap(my_cpu)->cpu_tlb_gen_counts_global[cpu] = cpu_datap(cpu)->cpu_tlb_invalid_global_count;
+                               cpu_datap(cpu)->cpu_tlb_invalid_global = 1;
+                       } else {
+                               cpu_datap(my_cpu)->cpu_tlb_gen_counts_local[cpu] = cpu_datap(cpu)->cpu_tlb_invalid_local_count;
+                               cpu_datap(cpu)->cpu_tlb_invalid_local = 1;
+                       }
+
                        if (cpu == my_cpu) {
                                flush_self = TRUE;
                                continue;
                        }
-                       if (need_global_flush == TRUE)
-                               cpu_datap(cpu)->cpu_tlb_invalid_global = TRUE;
-                       else
-                               cpu_datap(cpu)->cpu_tlb_invalid_local = TRUE;
+
                        mfence();
 
                        /*
@@ -2518,37 +2837,31 @@ pmap_flush_tlbs(pmap_t  pmap, vm_map_offset_t startv, vm_map_offset_t endv, int o
                         */
                        if (CPU_CR3_IS_ACTIVE(cpu) &&
                            (pmap_cr3 == CPU_GET_ACTIVE_CR3(cpu) ||
-                            pmap->pm_shared ||
-                            (pmap_cr3 == CPU_GET_TASK_CR3(cpu)))) {
+                           pmap->pm_shared ||
+                           (pmap_cr3 == CPU_GET_TASK_CR3(cpu)))) {
                                cpus_to_signal |= cpu_bit;
                                i386_signal_cpu(cpu, MP_TLB_FLUSH, ASYNC);
                        }
                }
        }
-       if ((options & PMAP_DELAY_TLB_FLUSH))
+
+       if ((options & PMAP_DELAY_TLB_FLUSH)) {
                goto out;
+       }
 
        /*
         * Flush local tlb if required.
         * Do this now to overlap with other processors responding.
         */
        if (flush_self) {
-               if (pmap_pcid_ncpus) {
-                       pmap_pcid_validate_cpu(pmap, my_cpu);
-                       if (pmap_is_shared)
-                               tlb_flush_global();
-                       else
-                               flush_tlb_raw();
-               }
-               else
-                       flush_tlb_raw();
+               process_pmap_updates(pmap, pmap_is_shared, startv, endv);
        }
 
        if (cpus_to_signal) {
-               cpumask_t       cpus_to_respond = cpus_to_signal;
+               cpumask_t       cpus_to_respond = cpus_to_signal;
 
                deadline = mach_absolute_time() +
-                               (TLBTimeOut ? TLBTimeOut : LockTimeOut);
+                   (TLBTimeOut ? TLBTimeOut : LockTimeOut);
                boolean_t is_timeout_traced = FALSE;
 
                /*
@@ -2558,40 +2871,42 @@ pmap_flush_tlbs(pmap_t  pmap, vm_map_offset_t startv, vm_map_offset_t endv, int o
                        long orig_acks = 0;
 
                        for (cpu = 0, cpu_bit = 1; cpu < real_ncpus; cpu++, cpu_bit <<= 1) {
-                               /* Consider checking local/global invalidity
-                                * as appropriate in the PCID case.
-                                */
+                               bool responded = false;
                                if ((cpus_to_respond & cpu_bit) != 0) {
-                                       if (!cpu_datap(cpu)->cpu_running ||
-                                           cpu_datap(cpu)->cpu_tlb_invalid == FALSE ||
-                                           !CPU_CR3_IS_ACTIVE(cpu)) {
+                                       responded = pmap_tlbi_response(my_cpu, cpu, need_global_flush);
+                                       if (responded) {
                                                cpus_to_respond &= ~cpu_bit;
                                        }
                                        cpu_pause();
                                }
-                               if (cpus_to_respond == 0)
+                               if (cpus_to_respond == 0) {
                                        break;
+                               }
                        }
                        if (cpus_to_respond && (mach_absolute_time() > deadline)) {
-                               if (machine_timeout_suspended())
+                               if (machine_timeout_suspended()) {
                                        continue;
+                               }
                                if (TLBTimeOut == 0) {
                                        /* cut tracepoint but don't panic */
-                                       if (is_timeout_traced)
+                                       if (is_timeout_traced) {
                                                continue;
-                                       PMAP_TRACE_CONSTANT(
-                                               PMAP_CODE(PMAP__FLUSH_TLBS_TO),
-                                               VM_KERNEL_UNSLIDE_OR_PERM(pmap), cpus_to_signal, cpus_to_respond, 0, 0);
+                                       }
+
+                                       PMAP_TRACE_CONSTANT(PMAP_CODE(PMAP__FLUSH_TLBS_TO),
+                                           VM_KERNEL_UNSLIDE_OR_PERM(pmap),
+                                           cpus_to_signal,
+                                           cpus_to_respond);
+
                                        is_timeout_traced = TRUE;
                                        continue;
                                }
-                               pmap_tlb_flush_timeout = TRUE;
                                orig_acks = NMIPI_acks;
-                               mp_cpus_NMIPI(cpus_to_respond);
-
-                               panic("TLB invalidation IPI timeout: "
-                                   "CPU(s) failed to respond to interrupts, unresponsive CPU bitmap: 0x%llx, NMIPI acks: orig: 0x%lx, now: 0x%lx",
-                                   cpus_to_respond, orig_acks, NMIPI_acks);
+                               uint64_t tstamp1 = mach_absolute_time();
+                               NMIPI_panic(cpus_to_respond, TLB_FLUSH_TIMEOUT);
+                               uint64_t tstamp2 = mach_absolute_time();
+                               panic("IPI timeout, unresponsive CPU bitmap: 0x%llx, NMIPI acks: 0x%lx, now: 0x%lx, deadline: %llu, pre-NMIPI time: 0x%llx, current: 0x%llx, global: %d",
+                                   cpus_to_respond, orig_acks, NMIPI_acks, deadline, tstamp1, tstamp2, need_global_flush);
                        }
                }
        }
@@ -2602,53 +2917,64 @@ pmap_flush_tlbs(pmap_t  pmap, vm_map_offset_t startv, vm_map_offset_t endv, int o
 
 out:
        PMAP_TRACE_CONSTANT(event_code | DBG_FUNC_END,
-                               VM_KERNEL_UNSLIDE_OR_PERM(pmap), cpus_to_signal, event_startv, event_endv, 0);
-
+           VM_KERNEL_UNSLIDE_OR_PERM(pmap), cpus_to_signal,
+           event_startv, event_endv);
 }
 
-void
-process_pmap_updates(void)
+static void
+process_pmap_updates(pmap_t p, bool pshared, addr64_t istart, addr64_t iend)
 {
        int ccpu = cpu_number();
-       pmap_assert(ml_get_interrupts_enabled() == 0 || get_preemption_level() != 0);
+       bool gtlbf = false;
+
+       pmap_assert(ml_get_interrupts_enabled() == 0 ||
+           get_preemption_level() != 0);
+
+       if (cpu_datap(ccpu)->cpu_tlb_invalid_global) {
+               cpu_datap(ccpu)->cpu_tlb_invalid_global_count++;
+               cpu_datap(ccpu)->cpu_tlb_invalid = 0;
+               gtlbf = true;
+       } else {
+               cpu_datap(ccpu)->cpu_tlb_invalid_local_count++;
+               cpu_datap(ccpu)->cpu_tlb_invalid_local = 0;
+       }
+
        if (pmap_pcid_ncpus) {
-               pmap_pcid_validate_current();
-               if (cpu_datap(ccpu)->cpu_tlb_invalid_global) {
-                       cpu_datap(ccpu)->cpu_tlb_invalid = FALSE;
-                       tlb_flush_global();
-               }
-               else {
-                       cpu_datap(ccpu)->cpu_tlb_invalid_local = FALSE;
-                       flush_tlb_raw();
+               if (p) {
+                       /* TODO global generation count to
+                        * avoid potentially redundant
+                        * csw invalidations post-global invalidation
+                        */
+                       pmap_pcid_validate_cpu(p, ccpu);
+                       pmap_tlbi_range(istart, iend, (pshared || gtlbf), p->pmap_pcid_cpus[ccpu]);
+               } else {
+                       pmap_pcid_validate_current();
+                       pmap_tlbi_range(istart, iend, true, 0);
                }
+       } else {
+               pmap_tlbi_range(0, ~0ULL, true, 0);
        }
-       else {
-               current_cpu_datap()->cpu_tlb_invalid = FALSE;
-               flush_tlb_raw();
-       }
-
-       mfence();
 }
 
 void
 pmap_update_interrupt(void)
 {
-        PMAP_TRACE(PMAP_CODE(PMAP__UPDATE_INTERRUPT) | DBG_FUNC_START,
-                  0, 0, 0, 0, 0);
+       PMAP_TRACE(PMAP_CODE(PMAP__UPDATE_INTERRUPT) | DBG_FUNC_START);
 
-       if (current_cpu_datap()->cpu_tlb_invalid)
-               process_pmap_updates();
+       if (current_cpu_datap()->cpu_tlb_invalid) {
+               process_pmap_updates(NULL, true, 0ULL, ~0ULL);
+       }
 
-        PMAP_TRACE(PMAP_CODE(PMAP__UPDATE_INTERRUPT) | DBG_FUNC_END,
-                  0, 0, 0, 0, 0);
+       PMAP_TRACE(PMAP_CODE(PMAP__UPDATE_INTERRUPT) | DBG_FUNC_END);
 }
 
-#include <mach/mach_vm.h>      /* mach_vm_region_recurse() */
+#include <mach/mach_vm.h>       /* mach_vm_region_recurse() */
 /* Scan kernel pmap for W+X PTEs, scan kernel VM map for W+X map entries
  * and identify ranges with mismatched VM permissions and PTE permissions
  */
 kern_return_t
-pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset_t ev) {
+pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset_t ev)
+{
        vm_offset_t cv = sv;
        kern_return_t rv = KERN_SUCCESS;
        uint64_t skip4 = 0, skip2 = 0;
@@ -2659,25 +2985,27 @@ pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset
        ev &= ~PAGE_MASK_64;
        while (cv < ev) {
                if (__improbable((cv > 0x00007FFFFFFFFFFFULL) &&
-                       (cv < 0xFFFF800000000000ULL))) {
+                   (cv < 0xFFFF800000000000ULL))) {
                        cv = 0xFFFF800000000000ULL;
                }
                /* Potential inconsistencies from not holding pmap lock
                 * but harmless for the moment.
                 */
                if (((cv & PML4MASK) == 0) && (pmap64_pml4(ipmap, cv) == 0)) {
-                       if ((cv + NBPML4) > cv)
+                       if ((cv + NBPML4) > cv) {
                                cv += NBPML4;
-                       else
+                       } else {
                                break;
+                       }
                        skip4++;
                        continue;
                }
                if (((cv & PDMASK) == 0) && (pmap_pde(ipmap, cv) == 0)) {
-                       if ((cv + NBPD) > cv)
+                       if ((cv + NBPD) > cv) {
                                cv += NBPD;
-                       else
+                       } else {
                                break;
+                       }
                        skip2++;
                        continue;
                }
@@ -2686,7 +3014,7 @@ pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset
                if (ptep && (*ptep & INTEL_PTE_VALID)) {
                        if (*ptep & INTEL_PTE_WRITE) {
                                if (!(*ptep & INTEL_PTE_NX)) {
-                                       kprintf("W+X PTE at 0x%lx, P4: 0x%llx, P3: 0x%llx, P2: 0x%llx, PT: 0x%llx, VP: %u\n", cv, *pmap64_pml4(ipmap, cv), *pmap64_pdpt(ipmap, cv), *pmap64_pde(ipmap, cv), *ptep, pmap_valid_page((ppnum_t)(i386_btop(pte_to_pa(*ptep)))));
+                                       kprintf("W+X PTE at 0x%lx, P4: 0x%llx, P3: 0x%llx, P2: 0x%llx, PT: 0x%llx, VP: %u\n", cv, *pmap64_pml4(ipmap, cv), *pmap64_pdpt(ipmap, cv), *pmap_pde(ipmap, cv), *ptep, pmap_valid_page((ppnum_t)(i386_btop(pte_to_pa(*ptep)))));
                                        rv = KERN_FAILURE;
                                }
                        }
@@ -2698,23 +3026,22 @@ pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset
 
        struct vm_region_submap_info_64 vbr;
        mach_msg_type_number_t vbrcount = 0;
-       mach_vm_size_t  vmsize;
-       vm_prot_t       prot;
+       mach_vm_size_t  vmsize;
+       vm_prot_t       prot;
        uint32_t nesting_depth = 0;
        kern_return_t kret;
-       
+
        while (cv < ev) {
-               
                for (;;) {
                        vbrcount = VM_REGION_SUBMAP_INFO_COUNT_64;
-                       if((kret = mach_vm_region_recurse(ivmmap, 
-                                   (mach_vm_address_t *) &cv, &vmsize, &nesting_depth, 
-                                       (vm_region_recurse_info_t)&vbr,
-                                       &vbrcount)) != KERN_SUCCESS) {
+                       if ((kret = mach_vm_region_recurse(ivmmap,
+                           (mach_vm_address_t *) &cv, &vmsize, &nesting_depth,
+                           (vm_region_recurse_info_t)&vbr,
+                           &vbrcount)) != KERN_SUCCESS) {
                                break;
                        }
 
-                       if(vbr.is_submap) {
+                       if (vbr.is_submap) {
                                nesting_depth++;
                                continue;
                        } else {
@@ -2722,8 +3049,9 @@ pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset
                        }
                }
 
-               if(kret != KERN_SUCCESS)
+               if (kret != KERN_SUCCESS) {
                        break;
+               }
 
                prot = vbr.protection;
 
@@ -2738,13 +3066,16 @@ pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset
                                pt_entry_t *ptep = pmap_pte(ipmap, pcv);
                                vm_prot_t tprot;
 
-                               if ((ptep == NULL) || !(*ptep & INTEL_PTE_VALID))
+                               if ((ptep == NULL) || !(*ptep & INTEL_PTE_VALID)) {
                                        continue;
+                               }
                                tprot = VM_PROT_READ;
-                               if (*ptep & INTEL_PTE_WRITE)
+                               if (*ptep & INTEL_PTE_WRITE) {
                                        tprot |= VM_PROT_WRITE;
-                               if ((*ptep & INTEL_PTE_NX) == 0)
+                               }
+                               if ((*ptep & INTEL_PTE_NX) == 0) {
                                        tprot |= VM_PROT_EXECUTE;
+                               }
                                if (tprot != prot) {
                                        kprintf("PTE/map entry permissions mismatch at address 0x%lx, pte: 0x%llx, protection: 0x%x\n", pcv, *ptep, prot);
                                        rv = KERN_FAILURE;
@@ -2755,3 +3086,228 @@ pmap_permissions_verify(pmap_t ipmap, vm_map_t ivmmap, vm_offset_t sv, vm_offset
        }
        return rv;
 }
+
+#if MACH_ASSERT
+extern int pmap_ledgers_panic;
+extern int pmap_ledgers_panic_leeway;
+
+static void
+pmap_check_ledgers(
+       pmap_t pmap)
+{
+       int     pid;
+       char    *procname;
+
+       if (pmap->pmap_pid == 0) {
+               /*
+                * This pmap was not or is no longer fully associated
+                * with a task (e.g. the old pmap after a fork()/exec() or
+                * spawn()).  Its "ledger" still points at a task that is
+                * now using a different (and active) address space, so
+                * we can't check that all the pmap ledgers are balanced here.
+                *
+                * If the "pid" is set, that means that we went through
+                * pmap_set_process() in task_terminate_internal(), so
+                * this task's ledger should not have been re-used and
+                * all the pmap ledgers should be back to 0.
+                */
+               return;
+       }
+
+       pid = pmap->pmap_pid;
+       procname = pmap->pmap_procname;
+
+       vm_map_pmap_check_ledgers(pmap, pmap->ledger, pid, procname);
+
+       if (pmap->stats.resident_count != 0 ||
+#if 35156815
+           /*
+            * "wired_count" is unfortunately a bit inaccurate, so let's
+            * tolerate some slight deviation to limit the amount of
+            * somewhat-spurious assertion failures.
+            */
+           pmap->stats.wired_count > 10 ||
+#else /* 35156815 */
+           pmap->stats.wired_count != 0 ||
+#endif /* 35156815 */
+           pmap->stats.device != 0 ||
+           pmap->stats.internal != 0 ||
+           pmap->stats.external != 0 ||
+           pmap->stats.reusable != 0 ||
+           pmap->stats.compressed != 0) {
+               if (pmap_stats_assert &&
+                   pmap->pmap_stats_assert) {
+                       panic("pmap_destroy(%p) %d[%s] imbalanced stats: resident=%d wired=%d device=%d internal=%d external=%d reusable=%d compressed=%lld",
+                           pmap, pid, procname,
+                           pmap->stats.resident_count,
+                           pmap->stats.wired_count,
+                           pmap->stats.device,
+                           pmap->stats.internal,
+                           pmap->stats.external,
+                           pmap->stats.reusable,
+                           pmap->stats.compressed);
+               } else {
+                       printf("pmap_destroy(%p) %d[%s] imbalanced stats: resident=%d wired=%d device=%d internal=%d external=%d reusable=%d compressed=%lld",
+                           pmap, pid, procname,
+                           pmap->stats.resident_count,
+                           pmap->stats.wired_count,
+                           pmap->stats.device,
+                           pmap->stats.internal,
+                           pmap->stats.external,
+                           pmap->stats.reusable,
+                           pmap->stats.compressed);
+               }
+       }
+}
+
+void
+pmap_set_process(
+       pmap_t pmap,
+       int pid,
+       char *procname)
+{
+       if (pmap == NULL) {
+               return;
+       }
+
+       pmap->pmap_pid = pid;
+       strlcpy(pmap->pmap_procname, procname, sizeof(pmap->pmap_procname));
+       if (pmap_ledgers_panic_leeway) {
+               /*
+                * XXX FBDP
+                * Some processes somehow trigger some issues that make
+                * the pmap stats and ledgers go off track, causing
+                * some assertion failures and ledger panics.
+                * Turn off the sanity checks if we allow some ledger leeway
+                * because of that.  We'll still do a final check in
+                * pmap_check_ledgers() for discrepancies larger than the
+                * allowed leeway after the address space has been fully
+                * cleaned up.
+                */
+               pmap->pmap_stats_assert = FALSE;
+               ledger_disable_panic_on_negative(pmap->ledger,
+                   task_ledgers.phys_footprint);
+               ledger_disable_panic_on_negative(pmap->ledger,
+                   task_ledgers.internal);
+               ledger_disable_panic_on_negative(pmap->ledger,
+                   task_ledgers.internal_compressed);
+               ledger_disable_panic_on_negative(pmap->ledger,
+                   task_ledgers.iokit_mapped);
+               ledger_disable_panic_on_negative(pmap->ledger,
+                   task_ledgers.alternate_accounting);
+               ledger_disable_panic_on_negative(pmap->ledger,
+                   task_ledgers.alternate_accounting_compressed);
+       }
+}
+#endif /* MACH_ASSERT */
+
+
+#if DEVELOPMENT || DEBUG
+int pmap_pagezero_mitigation = 1;
+#endif
+
+void
+pmap_advise_pagezero_range(pmap_t lpmap, uint64_t low_bound)
+{
+#if DEVELOPMENT || DEBUG
+       if (pmap_pagezero_mitigation == 0) {
+               lpmap->pagezero_accessible = FALSE;
+               return;
+       }
+#endif
+       lpmap->pagezero_accessible = ((pmap_smap_enabled == FALSE) && (low_bound < 0x1000));
+       if (lpmap == current_pmap()) {
+               mp_disable_preemption();
+               current_cpu_datap()->cpu_pagezero_mapped = lpmap->pagezero_accessible;
+               mp_enable_preemption();
+       }
+}
+
+uintptr_t
+pmap_verify_noncacheable(uintptr_t vaddr)
+{
+       pt_entry_t *ptep = NULL;
+       ptep = pmap_pte(kernel_pmap, vaddr);
+       if (ptep == NULL) {
+               panic("pmap_verify_noncacheable: no translation for 0x%lx", vaddr);
+       }
+       /* Non-cacheable OK */
+       if (*ptep & (INTEL_PTE_NCACHE)) {
+               return pte_to_pa(*ptep) | (vaddr & INTEL_OFFMASK);
+       }
+       /* Write-combined OK */
+       if (*ptep & (INTEL_PTE_PAT)) {
+               return pte_to_pa(*ptep) | (vaddr & INTEL_OFFMASK);
+       }
+       panic("pmap_verify_noncacheable: IO read from a cacheable address? address: 0x%lx, PTE: %p, *PTE: 0x%llx", vaddr, ptep, *ptep);
+       /*NOTREACHED*/
+       return 0;
+}
+
+void
+trust_cache_init(void)
+{
+       // Unsupported on this architecture.
+}
+
+kern_return_t
+pmap_load_legacy_trust_cache(struct pmap_legacy_trust_cache __unused *trust_cache,
+    const vm_size_t __unused trust_cache_len)
+{
+       // Unsupported on this architecture.
+       return KERN_NOT_SUPPORTED;
+}
+
+pmap_tc_ret_t
+pmap_load_image4_trust_cache(struct pmap_image4_trust_cache __unused *trust_cache,
+    const vm_size_t __unused trust_cache_len,
+    uint8_t const * __unused img4_manifest,
+    const vm_size_t __unused img4_manifest_buffer_len,
+    const vm_size_t __unused img4_manifest_actual_len,
+    bool __unused dry_run)
+{
+       // Unsupported on this architecture.
+       return PMAP_TC_UNKNOWN_FORMAT;
+}
+
+
+bool
+pmap_is_trust_cache_loaded(const uuid_t __unused uuid)
+{
+       // Unsupported on this architecture.
+       return false;
+}
+
+bool
+pmap_lookup_in_loaded_trust_caches(const uint8_t __unused cdhash[20])
+{
+       // Unsupported on this architecture.
+       return false;
+}
+
+uint32_t
+pmap_lookup_in_static_trust_cache(const uint8_t __unused cdhash[20])
+{
+       // Unsupported on this architecture.
+       return false;
+}
+
+bool
+pmap_in_ppl(void)
+{
+       // Nonexistent on this architecture.
+       return false;
+}
+
+void *
+pmap_claim_reserved_ppl_page(void)
+{
+       // Unsupported on this architecture.
+       return NULL;
+}
+
+void
+pmap_free_reserved_ppl_page(void __unused *kva)
+{
+       // Unsupported on this architecture.
+}