include/asm/sstep.h

b8b572e1SStephen Rothwell/*
b8b572e1SStephen Rothwell * Copyright (C) 2004 Paul Mackerras <paulus@au.ibm.com>, IBM
b8b572e1SStephen Rothwell *
b8b572e1SStephen Rothwell * This program is free software; you can redistribute it and/or
b8b572e1SStephen Rothwell * modify it under the terms of the GNU General Public License
b8b572e1SStephen Rothwell * as published by the Free Software Foundation; either version
b8b572e1SStephen Rothwell * 2 of the License, or (at your option) any later version.
b8b572e1SStephen Rothwell */
b8b572e1SStephen Rothwell
b8b572e1SStephen Rothwellstruct pt_regs;
b8b572e1SStephen Rothwell
b8b572e1SStephen Rothwell/*
b8b572e1SStephen Rothwell * We don't allow single-stepping an mtmsrd that would clear
b8b572e1SStephen Rothwell * MSR_RI, since that would make the exception unrecoverable.
b8b572e1SStephen Rothwell * Since we need to single-step to proceed from a breakpoint,
b8b572e1SStephen Rothwell * we don't allow putting a breakpoint on an mtmsrd instruction.
b8b572e1SStephen Rothwell * Similarly we don't allow breakpoints on rfid instructions.
b8b572e1SStephen Rothwell * These macros tell us if an instruction is a mtmsrd or rfid.
b8b572e1SStephen Rothwell * Note that IS_MTMSRD returns true for both an mtmsr (32-bit)
b8b572e1SStephen Rothwell * and an mtmsrd (64-bit).
b8b572e1SStephen Rothwell */
b8b572e1SStephen Rothwell#define IS_MTMSRD(instr)	(((instr) & 0xfc0007be) == 0x7c000124)
b8b572e1SStephen Rothwell#define IS_RFID(instr)		(((instr) & 0xfc0007fe) == 0x4c000024)
b8b572e1SStephen Rothwell#define IS_RFI(instr)		(((instr) & 0xfc0007fe) == 0x4c000064)
b8b572e1SStephen Rothwell
be96f633SPaul Mackerrasenum instruction_type {
be96f633SPaul Mackerras	COMPUTE,		/* arith/logical/CR op, etc. */
d120cdbcSPaul Mackerras	LOAD,			/* load and store types need to be contiguous */
be96f633SPaul Mackerras	LOAD_MULTI,
be96f633SPaul Mackerras	LOAD_FP,
be96f633SPaul Mackerras	LOAD_VMX,
be96f633SPaul Mackerras	LOAD_VSX,
be96f633SPaul Mackerras	STORE,
be96f633SPaul Mackerras	STORE_MULTI,
be96f633SPaul Mackerras	STORE_FP,
be96f633SPaul Mackerras	STORE_VMX,
be96f633SPaul Mackerras	STORE_VSX,
be96f633SPaul Mackerras	LARX,
be96f633SPaul Mackerras	STCX,
be96f633SPaul Mackerras	BRANCH,
be96f633SPaul Mackerras	MFSPR,
be96f633SPaul Mackerras	MTSPR,
be96f633SPaul Mackerras	CACHEOP,
be96f633SPaul Mackerras	BARRIER,
be96f633SPaul Mackerras	SYSCALL,
be96f633SPaul Mackerras	MFMSR,
be96f633SPaul Mackerras	MTMSR,
be96f633SPaul Mackerras	RFI,
be96f633SPaul Mackerras	INTERRUPT,
be96f633SPaul Mackerras	UNKNOWN
be96f633SPaul Mackerras};
be96f633SPaul Mackerras
be96f633SPaul Mackerras#define INSTR_TYPE_MASK	0x1f
be96f633SPaul Mackerras
d120cdbcSPaul Mackerras#define OP_IS_LOAD_STORE(type)	(LOAD <= (type) && (type) <= STCX)
d120cdbcSPaul Mackerras
3cdfcbfdSPaul Mackerras/* Compute flags, ORed in with type */
3cdfcbfdSPaul Mackerras#define SETREG		0x20
3cdfcbfdSPaul Mackerras#define SETCC		0x40
3cdfcbfdSPaul Mackerras#define SETXER		0x80
3cdfcbfdSPaul Mackerras
3cdfcbfdSPaul Mackerras/* Branch flags, ORed in with type */
3cdfcbfdSPaul Mackerras#define SETLK		0x20
3cdfcbfdSPaul Mackerras#define BRTAKEN		0x40
3cdfcbfdSPaul Mackerras#define DECCTR		0x80
3cdfcbfdSPaul Mackerras
be96f633SPaul Mackerras/* Load/store flags, ORed in with type */
be96f633SPaul Mackerras#define SIGNEXT		0x20
be96f633SPaul Mackerras#define UPDATE		0x40	/* matches bit in opcode 31 instructions */
be96f633SPaul Mackerras#define BYTEREV		0x80
be96f633SPaul Mackerras
3cdfcbfdSPaul Mackerras/* Barrier type field, ORed in with type */
3cdfcbfdSPaul Mackerras#define BARRIER_MASK	0xe0
3cdfcbfdSPaul Mackerras#define BARRIER_SYNC	0x00
3cdfcbfdSPaul Mackerras#define BARRIER_ISYNC	0x20
3cdfcbfdSPaul Mackerras#define BARRIER_EIEIO	0x40
3cdfcbfdSPaul Mackerras#define BARRIER_LWSYNC	0x60
3cdfcbfdSPaul Mackerras#define BARRIER_PTESYNC	0x80
3cdfcbfdSPaul Mackerras
be96f633SPaul Mackerras/* Cacheop values, ORed in with type */
be96f633SPaul Mackerras#define CACHEOP_MASK	0x700
be96f633SPaul Mackerras#define DCBST		0
be96f633SPaul Mackerras#define DCBF		0x100
be96f633SPaul Mackerras#define DCBTST		0x200
be96f633SPaul Mackerras#define DCBT		0x300
cf87c3f6SPaul Mackerras#define ICBI		0x400
be96f633SPaul Mackerras
350779a2SPaul Mackerras/* VSX flags values */
350779a2SPaul Mackerras#define VSX_FPCONV	1	/* do floating point SP/DP conversion */
350779a2SPaul Mackerras#define VSX_SPLAT	2	/* store loaded value into all elements */
350779a2SPaul Mackerras#define VSX_LDLEFT	4	/* load VSX register from left */
350779a2SPaul Mackerras#define VSX_CHECK_VEC	8	/* check MSR_VEC not MSR_VSX for reg >= 32 */
350779a2SPaul Mackerras
be96f633SPaul Mackerras/* Size field in type word */
be96f633SPaul Mackerras#define SIZE(n)		((n) << 8)
be96f633SPaul Mackerras#define GETSIZE(w)	((w) >> 8)
be96f633SPaul Mackerras
be96f633SPaul Mackerras#define MKOP(t, f, s)	((t) | (f) | SIZE(s))
be96f633SPaul Mackerras
be96f633SPaul Mackerrasstruct instruction_op {
be96f633SPaul Mackerras	int type;
be96f633SPaul Mackerras	int reg;
be96f633SPaul Mackerras	unsigned long val;
be96f633SPaul Mackerras	/* For LOAD/STORE/LARX/STCX */
be96f633SPaul Mackerras	unsigned long ea;
be96f633SPaul Mackerras	int update_reg;
be96f633SPaul Mackerras	/* For MFSPR */
be96f633SPaul Mackerras	int spr;
3cdfcbfdSPaul Mackerras	u32 ccval;
3cdfcbfdSPaul Mackerras	u32 xerval;
350779a2SPaul Mackerras	u8 element_size;	/* for VSX/VMX loads/stores */
350779a2SPaul Mackerras	u8 vsx_flags;
350779a2SPaul Mackerras};
350779a2SPaul Mackerras
350779a2SPaul Mackerrasunion vsx_reg {
350779a2SPaul Mackerras	u8	b[16];
350779a2SPaul Mackerras	u16	h[8];
350779a2SPaul Mackerras	u32	w[4];
350779a2SPaul Mackerras	unsigned long d[2];
350779a2SPaul Mackerras	float	fp[4];
350779a2SPaul Mackerras	double	dp[2];
*c22435a5SPaul Mackerras	__vector128 v;
be96f633SPaul Mackerras};
be96f633SPaul Mackerras
3cdfcbfdSPaul Mackerras/*
3cdfcbfdSPaul Mackerras * Decode an instruction, and return information about it in *op
3cdfcbfdSPaul Mackerras * without changing *regs.
3cdfcbfdSPaul Mackerras *
3cdfcbfdSPaul Mackerras * Return value is 1 if the instruction can be emulated just by
3cdfcbfdSPaul Mackerras * updating *regs with the information in *op, -1 if we need the
3cdfcbfdSPaul Mackerras * GPRs but *regs doesn't contain the full register set, or 0
3cdfcbfdSPaul Mackerras * otherwise.
3cdfcbfdSPaul Mackerras */
3cdfcbfdSPaul Mackerrasextern int analyse_instr(struct instruction_op *op, const struct pt_regs *regs,
be96f633SPaul Mackerras			 unsigned int instr);
3cdfcbfdSPaul Mackerras
3cdfcbfdSPaul Mackerras/*
3cdfcbfdSPaul Mackerras * Emulate an instruction that can be executed just by updating
3cdfcbfdSPaul Mackerras * fields in *regs.
3cdfcbfdSPaul Mackerras */
3cdfcbfdSPaul Mackerrasvoid emulate_update_regs(struct pt_regs *reg, struct instruction_op *op);
3cdfcbfdSPaul Mackerras
3cdfcbfdSPaul Mackerras/*
3cdfcbfdSPaul Mackerras * Emulate instructions that cause a transfer of control,
3cdfcbfdSPaul Mackerras * arithmetic/logical instructions, loads and stores,
3cdfcbfdSPaul Mackerras * cache operations and barriers.
3cdfcbfdSPaul Mackerras *
3cdfcbfdSPaul Mackerras * Returns 1 if the instruction was emulated successfully,
3cdfcbfdSPaul Mackerras * 0 if it could not be emulated, or -1 for an instruction that
3cdfcbfdSPaul Mackerras * should not be emulated (rfid, mtmsrd clearing MSR_RI, etc.).
3cdfcbfdSPaul Mackerras */
3cdfcbfdSPaul Mackerrasextern int emulate_step(struct pt_regs *regs, unsigned int instr);
3cdfcbfdSPaul Mackerras
350779a2SPaul Mackerrasextern void emulate_vsx_load(struct instruction_op *op, union vsx_reg *reg,
350779a2SPaul Mackerras			     const void *mem);
350779a2SPaul Mackerrasextern void emulate_vsx_store(struct instruction_op *op, const union vsx_reg *reg,
350779a2SPaul Mackerras			      void *mem);