/****************************************************************************** * domctl.h * * Domain management operations. For use by node control stack. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. * * Copyright (c) 2002-2003, B Dragovic * Copyright (c) 2002-2006, K Fraser */ #ifndef __XEN_PUBLIC_DOMCTL_H__ #define __XEN_PUBLIC_DOMCTL_H__ #if !defined(__XEN__) && !defined(__XEN_TOOLS__) #error "domctl operations are intended for use by node control tools only" #endif #include "xen.h" #include "grant_table.h" #include "hvm/save.h" #include "memory.h" #define XEN_DOMCTL_INTERFACE_VERSION 0x0000000b /* * NB. xen_domctl.domain is an IN/OUT parameter for this operation. * If it is specified as zero, an id is auto-allocated and returned. */ /* XEN_DOMCTL_createdomain */ struct xen_domctl_createdomain { /* IN parameters */ uint32_t ssidref; xen_domain_handle_t handle; /* Is this an HVM guest (as opposed to a PVH or PV guest)? */ #define _XEN_DOMCTL_CDF_hvm_guest 0 #define XEN_DOMCTL_CDF_hvm_guest (1U<<_XEN_DOMCTL_CDF_hvm_guest) /* Use hardware-assisted paging if available? */ #define _XEN_DOMCTL_CDF_hap 1 #define XEN_DOMCTL_CDF_hap (1U<<_XEN_DOMCTL_CDF_hap) /* Should domain memory integrity be verifed by tboot during Sx? */ #define _XEN_DOMCTL_CDF_s3_integrity 2 #define XEN_DOMCTL_CDF_s3_integrity (1U<<_XEN_DOMCTL_CDF_s3_integrity) /* Disable out-of-sync shadow page tables? */ #define _XEN_DOMCTL_CDF_oos_off 3 #define XEN_DOMCTL_CDF_oos_off (1U<<_XEN_DOMCTL_CDF_oos_off) /* Is this a PVH guest (as opposed to an HVM or PV guest)? */ #define _XEN_DOMCTL_CDF_pvh_guest 4 #define XEN_DOMCTL_CDF_pvh_guest (1U<<_XEN_DOMCTL_CDF_pvh_guest) /* Is this a xenstore domain? */ #define _XEN_DOMCTL_CDF_xs_domain 5 #define XEN_DOMCTL_CDF_xs_domain (1U<<_XEN_DOMCTL_CDF_xs_domain) uint32_t flags; struct xen_arch_domainconfig config; }; typedef struct xen_domctl_createdomain xen_domctl_createdomain_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_createdomain_t); /* XEN_DOMCTL_getdomaininfo */ struct xen_domctl_getdomaininfo { /* OUT variables. */ domid_t domain; /* Also echoed in domctl.domain */ /* Domain is scheduled to die. */ #define _XEN_DOMINF_dying 0 #define XEN_DOMINF_dying (1U<<_XEN_DOMINF_dying) /* Domain is an HVM guest (as opposed to a PV guest). */ #define _XEN_DOMINF_hvm_guest 1 #define XEN_DOMINF_hvm_guest (1U<<_XEN_DOMINF_hvm_guest) /* The guest OS has shut down. */ #define _XEN_DOMINF_shutdown 2 #define XEN_DOMINF_shutdown (1U<<_XEN_DOMINF_shutdown) /* Currently paused by control software. */ #define _XEN_DOMINF_paused 3 #define XEN_DOMINF_paused (1U<<_XEN_DOMINF_paused) /* Currently blocked pending an event. */ #define _XEN_DOMINF_blocked 4 #define XEN_DOMINF_blocked (1U<<_XEN_DOMINF_blocked) /* Domain is currently running. */ #define _XEN_DOMINF_running 5 #define XEN_DOMINF_running (1U<<_XEN_DOMINF_running) /* Being debugged. */ #define _XEN_DOMINF_debugged 6 #define XEN_DOMINF_debugged (1U<<_XEN_DOMINF_debugged) /* domain is PVH */ #define _XEN_DOMINF_pvh_guest 7 #define XEN_DOMINF_pvh_guest (1U<<_XEN_DOMINF_pvh_guest) /* domain is a xenstore domain */ #define _XEN_DOMINF_xs_domain 8 #define XEN_DOMINF_xs_domain (1U<<_XEN_DOMINF_xs_domain) /* XEN_DOMINF_shutdown guest-supplied code. */ #define XEN_DOMINF_shutdownmask 255 #define XEN_DOMINF_shutdownshift 16 uint32_t flags; /* XEN_DOMINF_* */ uint64_aligned_t tot_pages; uint64_aligned_t max_pages; uint64_aligned_t outstanding_pages; uint64_aligned_t shr_pages; uint64_aligned_t paged_pages; uint64_aligned_t shared_info_frame; /* GMFN of shared_info struct */ uint64_aligned_t cpu_time; uint32_t nr_online_vcpus; /* Number of VCPUs currently online. */ #define XEN_INVALID_MAX_VCPU_ID (~0U) /* Domain has no vcpus? */ uint32_t max_vcpu_id; /* Maximum VCPUID in use by this domain. */ uint32_t ssidref; xen_domain_handle_t handle; uint32_t cpupool; }; typedef struct xen_domctl_getdomaininfo xen_domctl_getdomaininfo_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_getdomaininfo_t); /* XEN_DOMCTL_getmemlist */ struct xen_domctl_getmemlist { /* IN variables. */ /* Max entries to write to output buffer. */ uint64_aligned_t max_pfns; /* Start index in guest's page list. */ uint64_aligned_t start_pfn; XEN_GUEST_HANDLE_64(uint64) buffer; /* OUT variables. */ uint64_aligned_t num_pfns; }; typedef struct xen_domctl_getmemlist xen_domctl_getmemlist_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_getmemlist_t); /* XEN_DOMCTL_getpageframeinfo */ #define XEN_DOMCTL_PFINFO_LTAB_SHIFT 28 #define XEN_DOMCTL_PFINFO_NOTAB (0x0U<<28) #define XEN_DOMCTL_PFINFO_L1TAB (0x1U<<28) #define XEN_DOMCTL_PFINFO_L2TAB (0x2U<<28) #define XEN_DOMCTL_PFINFO_L3TAB (0x3U<<28) #define XEN_DOMCTL_PFINFO_L4TAB (0x4U<<28) #define XEN_DOMCTL_PFINFO_LTABTYPE_MASK (0x7U<<28) #define XEN_DOMCTL_PFINFO_LPINTAB (0x1U<<31) #define XEN_DOMCTL_PFINFO_XTAB (0xfU<<28) /* invalid page */ #define XEN_DOMCTL_PFINFO_XALLOC (0xeU<<28) /* allocate-only page */ #define XEN_DOMCTL_PFINFO_BROKEN (0xdU<<28) /* broken page */ #define XEN_DOMCTL_PFINFO_LTAB_MASK (0xfU<<28) /* XEN_DOMCTL_getpageframeinfo3 */ struct xen_domctl_getpageframeinfo3 { /* IN variables. */ uint64_aligned_t num; /* IN/OUT variables. */ XEN_GUEST_HANDLE_64(xen_pfn_t) array; }; /* * Control shadow pagetables operation */ /* XEN_DOMCTL_shadow_op */ /* Disable shadow mode. */ #define XEN_DOMCTL_SHADOW_OP_OFF 0 /* Enable shadow mode (mode contains ORed XEN_DOMCTL_SHADOW_ENABLE_* flags). */ #define XEN_DOMCTL_SHADOW_OP_ENABLE 32 /* Log-dirty bitmap operations. */ /* Return the bitmap and clean internal copy for next round. */ #define XEN_DOMCTL_SHADOW_OP_CLEAN 11 /* Return the bitmap but do not modify internal copy. */ #define XEN_DOMCTL_SHADOW_OP_PEEK 12 /* Memory allocation accessors. */ #define XEN_DOMCTL_SHADOW_OP_GET_ALLOCATION 30 #define XEN_DOMCTL_SHADOW_OP_SET_ALLOCATION 31 /* Legacy enable operations. */ /* Equiv. to ENABLE with no mode flags. */ #define XEN_DOMCTL_SHADOW_OP_ENABLE_TEST 1 /* Equiv. to ENABLE with mode flag ENABLE_LOG_DIRTY. */ #define XEN_DOMCTL_SHADOW_OP_ENABLE_LOGDIRTY 2 /* * No longer supported, was equiv. to ENABLE with mode flags * ENABLE_REFCOUNT and ENABLE_TRANSLATE: #define XEN_DOMCTL_SHADOW_OP_ENABLE_TRANSLATE 3 */ /* Mode flags for XEN_DOMCTL_SHADOW_OP_ENABLE. */ /* * Shadow pagetables are refcounted: guest does not use explicit mmu * operations nor write-protect its pagetables. */ #define XEN_DOMCTL_SHADOW_ENABLE_REFCOUNT (1 << 1) /* * Log pages in a bitmap as they are dirtied. * Used for live relocation to determine which pages must be re-sent. */ #define XEN_DOMCTL_SHADOW_ENABLE_LOG_DIRTY (1 << 2) /* * Automatically translate GPFNs into MFNs. */ #define XEN_DOMCTL_SHADOW_ENABLE_TRANSLATE (1 << 3) /* * Xen does not steal virtual address space from the guest. * Requires HVM support. */ #define XEN_DOMCTL_SHADOW_ENABLE_EXTERNAL (1 << 4) /* Mode flags for XEN_DOMCTL_SHADOW_OP_{CLEAN,PEEK}. */ /* * This is the final iteration: Requesting to include pages mapped * writably by the hypervisor in the dirty bitmap. */ #define XEN_DOMCTL_SHADOW_LOGDIRTY_FINAL (1 << 0) struct xen_domctl_shadow_op_stats { uint32_t fault_count; uint32_t dirty_count; }; typedef struct xen_domctl_shadow_op_stats xen_domctl_shadow_op_stats_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_shadow_op_stats_t); struct xen_domctl_shadow_op { /* IN variables. */ uint32_t op; /* XEN_DOMCTL_SHADOW_OP_* */ /* OP_ENABLE: XEN_DOMCTL_SHADOW_ENABLE_* */ /* OP_PEAK / OP_CLEAN: XEN_DOMCTL_SHADOW_LOGDIRTY_* */ uint32_t mode; /* OP_GET_ALLOCATION / OP_SET_ALLOCATION */ uint32_t mb; /* Shadow memory allocation in MB */ /* OP_PEEK / OP_CLEAN */ XEN_GUEST_HANDLE_64(uint8) dirty_bitmap; uint64_aligned_t pages; /* Size of buffer. Updated with actual size. */ struct xen_domctl_shadow_op_stats stats; }; typedef struct xen_domctl_shadow_op xen_domctl_shadow_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_shadow_op_t); /* XEN_DOMCTL_max_mem */ struct xen_domctl_max_mem { /* IN variables. */ uint64_aligned_t max_memkb; }; typedef struct xen_domctl_max_mem xen_domctl_max_mem_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_max_mem_t); /* XEN_DOMCTL_setvcpucontext */ /* XEN_DOMCTL_getvcpucontext */ struct xen_domctl_vcpucontext { uint32_t vcpu; /* IN */ XEN_GUEST_HANDLE_64(vcpu_guest_context_t) ctxt; /* IN/OUT */ }; typedef struct xen_domctl_vcpucontext xen_domctl_vcpucontext_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vcpucontext_t); /* XEN_DOMCTL_getvcpuinfo */ struct xen_domctl_getvcpuinfo { /* IN variables. */ uint32_t vcpu; /* OUT variables. */ uint8_t online; /* currently online (not hotplugged)? */ uint8_t blocked; /* blocked waiting for an event? */ uint8_t running; /* currently scheduled on its CPU? */ uint64_aligned_t cpu_time; /* total cpu time consumed (ns) */ uint32_t cpu; /* current mapping */ }; typedef struct xen_domctl_getvcpuinfo xen_domctl_getvcpuinfo_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_getvcpuinfo_t); /* Get/set the NUMA node(s) with which the guest has affinity with. */ /* XEN_DOMCTL_setnodeaffinity */ /* XEN_DOMCTL_getnodeaffinity */ struct xen_domctl_nodeaffinity { struct xenctl_bitmap nodemap;/* IN */ }; typedef struct xen_domctl_nodeaffinity xen_domctl_nodeaffinity_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_nodeaffinity_t); /* Get/set which physical cpus a vcpu can execute on. */ /* XEN_DOMCTL_setvcpuaffinity */ /* XEN_DOMCTL_getvcpuaffinity */ struct xen_domctl_vcpuaffinity { /* IN variables. */ uint32_t vcpu; /* Set/get the hard affinity for vcpu */ #define _XEN_VCPUAFFINITY_HARD 0 #define XEN_VCPUAFFINITY_HARD (1U<<_XEN_VCPUAFFINITY_HARD) /* Set/get the soft affinity for vcpu */ #define _XEN_VCPUAFFINITY_SOFT 1 #define XEN_VCPUAFFINITY_SOFT (1U<<_XEN_VCPUAFFINITY_SOFT) /* Undo SCHEDOP_pin_override */ #define _XEN_VCPUAFFINITY_FORCE 2 #define XEN_VCPUAFFINITY_FORCE (1U<<_XEN_VCPUAFFINITY_FORCE) uint32_t flags; /* * IN/OUT variables. * * Both are IN/OUT for XEN_DOMCTL_setvcpuaffinity, in which case they * contain effective hard or/and soft affinity. That is, upon successful * return, cpumap_soft, contains the intersection of the soft affinity, * hard affinity and the cpupool's online CPUs for the domain (if * XEN_VCPUAFFINITY_SOFT was set in flags). cpumap_hard contains the * intersection between hard affinity and the cpupool's online CPUs (if * XEN_VCPUAFFINITY_HARD was set in flags). * * Both are OUT-only for XEN_DOMCTL_getvcpuaffinity, in which case they * contain the plain hard and/or soft affinity masks that were set during * previous successful calls to XEN_DOMCTL_setvcpuaffinity (or the * default values), without intersecting or altering them in any way. */ struct xenctl_bitmap cpumap_hard; struct xenctl_bitmap cpumap_soft; }; typedef struct xen_domctl_vcpuaffinity xen_domctl_vcpuaffinity_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vcpuaffinity_t); /* XEN_DOMCTL_max_vcpus */ struct xen_domctl_max_vcpus { uint32_t max; /* maximum number of vcpus */ }; typedef struct xen_domctl_max_vcpus xen_domctl_max_vcpus_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_max_vcpus_t); /* XEN_DOMCTL_scheduler_op */ /* Scheduler types. */ /* #define XEN_SCHEDULER_SEDF 4 (Removed) */ #define XEN_SCHEDULER_CREDIT 5 #define XEN_SCHEDULER_CREDIT2 6 #define XEN_SCHEDULER_ARINC653 7 #define XEN_SCHEDULER_RTDS 8 typedef struct xen_domctl_sched_credit { uint16_t weight; uint16_t cap; } xen_domctl_sched_credit_t; typedef struct xen_domctl_sched_credit2 { uint16_t weight; } xen_domctl_sched_credit2_t; typedef struct xen_domctl_sched_rtds { uint32_t period; uint32_t budget; } xen_domctl_sched_rtds_t; typedef struct xen_domctl_schedparam_vcpu { union { xen_domctl_sched_credit_t credit; xen_domctl_sched_credit2_t credit2; xen_domctl_sched_rtds_t rtds; } u; uint32_t vcpuid; } xen_domctl_schedparam_vcpu_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_schedparam_vcpu_t); /* * Set or get info? * For schedulers supporting per-vcpu settings (e.g., RTDS): * XEN_DOMCTL_SCHEDOP_putinfo sets params for all vcpus; * XEN_DOMCTL_SCHEDOP_getinfo gets default params; * XEN_DOMCTL_SCHEDOP_put(get)vcpuinfo sets (gets) params of vcpus; * * For schedulers not supporting per-vcpu settings: * XEN_DOMCTL_SCHEDOP_putinfo sets params for all vcpus; * XEN_DOMCTL_SCHEDOP_getinfo gets domain-wise params; * XEN_DOMCTL_SCHEDOP_put(get)vcpuinfo returns error; */ #define XEN_DOMCTL_SCHEDOP_putinfo 0 #define XEN_DOMCTL_SCHEDOP_getinfo 1 #define XEN_DOMCTL_SCHEDOP_putvcpuinfo 2 #define XEN_DOMCTL_SCHEDOP_getvcpuinfo 3 struct xen_domctl_scheduler_op { uint32_t sched_id; /* XEN_SCHEDULER_* */ uint32_t cmd; /* XEN_DOMCTL_SCHEDOP_* */ /* IN/OUT */ union { xen_domctl_sched_credit_t credit; xen_domctl_sched_credit2_t credit2; xen_domctl_sched_rtds_t rtds; struct { XEN_GUEST_HANDLE_64(xen_domctl_schedparam_vcpu_t) vcpus; /* * IN: Number of elements in vcpus array. * OUT: Number of processed elements of vcpus array. */ uint32_t nr_vcpus; uint32_t padding; } v; } u; }; typedef struct xen_domctl_scheduler_op xen_domctl_scheduler_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_scheduler_op_t); /* XEN_DOMCTL_setdomainhandle */ struct xen_domctl_setdomainhandle { xen_domain_handle_t handle; }; typedef struct xen_domctl_setdomainhandle xen_domctl_setdomainhandle_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_setdomainhandle_t); /* XEN_DOMCTL_setdebugging */ struct xen_domctl_setdebugging { uint8_t enable; }; typedef struct xen_domctl_setdebugging xen_domctl_setdebugging_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_setdebugging_t); /* XEN_DOMCTL_irq_permission */ struct xen_domctl_irq_permission { uint8_t pirq; uint8_t allow_access; /* flag to specify enable/disable of IRQ access */ }; typedef struct xen_domctl_irq_permission xen_domctl_irq_permission_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_irq_permission_t); /* XEN_DOMCTL_iomem_permission */ struct xen_domctl_iomem_permission { uint64_aligned_t first_mfn;/* first page (physical page number) in range */ uint64_aligned_t nr_mfns; /* number of pages in range (>0) */ uint8_t allow_access; /* allow (!0) or deny (0) access to range? */ }; typedef struct xen_domctl_iomem_permission xen_domctl_iomem_permission_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_iomem_permission_t); /* XEN_DOMCTL_ioport_permission */ struct xen_domctl_ioport_permission { uint32_t first_port; /* first port int range */ uint32_t nr_ports; /* size of port range */ uint8_t allow_access; /* allow or deny access to range? */ }; typedef struct xen_domctl_ioport_permission xen_domctl_ioport_permission_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_ioport_permission_t); /* XEN_DOMCTL_hypercall_init */ struct xen_domctl_hypercall_init { uint64_aligned_t gmfn; /* GMFN to be initialised */ }; typedef struct xen_domctl_hypercall_init xen_domctl_hypercall_init_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_hypercall_init_t); /* XEN_DOMCTL_settimeoffset */ struct xen_domctl_settimeoffset { int64_aligned_t time_offset_seconds; /* applied to domain wallclock time */ }; typedef struct xen_domctl_settimeoffset xen_domctl_settimeoffset_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_settimeoffset_t); /* XEN_DOMCTL_gethvmcontext */ /* XEN_DOMCTL_sethvmcontext */ typedef struct xen_domctl_hvmcontext { uint32_t size; /* IN/OUT: size of buffer / bytes filled */ XEN_GUEST_HANDLE_64(uint8) buffer; /* IN/OUT: data, or call * gethvmcontext with NULL * buffer to get size req'd */ } xen_domctl_hvmcontext_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_hvmcontext_t); /* XEN_DOMCTL_set_address_size */ /* XEN_DOMCTL_get_address_size */ typedef struct xen_domctl_address_size { uint32_t size; } xen_domctl_address_size_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_address_size_t); /* XEN_DOMCTL_sendtrigger */ #define XEN_DOMCTL_SENDTRIGGER_NMI 0 #define XEN_DOMCTL_SENDTRIGGER_RESET 1 #define XEN_DOMCTL_SENDTRIGGER_INIT 2 #define XEN_DOMCTL_SENDTRIGGER_POWER 3 #define XEN_DOMCTL_SENDTRIGGER_SLEEP 4 struct xen_domctl_sendtrigger { uint32_t trigger; /* IN */ uint32_t vcpu; /* IN */ }; typedef struct xen_domctl_sendtrigger xen_domctl_sendtrigger_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_sendtrigger_t); /* Assign a device to a guest. Sets up IOMMU structures. */ /* XEN_DOMCTL_assign_device */ /* XEN_DOMCTL_test_assign_device */ /* * XEN_DOMCTL_deassign_device: The behavior of this DOMCTL differs * between the different type of device: * - PCI device (XEN_DOMCTL_DEV_PCI) will be reassigned to DOM0 * - DT device (XEN_DOMCTL_DT_PCI) will left unassigned. DOM0 * will have to call XEN_DOMCTL_assign_device in order to use the * device. */ #define XEN_DOMCTL_DEV_PCI 0 #define XEN_DOMCTL_DEV_DT 1 struct xen_domctl_assign_device { uint32_t dev; /* XEN_DOMCTL_DEV_* */ union { struct { uint32_t machine_sbdf; /* machine PCI ID of assigned device */ } pci; struct { uint32_t size; /* Length of the path */ XEN_GUEST_HANDLE_64(char) path; /* path to the device tree node */ } dt; } u; /* IN */ #define XEN_DOMCTL_DEV_RDM_RELAXED 1 uint32_t flag; /* flag of assigned device */ }; typedef struct xen_domctl_assign_device xen_domctl_assign_device_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_assign_device_t); /* Retrieve sibling devices infomation of machine_sbdf */ /* XEN_DOMCTL_get_device_group */ struct xen_domctl_get_device_group { uint32_t machine_sbdf; /* IN */ uint32_t max_sdevs; /* IN */ uint32_t num_sdevs; /* OUT */ XEN_GUEST_HANDLE_64(uint32) sdev_array; /* OUT */ }; typedef struct xen_domctl_get_device_group xen_domctl_get_device_group_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_get_device_group_t); /* Pass-through interrupts: bind real irq -> hvm devfn. */ /* XEN_DOMCTL_bind_pt_irq */ /* XEN_DOMCTL_unbind_pt_irq */ typedef enum pt_irq_type_e { PT_IRQ_TYPE_PCI, PT_IRQ_TYPE_ISA, PT_IRQ_TYPE_MSI, PT_IRQ_TYPE_MSI_TRANSLATE, PT_IRQ_TYPE_SPI, /* ARM: valid range 32-1019 */ } pt_irq_type_t; struct xen_domctl_bind_pt_irq { uint32_t machine_irq; pt_irq_type_t irq_type; uint32_t hvm_domid; union { struct { uint8_t isa_irq; } isa; struct { uint8_t bus; uint8_t device; uint8_t intx; } pci; struct { uint8_t gvec; uint32_t gflags; uint64_aligned_t gtable; } msi; struct { uint16_t spi; } spi; } u; }; typedef struct xen_domctl_bind_pt_irq xen_domctl_bind_pt_irq_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_bind_pt_irq_t); /* Bind machine I/O address range -> HVM address range. */ /* XEN_DOMCTL_memory_mapping */ /* Returns - zero success, everything done - -E2BIG passed in nr_mfns value too large for the implementation - positive partial success for the first <result> page frames (with <result> less than nr_mfns), requiring re-invocation by the caller after updating inputs - negative error; other than -E2BIG */ #define DPCI_ADD_MAPPING 1 #define DPCI_REMOVE_MAPPING 0 struct xen_domctl_memory_mapping { uint64_aligned_t first_gfn; /* first page (hvm guest phys page) in range */ uint64_aligned_t first_mfn; /* first page (machine page) in range */ uint64_aligned_t nr_mfns; /* number of pages in range (>0) */ uint32_t add_mapping; /* add or remove mapping */ uint32_t padding; /* padding for 64-bit aligned structure */ }; typedef struct xen_domctl_memory_mapping xen_domctl_memory_mapping_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_memory_mapping_t); /* Bind machine I/O port range -> HVM I/O port range. */ /* XEN_DOMCTL_ioport_mapping */ struct xen_domctl_ioport_mapping { uint32_t first_gport; /* first guest IO port*/ uint32_t first_mport; /* first machine IO port */ uint32_t nr_ports; /* size of port range */ uint32_t add_mapping; /* add or remove mapping */ }; typedef struct xen_domctl_ioport_mapping xen_domctl_ioport_mapping_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_ioport_mapping_t); /* * Pin caching type of RAM space for x86 HVM domU. */ /* XEN_DOMCTL_pin_mem_cacheattr */ /* Caching types: these happen to be the same as x86 MTRR/PAT type codes. */ #define XEN_DOMCTL_MEM_CACHEATTR_UC 0 #define XEN_DOMCTL_MEM_CACHEATTR_WC 1 #define XEN_DOMCTL_MEM_CACHEATTR_WT 4 #define XEN_DOMCTL_MEM_CACHEATTR_WP 5 #define XEN_DOMCTL_MEM_CACHEATTR_WB 6 #define XEN_DOMCTL_MEM_CACHEATTR_UCM 7 #define XEN_DOMCTL_DELETE_MEM_CACHEATTR (~(uint32_t)0) struct xen_domctl_pin_mem_cacheattr { uint64_aligned_t start, end; uint32_t type; /* XEN_DOMCTL_MEM_CACHEATTR_* */ }; typedef struct xen_domctl_pin_mem_cacheattr xen_domctl_pin_mem_cacheattr_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_pin_mem_cacheattr_t); /* XEN_DOMCTL_set_ext_vcpucontext */ /* XEN_DOMCTL_get_ext_vcpucontext */ struct xen_domctl_ext_vcpucontext { /* IN: VCPU that this call applies to. */ uint32_t vcpu; /* * SET: Size of struct (IN) * GET: Size of struct (OUT, up to 128 bytes) */ uint32_t size; #if defined(__i386__) || defined(__x86_64__) /* SYSCALL from 32-bit mode and SYSENTER callback information. */ /* NB. SYSCALL from 64-bit mode is contained in vcpu_guest_context_t */ uint64_aligned_t syscall32_callback_eip; uint64_aligned_t sysenter_callback_eip; uint16_t syscall32_callback_cs; uint16_t sysenter_callback_cs; uint8_t syscall32_disables_events; uint8_t sysenter_disables_events; #if defined(__GNUC__) union { uint64_aligned_t mcg_cap; struct hvm_vmce_vcpu vmce; }; #else struct hvm_vmce_vcpu vmce; #endif #endif }; typedef struct xen_domctl_ext_vcpucontext xen_domctl_ext_vcpucontext_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_ext_vcpucontext_t); /* * Set the target domain for a domain */ /* XEN_DOMCTL_set_target */ struct xen_domctl_set_target { domid_t target; }; typedef struct xen_domctl_set_target xen_domctl_set_target_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_set_target_t); #if defined(__i386__) || defined(__x86_64__) # define XEN_CPUID_INPUT_UNUSED 0xFFFFFFFF /* XEN_DOMCTL_set_cpuid */ struct xen_domctl_cpuid { uint32_t input[2]; uint32_t eax; uint32_t ebx; uint32_t ecx; uint32_t edx; }; typedef struct xen_domctl_cpuid xen_domctl_cpuid_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_cpuid_t); #endif /* * Arranges that if the domain suspends (specifically, if it shuts * down with code SHUTDOWN_suspend), this event channel will be * notified. * * This is _instead of_ the usual notification to the global * VIRQ_DOM_EXC. (In most systems that pirq is owned by xenstored.) * * Only one subscription per domain is possible. Last subscriber * wins; others are silently displaced. * * NB that contrary to the rather general name, it only applies to * domain shutdown with code suspend. Shutdown for other reasons * (including crash), and domain death, are notified to VIRQ_DOM_EXC * regardless. */ /* XEN_DOMCTL_subscribe */ struct xen_domctl_subscribe { uint32_t port; /* IN */ }; typedef struct xen_domctl_subscribe xen_domctl_subscribe_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_subscribe_t); /* * Define the maximum machine address size which should be allocated * to a guest. */ /* XEN_DOMCTL_set_machine_address_size */ /* XEN_DOMCTL_get_machine_address_size */ /* * Do not inject spurious page faults into this domain. */ /* XEN_DOMCTL_suppress_spurious_page_faults */ /* XEN_DOMCTL_debug_op */ #define XEN_DOMCTL_DEBUG_OP_SINGLE_STEP_OFF 0 #define XEN_DOMCTL_DEBUG_OP_SINGLE_STEP_ON 1 struct xen_domctl_debug_op { uint32_t op; /* IN */ uint32_t vcpu; /* IN */ }; typedef struct xen_domctl_debug_op xen_domctl_debug_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_debug_op_t); /* * Request a particular record from the HVM context */ /* XEN_DOMCTL_gethvmcontext_partial */ typedef struct xen_domctl_hvmcontext_partial { uint32_t type; /* IN: Type of record required */ uint32_t instance; /* IN: Instance of that type */ XEN_GUEST_HANDLE_64(uint8) buffer; /* OUT: buffer to write record into */ } xen_domctl_hvmcontext_partial_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_hvmcontext_partial_t); /* XEN_DOMCTL_disable_migrate */ typedef struct xen_domctl_disable_migrate { uint32_t disable; /* IN: 1: disable migration and restore */ } xen_domctl_disable_migrate_t; /* XEN_DOMCTL_gettscinfo */ /* XEN_DOMCTL_settscinfo */ typedef struct xen_domctl_tsc_info { /* IN/OUT */ uint32_t tsc_mode; uint32_t gtsc_khz; uint32_t incarnation; uint32_t pad; uint64_aligned_t elapsed_nsec; } xen_domctl_tsc_info_t; /* XEN_DOMCTL_gdbsx_guestmemio guest mem io */ struct xen_domctl_gdbsx_memio { /* IN */ uint64_aligned_t pgd3val;/* optional: init_mm.pgd[3] value */ uint64_aligned_t gva; /* guest virtual address */ uint64_aligned_t uva; /* user buffer virtual address */ uint32_t len; /* number of bytes to read/write */ uint8_t gwr; /* 0 = read from guest. 1 = write to guest */ /* OUT */ uint32_t remain; /* bytes remaining to be copied */ }; /* XEN_DOMCTL_gdbsx_pausevcpu */ /* XEN_DOMCTL_gdbsx_unpausevcpu */ struct xen_domctl_gdbsx_pauseunp_vcpu { /* pause/unpause a vcpu */ uint32_t vcpu; /* which vcpu */ }; /* XEN_DOMCTL_gdbsx_domstatus */ struct xen_domctl_gdbsx_domstatus { /* OUT */ uint8_t paused; /* is the domain paused */ uint32_t vcpu_id; /* any vcpu in an event? */ uint32_t vcpu_ev; /* if yes, what event? */ }; /* * VM event operations */ /* XEN_DOMCTL_vm_event_op */ /* * There are currently three rings available for VM events: * sharing, monitor and paging. This hypercall allows one to * control these rings (enable/disable), as well as to signal * to the hypervisor to pull responses (resume) from the given * ring. */ #define XEN_VM_EVENT_ENABLE 0 #define XEN_VM_EVENT_DISABLE 1 #define XEN_VM_EVENT_RESUME 2 /* * Domain memory paging * Page memory in and out. * Domctl interface to set up and tear down the * pager<->hypervisor interface. Use XENMEM_paging_op* * to perform per-page operations. * * The XEN_VM_EVENT_PAGING_ENABLE domctl returns several * non-standard error codes to indicate why paging could not be enabled: * ENODEV - host lacks HAP support (EPT/NPT) or HAP is disabled in guest * EMLINK - guest has iommu passthrough enabled * EXDEV - guest has PoD enabled * EBUSY - guest has or had paging enabled, ring buffer still active */ #define XEN_DOMCTL_VM_EVENT_OP_PAGING 1 /* * Monitor helper. * * As with paging, use the domctl for teardown/setup of the * helper<->hypervisor interface. * * The monitor interface can be used to register for various VM events. For * example, there are HVM hypercalls to set the per-page access permissions * of every page in a domain. When one of these permissions--independent, * read, write, and execute--is violated, the VCPU is paused and a memory event * is sent with what happened. The memory event handler can then resume the * VCPU and redo the access with a XEN_VM_EVENT_RESUME option. * * See public/vm_event.h for the list of available events that can be * subscribed to via the monitor interface. * * The XEN_VM_EVENT_MONITOR_* domctls returns * non-standard error codes to indicate why access could not be enabled: * ENODEV - host lacks HAP support (EPT/NPT) or HAP is disabled in guest * EBUSY - guest has or had access enabled, ring buffer still active * */ #define XEN_DOMCTL_VM_EVENT_OP_MONITOR 2 /* * Sharing ENOMEM helper. * * As with paging, use the domctl for teardown/setup of the * helper<->hypervisor interface. * * If setup, this ring is used to communicate failed allocations * in the unshare path. XENMEM_sharing_op_resume is used to wake up * vcpus that could not unshare. * * Note that shring can be turned on (as per the domctl below) * *without* this ring being setup. */ #define XEN_DOMCTL_VM_EVENT_OP_SHARING 3 /* Use for teardown/setup of helper<->hypervisor interface for paging, * access and sharing.*/ struct xen_domctl_vm_event_op { uint32_t op; /* XEN_VM_EVENT_* */ uint32_t mode; /* XEN_DOMCTL_VM_EVENT_OP_* */ uint32_t port; /* OUT: event channel for ring */ }; typedef struct xen_domctl_vm_event_op xen_domctl_vm_event_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vm_event_op_t); /* * Memory sharing operations */ /* XEN_DOMCTL_mem_sharing_op. * The CONTROL sub-domctl is used for bringup/teardown. */ #define XEN_DOMCTL_MEM_SHARING_CONTROL 0 struct xen_domctl_mem_sharing_op { uint8_t op; /* XEN_DOMCTL_MEM_SHARING_* */ union { uint8_t enable; /* CONTROL */ } u; }; typedef struct xen_domctl_mem_sharing_op xen_domctl_mem_sharing_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_mem_sharing_op_t); struct xen_domctl_audit_p2m { /* OUT error counts */ uint64_t orphans; uint64_t m2p_bad; uint64_t p2m_bad; }; typedef struct xen_domctl_audit_p2m xen_domctl_audit_p2m_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_audit_p2m_t); struct xen_domctl_set_virq_handler { uint32_t virq; /* IN */ }; typedef struct xen_domctl_set_virq_handler xen_domctl_set_virq_handler_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_set_virq_handler_t); #if defined(__i386__) || defined(__x86_64__) /* XEN_DOMCTL_setvcpuextstate */ /* XEN_DOMCTL_getvcpuextstate */ struct xen_domctl_vcpuextstate { /* IN: VCPU that this call applies to. */ uint32_t vcpu; /* * SET: Ignored. * GET: xfeature support mask of struct (IN/OUT) * xfeature mask is served as identifications of the saving format * so that compatible CPUs can have a check on format to decide * whether it can restore. */ uint64_aligned_t xfeature_mask; /* * SET: Size of struct (IN) * GET: Size of struct (IN/OUT) */ uint64_aligned_t size; XEN_GUEST_HANDLE_64(uint64) buffer; }; typedef struct xen_domctl_vcpuextstate xen_domctl_vcpuextstate_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vcpuextstate_t); #endif /* XEN_DOMCTL_set_access_required: sets whether a memory event listener * must be present to handle page access events: if false, the page * access will revert to full permissions if no one is listening; * */ struct xen_domctl_set_access_required { uint8_t access_required; }; typedef struct xen_domctl_set_access_required xen_domctl_set_access_required_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_set_access_required_t); struct xen_domctl_set_broken_page_p2m { uint64_aligned_t pfn; }; typedef struct xen_domctl_set_broken_page_p2m xen_domctl_set_broken_page_p2m_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_set_broken_page_p2m_t); /* * XEN_DOMCTL_set_max_evtchn: sets the maximum event channel port * number the guest may use. Use this limit the amount of resources * (global mapping space, xenheap) a guest may use for event channels. */ struct xen_domctl_set_max_evtchn { uint32_t max_port; }; typedef struct xen_domctl_set_max_evtchn xen_domctl_set_max_evtchn_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_set_max_evtchn_t); /* * ARM: Clean and invalidate caches associated with given region of * guest memory. */ struct xen_domctl_cacheflush { /* IN: page range to flush. */ xen_pfn_t start_pfn, nr_pfns; }; typedef struct xen_domctl_cacheflush xen_domctl_cacheflush_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_cacheflush_t); #if defined(__i386__) || defined(__x86_64__) struct xen_domctl_vcpu_msr { uint32_t index; uint32_t reserved; uint64_aligned_t value; }; typedef struct xen_domctl_vcpu_msr xen_domctl_vcpu_msr_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vcpu_msr_t); /* * XEN_DOMCTL_set_vcpu_msrs / XEN_DOMCTL_get_vcpu_msrs. * * Input: * - A NULL 'msrs' guest handle is a request for the maximum 'msr_count'. * - Otherwise, 'msr_count' is the number of entries in 'msrs'. * * Output for get: * - If 'msr_count' is less than the number Xen needs to write, -ENOBUFS shall * be returned and 'msr_count' updated to reflect the intended number. * - On success, 'msr_count' shall indicate the number of MSRs written, which * may be less than the maximum if some are not currently used by the vcpu. * * Output for set: * - If Xen encounters an error with a specific MSR, -EINVAL shall be returned * and 'msr_count' shall be set to the offending index, to aid debugging. */ struct xen_domctl_vcpu_msrs { uint32_t vcpu; /* IN */ uint32_t msr_count; /* IN/OUT */ XEN_GUEST_HANDLE_64(xen_domctl_vcpu_msr_t) msrs; /* IN/OUT */ }; typedef struct xen_domctl_vcpu_msrs xen_domctl_vcpu_msrs_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vcpu_msrs_t); #endif /* XEN_DOMCTL_setvnumainfo: specifies a virtual NUMA topology for the guest */ struct xen_domctl_vnuma { /* IN: number of vNUMA nodes to setup. Shall be greater than 0 */ uint32_t nr_vnodes; /* IN: number of memory ranges to setup */ uint32_t nr_vmemranges; /* * IN: number of vCPUs of the domain (used as size of the vcpu_to_vnode * array declared below). Shall be equal to the domain's max_vcpus. */ uint32_t nr_vcpus; uint32_t pad; /* must be zero */ /* * IN: array for specifying the distances of the vNUMA nodes * between each others. Shall have nr_vnodes*nr_vnodes elements. */ XEN_GUEST_HANDLE_64(uint) vdistance; /* * IN: array for specifying to what vNUMA node each vCPU belongs. * Shall have nr_vcpus elements. */ XEN_GUEST_HANDLE_64(uint) vcpu_to_vnode; /* * IN: array for specifying on what physical NUMA node each vNUMA * node is placed. Shall have nr_vnodes elements. */ XEN_GUEST_HANDLE_64(uint) vnode_to_pnode; /* * IN: array for specifying the memory ranges. Shall have * nr_vmemranges elements. */ XEN_GUEST_HANDLE_64(xen_vmemrange_t) vmemrange; }; typedef struct xen_domctl_vnuma xen_domctl_vnuma_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_vnuma_t); struct xen_domctl_psr_cmt_op { #define XEN_DOMCTL_PSR_CMT_OP_DETACH 0 #define XEN_DOMCTL_PSR_CMT_OP_ATTACH 1 #define XEN_DOMCTL_PSR_CMT_OP_QUERY_RMID 2 uint32_t cmd; uint32_t data; }; typedef struct xen_domctl_psr_cmt_op xen_domctl_psr_cmt_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_psr_cmt_op_t); /* XEN_DOMCTL_MONITOR_* * * Enable/disable monitoring various VM events. * This domctl configures what events will be reported to helper apps * via the ring buffer "MONITOR". The ring has to be first enabled * with the domctl XEN_DOMCTL_VM_EVENT_OP_MONITOR. * * GET_CAPABILITIES can be used to determine which of these features is * available on a given platform. * * NOTICE: mem_access events are also delivered via the "MONITOR" ring buffer; * however, enabling/disabling those events is performed with the use of * memory_op hypercalls! */ #define XEN_DOMCTL_MONITOR_OP_ENABLE 0 #define XEN_DOMCTL_MONITOR_OP_DISABLE 1 #define XEN_DOMCTL_MONITOR_OP_GET_CAPABILITIES 2 #define XEN_DOMCTL_MONITOR_OP_EMULATE_EACH_REP 3 #define XEN_DOMCTL_MONITOR_EVENT_WRITE_CTRLREG 0 #define XEN_DOMCTL_MONITOR_EVENT_MOV_TO_MSR 1 #define XEN_DOMCTL_MONITOR_EVENT_SINGLESTEP 2 #define XEN_DOMCTL_MONITOR_EVENT_SOFTWARE_BREAKPOINT 3 #define XEN_DOMCTL_MONITOR_EVENT_GUEST_REQUEST 4 struct xen_domctl_monitor_op { uint32_t op; /* XEN_DOMCTL_MONITOR_OP_* */ /* * When used with ENABLE/DISABLE this has to be set to * the requested XEN_DOMCTL_MONITOR_EVENT_* value. * With GET_CAPABILITIES this field returns a bitmap of * events supported by the platform, in the format * (1 << XEN_DOMCTL_MONITOR_EVENT_*). */ uint32_t event; /* * Further options when issuing XEN_DOMCTL_MONITOR_OP_ENABLE. */ union { struct { /* Which control register */ uint8_t index; /* Pause vCPU until response */ uint8_t sync; /* Send event only on a change of value */ uint8_t onchangeonly; } mov_to_cr; struct { /* Enable the capture of an extended set of MSRs */ uint8_t extended_capture; } mov_to_msr; struct { /* Pause vCPU until response */ uint8_t sync; } guest_request; } u; }; typedef struct xen_domctl_monitor_op xen_domctl_monitor_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_monitor_op_t); struct xen_domctl_psr_cat_op { #define XEN_DOMCTL_PSR_CAT_OP_SET_L3_CBM 0 #define XEN_DOMCTL_PSR_CAT_OP_GET_L3_CBM 1 #define XEN_DOMCTL_PSR_CAT_OP_SET_L3_CODE 2 #define XEN_DOMCTL_PSR_CAT_OP_SET_L3_DATA 3 #define XEN_DOMCTL_PSR_CAT_OP_GET_L3_CODE 4 #define XEN_DOMCTL_PSR_CAT_OP_GET_L3_DATA 5 uint32_t cmd; /* IN: XEN_DOMCTL_PSR_CAT_OP_* */ uint32_t target; /* IN */ uint64_t data; /* IN/OUT */ }; typedef struct xen_domctl_psr_cat_op xen_domctl_psr_cat_op_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_psr_cat_op_t); struct xen_domctl { uint32_t cmd; #define XEN_DOMCTL_createdomain 1 #define XEN_DOMCTL_destroydomain 2 #define XEN_DOMCTL_pausedomain 3 #define XEN_DOMCTL_unpausedomain 4 #define XEN_DOMCTL_getdomaininfo 5 #define XEN_DOMCTL_getmemlist 6 /* #define XEN_DOMCTL_getpageframeinfo 7 Obsolete - use getpageframeinfo3 */ /* #define XEN_DOMCTL_getpageframeinfo2 8 Obsolete - use getpageframeinfo3 */ #define XEN_DOMCTL_setvcpuaffinity 9 #define XEN_DOMCTL_shadow_op 10 #define XEN_DOMCTL_max_mem 11 #define XEN_DOMCTL_setvcpucontext 12 #define XEN_DOMCTL_getvcpucontext 13 #define XEN_DOMCTL_getvcpuinfo 14 #define XEN_DOMCTL_max_vcpus 15 #define XEN_DOMCTL_scheduler_op 16 #define XEN_DOMCTL_setdomainhandle 17 #define XEN_DOMCTL_setdebugging 18 #define XEN_DOMCTL_irq_permission 19 #define XEN_DOMCTL_iomem_permission 20 #define XEN_DOMCTL_ioport_permission 21 #define XEN_DOMCTL_hypercall_init 22 #define XEN_DOMCTL_arch_setup 23 /* Obsolete IA64 only */ #define XEN_DOMCTL_settimeoffset 24 #define XEN_DOMCTL_getvcpuaffinity 25 #define XEN_DOMCTL_real_mode_area 26 /* Obsolete PPC only */ #define XEN_DOMCTL_resumedomain 27 #define XEN_DOMCTL_sendtrigger 28 #define XEN_DOMCTL_subscribe 29 #define XEN_DOMCTL_gethvmcontext 33 #define XEN_DOMCTL_sethvmcontext 34 #define XEN_DOMCTL_set_address_size 35 #define XEN_DOMCTL_get_address_size 36 #define XEN_DOMCTL_assign_device 37 #define XEN_DOMCTL_bind_pt_irq 38 #define XEN_DOMCTL_memory_mapping 39 #define XEN_DOMCTL_ioport_mapping 40 #define XEN_DOMCTL_pin_mem_cacheattr 41 #define XEN_DOMCTL_set_ext_vcpucontext 42 #define XEN_DOMCTL_get_ext_vcpucontext 43 #define XEN_DOMCTL_set_opt_feature 44 /* Obsolete IA64 only */ #define XEN_DOMCTL_test_assign_device 45 #define XEN_DOMCTL_set_target 46 #define XEN_DOMCTL_deassign_device 47 #define XEN_DOMCTL_unbind_pt_irq 48 #define XEN_DOMCTL_set_cpuid 49 #define XEN_DOMCTL_get_device_group 50 #define XEN_DOMCTL_set_machine_address_size 51 #define XEN_DOMCTL_get_machine_address_size 52 #define XEN_DOMCTL_suppress_spurious_page_faults 53 #define XEN_DOMCTL_debug_op 54 #define XEN_DOMCTL_gethvmcontext_partial 55 #define XEN_DOMCTL_vm_event_op 56 #define XEN_DOMCTL_mem_sharing_op 57 #define XEN_DOMCTL_disable_migrate 58 #define XEN_DOMCTL_gettscinfo 59 #define XEN_DOMCTL_settscinfo 60 #define XEN_DOMCTL_getpageframeinfo3 61 #define XEN_DOMCTL_setvcpuextstate 62 #define XEN_DOMCTL_getvcpuextstate 63 #define XEN_DOMCTL_set_access_required 64 #define XEN_DOMCTL_audit_p2m 65 #define XEN_DOMCTL_set_virq_handler 66 #define XEN_DOMCTL_set_broken_page_p2m 67 #define XEN_DOMCTL_setnodeaffinity 68 #define XEN_DOMCTL_getnodeaffinity 69 #define XEN_DOMCTL_set_max_evtchn 70 #define XEN_DOMCTL_cacheflush 71 #define XEN_DOMCTL_get_vcpu_msrs 72 #define XEN_DOMCTL_set_vcpu_msrs 73 #define XEN_DOMCTL_setvnumainfo 74 #define XEN_DOMCTL_psr_cmt_op 75 #define XEN_DOMCTL_monitor_op 77 #define XEN_DOMCTL_psr_cat_op 78 #define XEN_DOMCTL_soft_reset 79 #define XEN_DOMCTL_gdbsx_guestmemio 1000 #define XEN_DOMCTL_gdbsx_pausevcpu 1001 #define XEN_DOMCTL_gdbsx_unpausevcpu 1002 #define XEN_DOMCTL_gdbsx_domstatus 1003 uint32_t interface_version; /* XEN_DOMCTL_INTERFACE_VERSION */ domid_t domain; union { struct xen_domctl_createdomain createdomain; struct xen_domctl_getdomaininfo getdomaininfo; struct xen_domctl_getmemlist getmemlist; struct xen_domctl_getpageframeinfo3 getpageframeinfo3; struct xen_domctl_nodeaffinity nodeaffinity; struct xen_domctl_vcpuaffinity vcpuaffinity; struct xen_domctl_shadow_op shadow_op; struct xen_domctl_max_mem max_mem; struct xen_domctl_vcpucontext vcpucontext; struct xen_domctl_getvcpuinfo getvcpuinfo; struct xen_domctl_max_vcpus max_vcpus; struct xen_domctl_scheduler_op scheduler_op; struct xen_domctl_setdomainhandle setdomainhandle; struct xen_domctl_setdebugging setdebugging; struct xen_domctl_irq_permission irq_permission; struct xen_domctl_iomem_permission iomem_permission; struct xen_domctl_ioport_permission ioport_permission; struct xen_domctl_hypercall_init hypercall_init; struct xen_domctl_settimeoffset settimeoffset; struct xen_domctl_disable_migrate disable_migrate; struct xen_domctl_tsc_info tsc_info; struct xen_domctl_hvmcontext hvmcontext; struct xen_domctl_hvmcontext_partial hvmcontext_partial; struct xen_domctl_address_size address_size; struct xen_domctl_sendtrigger sendtrigger; struct xen_domctl_get_device_group get_device_group; struct xen_domctl_assign_device assign_device; struct xen_domctl_bind_pt_irq bind_pt_irq; struct xen_domctl_memory_mapping memory_mapping; struct xen_domctl_ioport_mapping ioport_mapping; struct xen_domctl_pin_mem_cacheattr pin_mem_cacheattr; struct xen_domctl_ext_vcpucontext ext_vcpucontext; struct xen_domctl_set_target set_target; struct xen_domctl_subscribe subscribe; struct xen_domctl_debug_op debug_op; struct xen_domctl_vm_event_op vm_event_op; struct xen_domctl_mem_sharing_op mem_sharing_op; #if defined(__i386__) || defined(__x86_64__) struct xen_domctl_cpuid cpuid; struct xen_domctl_vcpuextstate vcpuextstate; struct xen_domctl_vcpu_msrs vcpu_msrs; #endif struct xen_domctl_set_access_required access_required; struct xen_domctl_audit_p2m audit_p2m; struct xen_domctl_set_virq_handler set_virq_handler; struct xen_domctl_set_max_evtchn set_max_evtchn; struct xen_domctl_gdbsx_memio gdbsx_guest_memio; struct xen_domctl_set_broken_page_p2m set_broken_page_p2m; struct xen_domctl_cacheflush cacheflush; struct xen_domctl_gdbsx_pauseunp_vcpu gdbsx_pauseunp_vcpu; struct xen_domctl_gdbsx_domstatus gdbsx_domstatus; struct xen_domctl_vnuma vnuma; struct xen_domctl_psr_cmt_op psr_cmt_op; struct xen_domctl_monitor_op monitor_op; struct xen_domctl_psr_cat_op psr_cat_op; uint8_t pad[128]; } u; }; typedef struct xen_domctl xen_domctl_t; DEFINE_XEN_GUEST_HANDLE(xen_domctl_t); #endif /* __XEN_PUBLIC_DOMCTL_H__ */ /* * Local variables: * mode: C * c-file-style: "BSD" * c-basic-offset: 4 * tab-width: 4 * indent-tabs-mode: nil * End: */