1/* SPDX-License-Identifier: GPL-2.0-or-later */
  2/*
  3 * Copyright (C) 2013 Imagination Technologies
  4 * Author: Paul Burton <paul.burton@mips.com>
 
 
 
 
 
  5 */
  6#ifndef _ASM_MSA_H
  7#define _ASM_MSA_H
  8
  9#include <asm/mipsregs.h>
 10
 11#ifndef __ASSEMBLY__
 12
 13#include <asm/inst.h>
 14
 15extern void _save_msa(struct task_struct *);
 16extern void _restore_msa(struct task_struct *);
 17extern void _init_msa_upper(void);
 18
 19extern void read_msa_wr_b(unsigned idx, union fpureg *to);
 20extern void read_msa_wr_h(unsigned idx, union fpureg *to);
 21extern void read_msa_wr_w(unsigned idx, union fpureg *to);
 22extern void read_msa_wr_d(unsigned idx, union fpureg *to);
 23
 24/**
 25 * read_msa_wr() - Read a single MSA vector register
 26 * @idx:	The index of the vector register to read
 27 * @to:		The FPU register union to store the registers value in
 28 * @fmt:	The format of the data in the vector register
 29 *
 30 * Read the value of MSA vector register idx into the FPU register
 31 * union to, using the format fmt.
 32 */
 33static inline void read_msa_wr(unsigned idx, union fpureg *to,
 34			       enum msa_2b_fmt fmt)
 35{
 36	switch (fmt) {
 37	case msa_fmt_b:
 38		read_msa_wr_b(idx, to);
 39		break;
 40
 41	case msa_fmt_h:
 42		read_msa_wr_h(idx, to);
 43		break;
 44
 45	case msa_fmt_w:
 46		read_msa_wr_w(idx, to);
 47		break;
 48
 49	case msa_fmt_d:
 50		read_msa_wr_d(idx, to);
 51		break;
 52
 53	default:
 54		BUG();
 55	}
 56}
 57
 58extern void write_msa_wr_b(unsigned idx, union fpureg *from);
 59extern void write_msa_wr_h(unsigned idx, union fpureg *from);
 60extern void write_msa_wr_w(unsigned idx, union fpureg *from);
 61extern void write_msa_wr_d(unsigned idx, union fpureg *from);
 62
 63/**
 64 * write_msa_wr() - Write a single MSA vector register
 65 * @idx:	The index of the vector register to write
 66 * @from:	The FPU register union to take the registers value from
 67 * @fmt:	The format of the data in the vector register
 68 *
 69 * Write the value from the FPU register union from into MSA vector
 70 * register idx, using the format fmt.
 71 */
 72static inline void write_msa_wr(unsigned idx, union fpureg *from,
 73				enum msa_2b_fmt fmt)
 74{
 75	switch (fmt) {
 76	case msa_fmt_b:
 77		write_msa_wr_b(idx, from);
 78		break;
 79
 80	case msa_fmt_h:
 81		write_msa_wr_h(idx, from);
 82		break;
 83
 84	case msa_fmt_w:
 85		write_msa_wr_w(idx, from);
 86		break;
 87
 88	case msa_fmt_d:
 89		write_msa_wr_d(idx, from);
 90		break;
 91
 92	default:
 93		BUG();
 94	}
 95}
 96
 97static inline void enable_msa(void)
 98{
 99	if (cpu_has_msa) {
100		set_c0_config5(MIPS_CONF5_MSAEN);
101		enable_fpu_hazard();
102	}
103}
104
105static inline void disable_msa(void)
106{
107	if (cpu_has_msa) {
108		clear_c0_config5(MIPS_CONF5_MSAEN);
109		disable_fpu_hazard();
110	}
111}
112
113static inline int is_msa_enabled(void)
114{
115	if (!cpu_has_msa)
116		return 0;
117
118	return read_c0_config5() & MIPS_CONF5_MSAEN;
119}
120
121static inline int thread_msa_context_live(void)
122{
123	/*
124	 * Check cpu_has_msa only if it's a constant. This will allow the
125	 * compiler to optimise out code for CPUs without MSA without adding
126	 * an extra redundant check for CPUs with MSA.
127	 */
128	if (__builtin_constant_p(cpu_has_msa) && !cpu_has_msa)
129		return 0;
130
131	return test_thread_flag(TIF_MSA_CTX_LIVE);
132}
133
134static inline void save_msa(struct task_struct *t)
135{
136	if (cpu_has_msa)
137		_save_msa(t);
138}
139
140static inline void restore_msa(struct task_struct *t)
141{
142	if (cpu_has_msa)
143		_restore_msa(t);
144}
145
146static inline void init_msa_upper(void)
147{
148	/*
149	 * Check cpu_has_msa only if it's a constant. This will allow the
150	 * compiler to optimise out code for CPUs without MSA without adding
151	 * an extra redundant check for CPUs with MSA.
152	 */
153	if (__builtin_constant_p(cpu_has_msa) && !cpu_has_msa)
154		return;
155
156	_init_msa_upper();
157}
158
159#ifndef TOOLCHAIN_SUPPORTS_MSA
160/*
161 * Define assembler macros using .word for the c[ft]cmsa instructions in order
162 * to allow compilation with toolchains that do not support MSA. Once all
163 * toolchains in use support MSA these can be removed.
164 */
165_ASM_MACRO_2R(cfcmsa, rd, cs,
166	_ASM_INSN_IF_MIPS(0x787e0019 | __cs << 11 | __rd << 6)
167	_ASM_INSN32_IF_MM(0x587e0016 | __cs << 11 | __rd << 6));
168_ASM_MACRO_2R(ctcmsa, cd, rs,
169	_ASM_INSN_IF_MIPS(0x783e0019 | __rs << 11 | __cd << 6)
170	_ASM_INSN32_IF_MM(0x583e0016 | __rs << 11 | __cd << 6));
171#define _ASM_SET_MSA ""
172#else /* TOOLCHAIN_SUPPORTS_MSA */
173#define _ASM_SET_MSA ".set\tfp=64\n\t"				\
174		     ".set\tmsa\n\t"
175#endif
176
177#define __BUILD_MSA_CTL_REG(name, cs)				\
178static inline unsigned int read_msa_##name(void)		\
179{								\
180	unsigned int reg;					\
181	__asm__ __volatile__(					\
182	"	.set	push\n"					\
183	_ASM_SET_MSA						\
184	"	cfcmsa	%0, $" #cs "\n"				\
185	"	.set	pop\n"					\
186	: "=r"(reg));						\
187	return reg;						\
188}								\
189								\
190static inline void write_msa_##name(unsigned int val)		\
191{								\
192	__asm__ __volatile__(					\
193	"	.set	push\n"					\
194	_ASM_SET_MSA						\
195	"	ctcmsa	$" #cs ", %0\n"				\
196	"	.set	pop\n"					\
197	: : "r"(val));						\
198}
199
200__BUILD_MSA_CTL_REG(ir, 0)
201__BUILD_MSA_CTL_REG(csr, 1)
202__BUILD_MSA_CTL_REG(access, 2)
203__BUILD_MSA_CTL_REG(save, 3)
204__BUILD_MSA_CTL_REG(modify, 4)
205__BUILD_MSA_CTL_REG(request, 5)
206__BUILD_MSA_CTL_REG(map, 6)
207__BUILD_MSA_CTL_REG(unmap, 7)
208
209#endif /* !__ASSEMBLY__ */
210
211#define MSA_IR		0
212#define MSA_CSR		1
213#define MSA_ACCESS	2
214#define MSA_SAVE	3
215#define MSA_MODIFY	4
216#define MSA_REQUEST	5
217#define MSA_MAP		6
218#define MSA_UNMAP	7
219
220/* MSA Implementation Register (MSAIR) */
221#define MSA_IR_REVB		0
222#define MSA_IR_REVF		(_ULCAST_(0xff) << MSA_IR_REVB)
223#define MSA_IR_PROCB		8
224#define MSA_IR_PROCF		(_ULCAST_(0xff) << MSA_IR_PROCB)
225#define MSA_IR_WRPB		16
226#define MSA_IR_WRPF		(_ULCAST_(0x1) << MSA_IR_WRPB)
227
228/* MSA Control & Status Register (MSACSR) */
229#define MSA_CSR_RMB		0
230#define MSA_CSR_RMF		(_ULCAST_(0x3) << MSA_CSR_RMB)
231#define MSA_CSR_RM_NEAREST	0
232#define MSA_CSR_RM_TO_ZERO	1
233#define MSA_CSR_RM_TO_POS	2
234#define MSA_CSR_RM_TO_NEG	3
235#define MSA_CSR_FLAGSB		2
236#define MSA_CSR_FLAGSF		(_ULCAST_(0x1f) << MSA_CSR_FLAGSB)
237#define MSA_CSR_FLAGS_IB	2
238#define MSA_CSR_FLAGS_IF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_IB)
239#define MSA_CSR_FLAGS_UB	3
240#define MSA_CSR_FLAGS_UF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_UB)
241#define MSA_CSR_FLAGS_OB	4
242#define MSA_CSR_FLAGS_OF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_OB)
243#define MSA_CSR_FLAGS_ZB	5
244#define MSA_CSR_FLAGS_ZF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_ZB)
245#define MSA_CSR_FLAGS_VB	6
246#define MSA_CSR_FLAGS_VF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_VB)
247#define MSA_CSR_ENABLESB	7
248#define MSA_CSR_ENABLESF	(_ULCAST_(0x1f) << MSA_CSR_ENABLESB)
249#define MSA_CSR_ENABLES_IB	7
250#define MSA_CSR_ENABLES_IF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_IB)
251#define MSA_CSR_ENABLES_UB	8
252#define MSA_CSR_ENABLES_UF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_UB)
253#define MSA_CSR_ENABLES_OB	9
254#define MSA_CSR_ENABLES_OF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_OB)
255#define MSA_CSR_ENABLES_ZB	10
256#define MSA_CSR_ENABLES_ZF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_ZB)
257#define MSA_CSR_ENABLES_VB	11
258#define MSA_CSR_ENABLES_VF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_VB)
259#define MSA_CSR_CAUSEB		12
260#define MSA_CSR_CAUSEF		(_ULCAST_(0x3f) << MSA_CSR_CAUSEB)
261#define MSA_CSR_CAUSE_IB	12
262#define MSA_CSR_CAUSE_IF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_IB)
263#define MSA_CSR_CAUSE_UB	13
264#define MSA_CSR_CAUSE_UF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_UB)
265#define MSA_CSR_CAUSE_OB	14
266#define MSA_CSR_CAUSE_OF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_OB)
267#define MSA_CSR_CAUSE_ZB	15
268#define MSA_CSR_CAUSE_ZF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_ZB)
269#define MSA_CSR_CAUSE_VB	16
270#define MSA_CSR_CAUSE_VF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_VB)
271#define MSA_CSR_CAUSE_EB	17
272#define MSA_CSR_CAUSE_EF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_EB)
273#define MSA_CSR_NXB		18
274#define MSA_CSR_NXF		(_ULCAST_(0x1) << MSA_CSR_NXB)
275#define MSA_CSR_FSB		24
276#define MSA_CSR_FSF		(_ULCAST_(0x1) << MSA_CSR_FSB)
277
278#endif /* _ASM_MSA_H */

 
  1/*
  2 * Copyright (C) 2013 Imagination Technologies
  3 * Author: Paul Burton <paul.burton@mips.com>
  4 *
  5 * This program is free software; you can redistribute it and/or modify it
  6 * under the terms of the GNU General Public License as published by the
  7 * Free Software Foundation;  either version 2 of the  License, or (at your
  8 * option) any later version.
  9 */
 10#ifndef _ASM_MSA_H
 11#define _ASM_MSA_H
 12
 13#include <asm/mipsregs.h>
 14
 15#ifndef __ASSEMBLY__
 16
 17#include <asm/inst.h>
 18
 19extern void _save_msa(struct task_struct *);
 20extern void _restore_msa(struct task_struct *);
 21extern void _init_msa_upper(void);
 22
 23extern void read_msa_wr_b(unsigned idx, union fpureg *to);
 24extern void read_msa_wr_h(unsigned idx, union fpureg *to);
 25extern void read_msa_wr_w(unsigned idx, union fpureg *to);
 26extern void read_msa_wr_d(unsigned idx, union fpureg *to);
 27
 28/**
 29 * read_msa_wr() - Read a single MSA vector register
 30 * @idx:	The index of the vector register to read
 31 * @to:		The FPU register union to store the registers value in
 32 * @fmt:	The format of the data in the vector register
 33 *
 34 * Read the value of MSA vector register idx into the FPU register
 35 * union to, using the format fmt.
 36 */
 37static inline void read_msa_wr(unsigned idx, union fpureg *to,
 38			       enum msa_2b_fmt fmt)
 39{
 40	switch (fmt) {
 41	case msa_fmt_b:
 42		read_msa_wr_b(idx, to);
 43		break;
 44
 45	case msa_fmt_h:
 46		read_msa_wr_h(idx, to);
 47		break;
 48
 49	case msa_fmt_w:
 50		read_msa_wr_w(idx, to);
 51		break;
 52
 53	case msa_fmt_d:
 54		read_msa_wr_d(idx, to);
 55		break;
 56
 57	default:
 58		BUG();
 59	}
 60}
 61
 62extern void write_msa_wr_b(unsigned idx, union fpureg *from);
 63extern void write_msa_wr_h(unsigned idx, union fpureg *from);
 64extern void write_msa_wr_w(unsigned idx, union fpureg *from);
 65extern void write_msa_wr_d(unsigned idx, union fpureg *from);
 66
 67/**
 68 * write_msa_wr() - Write a single MSA vector register
 69 * @idx:	The index of the vector register to write
 70 * @from:	The FPU register union to take the registers value from
 71 * @fmt:	The format of the data in the vector register
 72 *
 73 * Write the value from the FPU register union from into MSA vector
 74 * register idx, using the format fmt.
 75 */
 76static inline void write_msa_wr(unsigned idx, union fpureg *from,
 77				enum msa_2b_fmt fmt)
 78{
 79	switch (fmt) {
 80	case msa_fmt_b:
 81		write_msa_wr_b(idx, from);
 82		break;
 83
 84	case msa_fmt_h:
 85		write_msa_wr_h(idx, from);
 86		break;
 87
 88	case msa_fmt_w:
 89		write_msa_wr_w(idx, from);
 90		break;
 91
 92	case msa_fmt_d:
 93		write_msa_wr_d(idx, from);
 94		break;
 95
 96	default:
 97		BUG();
 98	}
 99}
100
101static inline void enable_msa(void)
102{
103	if (cpu_has_msa) {
104		set_c0_config5(MIPS_CONF5_MSAEN);
105		enable_fpu_hazard();
106	}
107}
108
109static inline void disable_msa(void)
110{
111	if (cpu_has_msa) {
112		clear_c0_config5(MIPS_CONF5_MSAEN);
113		disable_fpu_hazard();
114	}
115}
116
117static inline int is_msa_enabled(void)
118{
119	if (!cpu_has_msa)
120		return 0;
121
122	return read_c0_config5() & MIPS_CONF5_MSAEN;
123}
124
125static inline int thread_msa_context_live(void)
126{
127	/*
128	 * Check cpu_has_msa only if it's a constant. This will allow the
129	 * compiler to optimise out code for CPUs without MSA without adding
130	 * an extra redundant check for CPUs with MSA.
131	 */
132	if (__builtin_constant_p(cpu_has_msa) && !cpu_has_msa)
133		return 0;
134
135	return test_thread_flag(TIF_MSA_CTX_LIVE);
136}
137
138static inline void save_msa(struct task_struct *t)
139{
140	if (cpu_has_msa)
141		_save_msa(t);
142}
143
144static inline void restore_msa(struct task_struct *t)
145{
146	if (cpu_has_msa)
147		_restore_msa(t);
148}
149
150static inline void init_msa_upper(void)
151{
152	/*
153	 * Check cpu_has_msa only if it's a constant. This will allow the
154	 * compiler to optimise out code for CPUs without MSA without adding
155	 * an extra redundant check for CPUs with MSA.
156	 */
157	if (__builtin_constant_p(cpu_has_msa) && !cpu_has_msa)
158		return;
159
160	_init_msa_upper();
161}
162
163#ifndef TOOLCHAIN_SUPPORTS_MSA
164/*
165 * Define assembler macros using .word for the c[ft]cmsa instructions in order
166 * to allow compilation with toolchains that do not support MSA. Once all
167 * toolchains in use support MSA these can be removed.
168 */
169_ASM_MACRO_2R(cfcmsa, rd, cs,
170	_ASM_INSN_IF_MIPS(0x787e0019 | __cs << 11 | __rd << 6)
171	_ASM_INSN32_IF_MM(0x587e0016 | __cs << 11 | __rd << 6));
172_ASM_MACRO_2R(ctcmsa, cd, rs,
173	_ASM_INSN_IF_MIPS(0x783e0019 | __rs << 11 | __cd << 6)
174	_ASM_INSN32_IF_MM(0x583e0016 | __rs << 11 | __cd << 6));
175#define _ASM_SET_MSA ""
176#else /* TOOLCHAIN_SUPPORTS_MSA */
177#define _ASM_SET_MSA ".set\tfp=64\n\t"				\
178		     ".set\tmsa\n\t"
179#endif
180
181#define __BUILD_MSA_CTL_REG(name, cs)				\
182static inline unsigned int read_msa_##name(void)		\
183{								\
184	unsigned int reg;					\
185	__asm__ __volatile__(					\
186	"	.set	push\n"					\
187	_ASM_SET_MSA						\
188	"	cfcmsa	%0, $" #cs "\n"				\
189	"	.set	pop\n"					\
190	: "=r"(reg));						\
191	return reg;						\
192}								\
193								\
194static inline void write_msa_##name(unsigned int val)		\
195{								\
196	__asm__ __volatile__(					\
197	"	.set	push\n"					\
198	_ASM_SET_MSA						\
199	"	ctcmsa	$" #cs ", %0\n"				\
200	"	.set	pop\n"					\
201	: : "r"(val));						\
202}
203
204__BUILD_MSA_CTL_REG(ir, 0)
205__BUILD_MSA_CTL_REG(csr, 1)
206__BUILD_MSA_CTL_REG(access, 2)
207__BUILD_MSA_CTL_REG(save, 3)
208__BUILD_MSA_CTL_REG(modify, 4)
209__BUILD_MSA_CTL_REG(request, 5)
210__BUILD_MSA_CTL_REG(map, 6)
211__BUILD_MSA_CTL_REG(unmap, 7)
212
213#endif /* !__ASSEMBLY__ */
214
215#define MSA_IR		0
216#define MSA_CSR		1
217#define MSA_ACCESS	2
218#define MSA_SAVE	3
219#define MSA_MODIFY	4
220#define MSA_REQUEST	5
221#define MSA_MAP		6
222#define MSA_UNMAP	7
223
224/* MSA Implementation Register (MSAIR) */
225#define MSA_IR_REVB		0
226#define MSA_IR_REVF		(_ULCAST_(0xff) << MSA_IR_REVB)
227#define MSA_IR_PROCB		8
228#define MSA_IR_PROCF		(_ULCAST_(0xff) << MSA_IR_PROCB)
229#define MSA_IR_WRPB		16
230#define MSA_IR_WRPF		(_ULCAST_(0x1) << MSA_IR_WRPB)
231
232/* MSA Control & Status Register (MSACSR) */
233#define MSA_CSR_RMB		0
234#define MSA_CSR_RMF		(_ULCAST_(0x3) << MSA_CSR_RMB)
235#define MSA_CSR_RM_NEAREST	0
236#define MSA_CSR_RM_TO_ZERO	1
237#define MSA_CSR_RM_TO_POS	2
238#define MSA_CSR_RM_TO_NEG	3
239#define MSA_CSR_FLAGSB		2
240#define MSA_CSR_FLAGSF		(_ULCAST_(0x1f) << MSA_CSR_FLAGSB)
241#define MSA_CSR_FLAGS_IB	2
242#define MSA_CSR_FLAGS_IF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_IB)
243#define MSA_CSR_FLAGS_UB	3
244#define MSA_CSR_FLAGS_UF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_UB)
245#define MSA_CSR_FLAGS_OB	4
246#define MSA_CSR_FLAGS_OF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_OB)
247#define MSA_CSR_FLAGS_ZB	5
248#define MSA_CSR_FLAGS_ZF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_ZB)
249#define MSA_CSR_FLAGS_VB	6
250#define MSA_CSR_FLAGS_VF	(_ULCAST_(0x1) << MSA_CSR_FLAGS_VB)
251#define MSA_CSR_ENABLESB	7
252#define MSA_CSR_ENABLESF	(_ULCAST_(0x1f) << MSA_CSR_ENABLESB)
253#define MSA_CSR_ENABLES_IB	7
254#define MSA_CSR_ENABLES_IF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_IB)
255#define MSA_CSR_ENABLES_UB	8
256#define MSA_CSR_ENABLES_UF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_UB)
257#define MSA_CSR_ENABLES_OB	9
258#define MSA_CSR_ENABLES_OF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_OB)
259#define MSA_CSR_ENABLES_ZB	10
260#define MSA_CSR_ENABLES_ZF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_ZB)
261#define MSA_CSR_ENABLES_VB	11
262#define MSA_CSR_ENABLES_VF	(_ULCAST_(0x1) << MSA_CSR_ENABLES_VB)
263#define MSA_CSR_CAUSEB		12
264#define MSA_CSR_CAUSEF		(_ULCAST_(0x3f) << MSA_CSR_CAUSEB)
265#define MSA_CSR_CAUSE_IB	12
266#define MSA_CSR_CAUSE_IF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_IB)
267#define MSA_CSR_CAUSE_UB	13
268#define MSA_CSR_CAUSE_UF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_UB)
269#define MSA_CSR_CAUSE_OB	14
270#define MSA_CSR_CAUSE_OF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_OB)
271#define MSA_CSR_CAUSE_ZB	15
272#define MSA_CSR_CAUSE_ZF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_ZB)
273#define MSA_CSR_CAUSE_VB	16
274#define MSA_CSR_CAUSE_VF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_VB)
275#define MSA_CSR_CAUSE_EB	17
276#define MSA_CSR_CAUSE_EF	(_ULCAST_(0x1) << MSA_CSR_CAUSE_EB)
277#define MSA_CSR_NXB		18
278#define MSA_CSR_NXF		(_ULCAST_(0x1) << MSA_CSR_NXB)
279#define MSA_CSR_FSB		24
280#define MSA_CSR_FSF		(_ULCAST_(0x1) << MSA_CSR_FSB)
281
282#endif /* _ASM_MSA_H */