mirror of
https://chromium.googlesource.com/crosvm/crosvm
synced 2024-11-25 05:03:05 +00:00
f91a9f673a
This feature was used for experiments and is no longer needed. BUG=b:253086623 TEST=presubmit Change-Id: Id8ece0e1e8588a5716794961c359482bc60dc729 Reviewed-on: https://chromium-review.googlesource.com/c/crosvm/crosvm/+/3946029 Reviewed-by: Daniel Verkamp <dverkamp@chromium.org> Commit-Queue: Dennis Kempin <denniskempin@google.com>
714 lines
24 KiB
C
714 lines
24 KiB
C
/*
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* Copyright 2017 The ChromiumOS Authors
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef __CROSVM_H__
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#define __CROSVM_H__
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#include <assert.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include <linux/kvm.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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* This module is used to implement a plugin for crosvm.
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*
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* A plugin for crosvm interfaces with the virtual machine using the `struct
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* crosvm` object and its child objects. A typical plugin is expected to call
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* `crosvm_connect`, perform some amount of setup with the functions defined
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* here, get a handle to every vcpu using `struct crosvm_vcpu` and then call
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* `crosvm_start`. Each vcpu will then be waited on with `crosvm_vcpu_wait`,
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* each event will be responded to by the plugin, and then the vcpu is resumed
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* with `crosvm_vcpu_resume`. The vcpu state can only be examined and modified
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* between the `crosvm_vcpu_wait` and `crosvm_vcpu_resume` calls. The crosvm
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* connection can be used to modify global virtual machine state at any time,
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* with some structural restrictions after `crosvm_start` is called.
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*
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* In general, functions that return an `int` return 0 on success or a non-
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* negative file descriptor if one is expected. A negative return value is an
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* errno and indicates error. Functions that take a pointer-to-pointer to an
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* opaque structure either return a structure or delete and nullify that
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* structure pointer.
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*/
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/*
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* We use Semantic Versioning (http://semver.org/) here, which means that as
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* long as MAJOR is 0, breaking changes can occur, but once MAJOR is non-zero, a
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* breaking change requires a MAJOR version bump. The MINOR number increases as
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* backward compatible functionality is added. The PATCH number increases bug
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* fixes are done. The version numbers indicate here are for the plugin API and
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* do not indicate anything about what version of crosvm is running.
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*/
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#define CROSVM_API_MAJOR 0
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#define CROSVM_API_MINOR 22
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#define CROSVM_API_PATCH 0
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enum crosvm_address_space {
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/* I/O port */
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CROSVM_ADDRESS_SPACE_IOPORT = 0,
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/* physical memory space */
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CROSVM_ADDRESS_SPACE_MMIO,
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};
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/* Handle to the parent crosvm process. */
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struct crosvm;
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/* Handle to a register ioeventfd. */
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struct crosvm_io;
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/* Handle to a registered range of shared memory. */
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struct crosvm_memory;
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/* Handle to a registered irqfd. */
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struct crosvm_irq;
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/* Handle to one of the VM's VCPUs. */
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struct crosvm_vcpu;
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/*
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* Connects to the parent crosvm process and returns a new `struct crosvm`
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* interface object.
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*
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* This is the entry point for interfacing with crosvm as a plugin. This should
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* be called before any other function. The returned object is not-thread safe.
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*/
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int crosvm_connect(struct crosvm**);
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/*
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* Creates another connection for interfacing with crosvm concurrently.
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*
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* The new connection behaves exactly like the original `struct crosvm` but can
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* be used concurrently on a different thread than the original. Actual
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* execution order of the requests to crosvm is unspecified but every request is
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* completed when the `crosvm_*` call returns.
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*
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* It is invalid to call this after `crosvm_start` is called on any `struct
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* crosvm`.
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*/
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int crosvm_new_connection(struct crosvm*, struct crosvm**);
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/*
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* Destroys this connection and tells the parent crosvm process to stop
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* listening for messages from it.
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*/
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int crosvm_destroy_connection(struct crosvm**);
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/*
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* Gets an eventfd that is triggered when this plugin should exit.
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*
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* The returned eventfd is owned by the caller but the underlying event is
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* shared and will therefore only trigger once.
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*/
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int crosvm_get_shutdown_eventfd(struct crosvm*);
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/*
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* Gets a bool indicating if a KVM_CAP_* enum is supported on this VM
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*/
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int crosvm_check_extension(struct crosvm*, uint32_t __extension,
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bool *has_extension);
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/*
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* Enable an extended capability for the VM. Currently |__flags| and
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* |__args| must be zero. No values for |__capability| are supported,
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* so all calls will fail.
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*/
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int crosvm_enable_capability(struct crosvm*, uint32_t __capability,
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uint32_t __flags, uint64_t __args[4]);
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/*
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* Queries x86 cpuid features which are supported by the hardware and
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* kvm.
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*/
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int crosvm_get_supported_cpuid(struct crosvm*, uint32_t __entry_count,
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struct kvm_cpuid_entry2 *__cpuid_entries,
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uint32_t *__out_count);
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/*
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* Queries x86 cpuid features which are emulated by kvm.
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*/
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int crosvm_get_emulated_cpuid(struct crosvm*, uint32_t __entry_count,
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struct kvm_cpuid_entry2 *__cpuid_entries,
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uint32_t *__out_count);
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/*
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* Queries x86 hyper-v cpuid features which are emulated by kvm.
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*/
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int crosvm_get_hyperv_cpuid(struct crosvm_vcpu*, uint32_t __entry_count,
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struct kvm_cpuid_entry2 *__cpuid_entries,
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uint32_t *__out_count);
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/*
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* Queries kvm for list of supported MSRs.
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*/
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int crosvm_get_msr_index_list(struct crosvm*, uint32_t __entry_count,
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uint32_t *__msr_indices,
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uint32_t *__out_count);
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/*
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* The network configuration for a crosvm instance.
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*/
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struct crosvm_net_config {
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/*
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* The tap device fd. This fd is owned by the caller, and should be closed
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* by the caller when it is no longer in use.
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*/
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int tap_fd;
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/* The IPv4 address of the tap interface, in network (big-endian) format. */
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uint32_t host_ip;
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/* The netmask of the tap interface subnet, in network (big-endian) format. */
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uint32_t netmask;
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/* The mac address of the host side of the tap interface. */
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uint8_t host_mac_address[6];
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uint8_t _padding[2];
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};
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#ifdef static_assert
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static_assert(sizeof(struct crosvm_net_config) == 20,
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"extra padding in struct crosvm_net_config");
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#endif
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/*
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* Gets the network configuration.
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*/
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int crosvm_net_get_config(struct crosvm*, struct crosvm_net_config*);
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/*
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* Registers a range in the given address space that, when accessed, will block
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* and wait for a crosvm_vcpu_resume call.
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*
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* To unreserve a range previously reserved by this function, pass the |__space|
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* and |__start| of the old reservation with a 0 |__length|.
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*/
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int crosvm_reserve_range(struct crosvm*, uint32_t __space, uint64_t __start,
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uint64_t __length);
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/*
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* Registers a range in the given address space that, when accessed via write,
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* will cause a notification in crosvm_vcpu_wait() but the VM will continue
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* running.
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* For this type of notification (where |no_resume| is set) the next call
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* should be crosvm_vcpu_wait() (without an inbetween call to
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* crosvm_vcpu_resume() ).
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*
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* The requested range must not overlap any prior (and currently active)
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* reservation to crosvm_reserve_range() or crosvm_reserve_async_write_range().
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*
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* To unreserve a range previously reserved by this function, pass the |__space|
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* and |__start| of the old reservation with a 0 |__length|.
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*/
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int crosvm_reserve_async_write_range(struct crosvm*, uint32_t __space,
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uint64_t __start, uint64_t __length);
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/*
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* Sets the state of the given irq pin.
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*/
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int crosvm_set_irq(struct crosvm*, uint32_t __irq_id, bool __active);
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enum crosvm_irq_route_kind {
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/* IRQ pin to GSI route */
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CROSVM_IRQ_ROUTE_IRQCHIP = 0,
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/* MSI address and data to GSI route */
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CROSVM_IRQ_ROUTE_MSI,
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};
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/* One entry in the array of irq routing table */
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struct crosvm_irq_route {
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/* The IRQ number to trigger. */
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uint32_t irq_id;
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/* A `crosvm_irq_route_kind` indicating which union member to use */
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uint32_t kind;
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union {
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struct {
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/*
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* One of KVM_IRQCHIP_PIC_MASTER, KVM_IRQCHIP_PIC_SLAVE, or
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* KVM_IRQCHIP_IOAPIC indicating which irqchip the indicated pin is on.
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*/
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uint32_t irqchip;
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/* The pin on the irqchip used to trigger the IRQ. */
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uint32_t pin;
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} irqchip;
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struct {
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/* Address that triggers the irq. */
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uint64_t address;
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/* Data written to `address` that triggers the irq */
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uint32_t data;
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uint8_t _reserved[4];
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} msi;
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uint8_t _reserved[16];
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};
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};
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#ifdef static_assert
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static_assert(sizeof(struct crosvm_irq_route) == 24,
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"extra padding in struct crosvm_irq_route");
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#endif
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/*
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* Sets all the gsi routing entries to those indicated by `routes`.
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*
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* To remove all routing entries, pass NULL for `routes` and 0 to route_count.
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*/
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int crosvm_set_irq_routing(struct crosvm*, uint32_t __route_count,
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const struct crosvm_irq_route* __routes);
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/* Hint on what information is queried for a particular hypercall. */
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struct crosvm_hint_detail {
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bool match_rax;
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bool match_rbx;
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bool match_rcx;
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bool match_rdx;
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uint8_t _reserved[4];
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uint64_t rax;
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uint64_t rbx;
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uint64_t rcx;
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uint64_t rdx;
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bool send_sregs;
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bool send_debugregs;
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uint8_t _reserved2[6];
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};
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#ifdef static_assert
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static_assert(sizeof(struct crosvm_hint_detail) == 48,
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"extra padding in struct crosvm_hint_detail");
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#endif
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/* Maximum # of hints that can be passed to crosvm_set_hypercall_hint(). */
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#define CROSVM_MAX_HINT_COUNT 1
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/* Maximum # of hint details that can be provided for a hint. */
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#define CROSVM_MAX_HINT_DETAIL_COUNT 32
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#define CROSVM_HINT_ON_WRITE 0x1
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/* Hint on what information is queried for a particular hypercall. */
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struct crosvm_hint {
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uint32_t hint_version; /* For now only 0 is defined. */
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uint32_t _reserved; /* Must be zero. */
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uint32_t address_space; /* Value from crosvm_address_space. */
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uint16_t address_flags; /* 0: read/in; CROSVM_HINT_ON_WRITE: write/out. */
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uint16_t details_count; /* # of elements in |details|. */
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uint64_t address;
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union {
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struct crosvm_hint_detail *details;
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uint64_t _reserved2; /* forcing pointer length to 64-bit */
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};
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};
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#ifdef static_assert
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static_assert(sizeof(struct crosvm_hint) == 32,
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"extra padding in struct crosvm_hint");
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#endif
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/*
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* Sets performance hint(s) for a hypercall port.
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*
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* If a VM does an io access the specified |address_space|, |address|
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* (|address| must be non-zero), and direction (|address_flags|), then
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* crosvm will assume the plugin is likely to call crosvm_vcpu_get_regs()
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* (and thus utilize a cache to improve performance).
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*
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* Additional hints can be provided via |details| (the element length of
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* |details| is limited to CROSVM_MAX_HINT_DETAIL_COUNT) on when to also cache
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* information for crosvm_vcpu_get_sregs() and crosvm_vcpu_get_debugregs()
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* based on values in the vcpu registers. |match_XXX| indicates which of
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* 1 or more of |XXX| needs to be equal to the vcpu registers to be a match.
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* On a match |send_sregs| and |send_debugregs| are used to determine what
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* data to proactively cache for the plugin's use. Once a match is found
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* the remaining hints are not consulted.
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*
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* To remove all hints, pass 0 for |__hint_count|. The value of
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* |__hint_count| can be at most CROSVM_MAX_HINT_COUNT. Currently the API
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* is limited to 1 hint (i.e., |__hint_count| must be 0 or 1). Each call
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* to this API will replace the values specified by any prior call to this API.
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*/
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int crosvm_set_hypercall_hint(struct crosvm *, uint32_t __hints_count,
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const struct crosvm_hint* __hints);
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/* Gets the state of interrupt controller in a VM. */
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int crosvm_get_pic_state(struct crosvm *, bool __primary,
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struct kvm_pic_state *__pic_state);
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/* Sets the state of interrupt controller in a VM. */
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int crosvm_set_pic_state(struct crosvm *, bool __primary,
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const struct kvm_pic_state *__pic_state);
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/* Gets the state of IOAPIC in a VM. */
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int crosvm_get_ioapic_state(struct crosvm *,
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struct kvm_ioapic_state *__ioapic_state);
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/* Sets the state of IOAPIC in a VM. */
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int crosvm_set_ioapic_state(struct crosvm *,
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const struct kvm_ioapic_state *__ioapic_state);
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/* Gets the state of interrupt controller in a VM. */
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int crosvm_get_pit_state(struct crosvm *, struct kvm_pit_state2 *__pit_state);
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/* Sets the state of interrupt controller in a VM. */
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int crosvm_set_pit_state(struct crosvm *,
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const struct kvm_pit_state2 *__pit_state);
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/* Gets the current timestamp of kvmclock as seen by the VM. */
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int crosvm_get_clock(struct crosvm *, struct kvm_clock_data *__clock_data);
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/* Sets the current timestamp of kvmclock for the VM. */
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int crosvm_set_clock(struct crosvm *,
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const struct kvm_clock_data *__clock_data);
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/* Sets the identity map address as in the KVM_SET_IDENTITY_MAP_ADDR ioctl. */
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int crosvm_set_identity_map_addr(struct crosvm*, uint32_t __addr);
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/*
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* Triggers a CROSVM_VCPU_EVENT_KIND_PAUSED event on each vcpu identified
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* |__cpu_mask|.
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*
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* The `user` pointer will be given as the `user` pointer in the `struct
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* crosvm_vcpu_event` returned by crosvm_vcpu_wait.
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*/
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int crosvm_pause_vcpus(struct crosvm*, uint64_t __cpu_mask, void* __user);
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/*
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* Call once initialization is done. This indicates that crosvm should proceed
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* with running the VM.
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*
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* After this call, this function is no longer valid to call.
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*/
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int crosvm_start(struct crosvm*);
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/*
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* Allocates an eventfd that is triggered asynchronously on write in |__space|
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* at the given |__addr|.
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*
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* If |__datamatch| is non-NULL, it must be contain |__length| bytes that will
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* be compared to the bytes being written by the vcpu which will only trigger
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* the eventfd if equal. If datamatch is NULL all writes to the address will
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* trigger the eventfd.
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*
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* On successful allocation, returns a crosvm_io. Obtain the actual fd
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* by passing this result to crosvm_io_event_fd().
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*/
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int crosvm_create_io_event(struct crosvm*, uint32_t __space, uint64_t __addr,
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uint32_t __len, const uint8_t* __datamatch,
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struct crosvm_io**);
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/*
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* Destroys the given io event and unregisters it from the VM.
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*/
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int crosvm_destroy_io_event(struct crosvm*, struct crosvm_io**);
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/*
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* Gets the eventfd triggered by the given io event.
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*
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* The returned fd is owned by the given `struct crosvm_io` and has a lifetime
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* equal to that handle.
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*/
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int crosvm_io_event_fd(struct crosvm_io*);
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/*
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* Creates a shared memory segment backed by a memfd.
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*
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* Inserts non-overlapping memory pages in the guest physical address range
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* specified by |__start| address and |__length| bytes. The memory pages are
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* backed by the memfd |__fd| and are taken starting at |__offset| bytes from
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* the beginning of the memfd.
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*
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* The `memfd_create` syscall |__fd| must be used to create |__fd| and a shrink
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* seal must have been added to |__fd|. The memfd must be at least
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* `__length+__offset` bytes long.
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*
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* If |read_only| is true, attempts by the guest to write to this memory region
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* will trigger an IO access exit.
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*
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* To use the `crosvm_memory_get_dirty_log` method with the returned object,
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* |__dirty_log| must be true.
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*/
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int crosvm_create_memory(struct crosvm*, int __fd, uint64_t __offset,
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uint64_t __length, uint64_t __start,
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bool __read_only, bool __dirty_log,
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struct crosvm_memory**);
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/*
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* Destroys the given shared memory and unregisters it from guest physical
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* address space.
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*/
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int crosvm_destroy_memory(struct crosvm*, struct crosvm_memory**);
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/*
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* For a given memory region returns a bitmap containing any pages
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* dirtied since the last call to this function.
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*
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* The `log` array must have as many bits as the memory segment has pages.
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*/
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int crosvm_memory_get_dirty_log(struct crosvm*, struct crosvm_memory*,
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uint8_t* __log);
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/*
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* Creates an irq eventfd that can be used to trigger an irq asynchronously.
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*
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* The irq that will be triggered is identified as pin |__irq_id|.
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*/
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int crosvm_create_irq_event(struct crosvm*, uint32_t __irq_id,
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struct crosvm_irq**);
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/*
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* Unregisters and destroys an irq eventfd.
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*/
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int crosvm_destroy_irq_event(struct crosvm*, struct crosvm_irq**);
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/*
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* Gets the eventfd used to trigger the irq
|
|
*
|
|
* The returned fd is owned by the given `struct crosvm_irq` and has a lifetime
|
|
* equal to that handle.
|
|
*/
|
|
int crosvm_irq_event_get_fd(const struct crosvm_irq*);
|
|
|
|
/*
|
|
* Gets the resample eventfd associated with the crosvm_irq object.
|
|
*/
|
|
int crosvm_irq_event_get_resample_fd(const struct crosvm_irq*);
|
|
|
|
enum crosvm_vcpu_event_kind {
|
|
/*
|
|
* The first event returned by crosvm_vcpu_wait, indicating the VCPU has been
|
|
* created but not yet started for the first time.
|
|
*/
|
|
CROSVM_VCPU_EVENT_KIND_INIT = 0,
|
|
|
|
/*
|
|
* Access to an address in a space previously reserved by
|
|
* crosvm_reserve_range.
|
|
*/
|
|
CROSVM_VCPU_EVENT_KIND_IO_ACCESS,
|
|
|
|
/*
|
|
* A pause on this vcpu (and possibly others) was requested by this plugin in
|
|
* a `crosvm_pause_vcpus` call.
|
|
*/
|
|
CROSVM_VCPU_EVENT_KIND_PAUSED,
|
|
|
|
/*
|
|
* Hyper-V hypercall.
|
|
*/
|
|
CROSVM_VCPU_EVENT_KIND_HYPERV_HCALL,
|
|
|
|
/*
|
|
* Hyper-V synic change.
|
|
*/
|
|
CROSVM_VCPU_EVENT_KIND_HYPERV_SYNIC,
|
|
};
|
|
|
|
struct crosvm_vcpu_event {
|
|
/* Indicates the kind of event and which union member is valid. */
|
|
uint32_t kind;
|
|
|
|
uint8_t _padding[4];
|
|
|
|
union {
|
|
/* CROSVM_VCPU_EVENT_KIND_IO_ACCESS */
|
|
struct {
|
|
/*
|
|
* One of `enum crosvm_address_space` indicating which address space the
|
|
* access occurred in.
|
|
*/
|
|
uint32_t address_space;
|
|
|
|
uint8_t _padding[4];
|
|
|
|
/* The address that the access occurred at. */
|
|
uint64_t address;
|
|
|
|
/*
|
|
* In the case that `is_write` is true, the first `length` bytes are the
|
|
* data being written by the vcpu.
|
|
*/
|
|
uint8_t *data;
|
|
|
|
/*
|
|
* Number of bytes in the access. In the case that the access is larger
|
|
* than 8 bytes, such as by AVX-512 instructions, multiple vcpu access
|
|
* events are generated serially to cover each 8 byte fragment of the
|
|
* access.
|
|
*
|
|
* Larger I/O accesses are possible. "rep in" can generate I/Os larger
|
|
* than 8 bytes, though such accesses can also be split into multiple
|
|
* events. Currently kvm doesn't seem to batch "rep out" I/Os.
|
|
*/
|
|
uint32_t length;
|
|
|
|
/*
|
|
* True if the vcpu was attempting to write, false in case of an attempt
|
|
* to read.
|
|
*/
|
|
uint8_t is_write;
|
|
|
|
/*
|
|
* Valid when |is_write| is true -- indicates that VM has continued
|
|
* to run. The only next valid call for the vcpu is crosvm_vcpu_wait().
|
|
*/
|
|
uint8_t no_resume;
|
|
|
|
uint8_t _reserved[2];
|
|
} io_access;
|
|
|
|
/* CROSVM_VCPU_EVENT_KIND_PAUSED */
|
|
void *user;
|
|
|
|
/* CROSVM_VCPU_EVENT_KIND_HYPERV_HCALL */
|
|
struct {
|
|
/*
|
|
* The |input| and |params| members are populated for the plugin to use.
|
|
* The |result| member is populated by the API to point to a uint64_t
|
|
* that the plugin should update before resuming.
|
|
*/
|
|
uint64_t input;
|
|
uint64_t *result;
|
|
uint64_t params[2];
|
|
} hyperv_call;
|
|
|
|
/* CROSVM_VCPU_EVENT_KIND_HYPERV_SYNIC */
|
|
struct {
|
|
/*
|
|
* The |msr|, |control|, |evt_page|, and |msg_page| fields are populated
|
|
* for the plugin to use.
|
|
*/
|
|
uint32_t msr;
|
|
uint32_t _reserved;
|
|
uint64_t control;
|
|
uint64_t evt_page;
|
|
uint64_t msg_page;
|
|
} hyperv_synic;
|
|
|
|
uint8_t _reserved[64];
|
|
};
|
|
};
|
|
|
|
#ifdef static_assert
|
|
static_assert(sizeof(struct crosvm_vcpu_event) == 72,
|
|
"extra padding in struct crosvm_vcpu_event");
|
|
#endif
|
|
|
|
/*
|
|
* Gets the vcpu object for the given |__cpu_id|.
|
|
*
|
|
*
|
|
* The `struct crosvm_vcpu` is owned by `struct crosvm`. Each call with the same
|
|
* `crosvm` and |__cpu_id| will yield the same pointer. The `crosvm_vcpu` does
|
|
* not need to be destroyed or created explicitly.
|
|
*
|
|
* The range of valid |__cpu_id|s is 0 to the number of vcpus - 1. To get every
|
|
* `crosvm_vcpu`, simply call this function iteratively with increasing
|
|
* |__cpu_id| until `-ENOENT` is returned.
|
|
*
|
|
*/
|
|
int crosvm_get_vcpu(struct crosvm*, uint32_t __cpu_id, struct crosvm_vcpu**);
|
|
|
|
/*
|
|
* Blocks until a vcpu event happens that requires a response.
|
|
*
|
|
* When crosvm_vcpu_wait returns successfully, the event structure is filled
|
|
* with the description of the event that occurred. The vcpu will suspend
|
|
* execution until a matching call to `crosvm_vcpu_resume` is made. Until such a
|
|
* call is made, the vcpu's run structure can be read and written using any
|
|
* `crosvm_vcpu_get` or `crosvm_vcpu_set` function.
|
|
*/
|
|
int crosvm_vcpu_wait(struct crosvm_vcpu*, struct crosvm_vcpu_event*);
|
|
|
|
/*
|
|
* Resumes execution of a vcpu after a call to `crosvm_vcpu_wait` returns.
|
|
*
|
|
* In the case that the event was a read operation, `data` indicates what the
|
|
* result of that read operation should be. If the read operation was larger
|
|
* than 8 bytes, such as by AVX-512 instructions, this will not actually resume
|
|
* the vcpu, but instead generate another vcpu access event of the next fragment
|
|
* of the read, which can be handled by the next `crosvm_vcpu_wait` call.
|
|
*
|
|
* Once the vcpu event has been responded to sufficiently enough to resume
|
|
* execution, `crosvm_vcpu_resume` should be called. After `crosvm_vcpu_resume`
|
|
* is called, none of the vcpu state operations are valid until the next time
|
|
* `crosvm_vcpu_wait` returns.
|
|
*/
|
|
int crosvm_vcpu_resume(struct crosvm_vcpu*);
|
|
|
|
/* Gets the state of the vcpu's registers. */
|
|
int crosvm_vcpu_get_regs(struct crosvm_vcpu*, struct kvm_regs*);
|
|
/* Sets the state of the vcpu's registers. */
|
|
int crosvm_vcpu_set_regs(struct crosvm_vcpu*, const struct kvm_regs*);
|
|
|
|
/* Gets the state of the vcpu's special registers. */
|
|
int crosvm_vcpu_get_sregs(struct crosvm_vcpu*, struct kvm_sregs*);
|
|
/* Sets the state of the vcpu's special registers. */
|
|
int crosvm_vcpu_set_sregs(struct crosvm_vcpu*, const struct kvm_sregs*);
|
|
|
|
/* Gets the state of the vcpu's floating point unint. */
|
|
int crosvm_vcpu_get_fpu(struct crosvm_vcpu*, struct kvm_fpu*);
|
|
/* Sets the state of the vcpu's floating point unint. */
|
|
int crosvm_vcpu_set_fpu(struct crosvm_vcpu*, const struct kvm_fpu*);
|
|
|
|
/* Gets the state of the vcpu's debug registers. */
|
|
int crosvm_vcpu_get_debugregs(struct crosvm_vcpu*, struct kvm_debugregs*);
|
|
/* Sets the state of the vcpu's debug registers */
|
|
int crosvm_vcpu_set_debugregs(struct crosvm_vcpu*, const struct kvm_debugregs*);
|
|
|
|
/* Gets the state of the vcpu's xcr registers. */
|
|
int crosvm_vcpu_get_xcrs(struct crosvm_vcpu*, struct kvm_xcrs*);
|
|
/* Sets the state of the vcpu's xcr registers. */
|
|
int crosvm_vcpu_set_xcrs(struct crosvm_vcpu*, const struct kvm_xcrs*);
|
|
|
|
/* Gets the MSRs of the vcpu indicated by the index field of each entry. */
|
|
int crosvm_vcpu_get_msrs(struct crosvm_vcpu*, uint32_t __msr_count,
|
|
struct kvm_msr_entry *__msr_entries,
|
|
uint32_t *__out_count);
|
|
/* Sets the MSRs of the vcpu indicated by the index field of each entry. */
|
|
int crosvm_vcpu_set_msrs(struct crosvm_vcpu*, uint32_t __msr_count,
|
|
const struct kvm_msr_entry *__msr_entries);
|
|
|
|
/* Sets the responses to the cpuid instructions executed on this vcpu, */
|
|
int crosvm_vcpu_set_cpuid(struct crosvm_vcpu*, uint32_t __cpuid_count,
|
|
const struct kvm_cpuid_entry2 *__cpuid_entries);
|
|
|
|
/*
|
|
* Enable an extended capability for a vcpu. Currently |__flags| and
|
|
* |__args| must be zero. The only permitted values for |__capability|
|
|
* are KVM_CAP_HYPERV_SYNIC or KVM_CAP_HYPERV_SYNIC2, though the latter
|
|
* also depends on kernel support.
|
|
*/
|
|
int crosvm_vcpu_enable_capability(struct crosvm_vcpu*, uint32_t __capability,
|
|
uint32_t __flags, uint64_t __args[4]);
|
|
|
|
/* Gets state of LAPIC of the VCPU. */
|
|
int crosvm_vcpu_get_lapic_state(struct crosvm_vcpu *,
|
|
struct kvm_lapic_state *__lapic_state);
|
|
/* Sets state of LAPIC of the VCPU. */
|
|
int crosvm_vcpu_set_lapic_state(struct crosvm_vcpu *,
|
|
const struct kvm_lapic_state *__lapic_state);
|
|
|
|
/* Gets the "multiprocessor state" of given VCPU. */
|
|
int crosvm_vcpu_get_mp_state(struct crosvm_vcpu *,
|
|
struct kvm_mp_state *__mp_state);
|
|
/* Sets the "multiprocessor state" of given VCPU. */
|
|
int crosvm_vcpu_set_mp_state(struct crosvm_vcpu *,
|
|
const struct kvm_mp_state *__mp_state);
|
|
|
|
/* Gets currently pending exceptions, interrupts, NMIs, etc for VCPU. */
|
|
int crosvm_vcpu_get_vcpu_events(struct crosvm_vcpu *,
|
|
struct kvm_vcpu_events *);
|
|
|
|
/* Sets currently pending exceptions, interrupts, NMIs, etc for VCPU. */
|
|
int crosvm_vcpu_set_vcpu_events(struct crosvm_vcpu *,
|
|
const struct kvm_vcpu_events *);
|
|
|
|
#ifdef __cplusplus
|
|
}
|
|
#endif
|
|
|
|
#endif
|