1 | /* -*- c++ -*- |
---|
2 | * |
---|
3 | * SOCLIB_LGPL_HEADER_BEGIN |
---|
4 | * |
---|
5 | * This file is part of SoCLib, GNU LGPLv2.1. |
---|
6 | * |
---|
7 | * SoCLib is free software; you can redistribute it and/or modify it |
---|
8 | * under the terms of the GNU Lesser General Public License as published |
---|
9 | * by the Free Software Foundation; version 2.1 of the License. |
---|
10 | * |
---|
11 | * SoCLib is distributed in the hope that it will be useful, but |
---|
12 | * WITHOUT ANY WARRANTY; without even the implied warranty of |
---|
13 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
---|
14 | * Lesser General Public License for more details. |
---|
15 | * |
---|
16 | * You should have received a copy of the GNU Lesser General Public |
---|
17 | * License along with SoCLib; if not, write to the Free Software |
---|
18 | * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA |
---|
19 | * 02110-1301 USA |
---|
20 | * |
---|
21 | * SOCLIB_LGPL_HEADER_END |
---|
22 | * |
---|
23 | * Copyright (c) UPMC, Lip6 |
---|
24 | * Alain Greiner <alain.greiner@lip6.fr> July 2008 |
---|
25 | * |
---|
26 | * Maintainers: alain |
---|
27 | */ |
---|
28 | |
---|
29 | //////////////////////////////////////////////////////////////////////////////// |
---|
30 | // File : generic_cache.h |
---|
31 | // Date : 07/01/2012 |
---|
32 | // Authors : Alain Greiner |
---|
33 | ///////////////////////////////////////////////////////////////////////////////// |
---|
34 | // This object is a generic, set associative, cache. |
---|
35 | // Each slot can be in three states: VALID, EMPTY or ZOMBI. |
---|
36 | // The ZOMBI state is used by cache coherence protocols to indicate |
---|
37 | // a pending cleanup request. |
---|
38 | // Hit if ( (matching tag) and (state == VALID). |
---|
39 | // The replacement policy is pseudo-LRU. The victim selection process cannot |
---|
40 | // fail if the ZOMBI state is not used. |
---|
41 | // But it can fail if all ways are in ZOMBI state. |
---|
42 | ///////////////////////////////////////////////////////////////////////////////// |
---|
43 | // Implementation note |
---|
44 | // The DATA part is implemented as an uint32_t array[nways*nsets*nwords]. |
---|
45 | // The DIRECTORY part is implemented as an uint32_t array[nways*nsets]. |
---|
46 | // All methods requiring a dual port RAM or cache modification using |
---|
47 | // an associative search have been deprecated. |
---|
48 | ///////////////////////////////////////////////////////////////////////////////// |
---|
49 | // Constructor parameters are : |
---|
50 | // - std::string &name |
---|
51 | // - size_t nways : number of associativity levels |
---|
52 | // - size_t nsets : number of sets |
---|
53 | // - size_t nwords : number of words in a cache line |
---|
54 | // The nways, nsets, nwords parameters must be power of 2 |
---|
55 | // The nsets parameter cannot be larger than 1024 |
---|
56 | // The nways parameter cannot be larger than 16 |
---|
57 | // The nwords parameter cannot be larger than 64 |
---|
58 | ///////////////////////////////////////////////////////////////////////////////// |
---|
59 | // Template parameter is : |
---|
60 | // - addr_t : address format to access the cache |
---|
61 | ///////////////////////////////////////////////////////////////////////////////// |
---|
62 | |
---|
63 | #ifndef SOCLIB_GENERIC_CACHE_H |
---|
64 | #define SOCLIB_GENERIC_CACHE_H |
---|
65 | |
---|
66 | #include <systemc> |
---|
67 | #include <cassert> |
---|
68 | #include "arithmetics.h" |
---|
69 | #include "static_assert.h" |
---|
70 | #include "mapping_table.h" |
---|
71 | #include <cstring> |
---|
72 | |
---|
73 | namespace soclib { |
---|
74 | |
---|
75 | enum cache_slot_state_e |
---|
76 | { |
---|
77 | CACHE_SLOT_STATE_EMPTY, |
---|
78 | CACHE_SLOT_STATE_VALID_CC, |
---|
79 | CACHE_SLOT_STATE_ZOMBI, |
---|
80 | CACHE_SLOT_STATE_VALID_NCC, |
---|
81 | }; |
---|
82 | |
---|
83 | ////////////////////////// |
---|
84 | template<typename addr_t> |
---|
85 | class GenericCache |
---|
86 | ////////////////////////// |
---|
87 | { |
---|
88 | typedef uint32_t data_t; |
---|
89 | typedef uint32_t be_t; |
---|
90 | |
---|
91 | data_t *r_data ; |
---|
92 | addr_t *r_tag ; |
---|
93 | int *r_state; |
---|
94 | bool *r_lru ; |
---|
95 | |
---|
96 | size_t m_ways; |
---|
97 | size_t m_sets; |
---|
98 | size_t m_words; |
---|
99 | |
---|
100 | const soclib::common::AddressMaskingTable<addr_t> m_x ; |
---|
101 | const soclib::common::AddressMaskingTable<addr_t> m_y ; |
---|
102 | const soclib::common::AddressMaskingTable<addr_t> m_z ; |
---|
103 | |
---|
104 | ////////////////////////////////////////////////////////////// |
---|
105 | inline data_t &cache_data(size_t way, size_t set, size_t word) |
---|
106 | { |
---|
107 | return r_data[(way*m_sets*m_words)+(set*m_words)+word]; |
---|
108 | } |
---|
109 | |
---|
110 | ////////////////////////////////////////////// |
---|
111 | inline addr_t &cache_tag(size_t way, size_t set) |
---|
112 | { |
---|
113 | return r_tag[(way*m_sets)+set]; |
---|
114 | } |
---|
115 | |
---|
116 | ////////////////////////////////////////////// |
---|
117 | inline bool &cache_lru(size_t way, size_t set) |
---|
118 | { |
---|
119 | return r_lru[(way*m_sets)+set]; |
---|
120 | } |
---|
121 | |
---|
122 | ////////////////////////////////////////////// |
---|
123 | inline int &cache_state(size_t way, size_t set) |
---|
124 | { |
---|
125 | return r_state[(way*m_sets)+set]; |
---|
126 | } |
---|
127 | |
---|
128 | |
---|
129 | ///////////////////////////////////////////////// |
---|
130 | inline void cache_set_lru(size_t way, size_t set) |
---|
131 | { |
---|
132 | size_t way2; |
---|
133 | |
---|
134 | cache_lru(way, set) = true; |
---|
135 | |
---|
136 | for (way2 = 0; way2 < m_ways; way2++) |
---|
137 | { |
---|
138 | if (cache_lru(way2, set) == false) return; |
---|
139 | } |
---|
140 | // all lines are new -> they all become old |
---|
141 | for (way2 = 0; way2 < m_ways; way2++) |
---|
142 | { |
---|
143 | cache_lru(way2, set) = false; |
---|
144 | } |
---|
145 | } |
---|
146 | |
---|
147 | //////////////////////////////// |
---|
148 | inline data_t be2mask(be_t be) |
---|
149 | { |
---|
150 | data_t mask = 0; |
---|
151 | if ( (be & 0x1) == 0x1 ) mask = mask | 0x000000FF; |
---|
152 | if ( (be & 0x2) == 0x2 ) mask = mask | 0x0000FF00; |
---|
153 | if ( (be & 0x4) == 0x4 ) mask = mask | 0x00FF0000; |
---|
154 | if ( (be & 0x8) == 0x8 ) mask = mask | 0xFF000000; |
---|
155 | return mask; |
---|
156 | } |
---|
157 | |
---|
158 | public: |
---|
159 | |
---|
160 | ////////////////////////////////////////// |
---|
161 | GenericCache(const std::string &name, |
---|
162 | size_t nways, |
---|
163 | size_t nsets, |
---|
164 | size_t nwords) |
---|
165 | : m_ways(nways), |
---|
166 | m_sets(nsets), |
---|
167 | m_words(nwords), |
---|
168 | |
---|
169 | #define l2 soclib::common::uint32_log2 |
---|
170 | |
---|
171 | m_x( l2(nwords), l2(sizeof(data_t))), |
---|
172 | m_y( l2(nsets), l2(nwords) + l2(sizeof(data_t))), |
---|
173 | m_z( 8*sizeof(addr_t) - l2(nsets) - l2(nwords) - l2(sizeof(data_t)), |
---|
174 | l2(nsets) + l2(nwords) + l2(sizeof(data_t))) |
---|
175 | #undef l2 |
---|
176 | { |
---|
177 | assert(IS_POW_OF_2(nways)); |
---|
178 | assert(IS_POW_OF_2(nsets)); |
---|
179 | assert(IS_POW_OF_2(nwords)); |
---|
180 | assert(nwords); |
---|
181 | assert(nsets); |
---|
182 | assert(nways); |
---|
183 | assert(nwords <= 64); |
---|
184 | assert(nsets <= 1024); |
---|
185 | assert(nways <= 16); |
---|
186 | |
---|
187 | #ifdef GENERIC_CACHE_DEBUG |
---|
188 | std::cout << "constructing " << name << std::endl |
---|
189 | << "- nways = " << nways << std::endl |
---|
190 | << "- nsets = " << nsets << std::endl |
---|
191 | << "- nwords = " << nwords << std::endl |
---|
192 | << " m_x: " << m_x |
---|
193 | << " m_y: " << m_y |
---|
194 | << " m_z: " << m_z |
---|
195 | << std::endl; |
---|
196 | #endif |
---|
197 | |
---|
198 | r_data = new data_t[nways*nsets*nwords]; |
---|
199 | r_tag = new addr_t[nways*nsets]; |
---|
200 | r_state = new int[nways*nsets]; |
---|
201 | r_lru = new bool[nways*nsets]; |
---|
202 | } |
---|
203 | |
---|
204 | //////////////// |
---|
205 | ~GenericCache() |
---|
206 | { |
---|
207 | delete [] r_data; |
---|
208 | delete [] r_tag; |
---|
209 | delete [] r_state; |
---|
210 | delete [] r_lru; |
---|
211 | } |
---|
212 | |
---|
213 | //////////////////// |
---|
214 | inline void reset() |
---|
215 | { |
---|
216 | std::memset(r_data, 0, sizeof(*r_data)*m_ways*m_sets*m_words); |
---|
217 | std::memset(r_tag, 0, sizeof(*r_tag)*m_ways*m_sets); |
---|
218 | std::memset(r_state, CACHE_SLOT_STATE_EMPTY, sizeof(*r_state)*m_ways*m_sets); |
---|
219 | std::memset(r_lru, 0, sizeof(*r_lru)*m_ways*m_sets); |
---|
220 | } |
---|
221 | |
---|
222 | inline int get_cache_state(int way, int set) |
---|
223 | { |
---|
224 | return cache_state(way,set); |
---|
225 | } |
---|
226 | |
---|
227 | ///////////////////////////////////////////////////////////////////// |
---|
228 | // Read a single 32 bits word. |
---|
229 | // returns true if (matching tag) and (state == VALID) |
---|
230 | // Both data & directory are accessed. |
---|
231 | ///////////////////////////////////////////////////////////////////// |
---|
232 | inline bool read(addr_t ad, |
---|
233 | data_t* dt) |
---|
234 | { |
---|
235 | const addr_t tag = m_z[ad]; |
---|
236 | const size_t set = m_y[ad]; |
---|
237 | const size_t word = m_x[ad]; |
---|
238 | |
---|
239 | for (size_t way = 0; way < m_ways; way++) |
---|
240 | { |
---|
241 | if ((tag == cache_tag(way, set)) |
---|
242 | && ((cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC) or (cache_state(way, set) == CACHE_SLOT_STATE_VALID_NCC)) ) |
---|
243 | { |
---|
244 | *dt = cache_data(way, set, word); |
---|
245 | cache_set_lru(way, set); |
---|
246 | return true; |
---|
247 | } |
---|
248 | } |
---|
249 | return false; |
---|
250 | } |
---|
251 | |
---|
252 | //////////////////////////////////////////////////////////////////// |
---|
253 | // Read a single 32 bits word. |
---|
254 | // returns true if (matching tag) and (state == VALID) |
---|
255 | // Both data & directory are accessed. |
---|
256 | // The selected way, set and word index are returned in case of hit. |
---|
257 | ///////////////////////////////////////////////////////////////////// |
---|
258 | inline bool read(addr_t ad, |
---|
259 | data_t* dt, |
---|
260 | size_t* selway, |
---|
261 | size_t* selset, |
---|
262 | size_t* selword) |
---|
263 | { |
---|
264 | const addr_t tag = m_z[ad]; |
---|
265 | const size_t set = m_y[ad]; |
---|
266 | const size_t word = m_x[ad]; |
---|
267 | |
---|
268 | for (size_t way = 0; way < m_ways; way++) |
---|
269 | { |
---|
270 | if ((tag == cache_tag(way, set)) and |
---|
271 | ((cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC)or (cache_state(way, set) == CACHE_SLOT_STATE_VALID_NCC))) |
---|
272 | { |
---|
273 | *selway = way; |
---|
274 | *selset = set; |
---|
275 | *selword = word; |
---|
276 | *dt = cache_data(way, set, word); |
---|
277 | cache_set_lru(way, set); |
---|
278 | return true; |
---|
279 | } |
---|
280 | } |
---|
281 | return false; |
---|
282 | } |
---|
283 | |
---|
284 | //////////////////////////////////////////////////////////////////// |
---|
285 | // Read a single 32 bits word when the ZOMBI state is used. |
---|
286 | // Both data and directory are accessed. |
---|
287 | // returns the access status in the state argument: |
---|
288 | // - VALID : (matching tag) and (state == VALID) |
---|
289 | // - ZOMBI : (matching tag) and (state == ZOMBI) |
---|
290 | // - MISS : no matching tag or EMPTY state |
---|
291 | // If VALID or ZOMBI, the data, the way, set and word index are |
---|
292 | // returned in the other arguments. |
---|
293 | //////////////////////////////////////////////////////////////////// |
---|
294 | inline void read(addr_t ad, |
---|
295 | data_t* dt, |
---|
296 | size_t* selway, |
---|
297 | size_t* selset, |
---|
298 | size_t* selword, |
---|
299 | int* state) |
---|
300 | { |
---|
301 | const addr_t tag = m_z[ad]; |
---|
302 | const size_t set = m_y[ad]; |
---|
303 | const size_t word = m_x[ad]; |
---|
304 | |
---|
305 | // default return values |
---|
306 | *state = CACHE_SLOT_STATE_EMPTY; |
---|
307 | *selway = 0; |
---|
308 | *selset = 0; |
---|
309 | *selword = 0; |
---|
310 | *dt = 0; |
---|
311 | |
---|
312 | for (size_t way = 0; way < m_ways; way++) |
---|
313 | { |
---|
314 | if (tag == cache_tag(way, set)) // matching tag |
---|
315 | { |
---|
316 | |
---|
317 | if (cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC) |
---|
318 | { |
---|
319 | *state = CACHE_SLOT_STATE_VALID_CC; |
---|
320 | *selway = way; |
---|
321 | *selset = set; |
---|
322 | *selword = word; |
---|
323 | *dt = cache_data(way, set, word); |
---|
324 | cache_set_lru(way, set); |
---|
325 | } |
---|
326 | else if (cache_state(way, set) == CACHE_SLOT_STATE_VALID_NCC) |
---|
327 | { |
---|
328 | *state = CACHE_SLOT_STATE_VALID_NCC; |
---|
329 | *selway = way; |
---|
330 | *selset = set; |
---|
331 | *selword = word; |
---|
332 | *dt = cache_data(way, set, word); |
---|
333 | cache_set_lru(way, set); |
---|
334 | } |
---|
335 | else if (cache_state(way, set) == CACHE_SLOT_STATE_ZOMBI) |
---|
336 | { |
---|
337 | *state = CACHE_SLOT_STATE_ZOMBI; |
---|
338 | *selway = way; |
---|
339 | *selset = set; |
---|
340 | *selword = word; |
---|
341 | } |
---|
342 | } |
---|
343 | } |
---|
344 | } |
---|
345 | |
---|
346 | //////////////////////////////////////////////////////////////////// |
---|
347 | // Read a single 32 bits word, without LRU update. |
---|
348 | // returns true if (matching tag) and (state == VALID) |
---|
349 | // Both data & directory are accessed. |
---|
350 | // The selected way, set and word index are returned in case of hit. |
---|
351 | ///////////////////////////////////////////////////////////////////// |
---|
352 | inline bool read_neutral(addr_t ad, |
---|
353 | data_t* dt, |
---|
354 | size_t* selway, |
---|
355 | size_t* selset, |
---|
356 | size_t* selword) |
---|
357 | { |
---|
358 | const addr_t tag = m_z[ad]; |
---|
359 | const size_t set = m_y[ad]; |
---|
360 | const size_t word = m_x[ad]; |
---|
361 | |
---|
362 | for (size_t way = 0; way < m_ways; way++) |
---|
363 | { |
---|
364 | if ((tag == cache_tag(way, set)) |
---|
365 | && ((cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC) or (cache_state(way, set) == CACHE_SLOT_STATE_VALID_NCC) )) |
---|
366 | { |
---|
367 | *selway = way; |
---|
368 | *selset = set; |
---|
369 | *selword = word; |
---|
370 | *dt = cache_data(way, set, word); |
---|
371 | return true; |
---|
372 | } |
---|
373 | } |
---|
374 | return false; |
---|
375 | } |
---|
376 | |
---|
377 | ///////////////////////////////////////////////////////////////////////////// |
---|
378 | // Read one or two 32 bits word. |
---|
379 | // Both data & directory are accessed. |
---|
380 | // Hit if (matching tag) and (valid == true) and (zombi == false) |
---|
381 | // If the addressed word is not the last in the cache line, |
---|
382 | // two successive words are returned. |
---|
383 | // The selected way, set and first word index are returned in case of hit. |
---|
384 | // This function is used by the cc_vcache to get a 64 bits page table entry. |
---|
385 | ///////////////////////////////////////////////////////////////////////////// |
---|
386 | inline bool read( addr_t ad, |
---|
387 | data_t* dt, |
---|
388 | data_t* dt_next, |
---|
389 | size_t* selway, |
---|
390 | size_t* selset, |
---|
391 | size_t* selword) |
---|
392 | { |
---|
393 | const addr_t tag = m_z[ad]; |
---|
394 | const size_t set = m_y[ad]; |
---|
395 | const size_t word = m_x[ad]; |
---|
396 | |
---|
397 | for (size_t way = 0; way < m_ways; way++) |
---|
398 | { |
---|
399 | if ((tag == cache_tag(way, set)) |
---|
400 | &&( (cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC))) |
---|
401 | { |
---|
402 | *dt = cache_data(way, set, word); |
---|
403 | if (word + 1 < m_words) |
---|
404 | { |
---|
405 | *dt_next = cache_data(way, set, word + 1); |
---|
406 | } |
---|
407 | *selway = way; |
---|
408 | *selset = set; |
---|
409 | *selword = word; |
---|
410 | cache_set_lru(way, set); |
---|
411 | return true; |
---|
412 | } |
---|
413 | } |
---|
414 | return false; |
---|
415 | } |
---|
416 | |
---|
417 | //////////////////////////////////////////////////////////////////// |
---|
418 | // Read one or two 32 bits word. |
---|
419 | // Both data and directory are accessed. |
---|
420 | // returns the access status in the state argument: |
---|
421 | // - VALID : (matching tag) and (state == VALID) |
---|
422 | // - ZOMBI : (matching tag) and (state == ZOMBI) |
---|
423 | // - MISS : no matching tag or EMPTY state |
---|
424 | // If VALID or ZOMBI, the data, the way, set and word index are |
---|
425 | // returned in the other arguments. |
---|
426 | //////////////////////////////////////////////////////////////////// |
---|
427 | inline void read(addr_t ad, |
---|
428 | data_t* dt, |
---|
429 | data_t* dt_next, |
---|
430 | size_t* selway, |
---|
431 | size_t* selset, |
---|
432 | size_t* selword, |
---|
433 | int* state) |
---|
434 | { |
---|
435 | const addr_t tag = m_z[ad]; |
---|
436 | const size_t set = m_y[ad]; |
---|
437 | const size_t word = m_x[ad]; |
---|
438 | |
---|
439 | // default return values |
---|
440 | *state = CACHE_SLOT_STATE_EMPTY; |
---|
441 | *selway = 0; |
---|
442 | *selset = 0; |
---|
443 | *selword = 0; |
---|
444 | *dt = 0; |
---|
445 | |
---|
446 | for (size_t way = 0; way < m_ways; way++) |
---|
447 | { |
---|
448 | if (tag == cache_tag(way, set)) // matching tag |
---|
449 | { |
---|
450 | |
---|
451 | if (cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC) |
---|
452 | { |
---|
453 | *state = CACHE_SLOT_STATE_VALID_CC; |
---|
454 | *selway = way; |
---|
455 | *selset = set; |
---|
456 | *selword = word; |
---|
457 | *dt = cache_data(way, set, word); |
---|
458 | if (word + 1 < m_words) |
---|
459 | { |
---|
460 | *dt_next = cache_data(way, set, word+1); |
---|
461 | } |
---|
462 | cache_set_lru(way, set); |
---|
463 | } |
---|
464 | |
---|
465 | else if (cache_state(way, set) == CACHE_SLOT_STATE_VALID_NCC) |
---|
466 | { |
---|
467 | *state = CACHE_SLOT_STATE_VALID_NCC; |
---|
468 | *selway = way; |
---|
469 | *selset = set; |
---|
470 | *selword = word; |
---|
471 | *dt = cache_data(way, set, word); |
---|
472 | if (word + 1 < m_words) |
---|
473 | { |
---|
474 | *dt_next = cache_data(way, set, word + 1); |
---|
475 | } |
---|
476 | cache_set_lru(way, set); |
---|
477 | } |
---|
478 | |
---|
479 | else if (cache_state(way, set) == CACHE_SLOT_STATE_ZOMBI) |
---|
480 | { |
---|
481 | *state = CACHE_SLOT_STATE_ZOMBI; |
---|
482 | *selway = way; |
---|
483 | *selset = set; |
---|
484 | *selword = word; |
---|
485 | } |
---|
486 | } |
---|
487 | } |
---|
488 | } |
---|
489 | |
---|
490 | /////////////////////////////////////////////////////////////////////////////// |
---|
491 | // Checks the cache state for a given address. |
---|
492 | // Only the directory is accessed. |
---|
493 | // returns true if (matching tag) and (state == VALID) |
---|
494 | // The selected way, set and first word index are returned in case of hit. |
---|
495 | // This function can be used when we need to access the directory |
---|
496 | // while we write in the data part with a different address in the same cycle. |
---|
497 | /////////////////////////////////////////////////////////////////////////////// |
---|
498 | inline bool hit(addr_t ad, |
---|
499 | size_t* selway, |
---|
500 | size_t* selset, |
---|
501 | size_t* selword) |
---|
502 | { |
---|
503 | const addr_t tag = m_z[ad]; |
---|
504 | const size_t set = m_y[ad]; |
---|
505 | const size_t word = m_x[ad]; |
---|
506 | |
---|
507 | for (size_t way = 0; way < m_ways; way++) |
---|
508 | { |
---|
509 | if ((tag == cache_tag(way, set)) |
---|
510 | && ((cache_state(way, set) == CACHE_SLOT_STATE_VALID_CC)or(cache_state(way, set) == CACHE_SLOT_STATE_VALID_NCC))) |
---|
511 | { |
---|
512 | *selway = way; |
---|
513 | *selset = set; |
---|
514 | *selword = word; |
---|
515 | cache_set_lru(way, set); |
---|
516 | return true; |
---|
517 | } |
---|
518 | } |
---|
519 | return false; |
---|
520 | } |
---|
521 | |
---|
522 | /////////////////////////////////////////////////////////////////////////////// |
---|
523 | // Checks the cache state for a given address, when the ZOMBI state is used. |
---|
524 | // Only the directory is accessed. |
---|
525 | // Returns the access status in the state argument: |
---|
526 | // - VALID if (matching tag) and (state == VALID) |
---|
527 | // - ZOMBI if (matching tag) and (state == ZOMBI) |
---|
528 | // - EMPTY if no match or (state == EMPTY) |
---|
529 | // The selected way, set and first word index are returned if not empty. |
---|
530 | // This function can be used when we need to access the directory |
---|
531 | // while we write in the data part with a different address in the same cycle. |
---|
532 | /////////////////////////////////////////////////////////////////////////////// |
---|
533 | inline void read_dir(addr_t ad, |
---|
534 | int* state, |
---|
535 | size_t* way, |
---|
536 | size_t* set, |
---|
537 | size_t* word) |
---|
538 | { |
---|
539 | const addr_t ad_tag = m_z[ad]; |
---|
540 | const size_t ad_set = m_y[ad]; |
---|
541 | const size_t ad_word = m_x[ad]; |
---|
542 | for (size_t _way = 0; _way < m_ways; _way++) |
---|
543 | { |
---|
544 | if ((ad_tag == cache_tag(_way, ad_set)) and |
---|
545 | (cache_state(_way, ad_set) != CACHE_SLOT_STATE_EMPTY)) |
---|
546 | { |
---|
547 | *state = cache_state(_way, ad_set); |
---|
548 | *way = _way; |
---|
549 | *set = ad_set; |
---|
550 | *word = ad_word; |
---|
551 | return; |
---|
552 | } |
---|
553 | } |
---|
554 | |
---|
555 | // return value if not (VALID or ZOMBI) |
---|
556 | *state = CACHE_SLOT_STATE_EMPTY; |
---|
557 | } |
---|
558 | |
---|
559 | /////////////////////////////////////////////////////////////////////////////// |
---|
560 | // Checks the cache state for a slot (set,way), when the ZOMBI state is used. |
---|
561 | // Only the directory is accessed. |
---|
562 | // Returns the access status and the tag value in the state and tag argument. |
---|
563 | /////////////////////////////////////////////////////////////////////////////// |
---|
564 | inline void read_dir(size_t way, |
---|
565 | size_t set, |
---|
566 | addr_t* tag, |
---|
567 | int* state) |
---|
568 | { |
---|
569 | *state = cache_state(way, set); |
---|
570 | *tag = cache_tag(way, set); |
---|
571 | } |
---|
572 | |
---|
573 | //////////////////////////////////////////// |
---|
574 | inline addr_t get_tag(size_t way, size_t set) |
---|
575 | { |
---|
576 | return cache_tag(way, set); |
---|
577 | } |
---|
578 | |
---|
579 | /////////////////////////////////////////////////////////////////// |
---|
580 | // This function writes a complete 32 bits word |
---|
581 | // It does not use the directory and cannot miss. |
---|
582 | ////////////////////////////////////////////////////////////////// |
---|
583 | inline void write(size_t way, |
---|
584 | size_t set, |
---|
585 | size_t word, |
---|
586 | data_t data) |
---|
587 | { |
---|
588 | cache_data(way, set, word) = data; |
---|
589 | cache_set_lru(way, set); |
---|
590 | } |
---|
591 | |
---|
592 | //////////////////////////////////////////////////////////////////////////// |
---|
593 | // this function writes up to 4 bytes, taking into account the byte enable. |
---|
594 | // It does not use the directory and cannot miss. |
---|
595 | //////////////////////////////////////////////////////////////////////////// |
---|
596 | inline void write(size_t way, |
---|
597 | size_t set, |
---|
598 | size_t word, |
---|
599 | data_t data, |
---|
600 | be_t be) |
---|
601 | { |
---|
602 | data_t mask = be2mask(be); |
---|
603 | data_t prev = cache_data(way, set, word); |
---|
604 | cache_data(way, set, word) = (mask & data) | (~mask & prev); |
---|
605 | cache_set_lru(way, set); |
---|
606 | } |
---|
607 | |
---|
608 | ////////////////////////////////////////////////////////////////////////// |
---|
609 | // This function invalidates a cache line identified by the set and way. |
---|
610 | // It returns true if the line was valid, and returns the line index. |
---|
611 | ////////////////////////////////////////////////////////////////////////// |
---|
612 | inline bool inval(size_t way, |
---|
613 | size_t set, |
---|
614 | addr_t* nline) |
---|
615 | { |
---|
616 | if ((cache_state(way,set) == CACHE_SLOT_STATE_VALID_CC) or (cache_state(way,set) == CACHE_SLOT_STATE_VALID_NCC)) |
---|
617 | { |
---|
618 | cache_state(way,set) = CACHE_SLOT_STATE_EMPTY; |
---|
619 | *nline = (data_t)cache_tag(way,set)* m_sets + set; |
---|
620 | return true; |
---|
621 | } |
---|
622 | return false; |
---|
623 | } |
---|
624 | |
---|
625 | ////////////////////////////////////////////////////////////////////////////////// |
---|
626 | // This function selects a victim slot in an associative set. |
---|
627 | // It cannot fail, as a slot in ZOMBI state is considered EMPTY. |
---|
628 | // - we search first an EMPTY slot |
---|
629 | // - if no EMPTY slot, we search an OLD slot, using lru |
---|
630 | // It returns the line index (Z + Y fields), the selected slot way and set, |
---|
631 | // and a Boolean indicating that a cleanup is requested. |
---|
632 | ////////////////////////////////////////////////////////////////////////////////// |
---|
633 | inline bool victim_select(addr_t ad, |
---|
634 | addr_t* victim, |
---|
635 | size_t* way, |
---|
636 | size_t* set) |
---|
637 | { |
---|
638 | bool found = false; |
---|
639 | bool cleanup = false; |
---|
640 | |
---|
641 | *set = m_y[ad]; |
---|
642 | *way = 0; |
---|
643 | |
---|
644 | // Search first empty slot |
---|
645 | for (size_t _way = 0 ; _way < m_ways && !found ; _way++) |
---|
646 | { |
---|
647 | if ((cache_state(_way, *set) != CACHE_SLOT_STATE_VALID_CC) and (cache_state(_way, *set) != CACHE_SLOT_STATE_VALID_NCC )) // empty |
---|
648 | { |
---|
649 | found = true; |
---|
650 | cleanup = false; |
---|
651 | *way = _way; |
---|
652 | } |
---|
653 | } |
---|
654 | |
---|
655 | // If no empty slot, search first old slot (lru == false) |
---|
656 | if (!found) |
---|
657 | { |
---|
658 | for (size_t _way = 0 ; _way < m_ways && !found ; _way++) |
---|
659 | { |
---|
660 | if (not cache_lru(_way, *set)) |
---|
661 | { |
---|
662 | found = true; |
---|
663 | cleanup = true; |
---|
664 | *way = _way; |
---|
665 | } |
---|
666 | } |
---|
667 | } |
---|
668 | |
---|
669 | assert(found && "all ways can't be new at the same time"); |
---|
670 | *victim = (addr_t) ((cache_tag(*way,*set) * m_sets) + *set); |
---|
671 | return cleanup; |
---|
672 | } |
---|
673 | |
---|
674 | ////////////////////////////////////////////////////////////////////////////////// |
---|
675 | // This function selects a victim slot in an associative set. |
---|
676 | // It can fail if all ways are in ZOMBI state. |
---|
677 | // - we search first an EMPTY slot |
---|
678 | // - if no empty slot, we search an OLD slot not in ZOMBI state, |
---|
679 | // - if not found, we take the first not ZOMBI slot. |
---|
680 | // It returns the line index (Z + Y fields), the selected slot way and set, |
---|
681 | // and two Boolean indicating success and a required cleanup. |
---|
682 | ////////////////////////////////////////////////////////////////////////////////// |
---|
683 | inline void read_select(addr_t ad, |
---|
684 | addr_t* victim, |
---|
685 | size_t* way, |
---|
686 | size_t* set, |
---|
687 | bool* found, |
---|
688 | bool* cleanup) |
---|
689 | { |
---|
690 | size_t _set = m_y[ad]; |
---|
691 | |
---|
692 | *found = false; |
---|
693 | |
---|
694 | // Search first empty slot |
---|
695 | for (size_t _way = 0 ; _way < m_ways && !(*found) ; _way++) |
---|
696 | { |
---|
697 | if (cache_state(_way, _set) == CACHE_SLOT_STATE_EMPTY) |
---|
698 | { |
---|
699 | *found = true; |
---|
700 | *cleanup = false; |
---|
701 | *way = _way; |
---|
702 | *set = m_y[ad]; |
---|
703 | return; |
---|
704 | } |
---|
705 | } |
---|
706 | |
---|
707 | // Search first not zombi old slot |
---|
708 | for (size_t _way = 0 ; _way < m_ways && !(*found) ; _way++) |
---|
709 | { |
---|
710 | if (not cache_lru(_way, _set) and |
---|
711 | (cache_state(_way, _set) != CACHE_SLOT_STATE_ZOMBI)) |
---|
712 | { |
---|
713 | *found = true; |
---|
714 | *cleanup = true; |
---|
715 | *way = _way; |
---|
716 | *set = m_y[ad]; |
---|
717 | *victim = cache_tag(*way,_set) * m_sets + _set; |
---|
718 | return; |
---|
719 | } |
---|
720 | } |
---|
721 | // Search first not zombi slot |
---|
722 | for (size_t _way = 0 ; _way < m_ways && !(*found) ; _way++) |
---|
723 | { |
---|
724 | if (cache_state(_way, _set) != CACHE_SLOT_STATE_ZOMBI) |
---|
725 | { |
---|
726 | *found = true; |
---|
727 | *cleanup = true; |
---|
728 | *way = _way; |
---|
729 | *set = m_y[ad]; |
---|
730 | *victim = cache_tag(*way,_set) * m_sets + _set; |
---|
731 | return; |
---|
732 | } |
---|
733 | } |
---|
734 | |
---|
735 | // no slot found... |
---|
736 | *found = false; |
---|
737 | *cleanup = false; |
---|
738 | } |
---|
739 | |
---|
740 | ////////////////////////////////////////////////////////////////// |
---|
741 | // This function update the directory part of a slot |
---|
742 | // identified by the way & set. |
---|
743 | ////////////////////////////////////////////////////////////////// |
---|
744 | inline void victim_update_tag(addr_t ad, |
---|
745 | size_t way, |
---|
746 | size_t set) |
---|
747 | { |
---|
748 | addr_t tag = m_z[ad]; |
---|
749 | |
---|
750 | cache_tag(way, set) = tag; |
---|
751 | cache_state(way, set) = CACHE_SLOT_STATE_VALID_CC; |
---|
752 | cache_set_lru(way, set); |
---|
753 | } |
---|
754 | |
---|
755 | ////////////////////////////////////////////////////////////////// |
---|
756 | // This function write the directory part of a slot |
---|
757 | // identified by the way & set, when using the ZOMBI state. |
---|
758 | ////////////////////////////////////////////////////////////////// |
---|
759 | inline void write_dir(addr_t ad, |
---|
760 | size_t way, |
---|
761 | size_t set, |
---|
762 | int state) |
---|
763 | { |
---|
764 | addr_t tag = m_z[ad]; |
---|
765 | |
---|
766 | assert( ( (state == CACHE_SLOT_STATE_VALID_CC) or |
---|
767 | (state == CACHE_SLOT_STATE_VALID_NCC) or |
---|
768 | (state == CACHE_SLOT_STATE_ZOMBI) or |
---|
769 | (state == CACHE_SLOT_STATE_EMPTY) ) and |
---|
770 | "illegal slot state argument in Generic Cache write_dir()"); |
---|
771 | |
---|
772 | assert( (way < m_ways) and |
---|
773 | "too large way index argument in Generic Cache write_dir()"); |
---|
774 | |
---|
775 | assert( (set < m_sets) and |
---|
776 | "too large set index argument in Generic Cache write_dir()"); |
---|
777 | |
---|
778 | cache_tag(way, set) = tag; |
---|
779 | cache_state(way, set) = state; |
---|
780 | |
---|
781 | if ((state == CACHE_SLOT_STATE_VALID_CC) or (state == CACHE_SLOT_STATE_VALID_NCC)) cache_set_lru(way, set); |
---|
782 | } |
---|
783 | |
---|
784 | ////////////////////////////////////////////////////////////////// |
---|
785 | // This function change the state of a slot |
---|
786 | // identified by the way & set, when using the ZOMBI state. |
---|
787 | // It does not affect the tag |
---|
788 | ////////////////////////////////////////////////////////////////// |
---|
789 | inline void write_dir(size_t way, |
---|
790 | size_t set, |
---|
791 | int state) |
---|
792 | { |
---|
793 | assert( ( (state == CACHE_SLOT_STATE_VALID_CC) or |
---|
794 | (state == CACHE_SLOT_STATE_VALID_NCC) or |
---|
795 | (state == CACHE_SLOT_STATE_ZOMBI) or |
---|
796 | (state == CACHE_SLOT_STATE_EMPTY) ) and |
---|
797 | "illegal slot state argument in Generic Cache write_dir()"); |
---|
798 | |
---|
799 | assert( (way < m_ways) and |
---|
800 | "too large way index argument in Generic Cache write_dir()"); |
---|
801 | |
---|
802 | assert( (set < m_sets) and |
---|
803 | "too large set index argument in Generic Cache write_dir()"); |
---|
804 | |
---|
805 | cache_state(way, set) = state; |
---|
806 | |
---|
807 | if ( (state == CACHE_SLOT_STATE_VALID_CC) or (state == CACHE_SLOT_STATE_VALID_NCC) ) cache_set_lru(way, set); |
---|
808 | } |
---|
809 | |
---|
810 | /////////////////////////////////////////////////////////////////// |
---|
811 | // This function writes a full cache line in one single cycle. |
---|
812 | // The target slot is identified by the way & set arguments. |
---|
813 | // Both DATA and DIRECTORY are written |
---|
814 | /////////////////////////////////////////////////////////////////// |
---|
815 | inline void update(addr_t ad, |
---|
816 | size_t way, |
---|
817 | size_t set, |
---|
818 | data_t* buf) |
---|
819 | { |
---|
820 | addr_t tag = m_z[ad]; |
---|
821 | |
---|
822 | cache_tag(way, set) = tag; |
---|
823 | cache_state(way, set) = CACHE_SLOT_STATE_VALID_CC; |
---|
824 | cache_set_lru(way, set); |
---|
825 | for (size_t word = 0 ; word < m_words ; word++) |
---|
826 | { |
---|
827 | cache_data(way, set, word) = buf[word] ; |
---|
828 | } |
---|
829 | } |
---|
830 | |
---|
831 | /////////////////////////// |
---|
832 | void fileTrace(FILE* file) |
---|
833 | { |
---|
834 | for (size_t nway = 0 ; nway < m_ways ; nway++) |
---|
835 | { |
---|
836 | for (size_t nset = 0 ; nset < m_sets ; nset++) |
---|
837 | { |
---|
838 | fprintf(file, "%d / ", (int)cache_state(nway, nset)); |
---|
839 | fprintf(file, "way %d / ", (int)nway); |
---|
840 | fprintf(file, "set %d / ", (int)nset); |
---|
841 | fprintf(file, "@ = %08zX / ", |
---|
842 | ((cache_tag(nway, nset) * m_sets + nset) * m_words * 4)); |
---|
843 | for (size_t nword = m_words ; nword > 0 ; nword--) |
---|
844 | { |
---|
845 | unsigned int data = cache_data(nway, nset, nword - 1); |
---|
846 | fprintf(file, "%08X ", data); |
---|
847 | } |
---|
848 | fprintf(file, "\n"); |
---|
849 | } |
---|
850 | } |
---|
851 | } |
---|
852 | |
---|
853 | //////////////////////// |
---|
854 | inline void printTrace() |
---|
855 | { |
---|
856 | for (size_t way = 0; way < m_ways ; way++) |
---|
857 | { |
---|
858 | for (size_t set = 0 ; set < m_sets ; set++) |
---|
859 | { |
---|
860 | addr_t addr = (((addr_t)cache_tag(way,set))*m_words*m_sets+m_words*set)*4; |
---|
861 | std::cout << std::dec << cache_state(way, set) |
---|
862 | << " | way " << way |
---|
863 | << " | set " << set |
---|
864 | << std::hex << " | @ " << addr; |
---|
865 | |
---|
866 | for (size_t word = 0 ; word < m_words ; word++) |
---|
867 | { |
---|
868 | std::cout << " | " << cache_data(way,set,word) ; |
---|
869 | } |
---|
870 | std::cout << std::dec << std::endl ; |
---|
871 | } |
---|
872 | } |
---|
873 | } |
---|
874 | |
---|
875 | }; |
---|
876 | |
---|
877 | } // namespace soclib |
---|
878 | |
---|
879 | #endif |
---|
880 | |
---|
881 | // Local Variables: |
---|
882 | // tab-width: 4 |
---|
883 | // c-basic-offset: 4 |
---|
884 | // c-file-offsets:((innamespace . 0)(inline-open . 0)) |
---|
885 | // indent-tabs-mode: nil |
---|
886 | // End: |
---|
887 | |
---|
888 | // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=4:softtabstop=4 |
---|
889 | |
---|