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/** \file libkvm.h
 * libkvm API
 */

#ifndef LIBKVM_H
#define LIBKVM_H

#if defined(__s390__)
#include <asm/ptrace.h>
#endif

#include <stdint.h>

#ifndef __user
#define __user /* temporary, until installed via make headers_install */
#endif

#include <linux/kvm.h>

#include <signal.h>

struct kvm_context;

typedef struct kvm_context *kvm_context_t;

#if defined(__x86_64__) || defined(__i386__)
struct kvm_msr_list *kvm_get_msr_list(kvm_context_t);
int kvm_get_msrs(kvm_context_t, int vcpu, struct kvm_msr_entry *msrs, int n);
int kvm_set_msrs(kvm_context_t, int vcpu, struct kvm_msr_entry *msrs, int n);
#endif

/*!
 * \brief KVM callbacks structure
 *
 * This structure holds pointers to various functions that KVM will call
 * when it encounters something that cannot be virtualized, such as
 * accessing hardware devices via MMIO or regular IO.
 */
struct kvm_callbacks {
	/// For 8bit IO reads from the guest (Usually when executing 'inb')
    int (*inb)(void *opaque, uint16_t addr, uint8_t *data);
	/// For 16bit IO reads from the guest (Usually when executing 'inw')
    int (*inw)(void *opaque, uint16_t addr, uint16_t *data);
	/// For 32bit IO reads from the guest (Usually when executing 'inl')
    int (*inl)(void *opaque, uint16_t addr, uint32_t *data);
	/// For 8bit IO writes from the guest (Usually when executing 'outb')
    int (*outb)(void *opaque, uint16_t addr, uint8_t data);
	/// For 16bit IO writes from the guest (Usually when executing 'outw')
    int (*outw)(void *opaque, uint16_t addr, uint16_t data);
	/// For 32bit IO writes from the guest (Usually when executing 'outl')
    int (*outl)(void *opaque, uint16_t addr, uint32_t data);
	/// generic memory reads to unmapped memory (For MMIO devices)
    int (*mmio_read)(void *opaque, uint64_t addr, uint8_t *data,
					int len);
	/// generic memory writes to unmapped memory (For MMIO devices)
    int (*mmio_write)(void *opaque, uint64_t addr, uint8_t *data,
					int len);
    int (*debug)(void *opaque, int vcpu);
	/*!
	 * \brief Called when the VCPU issues an 'hlt' instruction.
	 *
	 * Typically, you should yeild here to prevent 100% CPU utilization
	 * on the host CPU.
	 */
    int (*halt)(void *opaque, int vcpu);
    int (*shutdown)(void *opaque, int vcpu);
    int (*io_window)(void *opaque);
    int (*try_push_interrupts)(void *opaque);
    void (*post_kvm_run)(void *opaque, int vcpu);
    int (*pre_kvm_run)(void *opaque, int vcpu);
    int (*tpr_access)(void *opaque, int vcpu, uint64_t rip, int is_write);
#if defined(__powerpc__)
    int (*powerpc_dcr_read)(int vcpu, uint32_t dcrn, uint32_t *data);
    int (*powerpc_dcr_write)(int vcpu, uint32_t dcrn, uint32_t data);
#endif
#if defined(__s390__)
    int (*s390_handle_intercept)(kvm_context_t context, int vcpu,
	struct kvm_run *run);
    int (*s390_handle_reset)(kvm_context_t context, int vcpu,
	 struct kvm_run *run);
#endif
};

/*!
 * \brief Create new KVM context
 *
 * This creates a new kvm_context. A KVM context is a small area of data that
 * holds information about the KVM instance that gets created by this call.\n
 * This should always be your first call to KVM.
 *
 * \param callbacks Pointer to a valid kvm_callbacks structure
 * \param opaque Not used
 * \return NULL on failure
 */
kvm_context_t kvm_init(struct kvm_callbacks *callbacks,
		       void *opaque);

/*!
 * \brief Cleanup the KVM context
 *
 * Should always be called when closing down KVM.\n
 * Exception: If kvm_init() fails, this function should not be called, as the
 * context would be invalid
 *
 * \param kvm Pointer to the kvm_context that is to be freed
 */
void kvm_finalize(kvm_context_t kvm);

/*!
 * \brief Disable the in-kernel IRQCHIP creation
 *
 * In-kernel irqchip is enabled by default. If userspace irqchip is to be used,
 * this should be called prior to kvm_create().
 *
 * \param kvm Pointer to the kvm_context
 */
void kvm_disable_irqchip_creation(kvm_context_t kvm);

/*!
 * \brief Disable the in-kernel PIT creation
 *
 * In-kernel pit is enabled by default. If userspace pit is to be used,
 * this should be called prior to kvm_create().
 *
 *  \param kvm Pointer to the kvm_context
 */
void kvm_disable_pit_creation(kvm_context_t kvm);

/*!
 * \brief Create new virtual machine
 *
 * This creates a new virtual machine, maps physical RAM to it, and creates a
 * virtual CPU for it.\n
 * \n
 * Memory gets mapped for addresses 0->0xA0000, 0xC0000->phys_mem_bytes
 *
 * \param kvm Pointer to the current kvm_context
 * \param phys_mem_bytes The amount of physical ram you want the VM to have
 * \param phys_mem This pointer will be set to point to the memory that
 * kvm_create allocates for physical RAM
 * \return 0 on success
 */
int kvm_create(kvm_context_t kvm,
	       unsigned long phys_mem_bytes,
	       void **phys_mem);
int kvm_create_vm(kvm_context_t kvm);
int kvm_check_extension(kvm_context_t kvm, int ext);
void kvm_create_irqchip(kvm_context_t kvm);

/*!
 * \brief Create a new virtual cpu
 *
 * This creates a new virtual cpu (the first vcpu is created by kvm_create()).
 * Should be called from a thread dedicated to the vcpu.
 *
 * \param kvm kvm context
 * \param slot vcpu number (> 0)
 * \return 0 on success, -errno on failure
 */
int kvm_create_vcpu(kvm_context_t kvm, int slot);

/*!
 * \brief Start the VCPU
 *
 * This starts the VCPU and virtualization is started.\n
 * \n
 * This function will not return until any of these conditions are met:
 * - An IO/MMIO handler does not return "0"
 * - An exception that neither the guest OS, nor KVM can handle occurs
 *
 * \note This function will call the callbacks registered in kvm_init()
 * to emulate those functions
 * \note If you at any point want to interrupt the VCPU, kvm_run() will
 * listen to the EINTR signal. This allows you to simulate external interrupts
 * and asyncronous IO.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should be started
 * \return 0 on success, but you really shouldn't expect this function to
 * return except for when an error has occured, or when you have sent it
 * an EINTR signal.
 */
int kvm_run(kvm_context_t kvm, int vcpu);

/*!
 * \brief Get interrupt flag from on last exit to userspace
 *
 * This gets the CPU interrupt flag as it was on the last exit to userspace.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \return interrupt flag value (0 or 1)
 */
int kvm_get_interrupt_flag(kvm_context_t kvm, int vcpu);

/*!
 * \brief Get the value of the APIC_BASE msr as of last exit to userspace
 *
 * This gets the APIC_BASE msr as it was on the last exit to userspace.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \return APIC_BASE msr contents
 */
uint64_t kvm_get_apic_base(kvm_context_t kvm, int vcpu);

/*!
 * \brief Check if a vcpu is ready for interrupt injection
 *
 * This checks if vcpu interrupts are not masked by mov ss or sti.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \return boolean indicating interrupt injection readiness
 */
int kvm_is_ready_for_interrupt_injection(kvm_context_t kvm, int vcpu);

/*!
 * \brief Read VCPU registers
 *
 * This gets the GP registers from the VCPU and outputs them
 * into a kvm_regs structure
 *
 * \note This function returns a \b copy of the VCPUs registers.\n
 * If you wish to modify the VCPUs GP registers, you should call kvm_set_regs()
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param regs Pointer to a kvm_regs which will be populated with the VCPUs
 * registers values
 * \return 0 on success
 */
int kvm_get_regs(kvm_context_t kvm, int vcpu, struct kvm_regs *regs);

/*!
 * \brief Write VCPU registers
 *
 * This sets the GP registers on the VCPU from a kvm_regs structure
 *
 * \note When this function returns, the regs pointer and the data it points to
 * can be discarded
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param regs Pointer to a kvm_regs which will be populated with the VCPUs
 * registers values
 * \return 0 on success
 */
int kvm_set_regs(kvm_context_t kvm, int vcpu, struct kvm_regs *regs);
/*!
 * \brief Read VCPU fpu registers
 *
 * This gets the FPU registers from the VCPU and outputs them
 * into a kvm_fpu structure
 *
 * \note This function returns a \b copy of the VCPUs registers.\n
 * If you wish to modify the VCPU FPU registers, you should call kvm_set_fpu()
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param fpu Pointer to a kvm_fpu which will be populated with the VCPUs
 * fpu registers values
 * \return 0 on success
 */
int kvm_get_fpu(kvm_context_t kvm, int vcpu, struct kvm_fpu *fpu);

/*!
 * \brief Write VCPU fpu registers
 *
 * This sets the FPU registers on the VCPU from a kvm_fpu structure
 *
 * \note When this function returns, the fpu pointer and the data it points to
 * can be discarded
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param fpu Pointer to a kvm_fpu which holds the new vcpu fpu state
 * \return 0 on success
 */
int kvm_set_fpu(kvm_context_t kvm, int vcpu, struct kvm_fpu *fpu);

/*!
 * \brief Read VCPU system registers
 *
 * This gets the non-GP registers from the VCPU and outputs them
 * into a kvm_sregs structure
 *
 * \note This function returns a \b copy of the VCPUs registers.\n
 * If you wish to modify the VCPUs non-GP registers, you should call
 * kvm_set_sregs()
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param regs Pointer to a kvm_sregs which will be populated with the VCPUs
 * registers values
 * \return 0 on success
 */
int kvm_get_sregs(kvm_context_t kvm, int vcpu, struct kvm_sregs *regs);

/*!
 * \brief Write VCPU system registers
 *
 * This sets the non-GP registers on the VCPU from a kvm_sregs structure
 *
 * \note When this function returns, the regs pointer and the data it points to
 * can be discarded
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param regs Pointer to a kvm_sregs which will be populated with the VCPUs
 * registers values
 * \return 0 on success
 */
int kvm_set_sregs(kvm_context_t kvm, int vcpu, struct kvm_sregs *regs);

#ifdef KVM_CAP_MP_STATE
/*!
 *  * \brief Read VCPU MP state
 *
 */
int kvm_get_mpstate(kvm_context_t kvm, int vcpu,
                    struct kvm_mp_state *mp_state);

/*!
 *  * \brief Write VCPU MP state
 *
 */
int kvm_set_mpstate(kvm_context_t kvm, int vcpu,
                    struct kvm_mp_state *mp_state);
/*!
 *  * \brief Reset VCPU MP state
 *
 */
static inline int kvm_reset_mpstate(kvm_context_t kvm, int vcpu)
{
    struct kvm_mp_state mp_state = {.mp_state = KVM_MP_STATE_UNINITIALIZED};
    return kvm_set_mpstate(kvm, vcpu, &mp_state);
}
#endif

/*!
 * \brief Simulate an external vectored interrupt
 *
 * This allows you to simulate an external vectored interrupt.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param irq Vector number
 * \return 0 on success
 */
int kvm_inject_irq(kvm_context_t kvm, int vcpu, unsigned irq);

int kvm_guest_debug(kvm_context_t, int vcpu, struct kvm_debug_guest *dbg);

#if defined(__i386__) || defined(__x86_64__)
/*!
 * \brief Setup a vcpu's cpuid instruction emulation
 *
 * Set up a table of cpuid function to cpuid outputs.\n
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should be initialized
 * \param nent number of entries to be installed
 * \param entries cpuid function entries table
 * \return 0 on success, or -errno on error
 */
int kvm_setup_cpuid(kvm_context_t kvm, int vcpu, int nent,
		    struct kvm_cpuid_entry *entries);

/*!
 * \brief Setting the number of shadow pages to be allocated to the vm
 *
 * \param kvm pointer to kvm_context
 * \param nrshadow_pages number of pages to be allocated
 */
int kvm_set_shadow_pages(kvm_context_t kvm, unsigned int nrshadow_pages);

/*!
 * \breif Getting the number of shadow pages that are allocated to the vm
 *
 * \param kvm pointer to kvm_context
 * \param nrshadow_pages number of pages to be allocated
 */
int kvm_get_shadow_pages(kvm_context_t kvm , unsigned int *nrshadow_pages);

/*!
 * \brief Set up cr8 for next time the vcpu is executed
 *
 * This is a fast setter for cr8, which will be applied when the
 * vcpu next enters guest mode.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \param cr8 next cr8 value
 */
void kvm_set_cr8(kvm_context_t kvm, int vcpu, uint64_t cr8);

/*!
 * \brief Get cr8 for sync tpr in qemu apic emulation
 *
 * This is a getter for cr8, which used to sync with the tpr in qemu
 * apic emualtion.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 */
__u64 kvm_get_cr8(kvm_context_t kvm, int vcpu);
#endif

/*!
 * \brief Set a vcpu's signal mask for guest mode
 *
 * A vcpu can have different signals blocked in guest mode and user mode.
 * This allows guest execution to be interrupted on a signal, without requiring
 * that the signal be delivered to a signal handler (the signal can be
 * dequeued using sigwait(2).
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should be initialized
 * \param sigset signal mask for guest mode
 * \return 0 on success, or -errno on error
 */
int kvm_set_signal_mask(kvm_context_t kvm, int vcpu, const sigset_t *sigset);

/*!
 * \brief Dump all VCPU information
 *
 * This dumps \b all the information that KVM has about a virtual CPU, namely:
 * - GP Registers
 * - System registers (selectors, descriptors, etc)
 * - VMCS Data
 * - MSRS
 * - Pending interrupts
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \return 0 on success
 */
int kvm_dump_vcpu(kvm_context_t kvm, int vcpu);

/*!
 * \brief Dump VCPU registers
 *
 * This dumps some of the information that KVM has about a virtual CPU, namely:
 * - GP Registers
 *
 * A much more verbose version of this is available as kvm_dump_vcpu()
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should get dumped
 * \return 0 on success
 */
void kvm_show_regs(kvm_context_t kvm, int vcpu);


void *kvm_create_phys_mem(kvm_context_t, unsigned long phys_start, 
			  unsigned long len, int log, int writable);
void kvm_destroy_phys_mem(kvm_context_t, unsigned long phys_start, 
			  unsigned long len);
int kvm_is_containing_region(kvm_context_t kvm, unsigned long phys_start, unsigned long size);
int kvm_register_phys_mem(kvm_context_t kvm,
			unsigned long phys_start, void *userspace_addr,
			unsigned long len, int log);
int kvm_get_dirty_pages(kvm_context_t, unsigned long phys_addr, void *buf);
int kvm_get_dirty_pages_range(kvm_context_t kvm, unsigned long phys_addr,
			      unsigned long end_addr, void *buf, void*opaque,
			      int (*cb)(unsigned long start, unsigned long len,
					void*bitmap, void *opaque));
int kvm_register_coalesced_mmio(kvm_context_t kvm,
				uint64_t addr, uint32_t size);
int kvm_unregister_coalesced_mmio(kvm_context_t kvm,
				  uint64_t addr, uint32_t size);

/*!
 * \brief Create a memory alias
 *
 * Aliases a portion of physical memory to another portion.  If the guest
 * accesses the alias region, it will behave exactly as if it accessed
 * the target memory.
 */
int kvm_create_memory_alias(kvm_context_t,
			    uint64_t phys_start, uint64_t len,
			    uint64_t target_phys);

/*!
 * \brief Destroy a memory alias
 *
 * Removes an alias created with kvm_create_memory_alias().
 */
int kvm_destroy_memory_alias(kvm_context_t, uint64_t phys_start);

/*!
 * \brief Get a bitmap of guest ram pages which are allocated to the guest.
 *
 * \param kvm Pointer to the current kvm_context
 * \param phys_addr Memory slot phys addr
 * \param bitmap Long aligned address of a big enough bitmap (one bit per page)
 */
int kvm_get_mem_map(kvm_context_t kvm, unsigned long phys_addr, void *bitmap);
int kvm_get_mem_map_range(kvm_context_t kvm, unsigned long phys_addr,
			   unsigned long len, void *buf, void *opaque,
			   int (*cb)(unsigned long start,unsigned long len,
				     void* bitmap, void* opaque));
int kvm_set_irq_level(kvm_context_t kvm, int irq, int level);

/*!
 * \brief Enable dirty-pages-logging for all memory regions
 *
 * \param kvm Pointer to the current kvm_context
 */
int kvm_dirty_pages_log_enable_all(kvm_context_t kvm);

/*!
 * \brief Disable dirty-page-logging for some memory regions
 *
 * Disable dirty-pages-logging for those memory regions that were
 * created with dirty-page-logging disabled.
 *
 * \param kvm Pointer to the current kvm_context
 */
int kvm_dirty_pages_log_reset(kvm_context_t kvm);

/*!
 * \brief Query whether in kernel irqchip is used
 *
 * \param kvm Pointer to the current kvm_context
 */
int kvm_irqchip_in_kernel(kvm_context_t kvm);

int kvm_has_sync_mmu(kvm_context_t kvm);

#ifdef KVM_CAP_IRQCHIP
/*!
 * \brief Dump in kernel IRQCHIP contents
 *
 * Dump one of the in kernel irq chip devices, including PIC (master/slave)
 * and IOAPIC into a kvm_irqchip structure
 *
 * \param kvm Pointer to the current kvm_context
 * \param chip The irq chip device to be dumped
 */
int kvm_get_irqchip(kvm_context_t kvm, struct kvm_irqchip *chip);

/*!
 * \brief Set in kernel IRQCHIP contents
 *
 * Write one of the in kernel irq chip devices, including PIC (master/slave)
 * and IOAPIC
 *
 *
 * \param kvm Pointer to the current kvm_context
 * \param chip THe irq chip device to be written
 */
int kvm_set_irqchip(kvm_context_t kvm, struct kvm_irqchip *chip);

#if defined(__i386__) || defined(__x86_64__)
/*!
 * \brief Get in kernel local APIC for vcpu
 *
 * Save the local apic state including the timer of a virtual CPU
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should be accessed
 * \param s Local apic state of the specific virtual CPU
 */
int kvm_get_lapic(kvm_context_t kvm, int vcpu, struct kvm_lapic_state *s);

/*!
 * \brief Set in kernel local APIC for vcpu
 *
 * Restore the local apic state including the timer of a virtual CPU
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu Which virtual CPU should be accessed
 * \param s Local apic state of the specific virtual CPU
 */
int kvm_set_lapic(kvm_context_t kvm, int vcpu, struct kvm_lapic_state *s);

#endif

#endif

/*!
 * \brief Query wheather in kernel pit is used
 *
 *  \param kvm Pointer to the current kvm_context
 */
int kvm_pit_in_kernel(kvm_context_t kvm);

/*!
 * \brief Initialize coalesced MMIO
 *
 * Check for coalesced MMIO capability and store in context
 *
 * \param kvm Pointer to the current kvm_context
 */
int kvm_init_coalesced_mmio(kvm_context_t kvm);

#ifdef KVM_CAP_PIT

#if defined(__i386__) || defined(__x86_64__)
/*!
 * \brief Get in kernel PIT of the virtual domain
 *
 * Save the PIT state.
 *
 * \param kvm Pointer to the current kvm_context
 * \param s PIT state of the virtual domain
 */
int kvm_get_pit(kvm_context_t kvm, struct kvm_pit_state *s);

/*!
 * \brief Set in kernel PIT of the virtual domain
 *
 * Restore the PIT state.
 * Timer would be retriggerred after restored.
 *
 * \param kvm Pointer to the current kvm_context
 * \param s PIT state of the virtual domain
 */
int kvm_set_pit(kvm_context_t kvm, struct kvm_pit_state *s);
#endif

#endif

#ifdef KVM_CAP_VAPIC

/*!
 * \brief Enable kernel tpr access reporting
 *
 * When tpr access reporting is enabled, the kernel will call the
 * ->tpr_access() callback every time the guest vcpu accesses the tpr.
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu vcpu to enable tpr access reporting on
 */
int kvm_enable_tpr_access_reporting(kvm_context_t kvm, int vcpu);

/*!
 * \brief Disable kernel tpr access reporting
 *
 * Undoes the effect of kvm_enable_tpr_access_reporting().
 *
 * \param kvm Pointer to the current kvm_context
 * \param vcpu vcpu to disable tpr access reporting on
 */
int kvm_disable_tpr_access_reporting(kvm_context_t kvm, int vcpu);

int kvm_enable_vapic(kvm_context_t kvm, int vcpu, uint64_t vapic);

#endif

#if defined(__s390__)
int kvm_s390_initial_reset(kvm_context_t kvm, int slot);
int kvm_s390_interrupt(kvm_context_t kvm, int slot,
	struct kvm_s390_interrupt *kvmint);
int kvm_s390_set_initial_psw(kvm_context_t kvm, int slot, psw_t psw);
int kvm_s390_store_status(kvm_context_t kvm, int slot, unsigned long addr);
#endif
#endif