/*
- * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 2000-2005 Apple Computer, Inc. All rights reserved.
*
* @APPLE_LICENSE_HEADER_START@
*
- * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved.
+ * The contents of this file constitute Original Code as defined in and
+ * are subject to the Apple Public Source License Version 1.1 (the
+ * "License"). You may not use this file except in compliance with the
+ * License. Please obtain a copy of the License at
+ * http://www.apple.com/publicsource and read it before using this file.
*
- * This file contains Original Code and/or Modifications of Original Code
- * as defined in and that are subject to the Apple Public Source License
- * Version 2.0 (the 'License'). You may not use this file except in
- * compliance with the License. Please obtain a copy of the License at
- * http://www.opensource.apple.com/apsl/ and read it before using this
- * file.
- *
- * The Original Code and all software distributed under the License are
- * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * This Original Code and all software distributed under the License are
+ * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
- * Please see the License for the specific language governing rights and
- * limitations under the License.
+ * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
+ * License for the specific language governing rights and limitations
+ * under the License.
*
* @APPLE_LICENSE_HEADER_END@
*/
enum {
kVmmCurMajorVersion = 0x0001,
- kVmmCurMinorVersion = 0x0006,
+ kVmmCurMinorVersion = 0x0007,
kVmmMinMajorVersion = 0x0001,
};
#define kVmmCurrentVersion ((kVmmCurMajorVersion << 16) | kVmmCurMinorVersion)
kVmmFeature_XA = 0x00000020,
kVmmFeature_SixtyFourBit = 0x00000040,
kVmmFeature_MultAddrSpace = 0x00000080,
+ kVmmFeature_GuestShadowAssist = 0x00000100, /* Guest->physical shadow hash table */
+ kVmmFeature_GlobalMappingAssist = 0x00000200, /* Global shadow mapping support */
+ kVmmFeature_HostShadowAssist = 0x00000400, /* Linear shadow mapping of an area of
+ host virtual as guest physical */
+ kVmmFeature_MultAddrSpaceAssist = 0x00000800, /* Expanded pool of guest virtual
+ address spaces */
};
#define kVmmCurrentFeatures (kVmmFeature_LittleEndian | kVmmFeature_Stop | kVmmFeature_ExtendedMapping \
- | kVmmFeature_ListMapping | kVmmFeature_FastAssist | kVmmFeature_XA | kVmmFeature_MultAddrSpace)
+ | kVmmFeature_ListMapping | kVmmFeature_FastAssist | kVmmFeature_XA \
+ | kVmmFeature_GuestShadowAssist)
enum {
- vmm64Bit = 0x80000000,
+ vmm64Bit = 0x80000000, /* Make guest 64-bit */
+ vmmGSA = 0x40000000, /* Enable guest shadow assist (GSA) */
+ vmmGMA = 0x20000000, /* Enable global shadow mapping assist (GMA) */
};
+#define kVmmSupportedSetXA (vmm64Bit | vmmGSA | vmmGMA)
typedef unsigned long vmm_version_t;
kVmmProtectExecute, /* Set prot attributes and launch */
kVmmMapList, /* Map a list of pages into guest address spaces */
kVmmUnmapList, /* Unmap a list of pages from guest address spaces */
- kvmmExitToHost,
- kvmmResumeGuest,
- kvmmGetGuestRegister,
- kvmmSetGuestRegister,
+ kvmmExitToHost, /* Exit from FAM to host -- fast-path syscall */
+ kvmmResumeGuest, /* Resume guest from FAM -- fast-path syscall */
+ kvmmGetGuestRegister, /* Get guest register from FAM -- fast-path syscall */
+ kvmmSetGuestRegister, /* Set guest register from FAM -- fast-path syscall */
- kVmmSetXA, /* Set extended architecture features for a VM */
+ kVmmActivateXA, /* Activate extended architecture features for a VM */
+ kVmmDeactivateXA, /* Deactivate extended architecture features for a VM */
kVmmGetXA, /* Get extended architecture features from a VM */
kVmmMapPage64, /* Map a host to guest address space - supports 64-bit */
kVmmMapList64, /* Map a list of pages into guest address spaces - supports 64-bit */
kVmmUnmapList64, /* Unmap a list of pages from guest address spaces - supports 64-bit */
kVmmMaxAddr, /* Returns the maximum virtual address that is mappable */
+
+ kVmmSetGuestMemory, /* Sets base and extent of guest physical memory in host address space */
+ kVmmPurgeLocal, /* Purges all non-global mappings for a given guest address space */
};
#define kVmmReturnNull 0
#define vmmlFlgs 0x00000FFF /* Flags passed in in vmlava low order 12 bits */
#define vmmlProt 0x00000007 /* Protection flags for the page */
#define vmmlAdID 0x000003F0 /* Guest address space ID - used only if non-zero */
-#define vmmlRsvd 0x00000C08 /* Reserved for future */
+#define vmmlGlob 0x00000400 /* Mapping is global */
+#define vmmlRsvd 0x00000800 /* Reserved for future */
/*************************************************************************************
Internal Emulation Types
#define vmmSpfSaveb 24
unsigned int vmmXAFlgs; /* Extended Architecture flags */
vmm_state_page_t *vmmContextKern; /* Kernel address of context communications area */
- ppnum_t vmmContextPhys; /* Physical address of context communications area */
+ ppnum_t vmmContextPhys; /* Physical address of context communications area */
vmm_state_page_t *vmmContextUser; /* User address of context communications area */
facility_context vmmFacCtx; /* Header for vector and floating point contexts */
pmap_t vmmPmap; /* Last dispatched pmap */
#pragma pack()
/* function decls for kernel level routines... */
-extern void vmm_execute_vm(thread_act_t act, vmm_thread_index_t index);
-extern vmmCntrlEntry *vmm_get_entry(thread_act_t act, vmm_thread_index_t index);
-extern kern_return_t vmm_tear_down_context(thread_act_t act, vmm_thread_index_t index);
-extern kern_return_t vmm_get_float_state(thread_act_t act, vmm_thread_index_t index);
-extern kern_return_t vmm_get_vector_state(thread_act_t act, vmm_thread_index_t index);
-extern kern_return_t vmm_set_timer(thread_act_t act, vmm_thread_index_t index, unsigned int timerhi, unsigned int timerlo);
-extern kern_return_t vmm_get_timer(thread_act_t act, vmm_thread_index_t index);
-extern void vmm_tear_down_all(thread_act_t act);
-extern kern_return_t vmm_map_page(thread_act_t act, vmm_thread_index_t hindex, addr64_t cva,
+extern void vmm_execute_vm(thread_t act, vmm_thread_index_t index);
+extern kern_return_t vmm_tear_down_context(thread_t act, vmm_thread_index_t index);
+extern kern_return_t vmm_get_float_state(thread_t act, vmm_thread_index_t index);
+extern kern_return_t vmm_get_vector_state(thread_t act, vmm_thread_index_t index);
+extern kern_return_t vmm_set_timer(thread_t act, vmm_thread_index_t index, unsigned int timerhi, unsigned int timerlo);
+extern kern_return_t vmm_get_timer(thread_t act, vmm_thread_index_t index);
+extern void vmm_tear_down_all(thread_t act);
+extern kern_return_t vmm_map_page(thread_t act, vmm_thread_index_t hindex, addr64_t cva,
addr64_t ava, vm_prot_t prot);
-extern vmm_return_code_t vmm_map_execute(thread_act_t act, vmm_thread_index_t hindex, addr64_t cva,
+extern vmm_return_code_t vmm_map_execute(thread_t act, vmm_thread_index_t hindex, addr64_t cva,
addr64_t ava, vm_prot_t prot);
-extern kern_return_t vmm_protect_page(thread_act_t act, vmm_thread_index_t hindex, addr64_t va,
+extern kern_return_t vmm_protect_page(thread_t act, vmm_thread_index_t hindex, addr64_t va,
vm_prot_t prot);
-extern vmm_return_code_t vmm_protect_execute(thread_act_t act, vmm_thread_index_t hindex, addr64_t va,
+extern vmm_return_code_t vmm_protect_execute(thread_t act, vmm_thread_index_t hindex, addr64_t va,
vm_prot_t prot);
-extern addr64_t vmm_get_page_mapping(thread_act_t act, vmm_thread_index_t index,
+extern addr64_t vmm_get_page_mapping(thread_t act, vmm_thread_index_t index,
addr64_t va);
-extern kern_return_t vmm_unmap_page(thread_act_t act, vmm_thread_index_t index, addr64_t va);
-extern void vmm_unmap_all_pages(thread_act_t act, vmm_thread_index_t index);
-extern boolean_t vmm_get_page_dirty_flag(thread_act_t act, vmm_thread_index_t index,
+extern kern_return_t vmm_unmap_page(thread_t act, vmm_thread_index_t index, addr64_t va);
+extern void vmm_unmap_all_pages(thread_t act, vmm_thread_index_t index);
+extern boolean_t vmm_get_page_dirty_flag(thread_t act, vmm_thread_index_t index,
addr64_t va, unsigned int reset);
-extern kern_return_t vmm_set_XA(thread_act_t act, vmm_thread_index_t index, unsigned int xaflags);
-extern unsigned int vmm_get_XA(thread_act_t act, vmm_thread_index_t index);
+extern kern_return_t vmm_activate_XA(thread_t act, vmm_thread_index_t index, unsigned int xaflags);
+extern kern_return_t vmm_deactivate_XA(thread_t act, vmm_thread_index_t index, unsigned int xaflags);
+extern unsigned int vmm_get_XA(thread_t act, vmm_thread_index_t index);
extern int vmm_get_features(struct savearea *);
extern int vmm_get_version(struct savearea *);
extern int vmm_init_context(struct savearea *);
extern int vmm_dispatch(struct savearea *);
-extern int vmm_exit(thread_act_t act, struct savearea *);
-extern void vmm_force_exit(thread_act_t act, struct savearea *);
+extern int vmm_exit(thread_t act, struct savearea *);
+extern void vmm_force_exit(thread_t act, struct savearea *);
extern int vmm_stop_vm(struct savearea *save);
-extern void vmm_timer_pop(thread_act_t act);
-extern void vmm_interrupt(ReturnHandler *rh, thread_act_t act);
-extern kern_return_t vmm_map_list(thread_act_t act, vmm_thread_index_t index, unsigned int cnt, unsigned int flavor);
-extern kern_return_t vmm_unmap_list(thread_act_t act, vmm_thread_index_t index, unsigned int cnt, unsigned int flavor);
+extern void vmm_timer_pop(thread_t act);
+extern void vmm_interrupt(ReturnHandler *rh, thread_t act);
+extern kern_return_t vmm_map_list(thread_t act, vmm_thread_index_t index, unsigned int cnt, unsigned int flavor);
+extern kern_return_t vmm_unmap_list(thread_t act, vmm_thread_index_t index, unsigned int cnt, unsigned int flavor);
extern vmm_return_code_t vmm_resume_guest(vmm_thread_index_t index, unsigned long pc,
unsigned long vmmCntrl, unsigned long vmmCntrMaskl);
extern vmm_return_code_t vmm_exit_to_host(vmm_thread_index_t index);
extern unsigned long vmm_get_guest_register(vmm_thread_index_t index, unsigned long reg_index);
extern vmm_return_code_t vmm_set_guest_register(vmm_thread_index_t index, unsigned long reg_index, unsigned long reg_value);
-extern addr64_t vmm_max_addr(thread_act_t act);
+extern addr64_t vmm_max_addr(thread_t act);
+extern kern_return_t vmm_set_guest_memory(thread_t act, vmm_thread_index_t index, addr64_t base, addr64_t extent);
+extern kern_return_t vmm_purge_local(thread_t act, vmm_thread_index_t index);
#endif
-