xref: /freebsd/sys/amd64/vmm/intel/vmx_support.S (revision 5f4c09dd85bff675e0ca63c55ea3c517e0fddfcc)
1/*-
2 * SPDX-License-Identifier: BSD-2-Clause
3 *
4 * Copyright (c) 2011 NetApp, Inc.
5 * Copyright (c) 2013 Neel Natu <neel@freebsd.org>
6 * All rights reserved.
7 *
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
10 * are met:
11 * 1. Redistributions of source code must retain the above copyright
12 *    notice, this list of conditions and the following disclaimer.
13 * 2. Redistributions in binary form must reproduce the above copyright
14 *    notice, this list of conditions and the following disclaimer in the
15 *    documentation and/or other materials provided with the distribution.
16 *
17 * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND
18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20 * ARE DISCLAIMED.  IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE
21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27 * SUCH DAMAGE.
28 */
29
30#include <machine/asmacros.h>
31#include <machine/specialreg.h>
32
33#include "vmx_assym.h"
34
35#ifdef SMP
36#define	LK	lock ;
37#else
38#define	LK
39#endif
40
41/* Be friendly to DTrace FBT's prologue/epilogue pattern matching */
42#define VENTER  push %rbp ; mov %rsp,%rbp
43#define VLEAVE  pop %rbp
44
45/*
46 * Save the guest context.
47 */
48#define	VMX_GUEST_SAVE							\
49	movq	%rdi,VMXCTX_GUEST_RDI(%rsp);				\
50	movq	%rsi,VMXCTX_GUEST_RSI(%rsp);				\
51	movq	%rdx,VMXCTX_GUEST_RDX(%rsp);				\
52	movq	%rcx,VMXCTX_GUEST_RCX(%rsp);				\
53	movq	%r8,VMXCTX_GUEST_R8(%rsp);				\
54	movq	%r9,VMXCTX_GUEST_R9(%rsp);				\
55	movq	%rax,VMXCTX_GUEST_RAX(%rsp);				\
56	movq	%rbx,VMXCTX_GUEST_RBX(%rsp);				\
57	movq	%rbp,VMXCTX_GUEST_RBP(%rsp);				\
58	movq	%r10,VMXCTX_GUEST_R10(%rsp);				\
59	movq	%r11,VMXCTX_GUEST_R11(%rsp);				\
60	movq	%r12,VMXCTX_GUEST_R12(%rsp);				\
61	movq	%r13,VMXCTX_GUEST_R13(%rsp);				\
62	movq	%r14,VMXCTX_GUEST_R14(%rsp);				\
63	movq	%r15,VMXCTX_GUEST_R15(%rsp);				\
64	movq	%cr2,%rdi;						\
65	movq	%rdi,VMXCTX_GUEST_CR2(%rsp);				\
66	movq	%rsp,%rdi;
67
68/*
69 * Assumes that %rdi holds a pointer to the 'vmxctx'.
70 *
71 * On "return" all registers are updated to reflect guest state. The two
72 * exceptions are %rip and %rsp. These registers are atomically switched
73 * by hardware from the guest area of the vmcs.
74 *
75 * We modify %rsp to point to the 'vmxctx' so we can use it to restore
76 * host context in case of an error with 'vmlaunch' or 'vmresume'.
77 */
78#define	VMX_GUEST_RESTORE						\
79	movq	%rdi,%rsp;						\
80	movq	VMXCTX_GUEST_CR2(%rdi),%rsi;				\
81	movq	%rsi,%cr2;						\
82	movq	VMXCTX_GUEST_RSI(%rdi),%rsi;				\
83	movq	VMXCTX_GUEST_RDX(%rdi),%rdx;				\
84	movq	VMXCTX_GUEST_RCX(%rdi),%rcx;				\
85	movq	VMXCTX_GUEST_R8(%rdi),%r8;				\
86	movq	VMXCTX_GUEST_R9(%rdi),%r9;				\
87	movq	VMXCTX_GUEST_RAX(%rdi),%rax;				\
88	movq	VMXCTX_GUEST_RBX(%rdi),%rbx;				\
89	movq	VMXCTX_GUEST_RBP(%rdi),%rbp;				\
90	movq	VMXCTX_GUEST_R10(%rdi),%r10;				\
91	movq	VMXCTX_GUEST_R11(%rdi),%r11;				\
92	movq	VMXCTX_GUEST_R12(%rdi),%r12;				\
93	movq	VMXCTX_GUEST_R13(%rdi),%r13;				\
94	movq	VMXCTX_GUEST_R14(%rdi),%r14;				\
95	movq	VMXCTX_GUEST_R15(%rdi),%r15;				\
96	movq	VMXCTX_GUEST_RDI(%rdi),%rdi; /* restore rdi the last */
97
98/*
99 * Clobber the remaining registers with guest contents so they can't
100 * be misused.
101 */
102#define	VMX_GUEST_CLOBBER						\
103	xor	%rax, %rax;						\
104	xor	%rcx, %rcx;						\
105	xor	%rdx, %rdx;						\
106	xor	%rsi, %rsi;						\
107	xor	%r8, %r8;						\
108	xor	%r9, %r9;						\
109	xor	%r10, %r10;						\
110	xor	%r11, %r11;
111
112/*
113 * Save and restore the host context.
114 *
115 * Assumes that %rdi holds a pointer to the 'vmxctx'.
116 */
117#define	VMX_HOST_SAVE							\
118	movq    %r15, VMXCTX_HOST_R15(%rdi);				\
119	movq    %r14, VMXCTX_HOST_R14(%rdi);				\
120	movq    %r13, VMXCTX_HOST_R13(%rdi);				\
121	movq    %r12, VMXCTX_HOST_R12(%rdi);				\
122	movq    %rbp, VMXCTX_HOST_RBP(%rdi);				\
123	movq    %rsp, VMXCTX_HOST_RSP(%rdi);				\
124	movq    %rbx, VMXCTX_HOST_RBX(%rdi);				\
125
126#define	VMX_HOST_RESTORE						\
127	movq	VMXCTX_HOST_R15(%rdi), %r15;				\
128	movq	VMXCTX_HOST_R14(%rdi), %r14;				\
129	movq	VMXCTX_HOST_R13(%rdi), %r13;				\
130	movq	VMXCTX_HOST_R12(%rdi), %r12;				\
131	movq	VMXCTX_HOST_RBP(%rdi), %rbp;				\
132	movq	VMXCTX_HOST_RSP(%rdi), %rsp;				\
133	movq	VMXCTX_HOST_RBX(%rdi), %rbx;				\
134
135/*
136 * vmx_enter_guest(struct vmxctx *vmxctx, int launched)
137 * %rdi: pointer to the 'vmxctx'
138 * %rsi: pointer to the 'vmx'
139 * %edx: launch state of the VMCS
140 * Interrupts must be disabled on entry.
141 */
142ENTRY(vmx_enter_guest)
143	VENTER
144	/*
145	 * Save host state before doing anything else.
146	 */
147	VMX_HOST_SAVE
148
149guest_restore:
150	movl	%edx, %r8d
151	cmpb	$0, guest_l1d_flush_sw(%rip)
152	je	after_l1d
153	call	flush_l1d_sw
154after_l1d:
155	cmpl	$0, %r8d
156	je	do_launch
157	VMX_GUEST_RESTORE
158	vmresume
159	/*
160	 * In the common case 'vmresume' returns back to the host through
161	 * 'vmx_exit_guest' with %rsp pointing to 'vmxctx'.
162	 *
163	 * If there is an error we return VMX_VMRESUME_ERROR to the caller.
164	 */
165	movq	%rsp, %rdi		/* point %rdi back to 'vmxctx' */
166	movl	$VMX_VMRESUME_ERROR, %eax
167	jmp	decode_inst_error
168
169do_launch:
170	VMX_GUEST_RESTORE
171	vmlaunch
172	/*
173	 * In the common case 'vmlaunch' returns back to the host through
174	 * 'vmx_exit_guest' with %rsp pointing to 'vmxctx'.
175	 *
176	 * If there is an error we return VMX_VMLAUNCH_ERROR to the caller.
177	 */
178	movq	%rsp, %rdi		/* point %rdi back to 'vmxctx' */
179	movl	$VMX_VMLAUNCH_ERROR, %eax
180	jmp	decode_inst_error
181
182decode_inst_error:
183	movl	$VM_FAIL_VALID, %r11d
184	jz	inst_error
185	movl	$VM_FAIL_INVALID, %r11d
186inst_error:
187	movl	%r11d, VMXCTX_INST_FAIL_STATUS(%rdi)
188
189	/*
190	 * The return value is already populated in %eax so we cannot use
191	 * it as a scratch register beyond this point.
192	 */
193
194	VMX_HOST_RESTORE
195	VLEAVE
196	ret
197
198/*
199 * Non-error VM-exit from the guest. Make this a label so it can
200 * be used by C code when setting up the VMCS.
201 * The VMCS-restored %rsp points to the struct vmxctx
202 */
203	ALIGN_TEXT
204	.globl	vmx_exit_guest_flush_rsb
205vmx_exit_guest_flush_rsb:
206	/*
207	 * Save guest state that is not automatically saved in the vmcs.
208	 */
209	VMX_GUEST_SAVE
210
211	VMX_HOST_RESTORE
212
213	VMX_GUEST_CLOBBER
214
215	/*
216	 * To prevent malicious branch target predictions from
217	 * affecting the host, overwrite all entries in the RSB upon
218	 * exiting a guest.
219	 */
220	mov	$16, %ecx	/* 16 iterations, two calls per loop */
221	mov	%rsp, %rax
2220:	call	2f		/* create an RSB entry. */
2231:	pause
224	call	1b		/* capture rogue speculation. */
2252:	call	2f		/* create an RSB entry. */
2261:	pause
227	call	1b		/* capture rogue speculation. */
2282:	sub	$1, %ecx
229	jnz	0b
230	mov	%rax, %rsp
231
232	/*
233	 * This will return to the caller of 'vmx_enter_guest()' with a return
234	 * value of VMX_GUEST_VMEXIT.
235	 */
236	movl	$VMX_GUEST_VMEXIT, %eax
237	VLEAVE
238	ret
239
240	.globl	vmx_exit_guest
241vmx_exit_guest:
242	/*
243	 * Save guest state that is not automatically saved in the vmcs.
244	 */
245	VMX_GUEST_SAVE
246
247	VMX_HOST_RESTORE
248
249	VMX_GUEST_CLOBBER
250
251	/*
252	 * This will return to the caller of 'vmx_enter_guest()' with a return
253	 * value of VMX_GUEST_VMEXIT.
254	 */
255	movl	$VMX_GUEST_VMEXIT, %eax
256	VLEAVE
257	ret
258END(vmx_enter_guest)
259
260/*
261 * %rdi = interrupt handler entry point
262 *
263 * Calling sequence described in the "Instruction Set Reference" for the "INT"
264 * instruction in Intel SDM, Vol 2.
265 */
266ENTRY(vmx_call_isr)
267	VENTER
268	mov	%rsp, %r11			/* save %rsp */
269	and	$~0xf, %rsp			/* align on 16-byte boundary */
270	pushq	$KERNEL_SS			/* %ss */
271	pushq	%r11				/* %rsp */
272	pushfq					/* %rflags */
273	pushq	$KERNEL_CS			/* %cs */
274	cli					/* disable interrupts */
275	callq	*%rdi				/* push %rip and call isr */
276	VLEAVE
277	ret
278END(vmx_call_isr)
279