insn.c 13.8 KB
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/*
 * Copyright (C) 2013 Huawei Ltd.
 * Author: Jiang Liu <liuj97@gmail.com>
 *
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 * Copyright (C) 2014 Zi Shen Lim <zlim.lnx@gmail.com>
 *
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 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
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#include <linux/bitops.h>
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#include <linux/compiler.h>
#include <linux/kernel.h>
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#include <linux/smp.h>
#include <linux/stop_machine.h>
#include <linux/uaccess.h>
#include <asm/cacheflush.h>
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#include <asm/insn.h>

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#define AARCH64_INSN_SF_BIT	BIT(31)

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static int aarch64_insn_encoding_class[] = {
	AARCH64_INSN_CLS_UNKNOWN,
	AARCH64_INSN_CLS_UNKNOWN,
	AARCH64_INSN_CLS_UNKNOWN,
	AARCH64_INSN_CLS_UNKNOWN,
	AARCH64_INSN_CLS_LDST,
	AARCH64_INSN_CLS_DP_REG,
	AARCH64_INSN_CLS_LDST,
	AARCH64_INSN_CLS_DP_FPSIMD,
	AARCH64_INSN_CLS_DP_IMM,
	AARCH64_INSN_CLS_DP_IMM,
	AARCH64_INSN_CLS_BR_SYS,
	AARCH64_INSN_CLS_BR_SYS,
	AARCH64_INSN_CLS_LDST,
	AARCH64_INSN_CLS_DP_REG,
	AARCH64_INSN_CLS_LDST,
	AARCH64_INSN_CLS_DP_FPSIMD,
};

enum aarch64_insn_encoding_class __kprobes aarch64_get_insn_class(u32 insn)
{
	return aarch64_insn_encoding_class[(insn >> 25) & 0xf];
}

/* NOP is an alias of HINT */
bool __kprobes aarch64_insn_is_nop(u32 insn)
{
	if (!aarch64_insn_is_hint(insn))
		return false;

	switch (insn & 0xFE0) {
	case AARCH64_INSN_HINT_YIELD:
	case AARCH64_INSN_HINT_WFE:
	case AARCH64_INSN_HINT_WFI:
	case AARCH64_INSN_HINT_SEV:
	case AARCH64_INSN_HINT_SEVL:
		return false;
	default:
		return true;
	}
}

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/*
 * In ARMv8-A, A64 instructions have a fixed length of 32 bits and are always
 * little-endian.
 */
int __kprobes aarch64_insn_read(void *addr, u32 *insnp)
{
	int ret;
	u32 val;

	ret = probe_kernel_read(&val, addr, AARCH64_INSN_SIZE);
	if (!ret)
		*insnp = le32_to_cpu(val);

	return ret;
}

int __kprobes aarch64_insn_write(void *addr, u32 insn)
{
	insn = cpu_to_le32(insn);
	return probe_kernel_write(addr, &insn, AARCH64_INSN_SIZE);
}

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static bool __kprobes __aarch64_insn_hotpatch_safe(u32 insn)
{
	if (aarch64_get_insn_class(insn) != AARCH64_INSN_CLS_BR_SYS)
		return false;

	return	aarch64_insn_is_b(insn) ||
		aarch64_insn_is_bl(insn) ||
		aarch64_insn_is_svc(insn) ||
		aarch64_insn_is_hvc(insn) ||
		aarch64_insn_is_smc(insn) ||
		aarch64_insn_is_brk(insn) ||
		aarch64_insn_is_nop(insn);
}

/*
 * ARM Architecture Reference Manual for ARMv8 Profile-A, Issue A.a
 * Section B2.6.5 "Concurrent modification and execution of instructions":
 * Concurrent modification and execution of instructions can lead to the
 * resulting instruction performing any behavior that can be achieved by
 * executing any sequence of instructions that can be executed from the
 * same Exception level, except where the instruction before modification
 * and the instruction after modification is a B, BL, NOP, BKPT, SVC, HVC,
 * or SMC instruction.
 */
bool __kprobes aarch64_insn_hotpatch_safe(u32 old_insn, u32 new_insn)
{
	return __aarch64_insn_hotpatch_safe(old_insn) &&
	       __aarch64_insn_hotpatch_safe(new_insn);
}
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int __kprobes aarch64_insn_patch_text_nosync(void *addr, u32 insn)
{
	u32 *tp = addr;
	int ret;

	/* A64 instructions must be word aligned */
	if ((uintptr_t)tp & 0x3)
		return -EINVAL;

	ret = aarch64_insn_write(tp, insn);
	if (ret == 0)
		flush_icache_range((uintptr_t)tp,
				   (uintptr_t)tp + AARCH64_INSN_SIZE);

	return ret;
}

struct aarch64_insn_patch {
	void		**text_addrs;
	u32		*new_insns;
	int		insn_cnt;
	atomic_t	cpu_count;
};

static int __kprobes aarch64_insn_patch_text_cb(void *arg)
{
	int i, ret = 0;
	struct aarch64_insn_patch *pp = arg;

	/* The first CPU becomes master */
	if (atomic_inc_return(&pp->cpu_count) == 1) {
		for (i = 0; ret == 0 && i < pp->insn_cnt; i++)
			ret = aarch64_insn_patch_text_nosync(pp->text_addrs[i],
							     pp->new_insns[i]);
		/*
		 * aarch64_insn_patch_text_nosync() calls flush_icache_range(),
		 * which ends with "dsb; isb" pair guaranteeing global
		 * visibility.
		 */
		atomic_set(&pp->cpu_count, -1);
	} else {
		while (atomic_read(&pp->cpu_count) != -1)
			cpu_relax();
		isb();
	}

	return ret;
}

int __kprobes aarch64_insn_patch_text_sync(void *addrs[], u32 insns[], int cnt)
{
	struct aarch64_insn_patch patch = {
		.text_addrs = addrs,
		.new_insns = insns,
		.insn_cnt = cnt,
		.cpu_count = ATOMIC_INIT(0),
	};

	if (cnt <= 0)
		return -EINVAL;

	return stop_machine(aarch64_insn_patch_text_cb, &patch,
			    cpu_online_mask);
}

int __kprobes aarch64_insn_patch_text(void *addrs[], u32 insns[], int cnt)
{
	int ret;
	u32 insn;

	/* Unsafe to patch multiple instructions without synchronizaiton */
	if (cnt == 1) {
		ret = aarch64_insn_read(addrs[0], &insn);
		if (ret)
			return ret;

		if (aarch64_insn_hotpatch_safe(insn, insns[0])) {
			/*
			 * ARMv8 architecture doesn't guarantee all CPUs see
			 * the new instruction after returning from function
			 * aarch64_insn_patch_text_nosync(). So send IPIs to
			 * all other CPUs to achieve instruction
			 * synchronization.
			 */
			ret = aarch64_insn_patch_text_nosync(addrs[0], insns[0]);
			kick_all_cpus_sync();
			return ret;
		}
	}

	return aarch64_insn_patch_text_sync(addrs, insns, cnt);
}
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u32 __kprobes aarch64_insn_encode_immediate(enum aarch64_insn_imm_type type,
				  u32 insn, u64 imm)
{
	u32 immlo, immhi, lomask, himask, mask;
	int shift;

	switch (type) {
	case AARCH64_INSN_IMM_ADR:
		lomask = 0x3;
		himask = 0x7ffff;
		immlo = imm & lomask;
		imm >>= 2;
		immhi = imm & himask;
		imm = (immlo << 24) | (immhi);
		mask = (lomask << 24) | (himask);
		shift = 5;
		break;
	case AARCH64_INSN_IMM_26:
		mask = BIT(26) - 1;
		shift = 0;
		break;
	case AARCH64_INSN_IMM_19:
		mask = BIT(19) - 1;
		shift = 5;
		break;
	case AARCH64_INSN_IMM_16:
		mask = BIT(16) - 1;
		shift = 5;
		break;
	case AARCH64_INSN_IMM_14:
		mask = BIT(14) - 1;
		shift = 5;
		break;
	case AARCH64_INSN_IMM_12:
		mask = BIT(12) - 1;
		shift = 10;
		break;
	case AARCH64_INSN_IMM_9:
		mask = BIT(9) - 1;
		shift = 12;
		break;
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	case AARCH64_INSN_IMM_7:
		mask = BIT(7) - 1;
		shift = 15;
		break;
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	default:
		pr_err("aarch64_insn_encode_immediate: unknown immediate encoding %d\n",
			type);
		return 0;
	}

	/* Update the immediate field. */
	insn &= ~(mask << shift);
	insn |= (imm & mask) << shift;

	return insn;
}
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static u32 aarch64_insn_encode_register(enum aarch64_insn_register_type type,
					u32 insn,
					enum aarch64_insn_register reg)
{
	int shift;

	if (reg < AARCH64_INSN_REG_0 || reg > AARCH64_INSN_REG_SP) {
		pr_err("%s: unknown register encoding %d\n", __func__, reg);
		return 0;
	}

	switch (type) {
	case AARCH64_INSN_REGTYPE_RT:
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	case AARCH64_INSN_REGTYPE_RD:
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		shift = 0;
		break;
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	case AARCH64_INSN_REGTYPE_RN:
		shift = 5;
		break;
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	case AARCH64_INSN_REGTYPE_RT2:
		shift = 10;
		break;
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	case AARCH64_INSN_REGTYPE_RM:
		shift = 16;
		break;
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	default:
		pr_err("%s: unknown register type encoding %d\n", __func__,
		       type);
		return 0;
	}

	insn &= ~(GENMASK(4, 0) << shift);
	insn |= reg << shift;

	return insn;
}

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static u32 aarch64_insn_encode_ldst_size(enum aarch64_insn_size_type type,
					 u32 insn)
{
	u32 size;

	switch (type) {
	case AARCH64_INSN_SIZE_8:
		size = 0;
		break;
	case AARCH64_INSN_SIZE_16:
		size = 1;
		break;
	case AARCH64_INSN_SIZE_32:
		size = 2;
		break;
	case AARCH64_INSN_SIZE_64:
		size = 3;
		break;
	default:
		pr_err("%s: unknown size encoding %d\n", __func__, type);
		return 0;
	}

	insn &= ~GENMASK(31, 30);
	insn |= size << 30;

	return insn;
}

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static inline long branch_imm_common(unsigned long pc, unsigned long addr,
				     long range)
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{
	long offset;

	/*
	 * PC: A 64-bit Program Counter holding the address of the current
	 * instruction. A64 instructions must be word-aligned.
	 */
	BUG_ON((pc & 0x3) || (addr & 0x3));

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	offset = ((long)addr - (long)pc);
	BUG_ON(offset < -range || offset >= range);

	return offset;
}

u32 __kprobes aarch64_insn_gen_branch_imm(unsigned long pc, unsigned long addr,
					  enum aarch64_insn_branch_type type)
{
	u32 insn;
	long offset;

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	/*
	 * B/BL support [-128M, 128M) offset
	 * ARM64 virtual address arrangement guarantees all kernel and module
	 * texts are within +/-128M.
	 */
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	offset = branch_imm_common(pc, addr, SZ_128M);
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	switch (type) {
	case AARCH64_INSN_BRANCH_LINK:
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		insn = aarch64_insn_get_bl_value();
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		break;
	case AARCH64_INSN_BRANCH_NOLINK:
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		insn = aarch64_insn_get_b_value();
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		break;
	default:
		BUG_ON(1);
	}
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	return aarch64_insn_encode_immediate(AARCH64_INSN_IMM_26, insn,
					     offset >> 2);
}

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u32 aarch64_insn_gen_comp_branch_imm(unsigned long pc, unsigned long addr,
				     enum aarch64_insn_register reg,
				     enum aarch64_insn_variant variant,
				     enum aarch64_insn_branch_type type)
{
	u32 insn;
	long offset;

	offset = branch_imm_common(pc, addr, SZ_1M);

	switch (type) {
	case AARCH64_INSN_BRANCH_COMP_ZERO:
		insn = aarch64_insn_get_cbz_value();
		break;
	case AARCH64_INSN_BRANCH_COMP_NONZERO:
		insn = aarch64_insn_get_cbnz_value();
		break;
	default:
		BUG_ON(1);
	}

	switch (variant) {
	case AARCH64_INSN_VARIANT_32BIT:
		break;
	case AARCH64_INSN_VARIANT_64BIT:
		insn |= AARCH64_INSN_SF_BIT;
		break;
	default:
		BUG_ON(1);
	}

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RT, insn, reg);

	return aarch64_insn_encode_immediate(AARCH64_INSN_IMM_19, insn,
					     offset >> 2);
}

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u32 aarch64_insn_gen_cond_branch_imm(unsigned long pc, unsigned long addr,
				     enum aarch64_insn_condition cond)
{
	u32 insn;
	long offset;

	offset = branch_imm_common(pc, addr, SZ_1M);

	insn = aarch64_insn_get_bcond_value();

	BUG_ON(cond < AARCH64_INSN_COND_EQ || cond > AARCH64_INSN_COND_AL);
	insn |= cond;

	return aarch64_insn_encode_immediate(AARCH64_INSN_IMM_19, insn,
					     offset >> 2);
}

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u32 __kprobes aarch64_insn_gen_hint(enum aarch64_insn_hint_op op)
{
	return aarch64_insn_get_hint_value() | op;
}

u32 __kprobes aarch64_insn_gen_nop(void)
{
	return aarch64_insn_gen_hint(AARCH64_INSN_HINT_NOP);
}
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u32 aarch64_insn_gen_branch_reg(enum aarch64_insn_register reg,
				enum aarch64_insn_branch_type type)
{
	u32 insn;

	switch (type) {
	case AARCH64_INSN_BRANCH_NOLINK:
		insn = aarch64_insn_get_br_value();
		break;
	case AARCH64_INSN_BRANCH_LINK:
		insn = aarch64_insn_get_blr_value();
		break;
	case AARCH64_INSN_BRANCH_RETURN:
		insn = aarch64_insn_get_ret_value();
		break;
	default:
		BUG_ON(1);
	}

	return aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RN, insn, reg);
}
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u32 aarch64_insn_gen_load_store_reg(enum aarch64_insn_register reg,
				    enum aarch64_insn_register base,
				    enum aarch64_insn_register offset,
				    enum aarch64_insn_size_type size,
				    enum aarch64_insn_ldst_type type)
{
	u32 insn;

	switch (type) {
	case AARCH64_INSN_LDST_LOAD_REG_OFFSET:
		insn = aarch64_insn_get_ldr_reg_value();
		break;
	case AARCH64_INSN_LDST_STORE_REG_OFFSET:
		insn = aarch64_insn_get_str_reg_value();
		break;
	default:
		BUG_ON(1);
	}

	insn = aarch64_insn_encode_ldst_size(size, insn);

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RT, insn, reg);

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RN, insn,
					    base);

	return aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RM, insn,
					    offset);
}
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u32 aarch64_insn_gen_load_store_pair(enum aarch64_insn_register reg1,
				     enum aarch64_insn_register reg2,
				     enum aarch64_insn_register base,
				     int offset,
				     enum aarch64_insn_variant variant,
				     enum aarch64_insn_ldst_type type)
{
	u32 insn;
	int shift;

	switch (type) {
	case AARCH64_INSN_LDST_LOAD_PAIR_PRE_INDEX:
		insn = aarch64_insn_get_ldp_pre_value();
		break;
	case AARCH64_INSN_LDST_STORE_PAIR_PRE_INDEX:
		insn = aarch64_insn_get_stp_pre_value();
		break;
	case AARCH64_INSN_LDST_LOAD_PAIR_POST_INDEX:
		insn = aarch64_insn_get_ldp_post_value();
		break;
	case AARCH64_INSN_LDST_STORE_PAIR_POST_INDEX:
		insn = aarch64_insn_get_stp_post_value();
		break;
	default:
		BUG_ON(1);
	}

	switch (variant) {
	case AARCH64_INSN_VARIANT_32BIT:
		/* offset must be multiples of 4 in the range [-256, 252] */
		BUG_ON(offset & 0x3);
		BUG_ON(offset < -256 || offset > 252);
		shift = 2;
		break;
	case AARCH64_INSN_VARIANT_64BIT:
		/* offset must be multiples of 8 in the range [-512, 504] */
		BUG_ON(offset & 0x7);
		BUG_ON(offset < -512 || offset > 504);
		shift = 3;
		insn |= AARCH64_INSN_SF_BIT;
		break;
	default:
		BUG_ON(1);
	}

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RT, insn,
					    reg1);

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RT2, insn,
					    reg2);

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RN, insn,
					    base);

	return aarch64_insn_encode_immediate(AARCH64_INSN_IMM_7, insn,
					     offset >> shift);
}
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u32 aarch64_insn_gen_add_sub_imm(enum aarch64_insn_register dst,
				 enum aarch64_insn_register src,
				 int imm, enum aarch64_insn_variant variant,
				 enum aarch64_insn_adsb_type type)
{
	u32 insn;

	switch (type) {
	case AARCH64_INSN_ADSB_ADD:
		insn = aarch64_insn_get_add_imm_value();
		break;
	case AARCH64_INSN_ADSB_SUB:
		insn = aarch64_insn_get_sub_imm_value();
		break;
	case AARCH64_INSN_ADSB_ADD_SETFLAGS:
		insn = aarch64_insn_get_adds_imm_value();
		break;
	case AARCH64_INSN_ADSB_SUB_SETFLAGS:
		insn = aarch64_insn_get_subs_imm_value();
		break;
	default:
		BUG_ON(1);
	}

	switch (variant) {
	case AARCH64_INSN_VARIANT_32BIT:
		break;
	case AARCH64_INSN_VARIANT_64BIT:
		insn |= AARCH64_INSN_SF_BIT;
		break;
	default:
		BUG_ON(1);
	}

	BUG_ON(imm & ~(SZ_4K - 1));

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RD, insn, dst);

	insn = aarch64_insn_encode_register(AARCH64_INSN_REGTYPE_RN, insn, src);

	return aarch64_insn_encode_immediate(AARCH64_INSN_IMM_12, insn, imm);
}