/* This file is part of Valgrind, a dynamic binary instrumentation framework. Copyright (C) 2012-2017 Citrix This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. The GNU General Public License is contained in the file COPYING. */ /* Contributed by Andrew Cooper <andrew.cooper3@citrix.com> and Ian Campbell <ian.campbell@citrix.com> */ #ifndef __VKI_XEN_DOMCTL_H #define __VKI_XEN_DOMCTL_H /* * The domctl interface is versioned via the interface_version * field. This structures in this header supports domctl interfaces: * * - 0x00000007: Xen 4.1 * - 0x00000008: Xen 4.2 * - 0x00000009: Xen 4.3 & 4.4 * - 0x0000000a: Xen 4.5 * - 0x0000000b: Xen 4.6 * - 0x0000000c: Xen 4.7 * * When adding a new subop be sure to include the variants used by all * of the above, both here and in syswrap-xen.c * * Structs which are identical in all supported versions have no * version suffix. Structs which do differ are defined multiple times * and use the suffix of the latest version to contain that particular * variant. */ #define VKI_XEN_DOMCTL_createdomain 1 #define VKI_XEN_DOMCTL_destroydomain 2 #define VKI_XEN_DOMCTL_pausedomain 3 #define VKI_XEN_DOMCTL_unpausedomain 4 #define VKI_XEN_DOMCTL_getdomaininfo 5 #define VKI_XEN_DOMCTL_getmemlist 6 #define VKI_XEN_DOMCTL_getpageframeinfo 7 #define VKI_XEN_DOMCTL_getpageframeinfo2 8 #define VKI_XEN_DOMCTL_setvcpuaffinity 9 #define VKI_XEN_DOMCTL_shadow_op 10 #define VKI_XEN_DOMCTL_max_mem 11 #define VKI_XEN_DOMCTL_setvcpucontext 12 #define VKI_XEN_DOMCTL_getvcpucontext 13 #define VKI_XEN_DOMCTL_getvcpuinfo 14 #define VKI_XEN_DOMCTL_max_vcpus 15 #define VKI_XEN_DOMCTL_scheduler_op 16 #define VKI_XEN_DOMCTL_setdomainhandle 17 #define VKI_XEN_DOMCTL_setdebugging 18 #define VKI_XEN_DOMCTL_irq_permission 19 #define VKI_XEN_DOMCTL_iomem_permission 20 #define VKI_XEN_DOMCTL_ioport_permission 21 #define VKI_XEN_DOMCTL_hypercall_init 22 #define VKI_XEN_DOMCTL_arch_setup 23 #define VKI_XEN_DOMCTL_settimeoffset 24 #define VKI_XEN_DOMCTL_getvcpuaffinity 25 #define VKI_XEN_DOMCTL_real_mode_area 26 #define VKI_XEN_DOMCTL_resumedomain 27 #define VKI_XEN_DOMCTL_sendtrigger 28 #define VKI_XEN_DOMCTL_subscribe 29 #define VKI_XEN_DOMCTL_gethvmcontext 33 #define VKI_XEN_DOMCTL_sethvmcontext 34 #define VKI_XEN_DOMCTL_set_address_size 35 #define VKI_XEN_DOMCTL_get_address_size 36 #define VKI_XEN_DOMCTL_assign_device 37 #define VKI_XEN_DOMCTL_bind_pt_irq 38 #define VKI_XEN_DOMCTL_memory_mapping 39 #define VKI_XEN_DOMCTL_ioport_mapping 40 #define VKI_XEN_DOMCTL_pin_mem_cacheattr 41 #define VKI_XEN_DOMCTL_set_ext_vcpucontext 42 #define VKI_XEN_DOMCTL_get_ext_vcpucontext 43 #define VKI_XEN_DOMCTL_set_opt_feature 44 /*Obsolete IA64 only */ #define VKI_XEN_DOMCTL_test_assign_device 45 #define VKI_XEN_DOMCTL_set_target 46 #define VKI_XEN_DOMCTL_deassign_device 47 #define VKI_XEN_DOMCTL_unbind_pt_irq 48 #define VKI_XEN_DOMCTL_set_cpuid 49 #define VKI_XEN_DOMCTL_get_device_group 50 #define VKI_XEN_DOMCTL_set_machine_address_size 51 #define VKI_XEN_DOMCTL_get_machine_address_size 52 #define VKI_XEN_DOMCTL_suppress_spurious_page_faults 53 #define VKI_XEN_DOMCTL_debug_op 54 #define VKI_XEN_DOMCTL_gethvmcontext_partial 55 #define VKI_XEN_DOMCTL_mem_event_op 56 #define VKI_XEN_DOMCTL_vm_event_op 56 /* name change in 4.6 */ #define VKI_XEN_DOMCTL_mem_sharing_op 57 #define VKI_XEN_DOMCTL_disable_migrate 58 #define VKI_XEN_DOMCTL_gettscinfo 59 #define VKI_XEN_DOMCTL_settscinfo 60 #define VKI_XEN_DOMCTL_getpageframeinfo3 61 #define VKI_XEN_DOMCTL_setvcpuextstate 62 #define VKI_XEN_DOMCTL_getvcpuextstate 63 #define VKI_XEN_DOMCTL_set_access_required 64 #define VKI_XEN_DOMCTL_audit_p2m 65 #define VKI_XEN_DOMCTL_set_virq_handler 66 #define VKI_XEN_DOMCTL_set_broken_page_p2m 67 #define VKI_XEN_DOMCTL_setnodeaffinity 68 #define VKI_XEN_DOMCTL_getnodeaffinity 69 #define VKI_XEN_DOMCTL_set_max_evtchn 70 #define VKI_XEN_DOMCTL_cacheflush 71 #define VKI_XEN_DOMCTL_get_vcpu_msrs 72 #define VKI_XEN_DOMCTL_set_vcpu_msrs 73 #define VKI_XEN_DOMCTL_monitor_op 77 /* new in 4.6 */ #define VKI_XEN_DOMCTL_gdbsx_guestmemio 1000 #define VKI_XEN_DOMCTL_gdbsx_pausevcpu 1001 #define VKI_XEN_DOMCTL_gdbsx_unpausevcpu 1002 #define VKI_XEN_DOMCTL_gdbsx_domstatus 1003 struct vki_xen_domctl_createdomain { /* IN parameters */ vki_uint32_t ssidref; vki_xen_domain_handle_t handle; vki_uint32_t flags; }; struct vki_xen_domctl_getdomaininfo_00000007 { /* OUT variables. */ vki_xen_domid_t domain; vki_uint32_t flags; vki_xen_uint64_aligned_t tot_pages; vki_xen_uint64_aligned_t max_pages; vki_xen_uint64_aligned_t shr_pages; vki_xen_uint64_aligned_t paged_pages; vki_xen_uint64_aligned_t shared_info_frame; vki_xen_uint64_aligned_t cpu_time; vki_uint32_t nr_online_vcpus; vki_uint32_t max_vcpu_id; vki_uint32_t ssidref; vki_xen_domain_handle_t handle; vki_uint32_t cpupool; }; typedef struct vki_xen_domctl_getdomaininfo_00000007 vki_xen_domctl_getdomaininfo_00000007_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_getdomaininfo_00000007_t); struct vki_xen_domctl_getdomaininfo_00000008 { /* OUT variables. */ vki_xen_domid_t domain; vki_uint32_t flags; vki_xen_uint64_aligned_t tot_pages; vki_xen_uint64_aligned_t max_pages; vki_xen_uint64_aligned_t shr_pages; vki_xen_uint64_aligned_t paged_pages; vki_xen_uint64_aligned_t shared_info_frame; vki_xen_uint64_aligned_t cpu_time; vki_uint32_t nr_online_vcpus; vki_uint32_t max_vcpu_id; vki_uint32_t ssidref; vki_xen_domain_handle_t handle; vki_uint32_t cpupool; }; typedef struct vki_xen_domctl_getdomaininfo_00000008 vki_xen_domctl_getdomaininfo_00000008_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_getdomaininfo_00000008_t); struct vki_xen_domctl_getdomaininfo_00000009 { /* OUT variables. */ vki_xen_domid_t domain; vki_uint32_t flags; vki_xen_uint64_aligned_t tot_pages; vki_xen_uint64_aligned_t max_pages; vki_xen_uint64_aligned_t outstanding_pages; vki_xen_uint64_aligned_t shr_pages; vki_xen_uint64_aligned_t paged_pages; vki_xen_uint64_aligned_t shared_info_frame; vki_xen_uint64_aligned_t cpu_time; vki_uint32_t nr_online_vcpus; vki_uint32_t max_vcpu_id; vki_uint32_t ssidref; vki_xen_domain_handle_t handle; vki_uint32_t cpupool; }; typedef struct vki_xen_domctl_getdomaininfo_00000009 vki_xen_domctl_getdomaininfo_00000009_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_getdomaininfo_00000009_t); /* vki_xen_domctl_getdomaininfo_0000000a is the same as 00000009 */ /* Get/set the NUMA node(s) with which the guest has affinity with. */ /* XEN_DOMCTL_setnodeaffinity */ /* XEN_DOMCTL_getnodeaffinity */ struct vki_xen_domctl_nodeaffinity { struct vki_xenctl_bitmap nodemap;/* IN */ }; typedef struct vki_xen_domctl_nodeaffinity vki_xen_domctl_nodeaffinity_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_nodeaffinity_t); struct vki_xen_domctl_getpageframeinfo3 { vki_xen_uint64_aligned_t num; /* IN */ VKI_XEN_GUEST_HANDLE_64(vki_xen_pfn_t) array; /* IN/OUT */ }; struct vki_xen_domctl_vcpuaffinity_00000009 { vki_uint32_t vcpu; /* IN */ struct vki_xenctl_bitmap cpumap; /* IN/OUT */ }; struct vki_xen_domctl_vcpuaffinity_0000000a { vki_uint32_t vcpu; /* IN */ #define VKI_XEN_VCPUAFFINITY_HARD (1U<<0) #define VKI_XEN_VCPUAFFINITY_SOFT (1U<<1) vki_uint32_t flags; /* IN */ struct vki_xenctl_bitmap cpumap_hard; /* IN/OUT */ struct vki_xenctl_bitmap cpumap_soft; /* IN/OUT */ }; struct vki_xen_domctl_shadow_op_stats { vki_uint32_t fault_count; vki_uint32_t dirty_count; }; /* vki_xen_domctl_shadow_op.op is an utter mess for compatibily reasons. */ struct vki_xen_domctl_shadow_op { vki_uint32_t op; /* IN */ #define VKI_XEN_DOMCTL_SHADOW_OP_OFF 0 #define VKI_XEN_DOMCTL_SHADOW_OP_ENABLE 32 #define VKI_XEN_DOMCTL_SHADOW_OP_CLEAN 11 #define VKI_XEN_DOMCTL_SHADOW_OP_PEEK 12 #define VKI_XEN_DOMCTL_SHADOW_OP_GET_ALLOCATION 30 #define VKI_XEN_DOMCTL_SHADOW_OP_SET_ALLOCATION 31 #define VKI_XEN_DOMCTL_SHADOW_OP_ENABLE_TEST 1 #define VKI_XEN_DOMCTL_SHADOW_OP_ENABLE_LOGDIRTY 2 #define VKI_XEN_DOMCTL_SHADOW_OP_ENABLE_TRANSLATE 3 vki_uint32_t mode; #define XEN_DOMCTL_SHADOW_ENABLE_REFCOUNT (1 << 1) #define XEN_DOMCTL_SHADOW_ENABLE_LOG_DIRTY (1 << 2) #define XEN_DOMCTL_SHADOW_ENABLE_TRANSLATE (1 << 3) #define XEN_DOMCTL_SHADOW_ENABLE_EXTERNAL (1 << 4) vki_uint32_t mb; VKI_XEN_GUEST_HANDLE_64(vki_uint8) dirty_bitmap; vki_xen_uint64_aligned_t pages; struct vki_xen_domctl_shadow_op_stats stats; }; struct vki_xen_domctl_max_mem { /* IN variables. */ vki_xen_uint64_aligned_t max_memkb; }; struct vki_xen_domctl_vcpucontext { vki_uint32_t vcpu; /* IN */ VKI_XEN_GUEST_HANDLE_64(vki_xen_vcpu_guest_context_t) ctxt; /* IN/OUT */ }; struct vki_xen_domctl_getvcpuinfo { /* IN variables. */ vki_uint32_t vcpu; /* OUT variables. */ vki_uint8_t online; /* currently online (not hotplugged)? */ vki_uint8_t blocked; /* blocked waiting for an event? */ vki_uint8_t running; /* currently scheduled on its CPU? */ vki_xen_uint64_aligned_t cpu_time;/* total cpu time consumed (ns) */ vki_uint32_t cpu; /* current mapping */ }; struct vki_xen_domctl_scheduler_op { vki_uint32_t sched_id; /* VKI_XEN_SCHEDULER_* */ #define VKI_XEN_SCHEDULER_SEDF 4 #define VKI_XEN_SCHEDULER_CREDIT 5 #define VKI_XEN_SCHEDULER_CREDIT2 6 #define VKI_XEN_SCHEDULER_ARINC653 7 #define VKI_XEN_SCHEDULER_RTDS 8 vki_uint32_t cmd; /* VKI_XEN_DOMCTL_SCHEDOP_* */ #define VKI_XEN_DOMCTL_SCHEDOP_putinfo 0 #define VKI_XEN_DOMCTL_SCHEDOP_getinfo 1 union { struct xen_domctl_sched_sedf { vki_xen_uint64_aligned_t period; vki_xen_uint64_aligned_t slice; vki_xen_uint64_aligned_t latency; vki_uint32_t extratime; vki_uint32_t weight; } sedf; struct xen_domctl_sched_credit { vki_uint16_t weight; vki_uint16_t cap; } credit; struct xen_domctl_sched_credit2 { vki_uint16_t weight; } credit2; struct xen_domctl_sched_rtds { vki_uint32_t period; vki_uint32_t budget; } rtds; } u; }; struct vki_xen_domctl_max_vcpus { vki_uint32_t max; /* maximum number of vcpus */ }; /* XEN_DOMCTL_irq_permission */ struct vki_xen_domctl_irq_permission { vki_uint8_t pirq; vki_uint8_t allow_access; /* flag to specify enable/disable of IRQ access */ }; struct vki_xen_domctl_iomem_permission { vki_xen_uint64_aligned_t first_mfn;/* first page (physical page number) in range */ vki_xen_uint64_aligned_t nr_mfns; /* number of pages in range (>0) */ vki_uint8_t allow_access; /* allow (!0) or deny (0) access to range? */ }; struct vki_xen_domctl_ioport_permission { vki_uint32_t first_port; /* IN */ vki_uint32_t nr_ports; /* IN */ vki_uint8_t allow_access; /* IN */ }; struct vki_xen_domctl_hypercall_init { vki_xen_uint64_aligned_t gmfn; /* GMFN to be initialised */ }; struct vki_xen_domctl_settimeoffset { vki_int32_t time_offset_seconds; }; struct vki_xen_domctl_cpuid { vki_uint32_t input[2]; vki_uint32_t eax; vki_uint32_t ebx; vki_uint32_t ecx; vki_uint32_t edx; }; struct vki_xen_guest_tsc_info { vki_uint32_t tsc_mode; vki_uint32_t gtsc_khz; vki_uint32_t incarnation; vki_uint32_t pad; vki_xen_uint64_aligned_t elapsed_nsec; }; typedef struct vki_xen_guest_tsc_info vki_xen_guest_tsc_info_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_guest_tsc_info_t); struct vki_xen_domctl_tsc_info_00000007 { VKI_XEN_GUEST_HANDLE_64(vki_xen_guest_tsc_info_t) out_info; /* OUT */ vki_xen_guest_tsc_info_t info; /* IN */ }; /* 4.6 removed the output pointer */ struct vki_xen_domctl_tsc_info_0000000b { /* IN/OUT */ vki_uint32_t tsc_mode; vki_uint32_t gtsc_khz; vki_uint32_t incarnation; vki_uint32_t pad; vki_xen_uint64_aligned_t elapsed_nsec; }; struct vki_xen_domctl_hvmcontext { vki_uint32_t size; /* IN/OUT size of buffer */ VKI_XEN_GUEST_HANDLE_64(vki_uint8) buffer; /* IN/OUT */ }; typedef struct vki_xen_domctl_hvmcontext vki_xen_domctl_hvmcontext_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_hvmcontext_t); struct vki_xen_domctl_hvmcontext_partial { vki_uint32_t type; /* IN */ vki_uint32_t instance; /* IN */ VKI_XEN_GUEST_HANDLE_64(vki_uint8) buffer; /* IN/OUT buffer */ }; typedef struct vki_xen_domctl_hvmcontext_partial vki_xen_domctl_hvmcontext_partial_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_hvmcontext_partial_t); struct vki_xen_domctl_pin_mem_cacheattr { vki_xen_uint64_aligned_t start, end; /* IN */ vki_uint32_t type; /* IN */ }; struct vki_xen_domctl_ext_vcpucontext_00000008 { vki_uint32_t vcpu; /* IN */ /* IN for XEN_DOMCTL_set_ext_vcpucontext * OUT for XEN_DOMCTL_get_ext_vcpucontext */ vki_uint32_t size; #if defined(__i386__) || defined(__x86_64__) vki_xen_uint64_aligned_t syscall32_callback_eip; vki_xen_uint64_aligned_t sysenter_callback_eip; vki_uint16_t syscall32_callback_cs; vki_uint16_t sysenter_callback_cs; vki_uint8_t syscall32_disables_events; vki_uint8_t sysenter_disables_events; vki_xen_uint64_aligned_t mcg_cap; #endif }; struct vki_xen_domctl_ext_vcpucontext_00000009 { vki_uint32_t vcpu; /* IN */ /* IN for XEN_DOMCTL_set_ext_vcpucontext * OUT for XEN_DOMCTL_get_ext_vcpucontext */ vki_uint32_t size; #if defined(__i386__) || defined(__x86_64__) vki_xen_uint64_aligned_t syscall32_callback_eip; vki_xen_uint64_aligned_t sysenter_callback_eip; vki_uint16_t syscall32_callback_cs; vki_uint16_t sysenter_callback_cs; vki_uint8_t syscall32_disables_events; vki_uint8_t sysenter_disables_events; vki_uint64_t caps; vki_uint64_t mci_ctl2_bank0; vki_uint64_t mci_ctl2_bank1; #endif }; /* vki_xen_domctl_ext_vcpucontext_0000000a is the same as 00000009 */ struct vki_xen_domctl_vcpuextstate { vki_uint32_t vcpu; vki_xen_uint64_aligned_t xfeature_mask; vki_xen_uint64_aligned_t size; VKI_XEN_GUEST_HANDLE_64(vki_uint64) buffer; }; struct vki_xen_domctl_address_size { vki_uint32_t size; }; /* vki_xen_domctl_assign_device_00000007 is the same up to version 0x0000000b */ struct vki_xen_domctl_assign_device_00000007 { vki_uint32_t machine_sbdf; /* machine PCI ID of assigned device */ }; #define VKI_XEN_DOMCTL_DEV_PCI 0 #define VKI_XEN_DOMCTL_DEV_DT 1 struct vki_xen_domctl_assign_device_0000000b { vki_uint32_t dev; /* XEN_DOMCTL_DEV_* */ union { struct { vki_uint32_t machine_sbdf; /* machine PCI ID of assigned device */ } pci; struct { vki_uint32_t size; /* Length of the path */ VKI_XEN_GUEST_HANDLE_64(vki_uint8) path; /* path to the device tree node */ } dt; } u; /* IN */ //#define XEN_DOMCTL_DEV_RDM_RELAXED 1 vki_uint32_t flag; /* flag of assigned device */ }; struct vki_xen_domctl_debug_op { vki_uint32_t op; /* IN */ vki_uint32_t vcpu; /* IN */ }; typedef struct vki_xen_domctl_debug_op vki_xen_domctl_debug_op_t; struct vki_xen_domctl_mem_event_op_00000007 { vki_uint32_t op; /* IN */ vki_uint32_t mode; /* IN */ vki_uint32_t port; /* OUT */ }; /* only a name change in 4.6 */ typedef struct vki_xen_domctl_mem_event_op_00000007 vki_xen_domctl_vm_event_op_0000000b; struct vki_xen_domctl_set_access_required { vki_uint8_t access_required; /* IN */ }; struct vki_xen_domctl_set_max_evtchn { vki_uint32_t max_port; }; struct vki_xen_domctl_cacheflush { /* IN: page range to flush. */ vki_xen_pfn_t start_pfn, nr_pfns; }; struct vki_xen_domctl_vcpu_msr { vki_uint32_t index; vki_uint32_t reserved; vki_xen_uint64_aligned_t value; }; typedef struct vki_xen_domctl_vcpu_msr vki_xen_domctl_vcpu_msr_t; DEFINE_VKI_XEN_GUEST_HANDLE(vki_xen_domctl_vcpu_msr_t); struct vki_xen_domctl_vcpu_msrs { vki_uint32_t vcpu; vki_uint32_t msr_count; VKI_XEN_GUEST_HANDLE_64(vki_xen_domctl_vcpu_msr_t) msrs; }; #define VKI_XEN_DOMCTL_MONITOR_OP_ENABLE 0 #define VKI_XEN_DOMCTL_MONITOR_OP_DISABLE 1 #define VKI_XEN_DOMCTL_MONITOR_OP_GET_CAPABILITIES 2 #define VKI_XEN_DOMCTL_MONITOR_EVENT_WRITE_CTRLREG 0 #define VKI_XEN_DOMCTL_MONITOR_EVENT_MOV_TO_MSR 1 #define VKI_XEN_DOMCTL_MONITOR_EVENT_SINGLESTEP 2 #define VKI_XEN_DOMCTL_MONITOR_EVENT_SOFTWARE_BREAKPOINT 3 #define VKI_XEN_DOMCTL_MONITOR_EVENT_GUEST_REQUEST 4 struct vki_xen_domctl_monitor_op_0000000b { vki_uint32_t op; /* vki_xen_DOMCTL_MONITOR_OP_* */ /* * When used with ENABLE/DISABLE this has to be set to * the requested vki_xen_DOMCTL_MONITOR_EVENT_* value. * With GET_CAPABILITIES this field returns a bitmap of * events supported by the platform, in the format * (1 << vki_xen_DOMCTL_MONITOR_EVENT_*). */ vki_uint32_t event; /* * Further options when issuing vki_xen_DOMCTL_MONITOR_OP_ENABLE. */ union { struct { /* Which control register */ vki_uint8_t index; /* Pause vCPU until response */ vki_uint8_t sync; /* Send event only on a change of value */ vki_uint8_t onchangeonly; } mov_to_cr; struct { /* Enable the capture of an extended set of MSRs */ vki_uint8_t extended_capture; } mov_to_msr; struct { /* Pause vCPU until response */ vki_uint8_t sync; } guest_request; } u; }; struct vki_xen_domctl_monitor_op { vki_uint32_t op; #define VKI_XEN_DOMCTL_MONITOR_OP_ENABLE 0 #define VKI_XEN_DOMCTL_MONITOR_OP_DISABLE 1 #define VKI_XEN_DOMCTL_MONITOR_OP_GET_CAPABILITIES 2 #define VKI_XEN_DOMCTL_MONITOR_OP_EMULATE_EACH_REP 3 vki_uint32_t event; union { struct { vki_uint8_t index; vki_uint8_t sync; vki_uint8_t onchangeonly; } mov_to_cr; struct { vki_uint8_t extended_capture; } mov_to_msr; struct { vki_uint8_t sync; } guest_request; } u; }; struct vki_xen_domctl { vki_uint32_t cmd; vki_uint32_t interface_version; /* XEN_DOMCTL_INTERFACE_VERSION */ vki_xen_domid_t domain; union { struct vki_xen_domctl_createdomain createdomain; struct vki_xen_domctl_getdomaininfo_00000007 getdomaininfo_00000007; struct vki_xen_domctl_getdomaininfo_00000008 getdomaininfo_00000008; struct vki_xen_domctl_getdomaininfo_00000009 getdomaininfo_00000009; //struct vki_xen_domctl_getmemlist getmemlist; //struct vki_xen_domctl_getpageframeinfo getpageframeinfo; //struct vki_xen_domctl_getpageframeinfo2 getpageframeinfo2; struct vki_xen_domctl_getpageframeinfo3 getpageframeinfo3; struct vki_xen_domctl_nodeaffinity nodeaffinity; struct vki_xen_domctl_vcpuaffinity_00000009 vcpuaffinity_00000009; struct vki_xen_domctl_vcpuaffinity_0000000a vcpuaffinity_0000000a; struct vki_xen_domctl_shadow_op shadow_op; struct vki_xen_domctl_max_mem max_mem; struct vki_xen_domctl_vcpucontext vcpucontext; struct vki_xen_domctl_getvcpuinfo getvcpuinfo; struct vki_xen_domctl_max_vcpus max_vcpus; struct vki_xen_domctl_scheduler_op scheduler_op; //struct vki_xen_domctl_setdomainhandle setdomainhandle; //struct vki_xen_domctl_setdebugging setdebugging; struct vki_xen_domctl_irq_permission irq_permission; struct vki_xen_domctl_iomem_permission iomem_permission; struct vki_xen_domctl_ioport_permission ioport_permission; struct vki_xen_domctl_hypercall_init hypercall_init; //struct vki_xen_domctl_arch_setup arch_setup; struct vki_xen_domctl_settimeoffset settimeoffset; //struct vki_xen_domctl_disable_migrate disable_migrate; struct vki_xen_domctl_tsc_info_00000007 tsc_info_00000007; struct vki_xen_domctl_tsc_info_0000000b tsc_info_0000000b; //struct vki_xen_domctl_real_mode_area real_mode_area; struct vki_xen_domctl_hvmcontext hvmcontext; struct vki_xen_domctl_hvmcontext_partial hvmcontext_partial; struct vki_xen_domctl_address_size address_size; //struct vki_xen_domctl_sendtrigger sendtrigger; //struct vki_xen_domctl_get_device_group get_device_group; struct vki_xen_domctl_assign_device_00000007 assign_device_00000007; struct vki_xen_domctl_assign_device_0000000b assign_device_0000000b; //struct vki_xen_domctl_bind_pt_irq bind_pt_irq; //struct vki_xen_domctl_memory_mapping memory_mapping; //struct vki_xen_domctl_ioport_mapping ioport_mapping; struct vki_xen_domctl_pin_mem_cacheattr pin_mem_cacheattr; struct vki_xen_domctl_ext_vcpucontext_00000008 ext_vcpucontext_00000008; struct vki_xen_domctl_ext_vcpucontext_00000009 ext_vcpucontext_00000009; //struct vki_xen_domctl_set_target set_target; //struct vki_xen_domctl_subscribe subscribe; struct vki_xen_domctl_debug_op debug_op; struct vki_xen_domctl_mem_event_op_00000007 mem_event_op_00000007; vki_xen_domctl_vm_event_op_0000000b vm_event_op_0000000b; //struct vki_xen_domctl_mem_sharing_op mem_sharing_op; #if defined(__i386__) || defined(__x86_64__) struct vki_xen_domctl_cpuid cpuid; struct vki_xen_domctl_vcpuextstate vcpuextstate; struct vki_xen_domctl_vcpu_msrs vcpu_msrs; #endif struct vki_xen_domctl_set_access_required access_required; //struct vki_xen_domctl_audit_p2m audit_p2m; //struct vki_xen_domctl_set_virq_handler set_virq_handler; struct vki_xen_domctl_set_max_evtchn set_max_evtchn; //struct vki_xen_domctl_gdbsx_memio gdbsx_guest_memio; //struct vki_xen_domctl_set_broken_page_p2m set_broken_page_p2m; struct vki_xen_domctl_cacheflush cacheflush; //struct vki_xen_domctl_gdbsx_pauseunp_vcpu gdbsx_pauseunp_vcpu; //struct vki_xen_domctl_gdbsx_domstatus gdbsx_domstatus; struct vki_xen_domctl_monitor_op_0000000b monitor_op_0000000b; vki_uint8_t pad[128]; } u; }; #endif // __VKI_XEN_DOMCTL_H /*--------------------------------------------------------------------*/ /*--- end ---*/ /*--------------------------------------------------------------------*/