1/*-
  2 * SPDX-License-Identifier: BSD-2-Clause
  3 *
  4 * Copyright (c) 2012 Mark Tinguely
  5 *
  6 * All rights reserved.
  7 *
  8 * Redistribution and use in source and binary forms, with or without
  9 * modification, are permitted provided that the following conditions
 10 * are met:
 11 * 1. Redistributions of source code must retain the above copyright
 12 *    notice, this list of conditions and the following disclaimer.
 13 * 2. Redistributions in binary form must reproduce the above copyright
 14 *    notice, this list of conditions and the following disclaimer in the
 15 *    documentation and/or other materials provided with the distribution.
 16 *
 17 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 18 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 20 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 21 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 22 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 23 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 24 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 25 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 26 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 27 * SUCH DAMAGE.
 28 */
 29
 30#ifndef _MACHINE__VFP_H_
 31#define _MACHINE__VFP_H_
 32
 33/* fpsid, fpscr, fpexc are defined in the newer gas */
 34#define	VFPSID			cr0
 35#define	VFPSCR			cr1
 36#define	VMVFR1			cr6
 37#define	VMVFR0			cr7
 38#define	VFPEXC			cr8
 39#define	VFPINST			cr9	/* vfp 1 and 2 except instruction */
 40#define	VFPINST2		cr10 	/* vfp 2? */
 41
 42/* VFPSID */
 43#define	VFPSID_IMPLEMENTOR_OFF	24
 44#define	VFPSID_IMPLEMENTOR_MASK	(0xff000000)
 45#define	VFPSID_HARDSOFT_IMP	(0x00800000)
 46#define	VFPSID_SINGLE_PREC	20	 /* version 1 and 2 */
 47#define	VFPSID_SUBVERSION_OFF	16
 48#define	VFPSID_SUBVERSION2_MASK	(0x000f0000)	 /* version 1 and 2 */
 49#define	VFPSID_SUBVERSION3_MASK	(0x007f0000)	 /* version 3 */
 50#define	VFP_ARCH1		0x0
 51#define	VFP_ARCH2		0x1
 52#define	VFP_ARCH3		0x2
 53#define	VFPSID_PARTNUMBER_OFF	8
 54#define	VFPSID_PARTNUMBER_MASK	(0x0000ff00)
 55#define	VFPSID_VARIANT_OFF	4
 56#define	VFPSID_VARIANT_MASK	(0x000000f0)
 57#define	VFPSID_REVISION_MASK	0x0f
 58
 59/* VFPSCR */
 60#define	VFPSCR_CC_N		(0x80000000)	/* comparison less than */
 61#define	VFPSCR_CC_Z		(0x40000000)	/* comparison equal */
 62#define	VFPSCR_CC_C		(0x20000000)	/* comparison = > unordered */
 63#define	VFPSCR_CC_V		(0x10000000)	/* comparison unordered */
 64#define	VFPSCR_QC		(0x08000000)	/* saturation cululative */
 65#define	VFPSCR_DN		(0x02000000)	/* default NaN enable */
 66#define	VFPSCR_FZ		(0x01000000)	/* flush to zero enabled */
 67
 68#define	VFPSCR_RMODE_OFF	22		/* rounding mode offset */
 69#define	VFPSCR_RMODE_MASK	(0x00c00000)	/* rounding mode mask */
 70#define	VFPSCR_RMODE_RN		(0x00000000)	/* round nearest */
 71#define	VFPSCR_RMODE_RPI	(0x00400000)	/* round to plus infinity */
 72#define	VFPSCR_RMODE_RNI	(0x00800000)	/* round to neg infinity */
 73#define	VFPSCR_RMODE_RM		(0x00c00000)	/* round to zero */
 74
 75#define	VFPSCR_STRIDE_OFF	20		/* vector stride -1 */
 76#define	VFPSCR_STRIDE_MASK	(0x00300000)
 77#define	VFPSCR_LEN_OFF		16		/* vector length -1 */
 78#define	VFPSCR_LEN_MASK		(0x00070000)
 79#define	VFPSCR_IDE		(0x00008000)	/* input subnormal exc enable */
 80#define	VFPSCR_IXE		(0x00001000)	/* inexact exception enable */
 81#define	VFPSCR_UFE		(0x00000800)	/* underflow exception enable */
 82#define	VFPSCR_OFE		(0x00000400)	/* overflow exception enable */
 83#define	VFPSCR_DNZ		(0x00000200)	/* div by zero exception en */
 84#define	VFPSCR_IOE		(0x00000100)	/* invalid op exec enable */
 85#define	VFPSCR_IDC		(0x00000080)	/* input subnormal cumul */
 86#define	VFPSCR_IXC		(0x00000010)	/* Inexact cumulative flag */
 87#define	VFPSCR_UFC		(0x00000008)	/* underflow cumulative flag */
 88#define	VFPSCR_OFC		(0x00000004)	/* overflow cumulative flag */
 89#define	VFPSCR_DZC		(0x00000002)	/* division by zero flag */
 90#define	VFPSCR_IOC		(0x00000001)	/* invalid operation cumul */
 91
 92/* VFPEXC */
 93#define	VFPEXC_EX 		(0x80000000)	/* exception v1 v2 */
 94#define	VFPEXC_EN		(0x40000000)	/* vfp enable */
 95#define	VFPEXC_DEX		(0x20000000)	/* Synchronous exception */
 96#define	VFPEXC_FP2V		(0x10000000)	/* FPINST2 valid */
 97#define	VFPEXC_INV		(0x00000080)	/* Input exception */
 98#define	VFPEXC_UFC		(0x00000008)	/* Underflow exception */
 99#define	VFPEXC_OFC		(0x00000004)	/* Overflow exception */
100#define	VFPEXC_IOC		(0x00000001)	/* Invlaid operation */
101
102/* version 3 registers */
103/* VMVFR0 */
104#define	VMVFR0_RM_OFF		28
105#define	VMVFR0_RM_MASK 		(0xf0000000)	/* VFP rounding modes */
106
107#define	VMVFR0_SV_OFF		24
108#define	VMVFR0_SV_MASK		(0x0f000000)	/* VFP short vector supp */
109#define	VMVFR0_SR_OFF		20
110#define	VMVFR0_SR		(0x00f00000)	/* VFP hw sqrt supp */
111#define	VMVFR0_D_OFF		16
112#define	VMVFR0_D_MASK		(0x000f0000)	/* VFP divide supp */
113#define	VMVFR0_TE_OFF		12
114#define	VMVFR0_TE_MASK		(0x0000f000)	/* VFP trap exception supp */
115#define	VMVFR0_DP_OFF		8
116#define	VMVFR0_DP_MASK		(0x00000f00)	/* VFP double prec support */
117#define	VMVFR0_SP_OFF		4
118#define	VMVFR0_SP_MASK		(0x000000f0)	/* VFP single prec support */
119#define	VMVFR0_RB_MASK		(0x0000000f)	/* VFP 64 bit media support */
120
121/* VMVFR1 */
122#define	VMVFR1_FMAC_OFF		28
123#define	VMVFR1_FMAC_MASK 	(0xf0000000)	/* Neon FMAC support */
124#define	VMVFR1_VFP_HP_OFF	24
125#define	VMVFR1_VFP_HP_MASK 	(0x0f000000)	/* VFP half prec support */
126#define	VMVFR1_HP_OFF		20
127#define	VMVFR1_HP_MASK 		(0x00f00000)	/* Neon half prec support */
128#define	VMVFR1_SP_OFF		16
129#define	VMVFR1_SP_MASK 		(0x000f0000)	/* Neon single prec support */
130#define VMVFR1_I_OFF		12
131#define	VMVFR1_I_MASK		(0x0000f000)	/* Neon integer support */
132#define VMVFR1_LS_OFF		8
133#define	VMVFR1_LS_MASK		(0x00000f00)	/* Neon ld/st instr support */
134#define VMVFR1_DN_OFF		4
135#define	VMVFR1_DN_MASK		(0x000000f0)	/* Neon prop NaN support */
136#define	VMVFR1_FZ_MASK		(0x0000000f)	/* Neon denormal arith supp */
137
138#define COPROC10		(0x3 << 20)
139#define COPROC11		(0x3 << 22)
140
141#define	FPU_KERN_NORMAL	0x0000
142#define	FPU_KERN_NOWAIT	0x0001
143#define	FPU_KERN_KTHR	0x0002
144#define	FPU_KERN_NOCTX	0x0004
145
146#ifndef LOCORE
147struct vfp_state {
148	uint64_t reg[32];
149	uint32_t fpscr;
150	uint32_t fpexec;
151	uint32_t fpinst;
152	uint32_t fpinst2;
153};
154
155#ifdef _KERNEL
156void	get_vfpcontext(struct thread *, mcontext_vfp_t *);
157void	set_vfpcontext(struct thread *, mcontext_vfp_t *);
158void    vfp_init(void);
159void	vfp_new_thread(struct thread*, struct thread*, bool);
160void    vfp_store(struct vfp_state *, boolean_t);
161void    vfp_discard(struct thread *);
162void	vfp_restore_state(void);
163void	vfp_save_state(struct thread *, struct pcb *);
164
165struct fpu_kern_ctx;
166
167struct fpu_kern_ctx *fpu_kern_alloc_ctx(u_int);
168void fpu_kern_free_ctx(struct fpu_kern_ctx *);
169void fpu_kern_enter(struct thread *, struct fpu_kern_ctx *, u_int);
170int fpu_kern_leave(struct thread *, struct fpu_kern_ctx *);
171int fpu_kern_thread(u_int);
172int is_fpu_kern_thread(u_int);
173
174#endif	/* _KERNEL */
175#endif	/* LOCORE */
176
177#endif