xref: /openbmc/qemu/tests/tcg/aarch64/system/mte.S (revision 7d87775f)
1/*
2 * Code to help test the MTE gdbstubs in system mode.
3 *
4 * Copyright (c) 2024 Linaro Limited
5 *
6 * Author: Gustavo Romero <gustavo.romero@linaro.org>
7 *
8 * SPDX-License-Identifier: LGPL-2.1-or-later
9 */
10
11#define addr		x0 /* Ptr to the start of the MTE-enabled page. */
12#define tagged_addr	x1 /* 'addr' ptr with a random-generated tag added. */
13#define tmp0		x2 /* Scratch register. */
14#define tmp1		x3 /* Scratch register. */
15#define tmp2		x4 /* Scratch register. */
16#define tmp3		x5 /* Sctatch register. */
17
18	.file   "mte.S"
19
20	.text
21	.align 4
22
23	.globl  main
24	.type   main, @function
25
26main:
27	/*
28	 * Set MAIR_EL1 (Memory Attribute Index Register). In boot.S, the
29	 * attribute index for .mte_page is set to point to MAILR_EL field Attr1
30	 * (AttrIndx=Attr1), so set Attr1 as Tagged Normal (MTE) to enable MTE
31	 * on this page.
32	 *
33	 * Attr1 = 0xF0 => Tagged Normal (MTE)
34	 */
35	mrs	tmp0, mair_el1
36	orr	tmp0, tmp0, (0xF0 << 8)
37	msr	mair_el1, tmp0
38
39	/*
40	 * Set TCR_EL1 (Translation Control Registers) to ignore the top byte
41	 * in the translated addresses so it can be used to keep the tags.
42	 *
43	 * TBI0[37] = 0b1 => Top Byte ignored and used for tagged addresses
44	 */
45	mrs	tmp1, tcr_el1
46	orr	tmp1, tmp1, (1 << 37)
47	msr	tcr_el1, tmp1
48
49	/*
50	 * Set SCTLR_EL1 (System Control Register) to enable the use of MTE
51	 * insns., like stg & friends, and to enable synchronous exception in
52	 * case of a tag mismatch, i.e., when the logical tag in 'tagged_addr'
53	 * is different from the allocation tag related to 'addr' address.
54	 *
55	 * ATA[43] = 0b1 => Enable access to allocation tags at EL1
56	 * TCF[41:40] = 0b01 => Tag Check Faults cause a synchronous exception
57	 *
58	 */
59	mrs	tmp2, sctlr_el1
60	mov	tmp3, (1 << 43) | (1 << 40)
61	orr	tmp2, tmp2, tmp3
62	msr	sctlr_el1, tmp2
63
64	isb
65
66	/*
67	 * MTE-enabled page resides at the 3rd 2MB chunk in the second 1GB
68	 * block, i.e., at 0x40400000 address. See .mte_page section in boot.S
69	 * and kernel.ld (where the address is effectively computed).
70	 *
71	 * Load .mte_page address into 'addr' register.
72	 */
73	adrp	addr, mte_page
74	add	addr, addr, :lo12:mte_page
75
76	/*
77	 * Set GCR for random tag generation. 0xA5 is just a random value to set
78	 * GCR != 0 so the tag generated by 'irg' insn. is not zero, which is
79	 * more interesting for the tests than when tag is zero.
80	 */
81	mov	tmp0, 0xA5
82	msr	gcr_el1, tmp0
83
84	/*
85	 * Generate a logical tag, add it to 'addr' address and put it into
86	 * 'tagged_addr'.
87	 */
88	irg	tagged_addr, addr
89
90	/*
91	 * Store the generated tag to memory region pointed to by 'addr', i.e.
92	 * set the allocation tag for granule at 'addr'. The tag is extracted
93	 * by stg from tagged_addr pointer.
94	 */
95	stg	tagged_addr, [addr]
96
97	/*
98	 * Store a random value (0xdeadbeef) to tagged_addr address. This must
99	 * not cause any Tag Check Fault since logical tag in tagged_addr and
100	 * allocation tag associated with the memory pointed by tagged_addr are
101	 * set the same, otherwise something is off and the test fails -- an
102	 * exception is generated.
103	 */
104	ldr	tmp1, =0xdeadbeef
105	str	tmp1, [tagged_addr]
106
107	/* This label is used by GDB Python script test-mte.py. */
108main_end:
109	ret
110