| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Sean Christopherson | 1166 | 87.08% | 18 | 36.73% |
| Avi Kivity | 62 | 4.63% | 4 | 8.16% |
| Oliver Upton | 22 | 1.64% | 2 | 4.08% |
| Jim Mattson | 21 | 1.57% | 2 | 4.08% |
| Paolo Bonzini | 15 | 1.12% | 5 | 10.20% |
| Nadav Har'El | 10 | 0.75% | 3 | 6.12% |
| Jan Kiszka | 7 | 0.52% | 1 | 2.04% |
| Vitaly Kuznetsov | 7 | 0.52% | 4 | 8.16% |
| Ladi Prosek | 6 | 0.45% | 2 | 4.08% |
| Sheng Yang | 5 | 0.37% | 2 | 4.08% |
| Xiantao Zhang | 5 | 0.37% | 1 | 2.04% |
| Wincy Van | 4 | 0.30% | 1 | 2.04% |
| Gleb Natapov | 3 | 0.22% | 1 | 2.04% |
| Eugene Korenevsky | 3 | 0.22% | 1 | 2.04% |
| Abel Gordon | 2 | 0.15% | 1 | 2.04% |
| Xiaoyao Li | 1 | 0.07% | 1 | 2.04% |
| Total | 1339 | 49 |
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/* SPDX-License-Identifier: GPL-2.0 */ #ifndef __KVM_X86_VMX_NESTED_H #define __KVM_X86_VMX_NESTED_H #include "kvm_cache_regs.h" #include "hyperv.h" #include "vmcs12.h" #include "vmx.h" /* * Status returned by nested_vmx_enter_non_root_mode(): */ enum nvmx_vmentry_status { NVMX_VMENTRY_SUCCESS, /* Entered VMX non-root mode */ NVMX_VMENTRY_VMFAIL, /* Consistency check VMFail */ NVMX_VMENTRY_VMEXIT, /* Consistency check VMExit */ NVMX_VMENTRY_KVM_INTERNAL_ERROR,/* KVM internal error */ }; void vmx_leave_nested(struct kvm_vcpu *vcpu); void nested_vmx_setup_ctls_msrs(struct vmcs_config *vmcs_conf, u32 ept_caps); void nested_vmx_hardware_unsetup(void); __init int nested_vmx_hardware_setup(int (*exit_handlers[])(struct kvm_vcpu *)); void nested_vmx_set_vmcs_shadowing_bitmap(void); void nested_vmx_free_vcpu(struct kvm_vcpu *vcpu); enum nvmx_vmentry_status nested_vmx_enter_non_root_mode(struct kvm_vcpu *vcpu, bool from_vmentry); bool nested_vmx_reflect_vmexit(struct kvm_vcpu *vcpu); void nested_vmx_vmexit(struct kvm_vcpu *vcpu, u32 vm_exit_reason, u32 exit_intr_info, unsigned long exit_qualification); void nested_sync_vmcs12_to_shadow(struct kvm_vcpu *vcpu); int vmx_set_vmx_msr(struct kvm_vcpu *vcpu, u32 msr_index, u64 data); int vmx_get_vmx_msr(struct nested_vmx_msrs *msrs, u32 msr_index, u64 *pdata); int get_vmx_mem_address(struct kvm_vcpu *vcpu, unsigned long exit_qualification, u32 vmx_instruction_info, bool wr, int len, gva_t *ret); void nested_mark_vmcs12_pages_dirty(struct kvm_vcpu *vcpu); bool nested_vmx_check_io_bitmaps(struct kvm_vcpu *vcpu, unsigned int port, int size); static inline struct vmcs12 *get_vmcs12(struct kvm_vcpu *vcpu) { lockdep_assert_once(lockdep_is_held(&vcpu->mutex) || !refcount_read(&vcpu->kvm->users_count)); return to_vmx(vcpu)->nested.cached_vmcs12; } static inline struct vmcs12 *get_shadow_vmcs12(struct kvm_vcpu *vcpu) { lockdep_assert_once(lockdep_is_held(&vcpu->mutex) || !refcount_read(&vcpu->kvm->users_count)); return to_vmx(vcpu)->nested.cached_shadow_vmcs12; } /* * Note: the same condition is checked against the state provided by userspace * in vmx_set_nested_state; if it is satisfied, the nested state must include * the VMCS12. */ static inline int vmx_has_valid_vmcs12(struct kvm_vcpu *vcpu) { struct vcpu_vmx *vmx = to_vmx(vcpu); /* 'hv_evmcs_vmptr' can also be EVMPTR_MAP_PENDING here */ return vmx->nested.current_vmptr != -1ull || nested_vmx_is_evmptr12_set(vmx); } static inline u16 nested_get_vpid02(struct kvm_vcpu *vcpu) { struct vcpu_vmx *vmx = to_vmx(vcpu); return vmx->nested.vpid02 ? vmx->nested.vpid02 : vmx->vpid; } static inline unsigned long nested_ept_get_eptp(struct kvm_vcpu *vcpu) { /* return the page table to be shadowed - in our case, EPT12 */ return get_vmcs12(vcpu)->ept_pointer; } static inline bool nested_ept_ad_enabled(struct kvm_vcpu *vcpu) { return nested_ept_get_eptp(vcpu) & VMX_EPTP_AD_ENABLE_BIT; } /* * Return the cr0/4 value that a nested guest would read. This is a combination * of L1's "real" cr0 used to run the guest (guest_cr0), and the bits shadowed * by the L1 hypervisor (cr0_read_shadow). KVM must emulate CPU behavior as * the value+mask loaded into vmcs02 may not match the vmcs12 fields. */ static inline unsigned long nested_read_cr0(struct vmcs12 *fields) { return (fields->guest_cr0 & ~fields->cr0_guest_host_mask) | (fields->cr0_read_shadow & fields->cr0_guest_host_mask); } static inline unsigned long nested_read_cr4(struct vmcs12 *fields) { return (fields->guest_cr4 & ~fields->cr4_guest_host_mask) | (fields->cr4_read_shadow & fields->cr4_guest_host_mask); } static inline unsigned nested_cpu_vmx_misc_cr3_count(struct kvm_vcpu *vcpu) { return vmx_misc_cr3_count(to_vmx(vcpu)->nested.msrs.misc_low); } /* * Do the virtual VMX capability MSRs specify that L1 can use VMWRITE * to modify any valid field of the VMCS, or are the VM-exit * information fields read-only? */ static inline bool nested_cpu_has_vmwrite_any_field(struct kvm_vcpu *vcpu) { return to_vmx(vcpu)->nested.msrs.misc_low & VMX_MISC_VMWRITE_SHADOW_RO_FIELDS; } static inline bool nested_cpu_has_zero_length_injection(struct kvm_vcpu *vcpu) { return to_vmx(vcpu)->nested.msrs.misc_low & VMX_MISC_ZERO_LEN_INS; } static inline bool nested_cpu_supports_monitor_trap_flag(struct kvm_vcpu *vcpu) { return to_vmx(vcpu)->nested.msrs.procbased_ctls_high & CPU_BASED_MONITOR_TRAP_FLAG; } static inline bool nested_cpu_has_vmx_shadow_vmcs(struct kvm_vcpu *vcpu) { return to_vmx(vcpu)->nested.msrs.secondary_ctls_high & SECONDARY_EXEC_SHADOW_VMCS; } static inline bool nested_cpu_has(struct vmcs12 *vmcs12, u32 bit) { return vmcs12->cpu_based_vm_exec_control & bit; } static inline bool nested_cpu_has2(struct vmcs12 *vmcs12, u32 bit) { return (vmcs12->cpu_based_vm_exec_control & CPU_BASED_ACTIVATE_SECONDARY_CONTROLS) && (vmcs12->secondary_vm_exec_control & bit); } static inline bool nested_cpu_has_preemption_timer(struct vmcs12 *vmcs12) { return vmcs12->pin_based_vm_exec_control & PIN_BASED_VMX_PREEMPTION_TIMER; } static inline bool nested_cpu_has_nmi_exiting(struct vmcs12 *vmcs12) { return vmcs12->pin_based_vm_exec_control & PIN_BASED_NMI_EXITING; } static inline bool nested_cpu_has_virtual_nmis(struct vmcs12 *vmcs12) { return vmcs12->pin_based_vm_exec_control & PIN_BASED_VIRTUAL_NMIS; } static inline int nested_cpu_has_mtf(struct vmcs12 *vmcs12) { return nested_cpu_has(vmcs12, CPU_BASED_MONITOR_TRAP_FLAG); } static inline int nested_cpu_has_ept(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_ENABLE_EPT); } static inline bool nested_cpu_has_xsaves(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_ENABLE_XSAVES); } static inline bool nested_cpu_has_pml(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_ENABLE_PML); } static inline bool nested_cpu_has_virt_x2apic_mode(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_VIRTUALIZE_X2APIC_MODE); } static inline bool nested_cpu_has_vpid(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_ENABLE_VPID); } static inline bool nested_cpu_has_apic_reg_virt(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_APIC_REGISTER_VIRT); } static inline bool nested_cpu_has_vid(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_VIRTUAL_INTR_DELIVERY); } static inline bool nested_cpu_has_posted_intr(struct vmcs12 *vmcs12) { return vmcs12->pin_based_vm_exec_control & PIN_BASED_POSTED_INTR; } static inline bool nested_cpu_has_vmfunc(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_ENABLE_VMFUNC); } static inline bool nested_cpu_has_eptp_switching(struct vmcs12 *vmcs12) { return nested_cpu_has_vmfunc(vmcs12) && (vmcs12->vm_function_control & VMX_VMFUNC_EPTP_SWITCHING); } static inline bool nested_cpu_has_shadow_vmcs(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_SHADOW_VMCS); } static inline bool nested_cpu_has_save_preemption_timer(struct vmcs12 *vmcs12) { return vmcs12->vm_exit_controls & VM_EXIT_SAVE_VMX_PREEMPTION_TIMER; } static inline bool nested_exit_on_nmi(struct kvm_vcpu *vcpu) { return nested_cpu_has_nmi_exiting(get_vmcs12(vcpu)); } /* * In nested virtualization, check if L1 asked to exit on external interrupts. * For most existing hypervisors, this will always return true. */ static inline bool nested_exit_on_intr(struct kvm_vcpu *vcpu) { return get_vmcs12(vcpu)->pin_based_vm_exec_control & PIN_BASED_EXT_INTR_MASK; } static inline bool nested_cpu_has_encls_exit(struct vmcs12 *vmcs12) { return nested_cpu_has2(vmcs12, SECONDARY_EXEC_ENCLS_EXITING); } /* * if fixed0[i] == 1: val[i] must be 1 * if fixed1[i] == 0: val[i] must be 0 */ static inline bool fixed_bits_valid(u64 val, u64 fixed0, u64 fixed1) { return ((val & fixed1) | fixed0) == val; } static inline bool nested_guest_cr0_valid(struct kvm_vcpu *vcpu, unsigned long val) { u64 fixed0 = to_vmx(vcpu)->nested.msrs.cr0_fixed0; u64 fixed1 = to_vmx(vcpu)->nested.msrs.cr0_fixed1; struct vmcs12 *vmcs12 = get_vmcs12(vcpu); if (to_vmx(vcpu)->nested.msrs.secondary_ctls_high & SECONDARY_EXEC_UNRESTRICTED_GUEST && nested_cpu_has2(vmcs12, SECONDARY_EXEC_UNRESTRICTED_GUEST)) fixed0 &= ~(X86_CR0_PE | X86_CR0_PG); return fixed_bits_valid(val, fixed0, fixed1); } static inline bool nested_host_cr0_valid(struct kvm_vcpu *vcpu, unsigned long val) { u64 fixed0 = to_vmx(vcpu)->nested.msrs.cr0_fixed0; u64 fixed1 = to_vmx(vcpu)->nested.msrs.cr0_fixed1; return fixed_bits_valid(val, fixed0, fixed1); } static inline bool nested_cr4_valid(struct kvm_vcpu *vcpu, unsigned long val) { u64 fixed0 = to_vmx(vcpu)->nested.msrs.cr4_fixed0; u64 fixed1 = to_vmx(vcpu)->nested.msrs.cr4_fixed1; return fixed_bits_valid(val, fixed0, fixed1) && __kvm_is_valid_cr4(vcpu, val); } /* No difference in the restrictions on guest and host CR4 in VMX operation. */ #define nested_guest_cr4_valid nested_cr4_valid #define nested_host_cr4_valid nested_cr4_valid extern struct kvm_x86_nested_ops vmx_nested_ops; #endif /* __KVM_X86_VMX_NESTED_H */
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