cp1emu.c 54.0 KB
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/*
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 * cp1emu.c: a MIPS coprocessor 1 (FPU) instruction emulator
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 *
 * MIPS floating point support
 * Copyright (C) 1994-2000 Algorithmics Ltd.
 *
 * Kevin D. Kissell, kevink@mips.com and Carsten Langgaard, carstenl@mips.com
 * Copyright (C) 2000  MIPS Technologies, Inc.
 *
 *  This program is free software; you can distribute 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 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, write to the Free Software Foundation, Inc.,
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 *  51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA.
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 *
 * A complete emulator for MIPS coprocessor 1 instructions.  This is
 * required for #float(switch) or #float(trap), where it catches all
 * COP1 instructions via the "CoProcessor Unusable" exception.
 *
 * More surprisingly it is also required for #float(ieee), to help out
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 * the hardware FPU at the boundaries of the IEEE-754 representation
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 * (denormalised values, infinities, underflow, etc).  It is made
 * quite nasty because emulation of some non-COP1 instructions is
 * required, e.g. in branch delay slots.
 *
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 * Note if you know that you won't have an FPU, then you'll get much
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 * better performance by compiling with -msoft-float!
 */
#include <linux/sched.h>
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#include <linux/debugfs.h>
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#include <linux/kconfig.h>
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#include <linux/percpu-defs.h>
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#include <linux/perf_event.h>
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#include <asm/branch.h>
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#include <asm/inst.h>
#include <asm/ptrace.h>
#include <asm/signal.h>
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#include <asm/uaccess.h>

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#include <asm/cpu-info.h>
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#include <asm/processor.h>
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#include <asm/fpu_emulator.h>
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#include <asm/fpu.h>
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#include <asm/mips-r2-to-r6-emul.h>
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#include "ieee754.h"

/* Function which emulates a floating point instruction. */

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static int fpu_emu(struct pt_regs *, struct mips_fpu_struct *,
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	mips_instruction);

static int fpux_emu(struct pt_regs *,
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	struct mips_fpu_struct *, mips_instruction, void *__user *);
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/* Control registers */

#define FPCREG_RID	0	/* $0  = revision id */
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#define FPCREG_FCCR	25	/* $25 = fccr */
#define FPCREG_FEXR	26	/* $26 = fexr */
#define FPCREG_FENR	28	/* $28 = fenr */
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#define FPCREG_CSR	31	/* $31 = csr */

/* convert condition code register number to csr bit */
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const unsigned int fpucondbit[8] = {
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	FPU_CSR_COND,
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	FPU_CSR_COND1,
	FPU_CSR_COND2,
	FPU_CSR_COND3,
	FPU_CSR_COND4,
	FPU_CSR_COND5,
	FPU_CSR_COND6,
	FPU_CSR_COND7
};

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/* (microMIPS) Convert certain microMIPS instructions to MIPS32 format. */
static const int sd_format[] = {16, 17, 0, 0, 0, 0, 0, 0};
static const int sdps_format[] = {16, 17, 22, 0, 0, 0, 0, 0};
static const int dwl_format[] = {17, 20, 21, 0, 0, 0, 0, 0};
static const int swl_format[] = {16, 20, 21, 0, 0, 0, 0, 0};

/*
 * This functions translates a 32-bit microMIPS instruction
 * into a 32-bit MIPS32 instruction. Returns 0 on success
 * and SIGILL otherwise.
 */
static int microMIPS32_to_MIPS32(union mips_instruction *insn_ptr)
{
	union mips_instruction insn = *insn_ptr;
	union mips_instruction mips32_insn = insn;
	int func, fmt, op;

	switch (insn.mm_i_format.opcode) {
	case mm_ldc132_op:
		mips32_insn.mm_i_format.opcode = ldc1_op;
		mips32_insn.mm_i_format.rt = insn.mm_i_format.rs;
		mips32_insn.mm_i_format.rs = insn.mm_i_format.rt;
		break;
	case mm_lwc132_op:
		mips32_insn.mm_i_format.opcode = lwc1_op;
		mips32_insn.mm_i_format.rt = insn.mm_i_format.rs;
		mips32_insn.mm_i_format.rs = insn.mm_i_format.rt;
		break;
	case mm_sdc132_op:
		mips32_insn.mm_i_format.opcode = sdc1_op;
		mips32_insn.mm_i_format.rt = insn.mm_i_format.rs;
		mips32_insn.mm_i_format.rs = insn.mm_i_format.rt;
		break;
	case mm_swc132_op:
		mips32_insn.mm_i_format.opcode = swc1_op;
		mips32_insn.mm_i_format.rt = insn.mm_i_format.rs;
		mips32_insn.mm_i_format.rs = insn.mm_i_format.rt;
		break;
	case mm_pool32i_op:
		/* NOTE: offset is << by 1 if in microMIPS mode. */
		if ((insn.mm_i_format.rt == mm_bc1f_op) ||
		    (insn.mm_i_format.rt == mm_bc1t_op)) {
			mips32_insn.fb_format.opcode = cop1_op;
			mips32_insn.fb_format.bc = bc_op;
			mips32_insn.fb_format.flag =
				(insn.mm_i_format.rt == mm_bc1t_op) ? 1 : 0;
		} else
			return SIGILL;
		break;
	case mm_pool32f_op:
		switch (insn.mm_fp0_format.func) {
		case mm_32f_01_op:
		case mm_32f_11_op:
		case mm_32f_02_op:
		case mm_32f_12_op:
		case mm_32f_41_op:
		case mm_32f_51_op:
		case mm_32f_42_op:
		case mm_32f_52_op:
			op = insn.mm_fp0_format.func;
			if (op == mm_32f_01_op)
				func = madd_s_op;
			else if (op == mm_32f_11_op)
				func = madd_d_op;
			else if (op == mm_32f_02_op)
				func = nmadd_s_op;
			else if (op == mm_32f_12_op)
				func = nmadd_d_op;
			else if (op == mm_32f_41_op)
				func = msub_s_op;
			else if (op == mm_32f_51_op)
				func = msub_d_op;
			else if (op == mm_32f_42_op)
				func = nmsub_s_op;
			else
				func = nmsub_d_op;
			mips32_insn.fp6_format.opcode = cop1x_op;
			mips32_insn.fp6_format.fr = insn.mm_fp6_format.fr;
			mips32_insn.fp6_format.ft = insn.mm_fp6_format.ft;
			mips32_insn.fp6_format.fs = insn.mm_fp6_format.fs;
			mips32_insn.fp6_format.fd = insn.mm_fp6_format.fd;
			mips32_insn.fp6_format.func = func;
			break;
		case mm_32f_10_op:
			func = -1;	/* Invalid */
			op = insn.mm_fp5_format.op & 0x7;
			if (op == mm_ldxc1_op)
				func = ldxc1_op;
			else if (op == mm_sdxc1_op)
				func = sdxc1_op;
			else if (op == mm_lwxc1_op)
				func = lwxc1_op;
			else if (op == mm_swxc1_op)
				func = swxc1_op;

			if (func != -1) {
				mips32_insn.r_format.opcode = cop1x_op;
				mips32_insn.r_format.rs =
					insn.mm_fp5_format.base;
				mips32_insn.r_format.rt =
					insn.mm_fp5_format.index;
				mips32_insn.r_format.rd = 0;
				mips32_insn.r_format.re = insn.mm_fp5_format.fd;
				mips32_insn.r_format.func = func;
			} else
				return SIGILL;
			break;
		case mm_32f_40_op:
			op = -1;	/* Invalid */
			if (insn.mm_fp2_format.op == mm_fmovt_op)
				op = 1;
			else if (insn.mm_fp2_format.op == mm_fmovf_op)
				op = 0;
			if (op != -1) {
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt =
					sdps_format[insn.mm_fp2_format.fmt];
				mips32_insn.fp0_format.ft =
					(insn.mm_fp2_format.cc<<2) + op;
				mips32_insn.fp0_format.fs =
					insn.mm_fp2_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp2_format.fd;
				mips32_insn.fp0_format.func = fmovc_op;
			} else
				return SIGILL;
			break;
		case mm_32f_60_op:
			func = -1;	/* Invalid */
			if (insn.mm_fp0_format.op == mm_fadd_op)
				func = fadd_op;
			else if (insn.mm_fp0_format.op == mm_fsub_op)
				func = fsub_op;
			else if (insn.mm_fp0_format.op == mm_fmul_op)
				func = fmul_op;
			else if (insn.mm_fp0_format.op == mm_fdiv_op)
				func = fdiv_op;
			if (func != -1) {
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt =
					sdps_format[insn.mm_fp0_format.fmt];
				mips32_insn.fp0_format.ft =
					insn.mm_fp0_format.ft;
				mips32_insn.fp0_format.fs =
					insn.mm_fp0_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp0_format.fd;
				mips32_insn.fp0_format.func = func;
			} else
				return SIGILL;
			break;
		case mm_32f_70_op:
			func = -1;	/* Invalid */
			if (insn.mm_fp0_format.op == mm_fmovn_op)
				func = fmovn_op;
			else if (insn.mm_fp0_format.op == mm_fmovz_op)
				func = fmovz_op;
			if (func != -1) {
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt =
					sdps_format[insn.mm_fp0_format.fmt];
				mips32_insn.fp0_format.ft =
					insn.mm_fp0_format.ft;
				mips32_insn.fp0_format.fs =
					insn.mm_fp0_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp0_format.fd;
				mips32_insn.fp0_format.func = func;
			} else
				return SIGILL;
			break;
		case mm_32f_73_op:    /* POOL32FXF */
			switch (insn.mm_fp1_format.op) {
			case mm_movf0_op:
			case mm_movf1_op:
			case mm_movt0_op:
			case mm_movt1_op:
				if ((insn.mm_fp1_format.op & 0x7f) ==
				    mm_movf0_op)
					op = 0;
				else
					op = 1;
				mips32_insn.r_format.opcode = spec_op;
				mips32_insn.r_format.rs = insn.mm_fp4_format.fs;
				mips32_insn.r_format.rt =
					(insn.mm_fp4_format.cc << 2) + op;
				mips32_insn.r_format.rd = insn.mm_fp4_format.rt;
				mips32_insn.r_format.re = 0;
				mips32_insn.r_format.func = movc_op;
				break;
			case mm_fcvtd0_op:
			case mm_fcvtd1_op:
			case mm_fcvts0_op:
			case mm_fcvts1_op:
				if ((insn.mm_fp1_format.op & 0x7f) ==
				    mm_fcvtd0_op) {
					func = fcvtd_op;
					fmt = swl_format[insn.mm_fp3_format.fmt];
				} else {
					func = fcvts_op;
					fmt = dwl_format[insn.mm_fp3_format.fmt];
				}
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt = fmt;
				mips32_insn.fp0_format.ft = 0;
				mips32_insn.fp0_format.fs =
					insn.mm_fp3_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp3_format.rt;
				mips32_insn.fp0_format.func = func;
				break;
			case mm_fmov0_op:
			case mm_fmov1_op:
			case mm_fabs0_op:
			case mm_fabs1_op:
			case mm_fneg0_op:
			case mm_fneg1_op:
				if ((insn.mm_fp1_format.op & 0x7f) ==
				    mm_fmov0_op)
					func = fmov_op;
				else if ((insn.mm_fp1_format.op & 0x7f) ==
					 mm_fabs0_op)
					func = fabs_op;
				else
					func = fneg_op;
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt =
					sdps_format[insn.mm_fp3_format.fmt];
				mips32_insn.fp0_format.ft = 0;
				mips32_insn.fp0_format.fs =
					insn.mm_fp3_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp3_format.rt;
				mips32_insn.fp0_format.func = func;
				break;
			case mm_ffloorl_op:
			case mm_ffloorw_op:
			case mm_fceill_op:
			case mm_fceilw_op:
			case mm_ftruncl_op:
			case mm_ftruncw_op:
			case mm_froundl_op:
			case mm_froundw_op:
			case mm_fcvtl_op:
			case mm_fcvtw_op:
				if (insn.mm_fp1_format.op == mm_ffloorl_op)
					func = ffloorl_op;
				else if (insn.mm_fp1_format.op == mm_ffloorw_op)
					func = ffloor_op;
				else if (insn.mm_fp1_format.op == mm_fceill_op)
					func = fceill_op;
				else if (insn.mm_fp1_format.op == mm_fceilw_op)
					func = fceil_op;
				else if (insn.mm_fp1_format.op == mm_ftruncl_op)
					func = ftruncl_op;
				else if (insn.mm_fp1_format.op == mm_ftruncw_op)
					func = ftrunc_op;
				else if (insn.mm_fp1_format.op == mm_froundl_op)
					func = froundl_op;
				else if (insn.mm_fp1_format.op == mm_froundw_op)
					func = fround_op;
				else if (insn.mm_fp1_format.op == mm_fcvtl_op)
					func = fcvtl_op;
				else
					func = fcvtw_op;
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt =
					sd_format[insn.mm_fp1_format.fmt];
				mips32_insn.fp0_format.ft = 0;
				mips32_insn.fp0_format.fs =
					insn.mm_fp1_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp1_format.rt;
				mips32_insn.fp0_format.func = func;
				break;
			case mm_frsqrt_op:
			case mm_fsqrt_op:
			case mm_frecip_op:
				if (insn.mm_fp1_format.op == mm_frsqrt_op)
					func = frsqrt_op;
				else if (insn.mm_fp1_format.op == mm_fsqrt_op)
					func = fsqrt_op;
				else
					func = frecip_op;
				mips32_insn.fp0_format.opcode = cop1_op;
				mips32_insn.fp0_format.fmt =
					sdps_format[insn.mm_fp1_format.fmt];
				mips32_insn.fp0_format.ft = 0;
				mips32_insn.fp0_format.fs =
					insn.mm_fp1_format.fs;
				mips32_insn.fp0_format.fd =
					insn.mm_fp1_format.rt;
				mips32_insn.fp0_format.func = func;
				break;
			case mm_mfc1_op:
			case mm_mtc1_op:
			case mm_cfc1_op:
			case mm_ctc1_op:
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			case mm_mfhc1_op:
			case mm_mthc1_op:
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				if (insn.mm_fp1_format.op == mm_mfc1_op)
					op = mfc_op;
				else if (insn.mm_fp1_format.op == mm_mtc1_op)
					op = mtc_op;
				else if (insn.mm_fp1_format.op == mm_cfc1_op)
					op = cfc_op;
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				else if (insn.mm_fp1_format.op == mm_ctc1_op)
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					op = ctc_op;
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				else if (insn.mm_fp1_format.op == mm_mfhc1_op)
					op = mfhc_op;
				else
					op = mthc_op;
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				mips32_insn.fp1_format.opcode = cop1_op;
				mips32_insn.fp1_format.op = op;
				mips32_insn.fp1_format.rt =
					insn.mm_fp1_format.rt;
				mips32_insn.fp1_format.fs =
					insn.mm_fp1_format.fs;
				mips32_insn.fp1_format.fd = 0;
				mips32_insn.fp1_format.func = 0;
				break;
			default:
				return SIGILL;
			}
			break;
		case mm_32f_74_op:	/* c.cond.fmt */
			mips32_insn.fp0_format.opcode = cop1_op;
			mips32_insn.fp0_format.fmt =
				sdps_format[insn.mm_fp4_format.fmt];
			mips32_insn.fp0_format.ft = insn.mm_fp4_format.rt;
			mips32_insn.fp0_format.fs = insn.mm_fp4_format.fs;
			mips32_insn.fp0_format.fd = insn.mm_fp4_format.cc << 2;
			mips32_insn.fp0_format.func =
				insn.mm_fp4_format.cond | MM_MIPS32_COND_FC;
			break;
		default:
			return SIGILL;
		}
		break;
	default:
		return SIGILL;
	}

	*insn_ptr = mips32_insn;
	return 0;
}

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/*
 * Redundant with logic already in kernel/branch.c,
 * embedded in compute_return_epc.  At some point,
 * a single subroutine should be used across both
 * modules.
 */
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static int isBranchInstr(struct pt_regs *regs, struct mm_decoded_insn dec_insn,
			 unsigned long *contpc)
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{
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	union mips_instruction insn = (union mips_instruction)dec_insn.insn;
	unsigned int fcr31;
	unsigned int bit = 0;

	switch (insn.i_format.opcode) {
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	case spec_op:
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		switch (insn.r_format.func) {
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		case jalr_op:
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			regs->regs[insn.r_format.rd] =
				regs->cp0_epc + dec_insn.pc_inc +
				dec_insn.next_pc_inc;
			/* Fall through */
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		case jr_op:
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			/* For R6, JR already emulated in jalr_op */
			if (NO_R6EMU && insn.r_format.opcode == jr_op)
				break;
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			*contpc = regs->regs[insn.r_format.rs];
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			return 1;
		}
		break;
	case bcond_op:
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		switch (insn.i_format.rt) {
		case bltzal_op:
		case bltzall_op:
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			if (NO_R6EMU && (insn.i_format.rs ||
			    insn.i_format.rt == bltzall_op))
				break;

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			regs->regs[31] = regs->cp0_epc +
				dec_insn.pc_inc +
				dec_insn.next_pc_inc;
			/* Fall through */
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		case bltzl_op:
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			if (NO_R6EMU)
				break;
		case bltz_op:
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			if ((long)regs->regs[insn.i_format.rs] < 0)
				*contpc = regs->cp0_epc +
					dec_insn.pc_inc +
					(insn.i_format.simmediate << 2);
			else
				*contpc = regs->cp0_epc +
					dec_insn.pc_inc +
					dec_insn.next_pc_inc;
			return 1;
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		case bgezal_op:
		case bgezall_op:
487 488 489 490
			if (NO_R6EMU && (insn.i_format.rs ||
			    insn.i_format.rt == bgezall_op))
				break;

491 492 493 494 495
			regs->regs[31] = regs->cp0_epc +
				dec_insn.pc_inc +
				dec_insn.next_pc_inc;
			/* Fall through */
		case bgezl_op:
496 497 498
			if (NO_R6EMU)
				break;
		case bgez_op:
499 500 501 502 503 504 505 506
			if ((long)regs->regs[insn.i_format.rs] >= 0)
				*contpc = regs->cp0_epc +
					dec_insn.pc_inc +
					(insn.i_format.simmediate << 2);
			else
				*contpc = regs->cp0_epc +
					dec_insn.pc_inc +
					dec_insn.next_pc_inc;
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			return 1;
		}
		break;
	case jalx_op:
511 512 513 514 515 516 517 518 519 520 521 522 523 524
		set_isa16_mode(bit);
	case jal_op:
		regs->regs[31] = regs->cp0_epc +
			dec_insn.pc_inc +
			dec_insn.next_pc_inc;
		/* Fall through */
	case j_op:
		*contpc = regs->cp0_epc + dec_insn.pc_inc;
		*contpc >>= 28;
		*contpc <<= 28;
		*contpc |= (insn.j_format.target << 2);
		/* Set microMIPS mode bit: XOR for jalx. */
		*contpc ^= bit;
		return 1;
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	case beql_op:
526 527 528
		if (NO_R6EMU)
			break;
	case beq_op:
529 530 531 532 533 534 535 536 537 538
		if (regs->regs[insn.i_format.rs] ==
		    regs->regs[insn.i_format.rt])
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				(insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				dec_insn.next_pc_inc;
		return 1;
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	case bnel_op:
540 541 542
		if (NO_R6EMU)
			break;
	case bne_op:
543 544 545 546 547 548 549 550 551 552
		if (regs->regs[insn.i_format.rs] !=
		    regs->regs[insn.i_format.rt])
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				(insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				dec_insn.next_pc_inc;
		return 1;
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	case blezl_op:
554 555 556
		if (NO_R6EMU)
			break;
	case blez_op:
557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580

		/*
		 * Compact branches for R6 for the
		 * blez and blezl opcodes.
		 * BLEZ  | rs = 0 | rt != 0  == BLEZALC
		 * BLEZ  | rs = rt != 0      == BGEZALC
		 * BLEZ  | rs != 0 | rt != 0 == BGEUC
		 * BLEZL | rs = 0 | rt != 0  == BLEZC
		 * BLEZL | rs = rt != 0      == BGEZC
		 * BLEZL | rs != 0 | rt != 0 == BGEC
		 *
		 * For real BLEZ{,L}, rt is always 0.
		 */
		if (cpu_has_mips_r6 && insn.i_format.rt) {
			if ((insn.i_format.opcode == blez_op) &&
			    ((!insn.i_format.rs && insn.i_format.rt) ||
			     (insn.i_format.rs == insn.i_format.rt)))
				regs->regs[31] = regs->cp0_epc +
					dec_insn.pc_inc;
			*contpc = regs->cp0_epc + dec_insn.pc_inc +
				dec_insn.next_pc_inc;

			return 1;
		}
581 582 583 584 585 586 587 588 589
		if ((long)regs->regs[insn.i_format.rs] <= 0)
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				(insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				dec_insn.next_pc_inc;
		return 1;
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	case bgtzl_op:
591 592 593
		if (NO_R6EMU)
			break;
	case bgtz_op:
594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618
		/*
		 * Compact branches for R6 for the
		 * bgtz and bgtzl opcodes.
		 * BGTZ  | rs = 0 | rt != 0  == BGTZALC
		 * BGTZ  | rs = rt != 0      == BLTZALC
		 * BGTZ  | rs != 0 | rt != 0 == BLTUC
		 * BGTZL | rs = 0 | rt != 0  == BGTZC
		 * BGTZL | rs = rt != 0      == BLTZC
		 * BGTZL | rs != 0 | rt != 0 == BLTC
		 *
		 * *ZALC varint for BGTZ &&& rt != 0
		 * For real GTZ{,L}, rt is always 0.
		 */
		if (cpu_has_mips_r6 && insn.i_format.rt) {
			if ((insn.i_format.opcode == blez_op) &&
			    ((!insn.i_format.rs && insn.i_format.rt) ||
			     (insn.i_format.rs == insn.i_format.rt)))
				regs->regs[31] = regs->cp0_epc +
					dec_insn.pc_inc;
			*contpc = regs->cp0_epc + dec_insn.pc_inc +
				dec_insn.next_pc_inc;

			return 1;
		}

619 620 621 622 623 624 625 626
		if ((long)regs->regs[insn.i_format.rs] > 0)
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				(insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc +
				dec_insn.pc_inc +
				dec_insn.next_pc_inc;
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		return 1;
628
	case cbcond0_op:
629
	case cbcond1_op:
630 631 632 633 634 635 636 637
		if (!cpu_has_mips_r6)
			break;
		if (insn.i_format.rt && !insn.i_format.rs)
			regs->regs[31] = regs->cp0_epc + 4;
		*contpc = regs->cp0_epc + dec_insn.pc_inc +
			dec_insn.next_pc_inc;

		return 1;
638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662
#ifdef CONFIG_CPU_CAVIUM_OCTEON
	case lwc2_op: /* This is bbit0 on Octeon */
		if ((regs->regs[insn.i_format.rs] & (1ull<<insn.i_format.rt)) == 0)
			*contpc = regs->cp0_epc + 4 + (insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc + 8;
		return 1;
	case ldc2_op: /* This is bbit032 on Octeon */
		if ((regs->regs[insn.i_format.rs] & (1ull<<(insn.i_format.rt + 32))) == 0)
			*contpc = regs->cp0_epc + 4 + (insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc + 8;
		return 1;
	case swc2_op: /* This is bbit1 on Octeon */
		if (regs->regs[insn.i_format.rs] & (1ull<<insn.i_format.rt))
			*contpc = regs->cp0_epc + 4 + (insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc + 8;
		return 1;
	case sdc2_op: /* This is bbit132 on Octeon */
		if (regs->regs[insn.i_format.rs] & (1ull<<(insn.i_format.rt + 32)))
			*contpc = regs->cp0_epc + 4 + (insn.i_format.simmediate << 2);
		else
			*contpc = regs->cp0_epc + 8;
		return 1;
663 664 665 666 667 668 669 670 671 672 673 674
#else
	case bc6_op:
		/*
		 * Only valid for MIPS R6 but we can still end up
		 * here from a broken userland so just tell emulator
		 * this is not a branch and let it break later on.
		 */
		if  (!cpu_has_mips_r6)
			break;
		*contpc = regs->cp0_epc + dec_insn.pc_inc +
			dec_insn.next_pc_inc;

675 676 677 678 679 680 681 682
		return 1;
	case balc6_op:
		if (!cpu_has_mips_r6)
			break;
		regs->regs[31] = regs->cp0_epc + 4;
		*contpc = regs->cp0_epc + dec_insn.pc_inc +
			dec_insn.next_pc_inc;

683 684 685 686 687 688 689
		return 1;
	case beqzcjic_op:
		if (!cpu_has_mips_r6)
			break;
		*contpc = regs->cp0_epc + dec_insn.pc_inc +
			dec_insn.next_pc_inc;

690 691 692 693 694 695 696 697 698
		return 1;
	case bnezcjialc_op:
		if (!cpu_has_mips_r6)
			break;
		if (!insn.i_format.rs)
			regs->regs[31] = regs->cp0_epc + 4;
		*contpc = regs->cp0_epc + dec_insn.pc_inc +
			dec_insn.next_pc_inc;

699
		return 1;
700
#endif
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	case cop0_op:
	case cop1_op:
703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729
		/* Need to check for R6 bc1nez and bc1eqz branches */
		if (cpu_has_mips_r6 &&
		    ((insn.i_format.rs == bc1eqz_op) ||
		     (insn.i_format.rs == bc1nez_op))) {
			bit = 0;
			switch (insn.i_format.rs) {
			case bc1eqz_op:
				if (get_fpr32(&current->thread.fpu.fpr[insn.i_format.rt], 0) & 0x1)
				    bit = 1;
				break;
			case bc1nez_op:
				if (!(get_fpr32(&current->thread.fpu.fpr[insn.i_format.rt], 0) & 0x1))
				    bit = 1;
				break;
			}
			if (bit)
				*contpc = regs->cp0_epc +
					dec_insn.pc_inc +
					(insn.i_format.simmediate << 2);
			else
				*contpc = regs->cp0_epc +
					dec_insn.pc_inc +
					dec_insn.next_pc_inc;

			return 1;
		}
		/* R2/R6 compatible cop1 instruction. Fall through */
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	case cop2_op:
	case cop1x_op:
732 733 734
		if (insn.i_format.rs == bc_op) {
			preempt_disable();
			if (is_fpu_owner())
735
			        fcr31 = read_32bit_cp1_register(CP1_STATUS);
736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767
			else
				fcr31 = current->thread.fpu.fcr31;
			preempt_enable();

			bit = (insn.i_format.rt >> 2);
			bit += (bit != 0);
			bit += 23;
			switch (insn.i_format.rt & 3) {
			case 0:	/* bc1f */
			case 2:	/* bc1fl */
				if (~fcr31 & (1 << bit))
					*contpc = regs->cp0_epc +
						dec_insn.pc_inc +
						(insn.i_format.simmediate << 2);
				else
					*contpc = regs->cp0_epc +
						dec_insn.pc_inc +
						dec_insn.next_pc_inc;
				return 1;
			case 1:	/* bc1t */
			case 3:	/* bc1tl */
				if (fcr31 & (1 << bit))
					*contpc = regs->cp0_epc +
						dec_insn.pc_inc +
						(insn.i_format.simmediate << 2);
				else
					*contpc = regs->cp0_epc +
						dec_insn.pc_inc +
						dec_insn.next_pc_inc;
				return 1;
			}
		}
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		break;
	}
	return 0;
}

/*
 * In the Linux kernel, we support selection of FPR format on the
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 * basis of the Status.FR bit.	If an FPU is not present, the FR bit
776
 * is hardwired to zero, which would imply a 32-bit FPU even for
777
 * 64-bit CPUs so we rather look at TIF_32BIT_FPREGS.
778 779 780
 * FPU emu is slow and bulky and optimizing this function offers fairly
 * sizeable benefits so we try to be clever and make this function return
 * a constant whenever possible, that is on 64-bit kernels without O32
781
 * compatibility enabled and on 32-bit without 64-bit FPU support.
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 */
783 784
static inline int cop1_64bit(struct pt_regs *xcp)
{
785 786 787 788 789 790
	if (config_enabled(CONFIG_64BIT) && !config_enabled(CONFIG_MIPS32_O32))
		return 1;
	else if (config_enabled(CONFIG_32BIT) &&
		 !config_enabled(CONFIG_MIPS_O32_FP64_SUPPORT))
		return 0;

791
	return !test_thread_flag(TIF_32BIT_FPREGS);
792 793
}

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static inline bool hybrid_fprs(void)
{
	return test_thread_flag(TIF_HYBRID_FPREGS);
}

799 800
#define SIFROMREG(si, x)						\
do {									\
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	if (cop1_64bit(xcp) && !hybrid_fprs())				\
802
		(si) = (int)get_fpr32(&ctx->fpr[x], 0);			\
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	else								\
804
		(si) = (int)get_fpr32(&ctx->fpr[(x) & ~1], (x) & 1);	\
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} while (0)
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807 808
#define SITOREG(si, x)							\
do {									\
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	if (cop1_64bit(xcp) && !hybrid_fprs()) {			\
810
		unsigned i;						\
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		set_fpr32(&ctx->fpr[x], 0, si);				\
812 813 814
		for (i = 1; i < ARRAY_SIZE(ctx->fpr[x].val32); i++)	\
			set_fpr32(&ctx->fpr[x], i, 0);			\
	} else {							\
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		set_fpr32(&ctx->fpr[(x) & ~1], (x) & 1, si);		\
816
	}								\
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} while (0)
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819
#define SIFROMHREG(si, x)	((si) = (int)get_fpr32(&ctx->fpr[x], 1))
820

821 822
#define SITOHREG(si, x)							\
do {									\
823 824 825 826 827
	unsigned i;							\
	set_fpr32(&ctx->fpr[x], 1, si);					\
	for (i = 2; i < ARRAY_SIZE(ctx->fpr[x].val32); i++)		\
		set_fpr32(&ctx->fpr[x], i, 0);				\
} while (0)
828

829
#define DIFROMREG(di, x)						\
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	((di) = get_fpr64(&ctx->fpr[(x) & ~(cop1_64bit(xcp) == 0)], 0))

832 833
#define DITOREG(di, x)							\
do {									\
834 835 836 837 838 839
	unsigned fpr, i;						\
	fpr = (x) & ~(cop1_64bit(xcp) == 0);				\
	set_fpr64(&ctx->fpr[fpr], 0, di);				\
	for (i = 1; i < ARRAY_SIZE(ctx->fpr[x].val64); i++)		\
		set_fpr64(&ctx->fpr[fpr], i, 0);			\
} while (0)
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841 842 843 844
#define SPFROMREG(sp, x) SIFROMREG((sp).bits, x)
#define SPTOREG(sp, x)	SITOREG((sp).bits, x)
#define DPFROMREG(dp, x)	DIFROMREG((dp).bits, x)
#define DPTOREG(dp, x)	DITOREG((dp).bits, x)
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846 847 848 849 850 851
/*
 * Emulate a CFC1 instruction.
 */
static inline void cop1_cfc(struct pt_regs *xcp, struct mips_fpu_struct *ctx,
			    mips_instruction ir)
{
852 853
	u32 fcr31 = ctx->fcr31;
	u32 value = 0;
854

855 856 857
	switch (MIPSInst_RD(ir)) {
	case FPCREG_CSR:
		value = fcr31;
858
		pr_debug("%p gpr[%d]<-csr=%08x\n",
859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		break;

	case FPCREG_FENR:
		if (!cpu_has_mips_r)
			break;
		value = (fcr31 >> (FPU_CSR_FS_S - MIPS_FENR_FS_S)) &
			MIPS_FENR_FS;
		value |= fcr31 & (FPU_CSR_ALL_E | FPU_CSR_RM);
		pr_debug("%p gpr[%d]<-enr=%08x\n",
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		break;

	case FPCREG_FEXR:
		if (!cpu_has_mips_r)
			break;
		value = fcr31 & (FPU_CSR_ALL_X | FPU_CSR_ALL_S);
		pr_debug("%p gpr[%d]<-exr=%08x\n",
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		break;

	case FPCREG_FCCR:
		if (!cpu_has_mips_r)
			break;
		value = (fcr31 >> (FPU_CSR_COND_S - MIPS_FCCR_COND0_S)) &
			MIPS_FCCR_COND0;
		value |= (fcr31 >> (FPU_CSR_COND1_S - MIPS_FCCR_COND1_S)) &
			 (MIPS_FCCR_CONDX & ~MIPS_FCCR_COND0);
		pr_debug("%p gpr[%d]<-ccr=%08x\n",
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		break;

	case FPCREG_RID:
892
		value = current_cpu_data.fpu_id;
893 894 895 896 897 898
		break;

	default:
		break;
	}

899 900 901 902 903 904 905 906 907 908
	if (MIPSInst_RT(ir))
		xcp->regs[MIPSInst_RT(ir)] = value;
}

/*
 * Emulate a CTC1 instruction.
 */
static inline void cop1_ctc(struct pt_regs *xcp, struct mips_fpu_struct *ctx,
			    mips_instruction ir)
{
909
	u32 fcr31 = ctx->fcr31;
910 911 912 913 914 915 916
	u32 value;

	if (MIPSInst_RT(ir) == 0)
		value = 0;
	else
		value = xcp->regs[MIPSInst_RT(ir)];

917 918
	switch (MIPSInst_RD(ir)) {
	case FPCREG_CSR:
919
		pr_debug("%p gpr[%d]->csr=%08x\n",
920
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
921

922 923 924
		/* Don't write unsupported bits.  */
		fcr31 = value &
			~(FPU_CSR_RSVD | FPU_CSR_ABS2008 | FPU_CSR_NAN2008);
925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960
		break;

	case FPCREG_FENR:
		if (!cpu_has_mips_r)
			break;
		pr_debug("%p gpr[%d]->enr=%08x\n",
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		fcr31 &= ~(FPU_CSR_FS | FPU_CSR_ALL_E | FPU_CSR_RM);
		fcr31 |= (value << (FPU_CSR_FS_S - MIPS_FENR_FS_S)) &
			 FPU_CSR_FS;
		fcr31 |= value & (FPU_CSR_ALL_E | FPU_CSR_RM);
		break;

	case FPCREG_FEXR:
		if (!cpu_has_mips_r)
			break;
		pr_debug("%p gpr[%d]->exr=%08x\n",
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		fcr31 &= ~(FPU_CSR_ALL_X | FPU_CSR_ALL_S);
		fcr31 |= value & (FPU_CSR_ALL_X | FPU_CSR_ALL_S);
		break;

	case FPCREG_FCCR:
		if (!cpu_has_mips_r)
			break;
		pr_debug("%p gpr[%d]->ccr=%08x\n",
			 (void *)xcp->cp0_epc, MIPSInst_RT(ir), value);
		fcr31 &= ~(FPU_CSR_CONDX | FPU_CSR_COND);
		fcr31 |= (value << (FPU_CSR_COND_S - MIPS_FCCR_COND0_S)) &
			 FPU_CSR_COND;
		fcr31 |= (value << (FPU_CSR_COND1_S - MIPS_FCCR_COND1_S)) &
			 FPU_CSR_CONDX;
		break;

	default:
		break;
961
	}
962 963

	ctx->fcr31 = fcr31;
964 965
}

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/*
 * Emulate the single floating point instruction pointed at by EPC.
 * Two instructions if the instruction is in a branch delay slot.
 */

971
static int cop1Emulate(struct pt_regs *xcp, struct mips_fpu_struct *ctx,
972
		struct mm_decoded_insn dec_insn, void *__user *fault_addr)
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{
974
	unsigned long contpc = xcp->cp0_epc + dec_insn.pc_inc;
975 976 977 978 979 980 981 982
	unsigned int cond, cbit;
	mips_instruction ir;
	int likely, pc_inc;
	u32 __user *wva;
	u64 __user *dva;
	u32 wval;
	u64 dval;
	int sig;
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984 985 986 987 988 989 990
	/*
	 * These are giving gcc a gentle hint about what to expect in
	 * dec_inst in order to do better optimization.
	 */
	if (!cpu_has_mmips && dec_insn.micro_mips_mode)
		unreachable();

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991
	/* XXX NEC Vr54xx bug workaround */
992
	if (delay_slot(xcp)) {
993 994
		if (dec_insn.micro_mips_mode) {
			if (!mm_isBranchInstr(xcp, dec_insn, &contpc))
995
				clear_delay_slot(xcp);
996 997
		} else {
			if (!isBranchInstr(xcp, dec_insn, &contpc))
998
				clear_delay_slot(xcp);
999 1000
		}
	}
L
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1001

1002
	if (delay_slot(xcp)) {
L
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1003 1004
		/*
		 * The instruction to be emulated is in a branch delay slot
R
Ralf Baechle 已提交
1005
		 * which means that we have to	emulate the branch instruction
L
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1006 1007 1008 1009 1010 1011 1012 1013 1014
		 * BEFORE we do the cop1 instruction.
		 *
		 * This branch could be a COP1 branch, but in that case we
		 * would have had a trap for that instruction, and would not
		 * come through this route.
		 *
		 * Linux MIPS branch emulator operates on context, updating the
		 * cp0_epc.
		 */
1015 1016 1017 1018 1019 1020
		ir = dec_insn.next_insn;  /* process delay slot instr */
		pc_inc = dec_insn.next_pc_inc;
	} else {
		ir = dec_insn.insn;       /* process current instr */
		pc_inc = dec_insn.pc_inc;
	}
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1021

1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040
	/*
	 * Since microMIPS FPU instructios are a subset of MIPS32 FPU
	 * instructions, we want to convert microMIPS FPU instructions
	 * into MIPS32 instructions so that we could reuse all of the
	 * FPU emulation code.
	 *
	 * NOTE: We cannot do this for branch instructions since they
	 *       are not a subset. Example: Cannot emulate a 16-bit
	 *       aligned target address with a MIPS32 instruction.
	 */
	if (dec_insn.micro_mips_mode) {
		/*
		 * If next instruction is a 16-bit instruction, then it
		 * it cannot be a FPU instruction. This could happen
		 * since we can be called for non-FPU instructions.
		 */
		if ((pc_inc == 2) ||
			(microMIPS32_to_MIPS32((union mips_instruction *)&ir)
			 == SIGILL))
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1041 1042 1043
			return SIGILL;
	}

1044
emul:
1045
	perf_sw_event(PERF_COUNT_SW_EMULATION_FAULTS, 1, xcp, 0);
1046
	MIPS_FPU_EMU_INC_STATS(emulated);
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	switch (MIPSInst_OPCODE(ir)) {
1048 1049 1050
	case ldc1_op:
		dva = (u64 __user *) (xcp->regs[MIPSInst_RS(ir)] +
				     MIPSInst_SIMM(ir));
1051
		MIPS_FPU_EMU_INC_STATS(loads);
1052

1053
		if (!access_ok(VERIFY_READ, dva, sizeof(u64))) {
1054
			MIPS_FPU_EMU_INC_STATS(errors);
1055
			*fault_addr = dva;
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1056 1057
			return SIGBUS;
		}
1058
		if (__get_user(dval, dva)) {
1059
			MIPS_FPU_EMU_INC_STATS(errors);
1060
			*fault_addr = dva;
1061 1062
			return SIGSEGV;
		}
1063
		DITOREG(dval, MIPSInst_RT(ir));
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		break;

1066 1067 1068
	case sdc1_op:
		dva = (u64 __user *) (xcp->regs[MIPSInst_RS(ir)] +
				      MIPSInst_SIMM(ir));
1069
		MIPS_FPU_EMU_INC_STATS(stores);
1070 1071
		DIFROMREG(dval, MIPSInst_RT(ir));
		if (!access_ok(VERIFY_WRITE, dva, sizeof(u64))) {
1072
			MIPS_FPU_EMU_INC_STATS(errors);
1073
			*fault_addr = dva;
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1074 1075
			return SIGBUS;
		}
1076
		if (__put_user(dval, dva)) {
1077
			MIPS_FPU_EMU_INC_STATS(errors);
1078
			*fault_addr = dva;
1079 1080
			return SIGSEGV;
		}
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		break;

1083 1084 1085
	case lwc1_op:
		wva = (u32 __user *) (xcp->regs[MIPSInst_RS(ir)] +
				      MIPSInst_SIMM(ir));
1086
		MIPS_FPU_EMU_INC_STATS(loads);
1087
		if (!access_ok(VERIFY_READ, wva, sizeof(u32))) {
1088
			MIPS_FPU_EMU_INC_STATS(errors);
1089
			*fault_addr = wva;
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1090 1091
			return SIGBUS;
		}
1092
		if (__get_user(wval, wva)) {
1093
			MIPS_FPU_EMU_INC_STATS(errors);
1094
			*fault_addr = wva;
1095 1096
			return SIGSEGV;
		}
1097
		SITOREG(wval, MIPSInst_RT(ir));
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1098 1099
		break;

1100 1101 1102
	case swc1_op:
		wva = (u32 __user *) (xcp->regs[MIPSInst_RS(ir)] +
				      MIPSInst_SIMM(ir));
1103
		MIPS_FPU_EMU_INC_STATS(stores);
1104 1105
		SIFROMREG(wval, MIPSInst_RT(ir));
		if (!access_ok(VERIFY_WRITE, wva, sizeof(u32))) {
1106
			MIPS_FPU_EMU_INC_STATS(errors);
1107
			*fault_addr = wva;
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1108 1109
			return SIGBUS;
		}
1110
		if (__put_user(wval, wva)) {
1111
			MIPS_FPU_EMU_INC_STATS(errors);
1112
			*fault_addr = wva;
1113 1114
			return SIGSEGV;
		}
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1115 1116 1117 1118 1119
		break;

	case cop1_op:
		switch (MIPSInst_RS(ir)) {
		case dmfc_op:
1120 1121 1122
			if (!cpu_has_mips_3_4_5 && !cpu_has_mips64)
				return SIGILL;

L
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1123 1124 1125 1126 1127 1128 1129 1130
			/* copregister fs -> gpr[rt] */
			if (MIPSInst_RT(ir) != 0) {
				DIFROMREG(xcp->regs[MIPSInst_RT(ir)],
					MIPSInst_RD(ir));
			}
			break;

		case dmtc_op:
1131 1132 1133
			if (!cpu_has_mips_3_4_5 && !cpu_has_mips64)
				return SIGILL;

L
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1134 1135 1136 1137
			/* copregister fs <- rt */
			DITOREG(xcp->regs[MIPSInst_RT(ir)], MIPSInst_RD(ir));
			break;

1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156
		case mfhc_op:
			if (!cpu_has_mips_r2)
				goto sigill;

			/* copregister rd -> gpr[rt] */
			if (MIPSInst_RT(ir) != 0) {
				SIFROMHREG(xcp->regs[MIPSInst_RT(ir)],
					MIPSInst_RD(ir));
			}
			break;

		case mthc_op:
			if (!cpu_has_mips_r2)
				goto sigill;

			/* copregister rd <- gpr[rt] */
			SITOHREG(xcp->regs[MIPSInst_RT(ir)], MIPSInst_RD(ir));
			break;

L
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1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169
		case mfc_op:
			/* copregister rd -> gpr[rt] */
			if (MIPSInst_RT(ir) != 0) {
				SIFROMREG(xcp->regs[MIPSInst_RT(ir)],
					MIPSInst_RD(ir));
			}
			break;

		case mtc_op:
			/* copregister rd <- rt */
			SITOREG(xcp->regs[MIPSInst_RT(ir)], MIPSInst_RD(ir));
			break;

1170
		case cfc_op:
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1171
			/* cop control register rd -> gpr[rt] */
1172
			cop1_cfc(xcp, ctx, ir);
L
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1173 1174
			break;

1175
		case ctc_op:
L
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1176
			/* copregister rd <- rt */
1177
			cop1_ctc(xcp, ctx, ir);
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1178 1179 1180 1181 1182
			if ((ctx->fcr31 >> 5) & ctx->fcr31 & FPU_CSR_ALL_E) {
				return SIGFPE;
			}
			break;

1183
		case bc_op:
1184
			if (delay_slot(xcp))
L
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1185 1186
				return SIGILL;

1187 1188 1189 1190 1191 1192
			if (cpu_has_mips_4_5_r)
				cbit = fpucondbit[MIPSInst_RT(ir) >> 2];
			else
				cbit = FPU_CSR_COND;
			cond = ctx->fcr31 & cbit;

1193
			likely = 0;
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1194 1195
			switch (MIPSInst_RT(ir) & 3) {
			case bcfl_op:
1196 1197 1198
				if (cpu_has_mips_2_3_4_5_r)
					likely = 1;
				/* Fall through */
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1199 1200 1201 1202
			case bcf_op:
				cond = !cond;
				break;
			case bctl_op:
1203 1204 1205
				if (cpu_has_mips_2_3_4_5_r)
					likely = 1;
				/* Fall through */
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1206 1207 1208 1209
			case bct_op:
				break;
			}

1210
			set_delay_slot(xcp);
L
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1211
			if (cond) {
1212 1213
				/*
				 * Branch taken: emulate dslot instruction
L
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1214
				 */
1215 1216 1217 1218 1219 1220 1221 1222
				unsigned long bcpc;

				/*
				 * Remember EPC at the branch to point back
				 * at so that any delay-slot instruction
				 * signal is not silently ignored.
				 */
				bcpc = xcp->cp0_epc;
1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247
				xcp->cp0_epc += dec_insn.pc_inc;

				contpc = MIPSInst_SIMM(ir);
				ir = dec_insn.next_insn;
				if (dec_insn.micro_mips_mode) {
					contpc = (xcp->cp0_epc + (contpc << 1));

					/* If 16-bit instruction, not FPU. */
					if ((dec_insn.next_pc_inc == 2) ||
						(microMIPS32_to_MIPS32((union mips_instruction *)&ir) == SIGILL)) {

						/*
						 * Since this instruction will
						 * be put on the stack with
						 * 32-bit words, get around
						 * this problem by putting a
						 * NOP16 as the second one.
						 */
						if (dec_insn.next_pc_inc == 2)
							ir = (ir & (~0xffff)) | MM_NOP16;

						/*
						 * Single step the non-CP1
						 * instruction in the dslot.
						 */
1248 1249 1250 1251 1252 1253 1254 1255 1256
						sig = mips_dsemul(xcp, ir,
								  contpc);
						if (sig)
							xcp->cp0_epc = bcpc;
						/*
						 * SIGILL forces out of
						 * the emulation loop.
						 */
						return sig ? sig : SIGILL;
1257 1258 1259
					}
				} else
					contpc = (xcp->cp0_epc + (contpc << 2));
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1260 1261 1262 1263

				switch (MIPSInst_OPCODE(ir)) {
				case lwc1_op:
				case swc1_op:
1264
					goto emul;
1265

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1266 1267
				case ldc1_op:
				case sdc1_op:
1268
					if (cpu_has_mips_2_3_4_5_r)
1269 1270
						goto emul;

1271
					goto bc_sigill;
1272

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1273 1274
				case cop1_op:
					goto emul;
1275

1276
				case cop1x_op:
1277
					if (cpu_has_mips_4_5_64_r2_r6)
1278 1279 1280
						/* its one of ours */
						goto emul;

1281
					goto bc_sigill;
1282

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1283
				case spec_op:
1284 1285 1286 1287
					switch (MIPSInst_FUNC(ir)) {
					case movc_op:
						if (cpu_has_mips_4_5_r)
							goto emul;
1288

1289
						goto bc_sigill;
1290
					}
L
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1291
					break;
1292 1293 1294 1295

				bc_sigill:
					xcp->cp0_epc = bcpc;
					return SIGILL;
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1296 1297 1298 1299 1300 1301
				}

				/*
				 * Single step the non-cp1
				 * instruction in the dslot
				 */
1302 1303 1304 1305 1306
				sig = mips_dsemul(xcp, ir, contpc);
				if (sig)
					xcp->cp0_epc = bcpc;
				/* SIGILL forces out of the emulation loop.  */
				return sig ? sig : SIGILL;
1307
			} else if (likely) {	/* branch not taken */
1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318
				/*
				 * branch likely nullifies
				 * dslot if not taken
				 */
				xcp->cp0_epc += dec_insn.pc_inc;
				contpc += dec_insn.pc_inc;
				/*
				 * else continue & execute
				 * dslot as normal insn
				 */
			}
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1319 1320 1321 1322 1323 1324
			break;

		default:
			if (!(MIPSInst_RS(ir) & 0x10))
				return SIGILL;

1325 1326 1327
			/* a real fpu computation instruction */
			if ((sig = fpu_emu(xcp, ctx, ir)))
				return sig;
L
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1328 1329 1330
		}
		break;

1331
	case cop1x_op:
1332
		if (!cpu_has_mips_4_5_64_r2_r6)
1333 1334 1335
			return SIGILL;

		sig = fpux_emu(xcp, ctx, ir, fault_addr);
1336
		if (sig)
L
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1337 1338 1339 1340
			return sig;
		break;

	case spec_op:
1341 1342 1343
		if (!cpu_has_mips_4_5_r)
			return SIGILL;

L
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1344 1345 1346 1347 1348 1349 1350 1351
		if (MIPSInst_FUNC(ir) != movc_op)
			return SIGILL;
		cond = fpucondbit[MIPSInst_RT(ir) >> 2];
		if (((ctx->fcr31 & cond) != 0) == ((MIPSInst_RT(ir) & 1) != 0))
			xcp->regs[MIPSInst_RD(ir)] =
				xcp->regs[MIPSInst_RS(ir)];
		break;
	default:
1352
sigill:
L
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1353 1354 1355 1356
		return SIGILL;
	}

	/* we did it !! */
A
Atsushi Nemoto 已提交
1357
	xcp->cp0_epc = contpc;
1358
	clear_delay_slot(xcp);
1359

L
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1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382
	return 0;
}

/*
 * Conversion table from MIPS compare ops 48-63
 * cond = ieee754dp_cmp(x,y,IEEE754_UN,sig);
 */
static const unsigned char cmptab[8] = {
	0,			/* cmp_0 (sig) cmp_sf */
	IEEE754_CUN,		/* cmp_un (sig) cmp_ngle */
	IEEE754_CEQ,		/* cmp_eq (sig) cmp_seq */
	IEEE754_CEQ | IEEE754_CUN,	/* cmp_ueq (sig) cmp_ngl  */
	IEEE754_CLT,		/* cmp_olt (sig) cmp_lt */
	IEEE754_CLT | IEEE754_CUN,	/* cmp_ult (sig) cmp_nge */
	IEEE754_CLT | IEEE754_CEQ,	/* cmp_ole (sig) cmp_le */
	IEEE754_CLT | IEEE754_CEQ | IEEE754_CUN,	/* cmp_ule (sig) cmp_ngt */
};


/*
 * Additional MIPS4 instructions
 */

1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396
#define DEF3OP(name, p, f1, f2, f3)					\
static union ieee754##p fpemu_##p##_##name(union ieee754##p r,		\
	union ieee754##p s, union ieee754##p t)				\
{									\
	struct _ieee754_csr ieee754_csr_save;				\
	s = f1(s, t);							\
	ieee754_csr_save = ieee754_csr;					\
	s = f2(s, r);							\
	ieee754_csr_save.cx |= ieee754_csr.cx;				\
	ieee754_csr_save.sx |= ieee754_csr.sx;				\
	s = f3(s);							\
	ieee754_csr.cx |= ieee754_csr_save.cx;				\
	ieee754_csr.sx |= ieee754_csr_save.sx;				\
	return s;							\
L
Linus Torvalds 已提交
1397 1398
}

1399
static union ieee754dp fpemu_dp_recip(union ieee754dp d)
L
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1400 1401 1402 1403
{
	return ieee754dp_div(ieee754dp_one(0), d);
}

1404
static union ieee754dp fpemu_dp_rsqrt(union ieee754dp d)
L
Linus Torvalds 已提交
1405 1406 1407 1408
{
	return ieee754dp_div(ieee754dp_one(0), ieee754dp_sqrt(d));
}

1409
static union ieee754sp fpemu_sp_recip(union ieee754sp s)
L
Linus Torvalds 已提交
1410 1411 1412 1413
{
	return ieee754sp_div(ieee754sp_one(0), s);
}

1414
static union ieee754sp fpemu_sp_rsqrt(union ieee754sp s)
L
Linus Torvalds 已提交
1415 1416 1417 1418
{
	return ieee754sp_div(ieee754sp_one(0), ieee754sp_sqrt(s));
}

1419 1420
DEF3OP(madd, sp, ieee754sp_mul, ieee754sp_add, );
DEF3OP(msub, sp, ieee754sp_mul, ieee754sp_sub, );
L
Linus Torvalds 已提交
1421 1422
DEF3OP(nmadd, sp, ieee754sp_mul, ieee754sp_add, ieee754sp_neg);
DEF3OP(nmsub, sp, ieee754sp_mul, ieee754sp_sub, ieee754sp_neg);
1423 1424
DEF3OP(madd, dp, ieee754dp_mul, ieee754dp_add, );
DEF3OP(msub, dp, ieee754dp_mul, ieee754dp_sub, );
L
Linus Torvalds 已提交
1425 1426 1427
DEF3OP(nmadd, dp, ieee754dp_mul, ieee754dp_add, ieee754dp_neg);
DEF3OP(nmsub, dp, ieee754dp_mul, ieee754dp_sub, ieee754dp_neg);

1428
static int fpux_emu(struct pt_regs *xcp, struct mips_fpu_struct *ctx,
1429
	mips_instruction ir, void *__user *fault_addr)
L
Linus Torvalds 已提交
1430 1431 1432
{
	unsigned rcsr = 0;	/* resulting csr */

1433
	MIPS_FPU_EMU_INC_STATS(cp1xops);
L
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1434 1435 1436 1437

	switch (MIPSInst_FMA_FFMT(ir)) {
	case s_fmt:{		/* 0 */

1438 1439
		union ieee754sp(*handler) (union ieee754sp, union ieee754sp, union ieee754sp);
		union ieee754sp fd, fr, fs, ft;
1440
		u32 __user *va;
L
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1441 1442 1443 1444
		u32 val;

		switch (MIPSInst_FUNC(ir)) {
		case lwxc1_op:
1445
			va = (void __user *) (xcp->regs[MIPSInst_FR(ir)] +
L
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1446 1447
				xcp->regs[MIPSInst_FT(ir)]);

1448
			MIPS_FPU_EMU_INC_STATS(loads);
1449
			if (!access_ok(VERIFY_READ, va, sizeof(u32))) {
1450
				MIPS_FPU_EMU_INC_STATS(errors);
1451
				*fault_addr = va;
L
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1452 1453
				return SIGBUS;
			}
1454 1455 1456 1457 1458
			if (__get_user(val, va)) {
				MIPS_FPU_EMU_INC_STATS(errors);
				*fault_addr = va;
				return SIGSEGV;
			}
L
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1459 1460 1461 1462
			SITOREG(val, MIPSInst_FD(ir));
			break;

		case swxc1_op:
1463
			va = (void __user *) (xcp->regs[MIPSInst_FR(ir)] +
L
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1464 1465
				xcp->regs[MIPSInst_FT(ir)]);

1466
			MIPS_FPU_EMU_INC_STATS(stores);
L
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1467 1468

			SIFROMREG(val, MIPSInst_FS(ir));
1469
			if (!access_ok(VERIFY_WRITE, va, sizeof(u32))) {
1470
				MIPS_FPU_EMU_INC_STATS(errors);
1471
				*fault_addr = va;
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1472 1473
				return SIGBUS;
			}
1474 1475 1476 1477 1478
			if (put_user(val, va)) {
				MIPS_FPU_EMU_INC_STATS(errors);
				*fault_addr = va;
				return SIGSEGV;
			}
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1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501
			break;

		case madd_s_op:
			handler = fpemu_sp_madd;
			goto scoptop;
		case msub_s_op:
			handler = fpemu_sp_msub;
			goto scoptop;
		case nmadd_s_op:
			handler = fpemu_sp_nmadd;
			goto scoptop;
		case nmsub_s_op:
			handler = fpemu_sp_nmsub;
			goto scoptop;

		      scoptop:
			SPFROMREG(fr, MIPSInst_FR(ir));
			SPFROMREG(fs, MIPSInst_FS(ir));
			SPFROMREG(ft, MIPSInst_FT(ir));
			fd = (*handler) (fr, fs, ft);
			SPTOREG(fd, MIPSInst_FD(ir));

		      copcsr:
1502 1503
			if (ieee754_cxtest(IEEE754_INEXACT)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_inexact);
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1504
				rcsr |= FPU_CSR_INE_X | FPU_CSR_INE_S;
1505 1506 1507
			}
			if (ieee754_cxtest(IEEE754_UNDERFLOW)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_underflow);
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1508
				rcsr |= FPU_CSR_UDF_X | FPU_CSR_UDF_S;
1509 1510 1511
			}
			if (ieee754_cxtest(IEEE754_OVERFLOW)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_overflow);
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1512
				rcsr |= FPU_CSR_OVF_X | FPU_CSR_OVF_S;
1513 1514 1515
			}
			if (ieee754_cxtest(IEEE754_INVALID_OPERATION)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_invalidop);
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1516
				rcsr |= FPU_CSR_INV_X | FPU_CSR_INV_S;
1517
			}
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1518 1519 1520

			ctx->fcr31 = (ctx->fcr31 & ~FPU_CSR_ALL_X) | rcsr;
			if ((ctx->fcr31 >> 5) & ctx->fcr31 & FPU_CSR_ALL_E) {
1521
				/*printk ("SIGFPE: FPU csr = %08x\n",
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1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534
				   ctx->fcr31); */
				return SIGFPE;
			}

			break;

		default:
			return SIGILL;
		}
		break;
	}

	case d_fmt:{		/* 1 */
1535 1536
		union ieee754dp(*handler) (union ieee754dp, union ieee754dp, union ieee754dp);
		union ieee754dp fd, fr, fs, ft;
1537
		u64 __user *va;
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1538 1539 1540 1541
		u64 val;

		switch (MIPSInst_FUNC(ir)) {
		case ldxc1_op:
1542
			va = (void __user *) (xcp->regs[MIPSInst_FR(ir)] +
L
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1543 1544
				xcp->regs[MIPSInst_FT(ir)]);

1545
			MIPS_FPU_EMU_INC_STATS(loads);
1546
			if (!access_ok(VERIFY_READ, va, sizeof(u64))) {
1547
				MIPS_FPU_EMU_INC_STATS(errors);
1548
				*fault_addr = va;
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1549 1550
				return SIGBUS;
			}
1551 1552 1553 1554 1555
			if (__get_user(val, va)) {
				MIPS_FPU_EMU_INC_STATS(errors);
				*fault_addr = va;
				return SIGSEGV;
			}
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			DITOREG(val, MIPSInst_FD(ir));
			break;

		case sdxc1_op:
1560
			va = (void __user *) (xcp->regs[MIPSInst_FR(ir)] +
L
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1561 1562
				xcp->regs[MIPSInst_FT(ir)]);

1563
			MIPS_FPU_EMU_INC_STATS(stores);
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1564
			DIFROMREG(val, MIPSInst_FS(ir));
1565
			if (!access_ok(VERIFY_WRITE, va, sizeof(u64))) {
1566
				MIPS_FPU_EMU_INC_STATS(errors);
1567
				*fault_addr = va;
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1568 1569
				return SIGBUS;
			}
1570 1571 1572 1573 1574
			if (__put_user(val, va)) {
				MIPS_FPU_EMU_INC_STATS(errors);
				*fault_addr = va;
				return SIGSEGV;
			}
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1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599 1600 1601 1602 1603
			break;

		case madd_d_op:
			handler = fpemu_dp_madd;
			goto dcoptop;
		case msub_d_op:
			handler = fpemu_dp_msub;
			goto dcoptop;
		case nmadd_d_op:
			handler = fpemu_dp_nmadd;
			goto dcoptop;
		case nmsub_d_op:
			handler = fpemu_dp_nmsub;
			goto dcoptop;

		      dcoptop:
			DPFROMREG(fr, MIPSInst_FR(ir));
			DPFROMREG(fs, MIPSInst_FS(ir));
			DPFROMREG(ft, MIPSInst_FT(ir));
			fd = (*handler) (fr, fs, ft);
			DPTOREG(fd, MIPSInst_FD(ir));
			goto copcsr;

		default:
			return SIGILL;
		}
		break;
	}

1604 1605
	case 0x3:
		if (MIPSInst_FUNC(ir) != pfetch_op)
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1606
			return SIGILL;
1607

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		/* ignore prefx operation */
		break;

	default:
		return SIGILL;
	}

	return 0;
}



/*
 * Emulate a single COP1 arithmetic instruction.
 */
1623
static int fpu_emu(struct pt_regs *xcp, struct mips_fpu_struct *ctx,
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1624 1625 1626 1627
	mips_instruction ir)
{
	int rfmt;		/* resulting format */
	unsigned rcsr = 0;	/* resulting csr */
1628 1629
	unsigned int oldrm;
	unsigned int cbit;
L
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1630 1631
	unsigned cond;
	union {
1632 1633
		union ieee754dp d;
		union ieee754sp s;
L
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1634 1635 1636
		int w;
		s64 l;
	} rv;			/* resulting value */
1637
	u64 bits;
L
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1638

1639
	MIPS_FPU_EMU_INC_STATS(cp1ops);
L
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1640
	switch (rfmt = (MIPSInst_FFMT(ir) & 0xf)) {
1641
	case s_fmt: {		/* 0 */
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1642
		union {
1643 1644
			union ieee754sp(*b) (union ieee754sp, union ieee754sp);
			union ieee754sp(*u) (union ieee754sp);
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1645
		} handler;
1646
		union ieee754sp fs, ft;
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1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664

		switch (MIPSInst_FUNC(ir)) {
			/* binary ops */
		case fadd_op:
			handler.b = ieee754sp_add;
			goto scopbop;
		case fsub_op:
			handler.b = ieee754sp_sub;
			goto scopbop;
		case fmul_op:
			handler.b = ieee754sp_mul;
			goto scopbop;
		case fdiv_op:
			handler.b = ieee754sp_div;
			goto scopbop;

			/* unary  ops */
		case fsqrt_op:
1665
			if (!cpu_has_mips_2_3_4_5_r)
1666 1667
				return SIGILL;

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1668 1669
			handler.u = ieee754sp_sqrt;
			goto scopuop;
1670

1671 1672 1673 1674 1675
		/*
		 * Note that on some MIPS IV implementations such as the
		 * R5000 and R8000 the FSQRT and FRECIP instructions do not
		 * achieve full IEEE-754 accuracy - however this emulator does.
		 */
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1676
		case frsqrt_op:
1677
			if (!cpu_has_mips_4_5_64_r2_r6)
1678 1679
				return SIGILL;

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1680 1681
			handler.u = fpemu_sp_rsqrt;
			goto scopuop;
1682

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1683
		case frecip_op:
1684
			if (!cpu_has_mips_4_5_64_r2_r6)
1685 1686
				return SIGILL;

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1687 1688
			handler.u = fpemu_sp_recip;
			goto scopuop;
1689

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1690
		case fmovc_op:
1691 1692 1693
			if (!cpu_has_mips_4_5_r)
				return SIGILL;

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1694 1695 1696 1697 1698 1699
			cond = fpucondbit[MIPSInst_FT(ir) >> 2];
			if (((ctx->fcr31 & cond) != 0) !=
				((MIPSInst_FT(ir) & 1) != 0))
				return 0;
			SPFROMREG(rv.s, MIPSInst_FS(ir));
			break;
1700

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1701
		case fmovz_op:
1702 1703 1704
			if (!cpu_has_mips_4_5_r)
				return SIGILL;

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1705 1706 1707 1708
			if (xcp->regs[MIPSInst_FT(ir)] != 0)
				return 0;
			SPFROMREG(rv.s, MIPSInst_FS(ir));
			break;
1709

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1710
		case fmovn_op:
1711 1712 1713
			if (!cpu_has_mips_4_5_r)
				return SIGILL;

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1714 1715 1716 1717
			if (xcp->regs[MIPSInst_FT(ir)] == 0)
				return 0;
			SPFROMREG(rv.s, MIPSInst_FS(ir));
			break;
1718

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1719 1720 1721
		case fabs_op:
			handler.u = ieee754sp_abs;
			goto scopuop;
1722

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1723 1724 1725
		case fneg_op:
			handler.u = ieee754sp_neg;
			goto scopuop;
1726

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1727 1728 1729 1730 1731 1732
		case fmov_op:
			/* an easy one */
			SPFROMREG(rv.s, MIPSInst_FS(ir));
			goto copcsr;

			/* binary op on handler */
1733 1734 1735
scopbop:
			SPFROMREG(fs, MIPSInst_FS(ir));
			SPFROMREG(ft, MIPSInst_FT(ir));
L
Linus Torvalds 已提交
1736

1737 1738 1739 1740 1741 1742 1743
			rv.s = (*handler.b) (fs, ft);
			goto copcsr;
scopuop:
			SPFROMREG(fs, MIPSInst_FS(ir));
			rv.s = (*handler.u) (fs);
			goto copcsr;
copcsr:
1744 1745
			if (ieee754_cxtest(IEEE754_INEXACT)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_inexact);
L
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1746
				rcsr |= FPU_CSR_INE_X | FPU_CSR_INE_S;
1747 1748 1749
			}
			if (ieee754_cxtest(IEEE754_UNDERFLOW)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_underflow);
L
Linus Torvalds 已提交
1750
				rcsr |= FPU_CSR_UDF_X | FPU_CSR_UDF_S;
1751 1752 1753
			}
			if (ieee754_cxtest(IEEE754_OVERFLOW)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_overflow);
L
Linus Torvalds 已提交
1754
				rcsr |= FPU_CSR_OVF_X | FPU_CSR_OVF_S;
1755 1756 1757
			}
			if (ieee754_cxtest(IEEE754_ZERO_DIVIDE)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_zerodiv);
L
Linus Torvalds 已提交
1758
				rcsr |= FPU_CSR_DIV_X | FPU_CSR_DIV_S;
1759 1760 1761
			}
			if (ieee754_cxtest(IEEE754_INVALID_OPERATION)) {
				MIPS_FPU_EMU_INC_STATS(ieee754_invalidop);
L
Linus Torvalds 已提交
1762
				rcsr |= FPU_CSR_INV_X | FPU_CSR_INV_S;
1763
			}
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1764 1765 1766 1767 1768 1769
			break;

			/* unary conv ops */
		case fcvts_op:
			return SIGILL;	/* not defined */

1770
		case fcvtd_op:
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1771 1772 1773 1774 1775
			SPFROMREG(fs, MIPSInst_FS(ir));
			rv.d = ieee754dp_fsp(fs);
			rfmt = d_fmt;
			goto copcsr;

1776
		case fcvtw_op:
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1777 1778 1779 1780 1781 1782 1783 1784
			SPFROMREG(fs, MIPSInst_FS(ir));
			rv.w = ieee754sp_tint(fs);
			rfmt = w_fmt;
			goto copcsr;

		case fround_op:
		case ftrunc_op:
		case fceil_op:
1785
		case ffloor_op:
1786
			if (!cpu_has_mips_2_3_4_5_r)
1787 1788
				return SIGILL;

1789
			oldrm = ieee754_csr.rm;
L
Linus Torvalds 已提交
1790
			SPFROMREG(fs, MIPSInst_FS(ir));
1791
			ieee754_csr.rm = MIPSInst_FUNC(ir);
L
Linus Torvalds 已提交
1792 1793 1794 1795 1796
			rv.w = ieee754sp_tint(fs);
			ieee754_csr.rm = oldrm;
			rfmt = w_fmt;
			goto copcsr;

1797
		case fcvtl_op:
1798
			if (!cpu_has_mips_3_4_5_64_r2_r6)
1799 1800
				return SIGILL;

L
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1801 1802 1803 1804 1805 1806 1807 1808
			SPFROMREG(fs, MIPSInst_FS(ir));
			rv.l = ieee754sp_tlong(fs);
			rfmt = l_fmt;
			goto copcsr;

		case froundl_op:
		case ftruncl_op:
		case fceill_op:
1809
		case ffloorl_op:
1810
			if (!cpu_has_mips_3_4_5_64_r2_r6)
1811 1812
				return SIGILL;

1813
			oldrm = ieee754_csr.rm;
L
Linus Torvalds 已提交
1814
			SPFROMREG(fs, MIPSInst_FS(ir));
1815
			ieee754_csr.rm = MIPSInst_FUNC(ir);
L
Linus Torvalds 已提交
1816 1817 1818 1819 1820 1821 1822 1823
			rv.l = ieee754sp_tlong(fs);
			ieee754_csr.rm = oldrm;
			rfmt = l_fmt;
			goto copcsr;

		default:
			if (MIPSInst_FUNC(ir) >= fcmp_op) {
				unsigned cmpop = MIPSInst_FUNC(ir) - fcmp_op;
1824
				union ieee754sp fs, ft;
L
Linus Torvalds 已提交
1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836

				SPFROMREG(fs, MIPSInst_FS(ir));
				SPFROMREG(ft, MIPSInst_FT(ir));
				rv.w = ieee754sp_cmp(fs, ft,
					cmptab[cmpop & 0x7], cmpop & 0x8);
				rfmt = -1;
				if ((cmpop & 0x8) && ieee754_cxtest
					(IEEE754_INVALID_OPERATION))
					rcsr = FPU_CSR_INV_X | FPU_CSR_INV_S;
				else
					goto copcsr;

1837
			} else
L
Linus Torvalds 已提交
1838 1839 1840 1841 1842 1843
				return SIGILL;
			break;
		}
		break;
	}

1844 1845
	case d_fmt: {
		union ieee754dp fs, ft;
L
Linus Torvalds 已提交
1846
		union {
1847 1848
			union ieee754dp(*b) (union ieee754dp, union ieee754dp);
			union ieee754dp(*u) (union ieee754dp);
L
Linus Torvalds 已提交
1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867
		} handler;

		switch (MIPSInst_FUNC(ir)) {
			/* binary ops */
		case fadd_op:
			handler.b = ieee754dp_add;
			goto dcopbop;
		case fsub_op:
			handler.b = ieee754dp_sub;
			goto dcopbop;
		case fmul_op:
			handler.b = ieee754dp_mul;
			goto dcopbop;
		case fdiv_op:
			handler.b = ieee754dp_div;
			goto dcopbop;

			/* unary  ops */
		case fsqrt_op:
1868 1869 1870
			if (!cpu_has_mips_2_3_4_5_r)
				return SIGILL;

L
Linus Torvalds 已提交
1871 1872
			handler.u = ieee754dp_sqrt;
			goto dcopuop;
1873 1874 1875 1876 1877
		/*
		 * Note that on some MIPS IV implementations such as the
		 * R5000 and R8000 the FSQRT and FRECIP instructions do not
		 * achieve full IEEE-754 accuracy - however this emulator does.
		 */
L
Linus Torvalds 已提交
1878
		case frsqrt_op:
1879
			if (!cpu_has_mips_4_5_64_r2_r6)
1880 1881
				return SIGILL;

L
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1882 1883 1884
			handler.u = fpemu_dp_rsqrt;
			goto dcopuop;
		case frecip_op:
1885
			if (!cpu_has_mips_4_5_64_r2_r6)
1886 1887
				return SIGILL;

L
Linus Torvalds 已提交
1888 1889 1890
			handler.u = fpemu_dp_recip;
			goto dcopuop;
		case fmovc_op:
1891 1892 1893
			if (!cpu_has_mips_4_5_r)
				return SIGILL;

L
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1894 1895 1896 1897 1898 1899 1900
			cond = fpucondbit[MIPSInst_FT(ir) >> 2];
			if (((ctx->fcr31 & cond) != 0) !=
				((MIPSInst_FT(ir) & 1) != 0))
				return 0;
			DPFROMREG(rv.d, MIPSInst_FS(ir));
			break;
		case fmovz_op:
1901 1902 1903
			if (!cpu_has_mips_4_5_r)
				return SIGILL;

L
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1904 1905 1906 1907 1908
			if (xcp->regs[MIPSInst_FT(ir)] != 0)
				return 0;
			DPFROMREG(rv.d, MIPSInst_FS(ir));
			break;
		case fmovn_op:
1909 1910 1911
			if (!cpu_has_mips_4_5_r)
				return SIGILL;

L
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1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929
			if (xcp->regs[MIPSInst_FT(ir)] == 0)
				return 0;
			DPFROMREG(rv.d, MIPSInst_FS(ir));
			break;
		case fabs_op:
			handler.u = ieee754dp_abs;
			goto dcopuop;

		case fneg_op:
			handler.u = ieee754dp_neg;
			goto dcopuop;

		case fmov_op:
			/* an easy one */
			DPFROMREG(rv.d, MIPSInst_FS(ir));
			goto copcsr;

			/* binary op on handler */
1930 1931 1932
dcopbop:
			DPFROMREG(fs, MIPSInst_FS(ir));
			DPFROMREG(ft, MIPSInst_FT(ir));
L
Linus Torvalds 已提交
1933

1934 1935 1936 1937 1938 1939
			rv.d = (*handler.b) (fs, ft);
			goto copcsr;
dcopuop:
			DPFROMREG(fs, MIPSInst_FS(ir));
			rv.d = (*handler.u) (fs);
			goto copcsr;
L
Linus Torvalds 已提交
1940

1941 1942 1943 1944
		/*
		 * unary conv ops
		 */
		case fcvts_op:
L
Linus Torvalds 已提交
1945 1946 1947 1948
			DPFROMREG(fs, MIPSInst_FS(ir));
			rv.s = ieee754sp_fdp(fs);
			rfmt = s_fmt;
			goto copcsr;
1949

L
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1950 1951 1952
		case fcvtd_op:
			return SIGILL;	/* not defined */

1953
		case fcvtw_op:
L
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1954 1955 1956 1957 1958 1959 1960 1961
			DPFROMREG(fs, MIPSInst_FS(ir));
			rv.w = ieee754dp_tint(fs);	/* wrong */
			rfmt = w_fmt;
			goto copcsr;

		case fround_op:
		case ftrunc_op:
		case fceil_op:
1962
		case ffloor_op:
1963 1964 1965
			if (!cpu_has_mips_2_3_4_5_r)
				return SIGILL;

1966
			oldrm = ieee754_csr.rm;
L
Linus Torvalds 已提交
1967
			DPFROMREG(fs, MIPSInst_FS(ir));
1968
			ieee754_csr.rm = MIPSInst_FUNC(ir);
L
Linus Torvalds 已提交
1969 1970 1971 1972 1973
			rv.w = ieee754dp_tint(fs);
			ieee754_csr.rm = oldrm;
			rfmt = w_fmt;
			goto copcsr;

1974
		case fcvtl_op:
1975
			if (!cpu_has_mips_3_4_5_64_r2_r6)
1976 1977
				return SIGILL;

L
Linus Torvalds 已提交
1978 1979 1980 1981 1982 1983 1984 1985
			DPFROMREG(fs, MIPSInst_FS(ir));
			rv.l = ieee754dp_tlong(fs);
			rfmt = l_fmt;
			goto copcsr;

		case froundl_op:
		case ftruncl_op:
		case fceill_op:
1986
		case ffloorl_op:
1987
			if (!cpu_has_mips_3_4_5_64_r2_r6)
1988 1989
				return SIGILL;

1990
			oldrm = ieee754_csr.rm;
L
Linus Torvalds 已提交
1991
			DPFROMREG(fs, MIPSInst_FS(ir));
1992
			ieee754_csr.rm = MIPSInst_FUNC(ir);
L
Linus Torvalds 已提交
1993 1994 1995 1996 1997 1998 1999 2000
			rv.l = ieee754dp_tlong(fs);
			ieee754_csr.rm = oldrm;
			rfmt = l_fmt;
			goto copcsr;

		default:
			if (MIPSInst_FUNC(ir) >= fcmp_op) {
				unsigned cmpop = MIPSInst_FUNC(ir) - fcmp_op;
2001
				union ieee754dp fs, ft;
L
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2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023

				DPFROMREG(fs, MIPSInst_FS(ir));
				DPFROMREG(ft, MIPSInst_FT(ir));
				rv.w = ieee754dp_cmp(fs, ft,
					cmptab[cmpop & 0x7], cmpop & 0x8);
				rfmt = -1;
				if ((cmpop & 0x8)
					&&
					ieee754_cxtest
					(IEEE754_INVALID_OPERATION))
					rcsr = FPU_CSR_INV_X | FPU_CSR_INV_S;
				else
					goto copcsr;

			}
			else {
				return SIGILL;
			}
			break;
		}
		break;

2024
	case w_fmt:
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		switch (MIPSInst_FUNC(ir)) {
		case fcvts_op:
			/* convert word to single precision real */
			SPFROMREG(fs, MIPSInst_FS(ir));
			rv.s = ieee754sp_fint(fs.bits);
			rfmt = s_fmt;
			goto copcsr;
		case fcvtd_op:
			/* convert word to double precision real */
			SPFROMREG(fs, MIPSInst_FS(ir));
			rv.d = ieee754dp_fint(fs.bits);
			rfmt = d_fmt;
			goto copcsr;
		default:
			return SIGILL;
		}
		break;
	}

2044
	case l_fmt:
2045

2046
		if (!cpu_has_mips_3_4_5_64_r2_r6)
2047 2048
			return SIGILL;

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		DIFROMREG(bits, MIPSInst_FS(ir));

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		switch (MIPSInst_FUNC(ir)) {
		case fcvts_op:
			/* convert long to single precision real */
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			rv.s = ieee754sp_flong(bits);
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			rfmt = s_fmt;
			goto copcsr;
		case fcvtd_op:
			/* convert long to double precision real */
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			rv.d = ieee754dp_flong(bits);
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			rfmt = d_fmt;
			goto copcsr;
		default:
			return SIGILL;
		}
		break;

	default:
		return SIGILL;
	}

	/*
	 * Update the fpu CSR register for this operation.
	 * If an exception is required, generate a tidy SIGFPE exception,
	 * without updating the result register.
	 * Note: cause exception bits do not accumulate, they are rewritten
	 * for each op; only the flag/sticky bits accumulate.
	 */
	ctx->fcr31 = (ctx->fcr31 & ~FPU_CSR_ALL_X) | rcsr;
	if ((ctx->fcr31 >> 5) & ctx->fcr31 & FPU_CSR_ALL_E) {
2080
		/*printk ("SIGFPE: FPU csr = %08x\n",ctx->fcr31); */
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		return SIGFPE;
	}

	/*
	 * Now we can safely write the result back to the register file.
	 */
	switch (rfmt) {
2088 2089 2090
	case -1:

		if (cpu_has_mips_4_5_r)
2091
			cbit = fpucondbit[MIPSInst_FD(ir) >> 2];
2092 2093
		else
			cbit = FPU_CSR_COND;
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		if (rv.w)
2095
			ctx->fcr31 |= cbit;
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		else
2097
			ctx->fcr31 &= ~cbit;
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		break;
2099

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	case d_fmt:
		DPTOREG(rv.d, MIPSInst_FD(ir));
		break;
	case s_fmt:
		SPTOREG(rv.s, MIPSInst_FD(ir));
		break;
	case w_fmt:
		SITOREG(rv.w, MIPSInst_FD(ir));
		break;
	case l_fmt:
2110
		if (!cpu_has_mips_3_4_5_64_r2_r6)
2111 2112
			return SIGILL;

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		DITOREG(rv.l, MIPSInst_FD(ir));
		break;
	default:
		return SIGILL;
	}

	return 0;
}

2122
int fpu_emulator_cop1Handler(struct pt_regs *xcp, struct mips_fpu_struct *ctx,
2123
	int has_fpu, void *__user *fault_addr)
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{
2125
	unsigned long oldepc, prevepc;
2126 2127 2128
	struct mm_decoded_insn dec_insn;
	u16 instr[4];
	u16 *instr_ptr;
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	int sig = 0;

	oldepc = xcp->cp0_epc;
	do {
		prevepc = xcp->cp0_epc;

2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165 2166 2167 2168 2169 2170 2171 2172 2173 2174 2175 2176 2177 2178 2179 2180 2181 2182 2183 2184 2185 2186 2187 2188
		if (get_isa16_mode(prevepc) && cpu_has_mmips) {
			/*
			 * Get next 2 microMIPS instructions and convert them
			 * into 32-bit instructions.
			 */
			if ((get_user(instr[0], (u16 __user *)msk_isa16_mode(xcp->cp0_epc))) ||
			    (get_user(instr[1], (u16 __user *)msk_isa16_mode(xcp->cp0_epc + 2))) ||
			    (get_user(instr[2], (u16 __user *)msk_isa16_mode(xcp->cp0_epc + 4))) ||
			    (get_user(instr[3], (u16 __user *)msk_isa16_mode(xcp->cp0_epc + 6)))) {
				MIPS_FPU_EMU_INC_STATS(errors);
				return SIGBUS;
			}
			instr_ptr = instr;

			/* Get first instruction. */
			if (mm_insn_16bit(*instr_ptr)) {
				/* Duplicate the half-word. */
				dec_insn.insn = (*instr_ptr << 16) |
					(*instr_ptr);
				/* 16-bit instruction. */
				dec_insn.pc_inc = 2;
				instr_ptr += 1;
			} else {
				dec_insn.insn = (*instr_ptr << 16) |
					*(instr_ptr+1);
				/* 32-bit instruction. */
				dec_insn.pc_inc = 4;
				instr_ptr += 2;
			}
			/* Get second instruction. */
			if (mm_insn_16bit(*instr_ptr)) {
				/* Duplicate the half-word. */
				dec_insn.next_insn = (*instr_ptr << 16) |
					(*instr_ptr);
				/* 16-bit instruction. */
				dec_insn.next_pc_inc = 2;
			} else {
				dec_insn.next_insn = (*instr_ptr << 16) |
					*(instr_ptr+1);
				/* 32-bit instruction. */
				dec_insn.next_pc_inc = 4;
			}
			dec_insn.micro_mips_mode = 1;
		} else {
			if ((get_user(dec_insn.insn,
			    (mips_instruction __user *) xcp->cp0_epc)) ||
			    (get_user(dec_insn.next_insn,
			    (mips_instruction __user *)(xcp->cp0_epc+4)))) {
				MIPS_FPU_EMU_INC_STATS(errors);
				return SIGBUS;
			}
			dec_insn.pc_inc = 4;
			dec_insn.next_pc_inc = 4;
			dec_insn.micro_mips_mode = 0;
2189
		}
2190 2191 2192 2193 2194

		if ((dec_insn.insn == 0) ||
		   ((dec_insn.pc_inc == 2) &&
		   ((dec_insn.insn & 0xffff) == MM_NOP16)))
			xcp->cp0_epc += dec_insn.pc_inc;	/* Skip NOPs */
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		else {
2196
			/*
2197 2198
			 * The 'ieee754_csr' is an alias of ctx->fcr31.
			 * No need to copy ctx->fcr31 to ieee754_csr.
2199
			 */
2200
			sig = cop1Emulate(xcp, ctx, dec_insn, fault_addr);
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		}

2203
		if (has_fpu)
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			break;
		if (sig)
			break;

		cond_resched();
	} while (xcp->cp0_epc > prevepc);

	/* SIGILL indicates a non-fpu instruction */
	if (sig == SIGILL && xcp->cp0_epc != oldepc)
2213
		/* but if EPC has advanced, then ignore it */
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		sig = 0;

	return sig;
}