1 /*
2 * Copyright (c) 2013, 2021, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25 #ifndef CPU_X86_STUBROUTINES_X86_HPP
26 #define CPU_X86_STUBROUTINES_X86_HPP
27
28 // This file holds the platform specific parts of the StubRoutines
29 // definition. See stubRoutines.hpp for a description on how to
30 // extend it.
31
32 static bool returns_to_call_stub(address return_pc) { return return_pc == _call_stub_return_address; }
33
34 enum platform_dependent_constants {
35 code_size1 = 20000 LP64_ONLY(+10000), // simply increase if too small (assembler will crash if too small)
36 code_size2 = 35300 LP64_ONLY(+25000) // simply increase if too small (assembler will crash if too small)
37 };
38
39 class x86 {
40 friend class StubGenerator;
41 friend class VMStructs;
42
43 #ifdef _LP64
44 private:
45 static address _get_previous_sp_entry;
46
47 static address _f2i_fixup;
48 static address _f2l_fixup;
49 static address _d2i_fixup;
50 static address _d2l_fixup;
51
52 static address _float_sign_mask;
53 static address _float_sign_flip;
54 static address _double_sign_mask;
55 static address _double_sign_flip;
56
57 public:
58
59 static address get_previous_sp_entry() {
60 return _get_previous_sp_entry;
61 }
62
63 static address f2i_fixup() {
64 return _f2i_fixup;
65 }
66
67 static address f2l_fixup() {
68 return _f2l_fixup;
69 }
70
71 static address d2i_fixup() {
72 return _d2i_fixup;
73 }
74
75 static address d2l_fixup() {
76 return _d2l_fixup;
77 }
78
79 static address float_sign_mask() {
80 return _float_sign_mask;
81 }
82
83 static address float_sign_flip() {
84 return _float_sign_flip;
85 }
86
87 static address double_sign_mask() {
88 return _double_sign_mask;
89 }
90
91 static address double_sign_flip() {
92 return _double_sign_flip;
93 }
94
95 #else // !LP64
96
97 private:
98 static address _verify_fpu_cntrl_wrd_entry;
99 static address _d2i_wrapper;
100 static address _d2l_wrapper;
101
102 static jint _fpu_cntrl_wrd_std;
103 static jint _fpu_cntrl_wrd_24;
104 static jint _fpu_cntrl_wrd_trunc;
105
106 static jint _fpu_subnormal_bias1[3];
107 static jint _fpu_subnormal_bias2[3];
108
109 public:
110 static address verify_fpu_cntrl_wrd_entry() { return _verify_fpu_cntrl_wrd_entry; }
111 static address d2i_wrapper() { return _d2i_wrapper; }
112 static address d2l_wrapper() { return _d2l_wrapper; }
113 static address addr_fpu_cntrl_wrd_std() { return (address)&_fpu_cntrl_wrd_std; }
114 static address addr_fpu_cntrl_wrd_24() { return (address)&_fpu_cntrl_wrd_24; }
115 static address addr_fpu_cntrl_wrd_trunc() { return (address)&_fpu_cntrl_wrd_trunc; }
116 static address addr_fpu_subnormal_bias1() { return (address)&_fpu_subnormal_bias1; }
117 static address addr_fpu_subnormal_bias2() { return (address)&_fpu_subnormal_bias2; }
118
119 static jint fpu_cntrl_wrd_std() { return _fpu_cntrl_wrd_std; }
120 #endif // !LP64
121
122 private:
123 static jint _mxcsr_std;
124
125 static address _verify_mxcsr_entry;
126 // shuffle mask for fixing up 128-bit words consisting of big-endian 32-bit integers
127 static address _key_shuffle_mask_addr;
128
129 //shuffle mask for big-endian 128-bit integers
130 static address _counter_shuffle_mask_addr;
131
132 static address _method_entry_barrier;
133
134 // masks and table for CRC32
135 static uint64_t _crc_by128_masks[];
136 static juint _crc_table[];
137 #ifdef _LP64
138 static juint _crc_by128_masks_avx512[];
139 static juint _crc_table_avx512[];
140 static juint _crc32c_table_avx512[];
141 static juint _shuf_table_crc32_avx512[];
142 static juint _adler32_shuf0_table[];
143 static juint _adler32_shuf1_table[];
144 static juint _adler32_ascale_table[];
145 #endif // _LP64
146 // table for CRC32C
147 static juint* _crc32c_table;
148 // swap mask for ghash
149 static address _ghash_long_swap_mask_addr;
150 static address _ghash_byte_swap_mask_addr;
151 static address _ghash_poly_addr;
152 static address _ghash_shuffmask_addr;
153
154 // upper word mask for sha1
155 static address _upper_word_mask_addr;
156 // byte flip mask for sha1
157 static address _shuffle_byte_flip_mask_addr;
158
159 //k256 table for sha256
160 static juint _k256[];
161 static address _k256_adr;
162 static address _vector_short_to_byte_mask;
163 static address _vector_float_sign_mask;
164 static address _vector_float_sign_flip;
165 static address _vector_double_sign_mask;
166 static address _vector_double_sign_flip;
167 static address _vector_long_sign_mask;
168 static address _vector_all_bits_set;
169 static address _vector_byte_perm_mask;
170 static address _vector_int_to_byte_mask;
171 static address _vector_int_to_short_mask;
172 static address _vector_32_bit_mask;
173 static address _vector_64_bit_mask;
174 static address _vector_int_shuffle_mask;
175 static address _vector_byte_shuffle_mask;
176 static address _vector_short_shuffle_mask;
177 static address _vector_long_shuffle_mask;
178 static address _vector_iota_indices;
179 #ifdef _LP64
180 static juint _k256_W[];
181 static address _k256_W_adr;
182 static julong _k512_W[];
183 static address _k512_W_addr;
184 // byte flip mask for sha512
185 static address _pshuffle_byte_flip_mask_addr_sha512;
186 static address _counter_mask_addr;
187 // Masks for base64
188 static address _encoding_table_base64;
189 static address _shuffle_base64;
190 static address _avx2_shuffle_base64;
191 static address _avx2_input_mask_base64;
192 static address _avx2_lut_base64;
193 static address _lookup_lo_base64;
194 static address _lookup_hi_base64;
195 static address _lookup_lo_base64url;
196 static address _lookup_hi_base64url;
197 static address _pack_vec_base64;
198 static address _join_0_1_base64;
199 static address _join_1_2_base64;
200 static address _join_2_3_base64;
201 static address _decoding_table_base64;
202 #endif
203 // byte flip mask for sha256
204 static address _pshuffle_byte_flip_mask_addr;
205
206 //tables common for LIBM sin and cos
207 static juint _ONEHALF[];
208 static address _ONEHALF_adr;
209 static juint _P_2[];
210 static address _P_2_adr;
211 static juint _SC_4[];
212 static address _SC_4_adr;
213 static juint _Ctable[];
214 static address _Ctable_adr;
215 static juint _SC_2[];
216 static address _SC_2_adr;
217 static juint _SC_3[];
218 static address _SC_3_adr;
219 static juint _SC_1[];
220 static address _SC_1_adr;
221 static juint _PI_INV_TABLE[];
222 static address _PI_INV_TABLE_adr;
223 static juint _PI_4[];
224 static address _PI_4_adr;
225 static juint _PI32INV[];
226 static address _PI32INV_adr;
227 static juint _SIGN_MASK[];
228 static address _SIGN_MASK_adr;
229 static juint _P_1[];
230 static address _P_1_adr;
231 static juint _P_3[];
232 static address _P_3_adr;
233 static juint _NEG_ZERO[];
234 static address _NEG_ZERO_adr;
235
236 //tables common for LIBM sincos and tancot
237 static juint _L_2il0floatpacket_0[];
238 static address _L_2il0floatpacket_0_adr;
239 static juint _Pi4Inv[];
240 static address _Pi4Inv_adr;
241 static juint _Pi4x3[];
242 static address _Pi4x3_adr;
243 static juint _Pi4x4[];
244 static address _Pi4x4_adr;
245 static juint _ones[];
246 static address _ones_adr;
247
248 public:
249 static address addr_mxcsr_std() { return (address)&_mxcsr_std; }
250 static address verify_mxcsr_entry() { return _verify_mxcsr_entry; }
251 static address key_shuffle_mask_addr() { return _key_shuffle_mask_addr; }
252 static address counter_shuffle_mask_addr() { return _counter_shuffle_mask_addr; }
253 static address crc_by128_masks_addr() { return (address)_crc_by128_masks; }
254 #ifdef _LP64
255 static address crc_by128_masks_avx512_addr() { return (address)_crc_by128_masks_avx512; }
256 static address shuf_table_crc32_avx512_addr() { return (address)_shuf_table_crc32_avx512; }
257 static address crc_table_avx512_addr() { return (address)_crc_table_avx512; }
258 static address crc32c_table_avx512_addr() { return (address)_crc32c_table_avx512; }
259 #endif // _LP64
260 static address ghash_long_swap_mask_addr() { return _ghash_long_swap_mask_addr; }
261 static address ghash_byte_swap_mask_addr() { return _ghash_byte_swap_mask_addr; }
262 static address ghash_shufflemask_addr() { return _ghash_shuffmask_addr; }
263 static address ghash_polynomial_addr() { return _ghash_poly_addr; }
264 static address upper_word_mask_addr() { return _upper_word_mask_addr; }
265 static address shuffle_byte_flip_mask_addr() { return _shuffle_byte_flip_mask_addr; }
266 static address k256_addr() { return _k256_adr; }
267 static address method_entry_barrier() { return _method_entry_barrier; }
268
269 static address vector_short_to_byte_mask() {
270 return _vector_short_to_byte_mask;
271 }
272 static address vector_float_sign_mask() {
273 return _vector_float_sign_mask;
274 }
275
276 static address vector_float_sign_flip() {
277 return _vector_float_sign_flip;
278 }
279
280 static address vector_double_sign_mask() {
281 return _vector_double_sign_mask;
282 }
283
284 static address vector_double_sign_flip() {
285 return _vector_double_sign_flip;
286 }
287
288 static address vector_all_bits_set() {
289 return _vector_all_bits_set;
290 }
291
292 static address vector_byte_perm_mask() {
293 return _vector_byte_perm_mask;
294 }
295
296 static address vector_int_to_byte_mask() {
297 return _vector_int_to_byte_mask;
298 }
299
300 static address vector_int_to_short_mask() {
301 return _vector_int_to_short_mask;
302 }
303
304 static address vector_32_bit_mask() {
305 return _vector_32_bit_mask;
306 }
307
308 static address vector_64_bit_mask() {
309 return _vector_64_bit_mask;
310 }
311
312 static address vector_int_shuffle_mask() {
313 return _vector_int_shuffle_mask;
314 }
315
316 static address vector_byte_shuffle_mask() {
317 return _vector_byte_shuffle_mask;
318 }
319
320 static address vector_short_shuffle_mask() {
321 return _vector_short_shuffle_mask;
322 }
323
324 static address vector_long_shuffle_mask() {
325 return _vector_long_shuffle_mask;
326 }
327
328 static address vector_long_sign_mask() {
329 return _vector_long_sign_mask;
330 }
331
332 static address vector_iota_indices() {
333 return _vector_iota_indices;
334 }
335
336 #ifdef _LP64
337 static address k256_W_addr() { return _k256_W_adr; }
338 static address k512_W_addr() { return _k512_W_addr; }
339 static address pshuffle_byte_flip_mask_addr_sha512() { return _pshuffle_byte_flip_mask_addr_sha512; }
340 static address base64_encoding_table_addr() { return _encoding_table_base64; }
341 static address base64_shuffle_addr() { return _shuffle_base64; }
342 static address base64_avx2_shuffle_addr() { return _avx2_shuffle_base64; }
343 static address base64_avx2_input_mask_addr() { return _avx2_input_mask_base64; }
344 static address base64_avx2_lut_addr() { return _avx2_lut_base64; }
345 static address counter_mask_addr() { return _counter_mask_addr; }
346 static address base64_vbmi_lookup_lo_addr() { return _lookup_lo_base64; }
347 static address base64_vbmi_lookup_hi_addr() { return _lookup_hi_base64; }
348 static address base64_vbmi_lookup_lo_url_addr() { return _lookup_lo_base64url; }
349 static address base64_vbmi_lookup_hi_url_addr() { return _lookup_hi_base64url; }
350 static address base64_vbmi_pack_vec_addr() { return _pack_vec_base64; }
351 static address base64_vbmi_join_0_1_addr() { return _join_0_1_base64; }
352 static address base64_vbmi_join_1_2_addr() { return _join_1_2_base64; }
353 static address base64_vbmi_join_2_3_addr() { return _join_2_3_base64; }
354 static address base64_decoding_table_addr() { return _decoding_table_base64; }
355 #endif
356 static address pshuffle_byte_flip_mask_addr() { return _pshuffle_byte_flip_mask_addr; }
357 static void generate_CRC32C_table(bool is_pclmulqdq_supported);
358 static address _ONEHALF_addr() { return _ONEHALF_adr; }
359 static address _P_2_addr() { return _P_2_adr; }
360 static address _SC_4_addr() { return _SC_4_adr; }
361 static address _Ctable_addr() { return _Ctable_adr; }
362 static address _SC_2_addr() { return _SC_2_adr; }
363 static address _SC_3_addr() { return _SC_3_adr; }
364 static address _SC_1_addr() { return _SC_1_adr; }
365 static address _PI_INV_TABLE_addr() { return _PI_INV_TABLE_adr; }
366 static address _PI_4_addr() { return _PI_4_adr; }
367 static address _PI32INV_addr() { return _PI32INV_adr; }
368 static address _SIGN_MASK_addr() { return _SIGN_MASK_adr; }
369 static address _P_1_addr() { return _P_1_adr; }
370 static address _P_3_addr() { return _P_3_adr; }
371 static address _NEG_ZERO_addr() { return _NEG_ZERO_adr; }
372 static address _L_2il0floatpacket_0_addr() { return _L_2il0floatpacket_0_adr; }
373 static address _Pi4Inv_addr() { return _Pi4Inv_adr; }
374 static address _Pi4x3_addr() { return _Pi4x3_adr; }
375 static address _Pi4x4_addr() { return _Pi4x4_adr; }
376 static address _ones_addr() { return _ones_adr; }
377
378 };
379
380 #endif // CPU_X86_STUBROUTINES_X86_HPP