arch/x86/coco/tdx/tdcall.S - third_party/kernel - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 */
 #include <asm/asm-offsets.h>
 #include <asm/asm.h>
 #include <asm/frame.h>
 #include <asm/unwind_hints.h>

 #include <linux/linkage.h>
 #include <linux/bits.h>
 #include <linux/errno.h>

 #include "../../virt/vmx/tdx/tdxcall.S"

 /*
  * Bitmasks of exposed registers (with VMM).
  */
 #define TDX_R10		BIT(10)
 #define TDX_R11		BIT(11)
 #define TDX_R12		BIT(12)
 #define TDX_R13		BIT(13)
 #define TDX_R14		BIT(14)
 #define TDX_R15		BIT(15)

 /*
  * These registers are clobbered to hold arguments for each
  * TDVMCALL. They are safe to expose to the VMM.
  * Each bit in this mask represents a register ID. Bit field
  * details can be found in TDX GHCI specification, section
  * titled "TDCALL [TDG.VP.VMCALL] leaf".
  */
 #define TDVMCALL_EXPOSE_REGS_MASK	( TDX_R10 | TDX_R11 | \
 					  TDX_R12 | TDX_R13 | \
 					  TDX_R14 | TDX_R15 )

 /*
  * __tdx_module_call()  - Used by TDX guests to request services from
  * the TDX module (does not include VMM services) using TDCALL instruction.
  *
  * Transforms function call register arguments into the TDCALL register ABI.
  * After TDCALL operation, TDX module output is saved in @out (if it is
  * provided by the user).
  *
  *-------------------------------------------------------------------------
  * TDCALL ABI:
  *-------------------------------------------------------------------------
  * Input Registers:
  *
  * RAX                 - TDCALL Leaf number.
  * RCX,RDX,R8-R9       - TDCALL Leaf specific input registers.
  *
  * Output Registers:
  *
  * RAX                 - TDCALL instruction error code.
  * RCX,RDX,R8-R11      - TDCALL Leaf specific output registers.
  *
  *-------------------------------------------------------------------------
  *
  * __tdx_module_call() function ABI:
  *
  * @fn  (RDI)          - TDCALL Leaf ID,    moved to RAX
  * @rcx (RSI)          - Input parameter 1, moved to RCX
  * @rdx (RDX)          - Input parameter 2, moved to RDX
  * @r8  (RCX)          - Input parameter 3, moved to R8
  * @r9  (R8)           - Input parameter 4, moved to R9
  *
  * @out (R9)           - struct tdx_module_output pointer
  *                       stored temporarily in R12 (not
  *                       shared with the TDX module). It
  *                       can be NULL.
  *
  * Return status of TDCALL via RAX.
  */
 SYM_FUNC_START(__tdx_module_call)
 	FRAME_BEGIN
 	TDX_MODULE_CALL host=0
 	FRAME_END
 	RET
 SYM_FUNC_END(__tdx_module_call)

 /*
  * __tdx_hypercall() - Make hypercalls to a TDX VMM using TDVMCALL leaf
  * of TDCALL instruction
  *
  * Transforms values in  function call argument struct tdx_hypercall_args @args
  * into the TDCALL register ABI. After TDCALL operation, VMM output is saved
  * back in @args.
  *
  *-------------------------------------------------------------------------
  * TD VMCALL ABI:
  *-------------------------------------------------------------------------
  *
  * Input Registers:
  *
  * RAX                 - TDCALL instruction leaf number (0 - TDG.VP.VMCALL)
  * RCX                 - BITMAP which controls which part of TD Guest GPR
  *                       is passed as-is to the VMM and back.
  * R10                 - Set 0 to indicate TDCALL follows standard TDX ABI
  *                       specification. Non zero value indicates vendor
  *                       specific ABI.
  * R11                 - VMCALL sub function number
  * RBX, RBP, RDI, RSI  - Used to pass VMCALL sub function specific arguments.
  * R8-R9, R12-R15      - Same as above.
  *
  * Output Registers:
  *
  * RAX                 - TDCALL instruction status (Not related to hypercall
  *                        output).
  * R10                 - Hypercall output error code.
  * R11-R15             - Hypercall sub function specific output values.
  *
  *-------------------------------------------------------------------------
  *
  * __tdx_hypercall() function ABI:
  *
  * @args  (RDI)        - struct tdx_hypercall_args for input and output
  * @flags (RSI)        - TDX_HCALL_* flags
  *
  * On successful completion, return the hypercall error code.
  */
 SYM_FUNC_START(__tdx_hypercall)
 	FRAME_BEGIN

 	/* Save callee-saved GPRs as mandated by the x86_64 ABI */
 	push %r15
 	push %r14
 	push %r13
 	push %r12

 	/* Mangle function call ABI into TDCALL ABI: */
 	/* Set TDCALL leaf ID (TDVMCALL (0)) in RAX */
 	xor %eax, %eax

 	/* Copy hypercall registers from arg struct: */
 	movq TDX_HYPERCALL_r10(%rdi), %r10
 	movq TDX_HYPERCALL_r11(%rdi), %r11
 	movq TDX_HYPERCALL_r12(%rdi), %r12
 	movq TDX_HYPERCALL_r13(%rdi), %r13
 	movq TDX_HYPERCALL_r14(%rdi), %r14
 	movq TDX_HYPERCALL_r15(%rdi), %r15

 	movl $TDVMCALL_EXPOSE_REGS_MASK, %ecx

 	/*
 	 * For the idle loop STI needs to be called directly before the TDCALL
 	 * that enters idle (EXIT_REASON_HLT case). STI instruction enables
 	 * interrupts only one instruction later. If there is a window between
 	 * STI and the instruction that emulates the HALT state, there is a
 	 * chance for interrupts to happen in this window, which can delay the
 	 * HLT operation indefinitely. Since this is the not the desired
 	 * result, conditionally call STI before TDCALL.
 	 */
 	testq $TDX_HCALL_ISSUE_STI, %rsi
 	jz .Lskip_sti
 	sti
 .Lskip_sti:
 	tdcall

 	/*
 	 * RAX==0 indicates a failure of the TDVMCALL mechanism itself and that
 	 * something has gone horribly wrong with the TDX module.
 	 *
 	 * The return status of the hypercall operation is in a separate
 	 * register (in R10). Hypercall errors are a part of normal operation
 	 * and are handled by callers.
 	 */
 	testq %rax, %rax
 	jne .Lpanic

 	/* TDVMCALL leaf return code is in R10 */
 	movq %r10, %rax

 	/* Copy hypercall result registers to arg struct if needed */
 	testq $TDX_HCALL_HAS_OUTPUT, %rsi
 	jz .Lout

 	movq %r10, TDX_HYPERCALL_r10(%rdi)
 	movq %r11, TDX_HYPERCALL_r11(%rdi)
 	movq %r12, TDX_HYPERCALL_r12(%rdi)
 	movq %r13, TDX_HYPERCALL_r13(%rdi)
 	movq %r14, TDX_HYPERCALL_r14(%rdi)
 	movq %r15, TDX_HYPERCALL_r15(%rdi)
 .Lout:
 	/*
 	 * Zero out registers exposed to the VMM to avoid speculative execution
 	 * with VMM-controlled values. This needs to include all registers
 	 * present in TDVMCALL_EXPOSE_REGS_MASK (except R12-R15). R12-R15
 	 * context will be restored.
 	 */
 	xor %r10d, %r10d
 	xor %r11d, %r11d

 	/* Restore callee-saved GPRs as mandated by the x86_64 ABI */
 	pop %r12
 	pop %r13
 	pop %r14
 	pop %r15

 	FRAME_END

 	RET
 .Lpanic:
 	call __tdx_hypercall_failed
 	/* __tdx_hypercall_failed never returns */
 	jmp .Lpanic
 SYM_FUNC_END(__tdx_hypercall)
	/* SPDX-License-Identifier: GPL-2.0 */
	#include <asm/asm-offsets.h>
	#include <asm/asm.h>
	#include <asm/frame.h>
	#include <asm/unwind_hints.h>

	#include <linux/linkage.h>
	#include <linux/bits.h>
	#include <linux/errno.h>

	#include "../../virt/vmx/tdx/tdxcall.S"

	/*
	* Bitmasks of exposed registers (with VMM).
	*/
	#define TDX_R10 BIT(10)
	#define TDX_R11 BIT(11)
	#define TDX_R12 BIT(12)
	#define TDX_R13 BIT(13)
	#define TDX_R14 BIT(14)
	#define TDX_R15 BIT(15)

	/*
	* These registers are clobbered to hold arguments for each
	* TDVMCALL. They are safe to expose to the VMM.
	* Each bit in this mask represents a register ID. Bit field
	* details can be found in TDX GHCI specification, section
	* titled "TDCALL [TDG.VP.VMCALL] leaf".
	*/
	#define TDVMCALL_EXPOSE_REGS_MASK ( TDX_R10 \| TDX_R11 \| \
	TDX_R12 \| TDX_R13 \| \
	TDX_R14 \| TDX_R15 )

	/*
	* __tdx_module_call() - Used by TDX guests to request services from
	* the TDX module (does not include VMM services) using TDCALL instruction.
	*
	* Transforms function call register arguments into the TDCALL register ABI.
	* After TDCALL operation, TDX module output is saved in @out (if it is
	* provided by the user).
	*
	*-------------------------------------------------------------------------
	* TDCALL ABI:
	*-------------------------------------------------------------------------
	* Input Registers:
	*
	* RAX - TDCALL Leaf number.
	* RCX,RDX,R8-R9 - TDCALL Leaf specific input registers.
	*
	* Output Registers:
	*
	* RAX - TDCALL instruction error code.
	* RCX,RDX,R8-R11 - TDCALL Leaf specific output registers.
	*
	*-------------------------------------------------------------------------
	*
	* __tdx_module_call() function ABI:
	*
	* @fn (RDI) - TDCALL Leaf ID, moved to RAX
	* @rcx (RSI) - Input parameter 1, moved to RCX
	* @rdx (RDX) - Input parameter 2, moved to RDX
	* @r8 (RCX) - Input parameter 3, moved to R8
	* @r9 (R8) - Input parameter 4, moved to R9
	*
	* @out (R9) - struct tdx_module_output pointer
	* stored temporarily in R12 (not
	* shared with the TDX module). It
	* can be NULL.
	*
	* Return status of TDCALL via RAX.
	*/
	SYM_FUNC_START(__tdx_module_call)
	FRAME_BEGIN
	TDX_MODULE_CALL host=0
	FRAME_END
	RET
	SYM_FUNC_END(__tdx_module_call)

	/*
	* __tdx_hypercall() - Make hypercalls to a TDX VMM using TDVMCALL leaf
	* of TDCALL instruction
	*
	* Transforms values in function call argument struct tdx_hypercall_args @args
	* into the TDCALL register ABI. After TDCALL operation, VMM output is saved
	* back in @args.
	*
	*-------------------------------------------------------------------------
	* TD VMCALL ABI:
	*-------------------------------------------------------------------------
	*
	* Input Registers:
	*
	* RAX - TDCALL instruction leaf number (0 - TDG.VP.VMCALL)
	* RCX - BITMAP which controls which part of TD Guest GPR
	* is passed as-is to the VMM and back.
	* R10 - Set 0 to indicate TDCALL follows standard TDX ABI
	* specification. Non zero value indicates vendor
	* specific ABI.
	* R11 - VMCALL sub function number
	* RBX, RBP, RDI, RSI - Used to pass VMCALL sub function specific arguments.
	* R8-R9, R12-R15 - Same as above.
	*
	* Output Registers:
	*
	* RAX - TDCALL instruction status (Not related to hypercall
	* output).
	* R10 - Hypercall output error code.
	* R11-R15 - Hypercall sub function specific output values.
	*
	*-------------------------------------------------------------------------
	*
	* __tdx_hypercall() function ABI:
	*
	* @args (RDI) - struct tdx_hypercall_args for input and output
	* @flags (RSI) - TDX_HCALL_* flags
	*
	* On successful completion, return the hypercall error code.
	*/
	SYM_FUNC_START(__tdx_hypercall)
	FRAME_BEGIN

	/* Save callee-saved GPRs as mandated by the x86_64 ABI */
	push %r15
	push %r14
	push %r13
	push %r12

	/* Mangle function call ABI into TDCALL ABI: */
	/* Set TDCALL leaf ID (TDVMCALL (0)) in RAX */
	xor %eax, %eax

	/* Copy hypercall registers from arg struct: */
	movq TDX_HYPERCALL_r10(%rdi), %r10
	movq TDX_HYPERCALL_r11(%rdi), %r11
	movq TDX_HYPERCALL_r12(%rdi), %r12
	movq TDX_HYPERCALL_r13(%rdi), %r13
	movq TDX_HYPERCALL_r14(%rdi), %r14
	movq TDX_HYPERCALL_r15(%rdi), %r15

	movl $TDVMCALL_EXPOSE_REGS_MASK, %ecx

	/*
	* For the idle loop STI needs to be called directly before the TDCALL
	* that enters idle (EXIT_REASON_HLT case). STI instruction enables
	* interrupts only one instruction later. If there is a window between
	* STI and the instruction that emulates the HALT state, there is a
	* chance for interrupts to happen in this window, which can delay the
	* HLT operation indefinitely. Since this is the not the desired
	* result, conditionally call STI before TDCALL.
	*/
	testq $TDX_HCALL_ISSUE_STI, %rsi
	jz .Lskip_sti
	sti
	.Lskip_sti:
	tdcall

	/*
	* RAX==0 indicates a failure of the TDVMCALL mechanism itself and that
	* something has gone horribly wrong with the TDX module.
	*
	* The return status of the hypercall operation is in a separate
	* register (in R10). Hypercall errors are a part of normal operation
	* and are handled by callers.
	*/
	testq %rax, %rax
	jne .Lpanic

	/* TDVMCALL leaf return code is in R10 */
	movq %r10, %rax

	/* Copy hypercall result registers to arg struct if needed */
	testq $TDX_HCALL_HAS_OUTPUT, %rsi
	jz .Lout

	movq %r10, TDX_HYPERCALL_r10(%rdi)
	movq %r11, TDX_HYPERCALL_r11(%rdi)
	movq %r12, TDX_HYPERCALL_r12(%rdi)
	movq %r13, TDX_HYPERCALL_r13(%rdi)
	movq %r14, TDX_HYPERCALL_r14(%rdi)
	movq %r15, TDX_HYPERCALL_r15(%rdi)
	.Lout:
	/*
	* Zero out registers exposed to the VMM to avoid speculative execution
	* with VMM-controlled values. This needs to include all registers
	* present in TDVMCALL_EXPOSE_REGS_MASK (except R12-R15). R12-R15
	* context will be restored.
	*/
	xor %r10d, %r10d
	xor %r11d, %r11d

	/* Restore callee-saved GPRs as mandated by the x86_64 ABI */
	pop %r12
	pop %r13
	pop %r14
	pop %r15

	FRAME_END

	RET
	.Lpanic:
	call __tdx_hypercall_failed
	/* __tdx_hypercall_failed never returns */
	jmp .Lpanic
	SYM_FUNC_END(__tdx_hypercall)