/* SPDX-License-Identifier: GPL-2.0 */ #include #include #include #include #include #include #include "run_flags.h" #define WORD_SIZE (BITS_PER_LONG / 8) #define VCPU_RAX __VCPU_REGS_RAX * WORD_SIZE #define VCPU_RCX __VCPU_REGS_RCX * WORD_SIZE #define VCPU_RDX __VCPU_REGS_RDX * WORD_SIZE #define VCPU_RBX __VCPU_REGS_RBX * WORD_SIZE /* Intentionally omit RSP as it's context switched by hardware */ #define VCPU_RBP __VCPU_REGS_RBP * WORD_SIZE #define VCPU_RSI __VCPU_REGS_RSI * WORD_SIZE #define VCPU_RDI __VCPU_REGS_RDI * WORD_SIZE #ifdef CONFIG_X86_64 #define VCPU_R8 __VCPU_REGS_R8 * WORD_SIZE #define VCPU_R9 __VCPU_REGS_R9 * WORD_SIZE #define VCPU_R10 __VCPU_REGS_R10 * WORD_SIZE #define VCPU_R11 __VCPU_REGS_R11 * WORD_SIZE #define VCPU_R12 __VCPU_REGS_R12 * WORD_SIZE #define VCPU_R13 __VCPU_REGS_R13 * WORD_SIZE #define VCPU_R14 __VCPU_REGS_R14 * WORD_SIZE #define VCPU_R15 __VCPU_REGS_R15 * WORD_SIZE #endif .section .noinstr.text, "ax" /** * __vmx_vcpu_run - Run a vCPU via a transition to VMX guest mode * @vmx: struct vcpu_vmx * * @regs: unsigned long * (to guest registers) * @flags: VMX_RUN_VMRESUME: use VMRESUME instead of VMLAUNCH * VMX_RUN_SAVE_SPEC_CTRL: save guest SPEC_CTRL into vmx->spec_ctrl * * Returns: * 0 on VM-Exit, 1 on VM-Fail */ SYM_FUNC_START(__vmx_vcpu_run) push %_ASM_BP mov %_ASM_SP, %_ASM_BP #ifdef CONFIG_X86_64 push %r15 push %r14 push %r13 push %r12 #else push %edi push %esi #endif push %_ASM_BX /* Save @vmx for SPEC_CTRL handling */ push %_ASM_ARG1 /* Save @flags for SPEC_CTRL handling */ push %_ASM_ARG3 /* * Save @regs, _ASM_ARG2 may be modified by vmx_update_host_rsp() and * @regs is needed after VM-Exit to save the guest's register values. */ push %_ASM_ARG2 /* Copy @flags to BL, _ASM_ARG3 is volatile. */ mov %_ASM_ARG3B, %bl lea (%_ASM_SP), %_ASM_ARG2 call vmx_update_host_rsp /* Load @regs to RAX. */ mov (%_ASM_SP), %_ASM_AX /* Check if vmlaunch or vmresume is needed */ testb $VMX_RUN_VMRESUME, %bl /* Load guest registers. Don't clobber flags. */ mov VCPU_RCX(%_ASM_AX), %_ASM_CX mov VCPU_RDX(%_ASM_AX), %_ASM_DX mov VCPU_RBX(%_ASM_AX), %_ASM_BX mov VCPU_RBP(%_ASM_AX), %_ASM_BP mov VCPU_RSI(%_ASM_AX), %_ASM_SI mov VCPU_RDI(%_ASM_AX), %_ASM_DI #ifdef CONFIG_X86_64 mov VCPU_R8 (%_ASM_AX), %r8 mov VCPU_R9 (%_ASM_AX), %r9 mov VCPU_R10(%_ASM_AX), %r10 mov VCPU_R11(%_ASM_AX), %r11 mov VCPU_R12(%_ASM_AX), %r12 mov VCPU_R13(%_ASM_AX), %r13 mov VCPU_R14(%_ASM_AX), %r14 mov VCPU_R15(%_ASM_AX), %r15 #endif /* Load guest RAX. This kills the @regs pointer! */ mov VCPU_RAX(%_ASM_AX), %_ASM_AX /* Check EFLAGS.ZF from 'testb' above */ jz .Lvmlaunch /* * After a successful VMRESUME/VMLAUNCH, control flow "magically" * resumes below at 'vmx_vmexit' due to the VMCS HOST_RIP setting. * So this isn't a typical function and objtool needs to be told to * save the unwind state here and restore it below. */ UNWIND_HINT_SAVE /* * If VMRESUME/VMLAUNCH and corresponding vmexit succeed, execution resumes at * the 'vmx_vmexit' label below. */ .Lvmresume: vmresume jmp .Lvmfail .Lvmlaunch: vmlaunch jmp .Lvmfail _ASM_EXTABLE(.Lvmresume, .Lfixup) _ASM_EXTABLE(.Lvmlaunch, .Lfixup) SYM_INNER_LABEL(vmx_vmexit, SYM_L_GLOBAL) /* Restore unwind state from before the VMRESUME/VMLAUNCH. */ UNWIND_HINT_RESTORE /* Temporarily save guest's RAX. */ push %_ASM_AX /* Reload @regs to RAX. */ mov WORD_SIZE(%_ASM_SP), %_ASM_AX /* Save all guest registers, including RAX from the stack */ pop VCPU_RAX(%_ASM_AX) mov %_ASM_CX, VCPU_RCX(%_ASM_AX) mov %_ASM_DX, VCPU_RDX(%_ASM_AX) mov %_ASM_BX, VCPU_RBX(%_ASM_AX) mov %_ASM_BP, VCPU_RBP(%_ASM_AX) mov %_ASM_SI, VCPU_RSI(%_ASM_AX) mov %_ASM_DI, VCPU_RDI(%_ASM_AX) #ifdef CONFIG_X86_64 mov %r8, VCPU_R8 (%_ASM_AX) mov %r9, VCPU_R9 (%_ASM_AX) mov %r10, VCPU_R10(%_ASM_AX) mov %r11, VCPU_R11(%_ASM_AX) mov %r12, VCPU_R12(%_ASM_AX) mov %r13, VCPU_R13(%_ASM_AX) mov %r14, VCPU_R14(%_ASM_AX) mov %r15, VCPU_R15(%_ASM_AX) #endif /* Clear return value to indicate VM-Exit (as opposed to VM-Fail). */ xor %ebx, %ebx .Lclear_regs: /* * Clear all general purpose registers except RSP and RBX to prevent * speculative use of the guest's values, even those that are reloaded * via the stack. In theory, an L1 cache miss when restoring registers * could lead to speculative execution with the guest's values. * Zeroing XORs are dirt cheap, i.e. the extra paranoia is essentially * free. RSP and RAX are exempt as RSP is restored by hardware during * VM-Exit and RBX is explicitly loaded with 0 or 1 to hold the return * value. */ xor %eax, %eax xor %ecx, %ecx xor %edx, %edx xor %ebp, %ebp xor %esi, %esi xor %edi, %edi #ifdef CONFIG_X86_64 xor %r8d, %r8d xor %r9d, %r9d xor %r10d, %r10d xor %r11d, %r11d xor %r12d, %r12d xor %r13d, %r13d xor %r14d, %r14d xor %r15d, %r15d #endif /* "POP" @regs. */ add $WORD_SIZE, %_ASM_SP /* * IMPORTANT: RSB filling and SPEC_CTRL handling must be done before * the first unbalanced RET after vmexit! * * For retpoline or IBRS, RSB filling is needed to prevent poisoned RSB * entries and (in some cases) RSB underflow. * * eIBRS has its own protection against poisoned RSB, so it doesn't * need the RSB filling sequence. But it does need to be enabled, and a * single call to retire, before the first unbalanced RET. */ FILL_RETURN_BUFFER %_ASM_CX, RSB_CLEAR_LOOPS, X86_FEATURE_RSB_VMEXIT,\ X86_FEATURE_RSB_VMEXIT_LITE pop %_ASM_ARG2 /* @flags */ pop %_ASM_ARG1 /* @vmx */ call vmx_spec_ctrl_restore_host /* Put return value in AX */ mov %_ASM_BX, %_ASM_AX pop %_ASM_BX #ifdef CONFIG_X86_64 pop %r12 pop %r13 pop %r14 pop %r15 #else pop %esi pop %edi #endif pop %_ASM_BP RET .Lfixup: cmpb $0, kvm_rebooting jne .Lvmfail ud2 .Lvmfail: /* VM-Fail: set return value to 1 */ mov $1, %_ASM_BX jmp .Lclear_regs SYM_FUNC_END(__vmx_vcpu_run) .section .text, "ax" /** * vmread_error_trampoline - Trampoline from inline asm to vmread_error() * @field: VMCS field encoding that failed * @fault: %true if the VMREAD faulted, %false if it failed * Save and restore volatile registers across a call to vmread_error(). Note, * all parameters are passed on the stack. */ SYM_FUNC_START(vmread_error_trampoline) push %_ASM_BP mov %_ASM_SP, %_ASM_BP push %_ASM_AX push %_ASM_CX push %_ASM_DX #ifdef CONFIG_X86_64 push %rdi push %rsi push %r8 push %r9 push %r10 push %r11 #endif #ifdef CONFIG_X86_64 /* Load @field and @fault to arg1 and arg2 respectively. */ mov 3*WORD_SIZE(%rbp), %_ASM_ARG2 mov 2*WORD_SIZE(%rbp), %_ASM_ARG1 #else /* Parameters are passed on the stack for 32-bit (see asmlinkage). */ push 3*WORD_SIZE(%ebp) push 2*WORD_SIZE(%ebp) #endif call vmread_error #ifndef CONFIG_X86_64 add $8, %esp #endif /* Zero out @fault, which will be popped into the result register. */ _ASM_MOV $0, 3*WORD_SIZE(%_ASM_BP) #ifdef CONFIG_X86_64 pop %r11 pop %r10 pop %r9 pop %r8 pop %rsi pop %rdi #endif pop %_ASM_DX pop %_ASM_CX pop %_ASM_AX pop %_ASM_BP RET SYM_FUNC_END(vmread_error_trampoline) SYM_FUNC_START(vmx_do_interrupt_nmi_irqoff) /* * Unconditionally create a stack frame, getting the correct RSP on the * stack (for x86-64) would take two instructions anyways, and RBP can * be used to restore RSP to make objtool happy (see below). */ push %_ASM_BP mov %_ASM_SP, %_ASM_BP #ifdef CONFIG_X86_64 /* * Align RSP to a 16-byte boundary (to emulate CPU behavior) before * creating the synthetic interrupt stack frame for the IRQ/NMI. */ and $-16, %rsp push $__KERNEL_DS push %rbp #endif pushf push $__KERNEL_CS CALL_NOSPEC _ASM_ARG1 /* * "Restore" RSP from RBP, even though IRET has already unwound RSP to * the correct value. objtool doesn't know the callee will IRET and, * without the explicit restore, thinks the stack is getting walloped. * Using an unwind hint is problematic due to x86-64's dynamic alignment. */ mov %_ASM_BP, %_ASM_SP pop %_ASM_BP RET SYM_FUNC_END(vmx_do_interrupt_nmi_irqoff)