8ac98aedda
... in order to advertise the XEN_HVM_CPUID_UPCALL_VECTOR feature, which will come in a subsequent commit. Signed-off-by: David Woodhouse <dwmw@amazon.co.uk> Acked-by: Paul Durrant <paul@xen.org>
510 lines
17 KiB
C
510 lines
17 KiB
C
/* SPDX-License-Identifier: MIT */
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/******************************************************************************
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* arch-arm.h
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*
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* Guest OS interface to ARM Xen.
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*
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* Copyright 2011 (C) Citrix Systems
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*/
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#ifndef __XEN_PUBLIC_ARCH_ARM_H__
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#define __XEN_PUBLIC_ARCH_ARM_H__
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/*
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* `incontents 50 arm_abi Hypercall Calling Convention
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*
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* A hypercall is issued using the ARM HVC instruction.
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*
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* A hypercall can take up to 5 arguments. These are passed in
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* registers, the first argument in x0/r0 (for arm64/arm32 guests
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* respectively irrespective of whether the underlying hypervisor is
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* 32- or 64-bit), the second argument in x1/r1, the third in x2/r2,
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* the forth in x3/r3 and the fifth in x4/r4.
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*
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* The hypercall number is passed in r12 (arm) or x16 (arm64). In both
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* cases the relevant ARM procedure calling convention specifies this
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* is an inter-procedure-call scratch register (e.g. for use in linker
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* stubs). This use does not conflict with use during a hypercall.
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*
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* The HVC ISS must contain a Xen specific TAG: XEN_HYPERCALL_TAG.
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*
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* The return value is in x0/r0.
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*
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* The hypercall will clobber x16/r12 and the argument registers used
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* by that hypercall (except r0 which is the return value) i.e. in
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* addition to x16/r12 a 2 argument hypercall will clobber x1/r1 and a
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* 4 argument hypercall will clobber x1/r1, x2/r2 and x3/r3.
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*
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* Parameter structs passed to hypercalls are laid out according to
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* the Procedure Call Standard for the ARM Architecture (AAPCS, AKA
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* EABI) and Procedure Call Standard for the ARM 64-bit Architecture
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* (AAPCS64). Where there is a conflict the 64-bit standard should be
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* used regardless of guest type. Structures which are passed as
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* hypercall arguments are always little endian.
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*
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* All memory which is shared with other entities in the system
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* (including the hypervisor and other guests) must reside in memory
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* which is mapped as Normal Inner Write-Back Outer Write-Back Inner-Shareable.
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* This applies to:
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* - hypercall arguments passed via a pointer to guest memory.
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* - memory shared via the grant table mechanism (including PV I/O
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* rings etc).
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* - memory shared with the hypervisor (struct shared_info, struct
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* vcpu_info, the grant table, etc).
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*
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* Any cache allocation hints are acceptable.
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*/
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/*
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* `incontents 55 arm_hcall Supported Hypercalls
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*
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* Xen on ARM makes extensive use of hardware facilities and therefore
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* only a subset of the potential hypercalls are required.
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*
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* Since ARM uses second stage paging any machine/physical addresses
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* passed to hypercalls are Guest Physical Addresses (Intermediate
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* Physical Addresses) unless otherwise noted.
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*
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* The following hypercalls (and sub operations) are supported on the
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* ARM platform. Other hypercalls should be considered
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* unavailable/unsupported.
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*
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* HYPERVISOR_memory_op
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* All generic sub-operations
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*
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* HYPERVISOR_domctl
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* All generic sub-operations, with the exception of:
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* * XEN_DOMCTL_irq_permission (not yet implemented)
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*
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* HYPERVISOR_sched_op
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* All generic sub-operations, with the exception of:
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* * SCHEDOP_block -- prefer wfi hardware instruction
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*
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* HYPERVISOR_console_io
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* All generic sub-operations
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*
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* HYPERVISOR_xen_version
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* All generic sub-operations
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*
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* HYPERVISOR_event_channel_op
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* All generic sub-operations
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*
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* HYPERVISOR_physdev_op
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* Exactly these sub-operations are supported:
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* PHYSDEVOP_pci_device_add
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* PHYSDEVOP_pci_device_remove
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*
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* HYPERVISOR_sysctl
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* All generic sub-operations, with the exception of:
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* * XEN_SYSCTL_page_offline_op
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* * XEN_SYSCTL_get_pmstat
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* * XEN_SYSCTL_pm_op
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*
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* HYPERVISOR_hvm_op
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* Exactly these sub-operations are supported:
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* * HVMOP_set_param
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* * HVMOP_get_param
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*
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* HYPERVISOR_grant_table_op
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* All generic sub-operations
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*
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* HYPERVISOR_vcpu_op
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* Exactly these sub-operations are supported:
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* * VCPUOP_register_vcpu_info
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* * VCPUOP_register_runstate_memory_area
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*
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* HYPERVISOR_argo_op
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* All generic sub-operations
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*
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* Other notes on the ARM ABI:
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*
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* - struct start_info is not exported to ARM guests.
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*
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* - struct shared_info is mapped by ARM guests using the
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* HYPERVISOR_memory_op sub-op XENMEM_add_to_physmap, passing
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* XENMAPSPACE_shared_info as space parameter.
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*
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* - All the per-cpu struct vcpu_info are mapped by ARM guests using the
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* HYPERVISOR_vcpu_op sub-op VCPUOP_register_vcpu_info, including cpu0
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* struct vcpu_info.
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*
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* - The grant table is mapped using the HYPERVISOR_memory_op sub-op
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* XENMEM_add_to_physmap, passing XENMAPSPACE_grant_table as space
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* parameter. The memory range specified under the Xen compatible
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* hypervisor node on device tree can be used as target gpfn for the
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* mapping.
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*
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* - Xenstore is initialized by using the two hvm_params
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* HVM_PARAM_STORE_PFN and HVM_PARAM_STORE_EVTCHN. They can be read
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* with the HYPERVISOR_hvm_op sub-op HVMOP_get_param.
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*
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* - The paravirtualized console is initialized by using the two
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* hvm_params HVM_PARAM_CONSOLE_PFN and HVM_PARAM_CONSOLE_EVTCHN. They
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* can be read with the HYPERVISOR_hvm_op sub-op HVMOP_get_param.
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*
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* - Event channel notifications are delivered using the percpu GIC
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* interrupt specified under the Xen compatible hypervisor node on
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* device tree.
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*
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* - The device tree Xen compatible node is fully described under Linux
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* at Documentation/devicetree/bindings/arm/xen.txt.
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*/
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#define XEN_HYPERCALL_TAG 0XEA1
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#define int64_aligned_t int64_t __attribute__((aligned(8)))
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#define uint64_aligned_t uint64_t __attribute__((aligned(8)))
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#ifndef __ASSEMBLY__
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#define ___DEFINE_XEN_GUEST_HANDLE(name, type) \
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typedef union { type *p; unsigned long q; } \
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__guest_handle_ ## name; \
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typedef union { type *p; uint64_aligned_t q; } \
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__guest_handle_64_ ## name
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/*
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* XEN_GUEST_HANDLE represents a guest pointer, when passed as a field
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* in a struct in memory. On ARM is always 8 bytes sizes and 8 bytes
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* aligned.
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* XEN_GUEST_HANDLE_PARAM represents a guest pointer, when passed as an
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* hypercall argument. It is 4 bytes on aarch32 and 8 bytes on aarch64.
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*/
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#define __DEFINE_XEN_GUEST_HANDLE(name, type) \
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___DEFINE_XEN_GUEST_HANDLE(name, type); \
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___DEFINE_XEN_GUEST_HANDLE(const_##name, const type)
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#define DEFINE_XEN_GUEST_HANDLE(name) __DEFINE_XEN_GUEST_HANDLE(name, name)
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#define __XEN_GUEST_HANDLE(name) __guest_handle_64_ ## name
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#define XEN_GUEST_HANDLE(name) __XEN_GUEST_HANDLE(name)
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#define XEN_GUEST_HANDLE_PARAM(name) __guest_handle_ ## name
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#define set_xen_guest_handle_raw(hnd, val) \
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do { \
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__typeof__(&(hnd)) _sxghr_tmp = &(hnd); \
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_sxghr_tmp->q = 0; \
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_sxghr_tmp->p = val; \
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} while ( 0 )
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#define set_xen_guest_handle(hnd, val) set_xen_guest_handle_raw(hnd, val)
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typedef uint64_t xen_pfn_t;
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#define PRI_xen_pfn PRIx64
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#define PRIu_xen_pfn PRIu64
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/*
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* Maximum number of virtual CPUs in legacy multi-processor guests.
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* Only one. All other VCPUS must use VCPUOP_register_vcpu_info.
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*/
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#define XEN_LEGACY_MAX_VCPUS 1
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typedef uint64_t xen_ulong_t;
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#define PRI_xen_ulong PRIx64
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#if defined(__XEN__) || defined(__XEN_TOOLS__)
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#if defined(__GNUC__) && !defined(__STRICT_ANSI__)
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/* Anonymous union includes both 32- and 64-bit names (e.g., r0/x0). */
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# define __DECL_REG(n64, n32) union { \
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uint64_t n64; \
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uint32_t n32; \
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}
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#else
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/* Non-gcc sources must always use the proper 64-bit name (e.g., x0). */
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#define __DECL_REG(n64, n32) uint64_t n64
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#endif
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struct vcpu_guest_core_regs
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{
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/* Aarch64 Aarch32 */
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__DECL_REG(x0, r0_usr);
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__DECL_REG(x1, r1_usr);
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__DECL_REG(x2, r2_usr);
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__DECL_REG(x3, r3_usr);
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__DECL_REG(x4, r4_usr);
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__DECL_REG(x5, r5_usr);
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__DECL_REG(x6, r6_usr);
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__DECL_REG(x7, r7_usr);
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__DECL_REG(x8, r8_usr);
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__DECL_REG(x9, r9_usr);
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__DECL_REG(x10, r10_usr);
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__DECL_REG(x11, r11_usr);
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__DECL_REG(x12, r12_usr);
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__DECL_REG(x13, sp_usr);
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__DECL_REG(x14, lr_usr);
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__DECL_REG(x15, __unused_sp_hyp);
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__DECL_REG(x16, lr_irq);
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__DECL_REG(x17, sp_irq);
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__DECL_REG(x18, lr_svc);
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__DECL_REG(x19, sp_svc);
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__DECL_REG(x20, lr_abt);
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__DECL_REG(x21, sp_abt);
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__DECL_REG(x22, lr_und);
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__DECL_REG(x23, sp_und);
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__DECL_REG(x24, r8_fiq);
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__DECL_REG(x25, r9_fiq);
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__DECL_REG(x26, r10_fiq);
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__DECL_REG(x27, r11_fiq);
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__DECL_REG(x28, r12_fiq);
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__DECL_REG(x29, sp_fiq);
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__DECL_REG(x30, lr_fiq);
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/* Return address and mode */
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__DECL_REG(pc64, pc32); /* ELR_EL2 */
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uint64_t cpsr; /* SPSR_EL2 */
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union {
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uint64_t spsr_el1; /* AArch64 */
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uint32_t spsr_svc; /* AArch32 */
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};
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/* AArch32 guests only */
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uint32_t spsr_fiq, spsr_irq, spsr_und, spsr_abt;
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/* AArch64 guests only */
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uint64_t sp_el0;
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uint64_t sp_el1, elr_el1;
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};
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typedef struct vcpu_guest_core_regs vcpu_guest_core_regs_t;
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DEFINE_XEN_GUEST_HANDLE(vcpu_guest_core_regs_t);
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#undef __DECL_REG
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struct vcpu_guest_context {
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#define _VGCF_online 0
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#define VGCF_online (1<<_VGCF_online)
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uint32_t flags; /* VGCF_* */
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struct vcpu_guest_core_regs user_regs; /* Core CPU registers */
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uint64_t sctlr;
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uint64_t ttbcr, ttbr0, ttbr1;
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};
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typedef struct vcpu_guest_context vcpu_guest_context_t;
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DEFINE_XEN_GUEST_HANDLE(vcpu_guest_context_t);
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/*
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* struct xen_arch_domainconfig's ABI is covered by
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* XEN_DOMCTL_INTERFACE_VERSION.
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*/
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#define XEN_DOMCTL_CONFIG_GIC_NATIVE 0
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#define XEN_DOMCTL_CONFIG_GIC_V2 1
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#define XEN_DOMCTL_CONFIG_GIC_V3 2
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#define XEN_DOMCTL_CONFIG_TEE_NONE 0
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#define XEN_DOMCTL_CONFIG_TEE_OPTEE 1
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struct xen_arch_domainconfig {
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/* IN/OUT */
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uint8_t gic_version;
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/* IN */
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uint16_t tee_type;
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/* IN */
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uint32_t nr_spis;
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/*
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* OUT
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* Based on the property clock-frequency in the DT timer node.
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* The property may be present when the bootloader/firmware doesn't
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* set correctly CNTFRQ which hold the timer frequency.
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*
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* As it's not possible to trap this register, we have to replicate
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* the value in the guest DT.
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*
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* = 0 => property not present
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* > 0 => Value of the property
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*
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*/
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uint32_t clock_frequency;
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};
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#endif /* __XEN__ || __XEN_TOOLS__ */
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struct arch_vcpu_info {
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};
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typedef struct arch_vcpu_info arch_vcpu_info_t;
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struct arch_shared_info {
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};
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typedef struct arch_shared_info arch_shared_info_t;
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typedef uint64_t xen_callback_t;
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#endif
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#if defined(__XEN__) || defined(__XEN_TOOLS__)
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/* PSR bits (CPSR, SPSR) */
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#define PSR_THUMB (1<<5) /* Thumb Mode enable */
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#define PSR_FIQ_MASK (1<<6) /* Fast Interrupt mask */
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#define PSR_IRQ_MASK (1<<7) /* Interrupt mask */
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#define PSR_ABT_MASK (1<<8) /* Asynchronous Abort mask */
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#define PSR_BIG_ENDIAN (1<<9) /* arm32: Big Endian Mode */
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#define PSR_DBG_MASK (1<<9) /* arm64: Debug Exception mask */
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#define PSR_IT_MASK (0x0600fc00) /* Thumb If-Then Mask */
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#define PSR_JAZELLE (1<<24) /* Jazelle Mode */
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#define PSR_Z (1<<30) /* Zero condition flag */
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/* 32 bit modes */
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#define PSR_MODE_USR 0x10
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#define PSR_MODE_FIQ 0x11
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#define PSR_MODE_IRQ 0x12
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#define PSR_MODE_SVC 0x13
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#define PSR_MODE_MON 0x16
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#define PSR_MODE_ABT 0x17
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#define PSR_MODE_HYP 0x1a
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#define PSR_MODE_UND 0x1b
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#define PSR_MODE_SYS 0x1f
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/* 64 bit modes */
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#define PSR_MODE_BIT 0x10 /* Set iff AArch32 */
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#define PSR_MODE_EL3h 0x0d
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#define PSR_MODE_EL3t 0x0c
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#define PSR_MODE_EL2h 0x09
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#define PSR_MODE_EL2t 0x08
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#define PSR_MODE_EL1h 0x05
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#define PSR_MODE_EL1t 0x04
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#define PSR_MODE_EL0t 0x00
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/*
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* We set PSR_Z to be able to boot Linux kernel versions with an invalid
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* encoding of the first 8 NOP instructions. See commit a92882a4d270 in
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* Linux.
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*
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* Note that PSR_Z is also set by U-Boot and QEMU -kernel when loading
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* zImage kernels on aarch32.
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*/
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#define PSR_GUEST32_INIT (PSR_Z|PSR_ABT_MASK|PSR_FIQ_MASK|PSR_IRQ_MASK|PSR_MODE_SVC)
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#define PSR_GUEST64_INIT (PSR_ABT_MASK|PSR_FIQ_MASK|PSR_IRQ_MASK|PSR_MODE_EL1h)
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#define SCTLR_GUEST_INIT xen_mk_ullong(0x00c50078)
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/*
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* Virtual machine platform (memory layout, interrupts)
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*
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* These are defined for consistency between the tools and the
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* hypervisor. Guests must not rely on these hardcoded values but
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* should instead use the FDT.
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*/
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/* Physical Address Space */
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/* Virtio MMIO mappings */
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#define GUEST_VIRTIO_MMIO_BASE xen_mk_ullong(0x02000000)
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#define GUEST_VIRTIO_MMIO_SIZE xen_mk_ullong(0x00100000)
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/*
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* vGIC mappings: Only one set of mapping is used by the guest.
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* Therefore they can overlap.
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*/
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/* vGIC v2 mappings */
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#define GUEST_GICD_BASE xen_mk_ullong(0x03001000)
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#define GUEST_GICD_SIZE xen_mk_ullong(0x00001000)
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#define GUEST_GICC_BASE xen_mk_ullong(0x03002000)
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#define GUEST_GICC_SIZE xen_mk_ullong(0x00002000)
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/* vGIC v3 mappings */
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#define GUEST_GICV3_GICD_BASE xen_mk_ullong(0x03001000)
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#define GUEST_GICV3_GICD_SIZE xen_mk_ullong(0x00010000)
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#define GUEST_GICV3_RDIST_REGIONS 1
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#define GUEST_GICV3_GICR0_BASE xen_mk_ullong(0x03020000) /* vCPU0..127 */
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#define GUEST_GICV3_GICR0_SIZE xen_mk_ullong(0x01000000)
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/*
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* 256 MB is reserved for VPCI configuration space based on calculation
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* 256 buses x 32 devices x 8 functions x 4 KB = 256 MB
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*/
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#define GUEST_VPCI_ECAM_BASE xen_mk_ullong(0x10000000)
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#define GUEST_VPCI_ECAM_SIZE xen_mk_ullong(0x10000000)
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/* ACPI tables physical address */
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#define GUEST_ACPI_BASE xen_mk_ullong(0x20000000)
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#define GUEST_ACPI_SIZE xen_mk_ullong(0x02000000)
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/* PL011 mappings */
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#define GUEST_PL011_BASE xen_mk_ullong(0x22000000)
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#define GUEST_PL011_SIZE xen_mk_ullong(0x00001000)
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/* Guest PCI-PCIe memory space where config space and BAR will be available.*/
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#define GUEST_VPCI_ADDR_TYPE_MEM xen_mk_ullong(0x02000000)
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#define GUEST_VPCI_MEM_ADDR xen_mk_ullong(0x23000000)
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#define GUEST_VPCI_MEM_SIZE xen_mk_ullong(0x10000000)
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/*
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* 16MB == 4096 pages reserved for guest to use as a region to map its
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* grant table in.
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*/
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#define GUEST_GNTTAB_BASE xen_mk_ullong(0x38000000)
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#define GUEST_GNTTAB_SIZE xen_mk_ullong(0x01000000)
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#define GUEST_MAGIC_BASE xen_mk_ullong(0x39000000)
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#define GUEST_MAGIC_SIZE xen_mk_ullong(0x01000000)
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#define GUEST_RAM_BANKS 2
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/*
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* The way to find the extended regions (to be exposed to the guest as unused
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* address space) relies on the fact that the regions reserved for the RAM
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* below are big enough to also accommodate such regions.
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*/
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#define GUEST_RAM0_BASE xen_mk_ullong(0x40000000) /* 3GB of low RAM @ 1GB */
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#define GUEST_RAM0_SIZE xen_mk_ullong(0xc0000000)
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/* 4GB @ 4GB Prefetch Memory for VPCI */
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#define GUEST_VPCI_ADDR_TYPE_PREFETCH_MEM xen_mk_ullong(0x42000000)
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#define GUEST_VPCI_PREFETCH_MEM_ADDR xen_mk_ullong(0x100000000)
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#define GUEST_VPCI_PREFETCH_MEM_SIZE xen_mk_ullong(0x100000000)
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#define GUEST_RAM1_BASE xen_mk_ullong(0x0200000000) /* 1016GB of RAM @ 8GB */
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#define GUEST_RAM1_SIZE xen_mk_ullong(0xfe00000000)
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#define GUEST_RAM_BASE GUEST_RAM0_BASE /* Lowest RAM address */
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/* Largest amount of actual RAM, not including holes */
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#define GUEST_RAM_MAX (GUEST_RAM0_SIZE + GUEST_RAM1_SIZE)
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/* Suitable for e.g. const uint64_t ramfoo[] = GUEST_RAM_BANK_FOOS; */
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#define GUEST_RAM_BANK_BASES { GUEST_RAM0_BASE, GUEST_RAM1_BASE }
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#define GUEST_RAM_BANK_SIZES { GUEST_RAM0_SIZE, GUEST_RAM1_SIZE }
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|
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/* Current supported guest VCPUs */
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#define GUEST_MAX_VCPUS 128
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|
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/* Interrupts */
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#define GUEST_TIMER_VIRT_PPI 27
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#define GUEST_TIMER_PHYS_S_PPI 29
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#define GUEST_TIMER_PHYS_NS_PPI 30
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#define GUEST_EVTCHN_PPI 31
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|
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#define GUEST_VPL011_SPI 32
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#define GUEST_VIRTIO_MMIO_SPI_FIRST 33
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#define GUEST_VIRTIO_MMIO_SPI_LAST 43
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|
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/* PSCI functions */
|
|
#define PSCI_cpu_suspend 0
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|
#define PSCI_cpu_off 1
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#define PSCI_cpu_on 2
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#define PSCI_migrate 3
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|
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#endif
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|
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#ifndef __ASSEMBLY__
|
|
/* Stub definition of PMU structure */
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|
typedef struct xen_pmu_arch { uint8_t dummy; } xen_pmu_arch_t;
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#endif
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|
|
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#endif /* __XEN_PUBLIC_ARCH_ARM_H__ */
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|
|
|
/*
|
|
* Local variables:
|
|
* mode: C
|
|
* c-file-style: "BSD"
|
|
* c-basic-offset: 4
|
|
* tab-width: 4
|
|
* indent-tabs-mode: nil
|
|
* End:
|
|
*/
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