xref: /openbmc/qemu/tests/tcg/x86_64/system/boot.S (revision e3a99063)
1/*
2 * x86_64 boot and support code
3 *
4 * Copyright 2019 Linaro
5 *
6 * This work is licensed under the terms of the GNU GPL, version 3 or later.
7 * See the COPYING file in the top-level directory.
8 *
9 * Unlike the i386 version we instead use Xen's PVHVM booting header
10 * which should drop us automatically into 32 bit mode ready to go. I've
11 * nabbed bits of the Linux kernel setup to achieve this.
12 *
13 * SPDX-License-Identifier: GPL-3.0-or-later
14 */
15
16        .section .head
17
18#define ELFNOTE_START(name, type, flags)	\
19.pushsection .note.name, flags,@note	;	\
20  .balign 4				;	\
21  .long 2f - 1f		/* namesz */	;	\
22  .long 4484f - 3f	/* descsz */	;	\
23  .long type				;	\
241:.asciz #name				;	\
252:.balign 4				;	\
263:
27
28#define ELFNOTE_END				\
294484:.balign 4				;	\
30.popsection				;
31
32#define ELFNOTE(name, type, desc)		\
33	ELFNOTE_START(name, type, "")		\
34		desc			;	\
35	ELFNOTE_END
36
37#define XEN_ELFNOTE_ENTRY          1
38#define XEN_ELFNOTE_HYPERCALL_PAGE 2
39#define XEN_ELFNOTE_VIRT_BASE      3
40#define XEN_ELFNOTE_PADDR_OFFSET   4
41#define XEN_ELFNOTE_PHYS32_ENTRY  18
42
43#define __ASM_FORM(x)	x
44#define __ASM_SEL(a,b)  __ASM_FORM(b)
45#define _ASM_PTR	__ASM_SEL(.long, .quad)
46
47	ELFNOTE(Xen, XEN_ELFNOTE_VIRT_BASE,      _ASM_PTR 0x100000)
48	ELFNOTE(Xen, XEN_ELFNOTE_ENTRY,          _ASM_PTR _start)
49	ELFNOTE(Xen, XEN_ELFNOTE_PHYS32_ENTRY,   _ASM_PTR _start)    /* entry == virtbase */
50	ELFNOTE(Xen, XEN_ELFNOTE_PADDR_OFFSET,   _ASM_PTR 0)
51
52       /*
53	* Entry point for PVH guests.
54	*
55	* Xen ABI specifies the following register state when we come here:
56	*
57	* - `ebx`: contains the physical memory address where the loader has placed
58	*          the boot start info structure.
59	* - `cr0`: bit 0 (PE) must be set. All the other writeable bits are cleared.
60	* - `cr4`: all bits are cleared.
61	* - `cs `: must be a 32-bit read/execute code segment with a base of ‘0’
62	*          and a limit of ‘0xFFFFFFFF’. The selector value is unspecified.
63	* - `ds`, `es`: must be a 32-bit read/write data segment with a base of
64	*               ‘0’ and a limit of ‘0xFFFFFFFF’. The selector values are all
65	*               unspecified.
66	* - `tr`: must be a 32-bit TSS (active) with a base of '0' and a limit
67	*         of '0x67'.
68	* - `eflags`: bit 17 (VM) must be cleared. Bit 9 (IF) must be cleared.
69	*             Bit 8 (TF) must be cleared. Other bits are all unspecified.
70	*
71	* All other processor registers and flag bits are unspecified. The OS is in
72	* charge of setting up it's own stack, GDT and IDT.
73	*/
74        .code32
75        .section .text
76
77.global _start
78_start:
79	cld
80        lgdt gdtr
81
82        ljmp $0x8,$.Lloadcs
83.Lloadcs:
84        mov $0x10,%eax
85        mov %eax,%ds
86        mov %eax,%es
87        mov %eax,%fs
88        mov %eax,%gs
89        mov %eax,%ss
90
91	/* Enable PAE mode (bit 5). */
92	mov %cr4, %eax
93	btsl $5, %eax
94	mov %eax, %cr4
95
96#define MSR_EFER		0xc0000080 /* extended feature register */
97
98	/* Enable Long mode. */
99	mov $MSR_EFER, %ecx
100	rdmsr
101	btsl $8, %eax
102	wrmsr
103
104	/* Enable paging */
105	mov $.Lpml4, %ecx
106	mov %ecx, %cr3
107
108	mov %cr0, %eax
109	btsl $31, %eax
110	mov %eax, %cr0
111
112	/* Jump to 64-bit mode. */
113        lgdt gdtr64
114        ljmp $0x8,$.Lenter64
115
116        .code64
117        .section .text
118.Lenter64:
119
120
121	// Setup stack ASAP
122	movq $stack_end,%rsp
123
124        /* don't worry about stack frame, assume everthing is garbage when we return */
125	call main
126
127        /* output any non-zero result in eax to isa-debug-exit device */
128        test %al, %al
129        jz 1f
130        out %ax, $0xf4
131
1321:      /* QEMU ACPI poweroff */
133	mov $0x604,%edx
134	mov $0x2000,%eax
135	out %ax,%dx
136	hlt
137	jmp 1b
138
139        /*
140         * Helper Functions
141         *
142         * x86_64 calling convention is rdi, rsi, rdx, rcx, r8, r9
143         */
144
145        /* Output a single character to serial port */
146        .global __sys_outc
147__sys_outc:
148        pushq %rax
149        mov %rax, %rdx
150	out %al,$0xE9
151        popq %rax
152        ret
153
154	/* Interrupt Descriptor Table */
155
156        .section .data
157        .align 16
158
159idt_00: .int 0, 0
160idt_01: .int 0, 0
161idt_02: .int 0, 0
162idt_03: .int 0, 0
163idt_04: .int 0, 0
164idt_05: .int 0, 0
165idt_06: .int 0, 0 /* intr_6_opcode, Invalid Opcode */
166idt_07: .int 0, 0
167idt_08: .int 0, 0
168idt_09: .int 0, 0
169idt_0A: .int 0, 0
170idt_0B: .int 0, 0
171idt_0C: .int 0, 0
172idt_0D: .int 0, 0
173idt_0E: .int 0, 0
174idt_0F: .int 0, 0
175idt_10: .int 0, 0
176idt_11: .int 0, 0
177idt_12: .int 0, 0
178idt_13: .int 0, 0
179idt_14: .int 0, 0
180idt_15: .int 0, 0
181idt_16: .int 0, 0
182idt_17: .int 0, 0
183idt_18: .int 0, 0
184idt_19: .int 0, 0
185idt_1A: .int 0, 0
186idt_1B: .int 0, 0
187idt_1C: .int 0, 0
188idt_1D: .int 0, 0
189idt_1E: .int 0, 0
190idt_1F: .int 0, 0
191
192
193	/*
194	 * Global Descriptor Table (GDT)
195	 *
196	 * This describes various memory areas (segments) through
197	 * segment descriptors. In 32 bit mode each segment each
198	 * segement is associated with segment registers which are
199	 * implicitly (or explicitly) referenced depending on the
200	 * instruction. However in 64 bit mode selectors are flat and
201	 * segmented addressing isn't used.
202	 */
203gdt:
204        .short 0
205gdtr:
206        .short gdt_en - gdt - 1
207        .int gdt
208
209        // Code cs:
210        .short 0xFFFF
211        .short 0
212        .byte 0
213        .byte 0x9b
214        .byte 0xCF
215        .byte 0
216
217        // Data  ds:, ss:, es:, fs:, and gs:
218        .short 0xFFFF
219        .short 0
220        .byte 0
221        .byte 0x93
222        .byte 0xCF
223        .byte 0
224gdt_en:
225
226gdt64:
227        .short 0
228gdtr64:
229        .short gdt64_en - gdt64 - 1
230        .int gdt64
231
232        // Code
233        .short 0xFFFF
234        .short 0
235        .byte 0
236        .byte 0x9b
237        .byte 0xAF
238        .byte 0
239
240        // Data
241        .short 0xFFFF
242        .short 0
243        .byte 0
244        .byte 0x93
245        .byte 0xCF
246        .byte 0
247gdt64_en:
248
249	.section .bss
250        .align 16
251
252stack: .space 65536
253stack_end:
254
255	.section .data
256
257.align 4096
258.Lpd:
259i = 0
260        .rept 512 * 4
261        .quad 0x1e7 | (i << 21)
262        i = i + 1
263        .endr
264
265.align 4096
266.Lpdp:
267        .quad .Lpd + 7 + 0 * 4096 /* 0-1 GB */
268        .quad .Lpd + 7 + 1 * 4096 /* 1-2 GB */
269        .quad .Lpd + 7 + 2 * 4096 /* 2-3 GB */
270        .quad .Lpd + 7 + 3 * 4096 /* 3-4 GB */
271
272.align 4096
273.Lpml4:
274        .quad .Lpdp + 7 /* 0-512 GB */
275