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source: branches/RWT/modules/vci_mem_cache/caba/source/include/vci_mem_cache.h @ 542

Last change on this file since 542 was 542, checked in by haoliu, 11 years ago

RWT - merged the vci_mem_cache.h file for the llsc table.

Property svn:mergeinfo set to (toggle deleted branches)

/branches/ODCCP/modules/vci_mem_cache/caba/source/include/vci_mem_cache.h	merged	eligible
/trunk/modules/vci_mem_cache/caba/source/include/vci_mem_cache.h	merged	eligible
/branches/v5/modules/vci_mem_cache/caba/source/include/vci_mem_cache.h	441-467

File size: 50.3 KB

Line
1	/* -- c++ --
2	* File : vci_mem_cache.h
3	* Date : 26/10/2008
4	* Copyright : UPMC / LIP6
5	* Authors : Alain Greiner / Eric Guthmuller
6	*
7	* SOCLIB_LGPL_HEADER_BEGIN
8	*
9	* This file is part of SoCLib, GNU LGPLv2.1.
10	*
11	* SoCLib is free software; you can redistribute it and/or modify it
12	* under the terms of the GNU Lesser General Public License as published
13	* by the Free Software Foundation; version 2.1 of the License.
14	*
15	* SoCLib is distributed in the hope that it will be useful, but
16	* WITHOUT ANY WARRANTY; without even the implied warranty of
17	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
18	* Lesser General Public License for more details.
19	*
20	* You should have received a copy of the GNU Lesser General Public
21	* License along with SoCLib; if not, write to the Free Software
22	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
23	* 02110-1301 USA
24	*
25	* SOCLIB_LGPL_HEADER_END
26	*
27	* Maintainers: alain.greiner@lip6.fr
28	* eric.guthmuller@polytechnique.edu
29	* cesar.fuguet-tortolero@lip6.fr
30	* alexandre.joannou@lip6.fr
31	*/
32
33	#ifndef SOCLIB_CABA_MEM_CACHE_H
34	#define SOCLIB_CABA_MEM_CACHE_H
35
36	#include <inttypes.h>
37	#include <systemc>
38	#include <list>
39	#include <cassert>
40	#include "arithmetics.h"
41	#include "alloc_elems.h"
42	#include "caba_base_module.h"
43	#include "vci_target.h"
44	#include "vci_initiator.h"
45	#include "generic_fifo.h"
46	#include "mapping_table.h"
47	#include "int_tab.h"
48	#include "generic_llsc_global_table.h"
49	#include "mem_cache_directory.h"
50	#include "xram_transaction.h"
51	#include "update_tab.h"
52	#include "dspin_interface.h"
53	#include "dspin_dhccp_param.h"
54
55	#define TRT_ENTRIES 4 // Number of entries in TRT
56	#define UPT_ENTRIES 4 // Number of entries in UPT
57	#define IVT_ENTRIES 4 // Number of entries in IVT
58	#define HEAP_ENTRIES 1024 // Number of entries in HEAP
59
60	namespace soclib { namespace caba {
61
62	using namespace sc_core;
63
64	template<typename vci_param_int,
65	typename vci_param_ext,
66	size_t dspin_in_width,
67	size_t dspin_out_width>
68	class VciMemCache
69	: public soclib::caba::BaseModule
70	{
71	typedef typename vci_param_int::fast_addr_t addr_t;
72	typedef typename sc_dt::sc_uint<64> wide_data_t;
73	typedef uint32_t data_t;
74	typedef uint32_t tag_t;
75	typedef uint32_t be_t;
76	typedef uint32_t copy_t;
77
78	/* States of the TGT_CMD fsm */
79	enum tgt_cmd_fsm_state_e
80	{
81	TGT_CMD_IDLE,
82	TGT_CMD_ERROR,
83	TGT_CMD_READ,
84	TGT_CMD_WRITE,
85	TGT_CMD_CAS,
86	TGT_CMD_CONFIG
87	};
88
89	/* States of the TGT_RSP fsm */
90	enum tgt_rsp_fsm_state_e
91	{
92	TGT_RSP_CONFIG_IDLE,
93	TGT_RSP_TGT_CMD_IDLE,
94	TGT_RSP_READ_IDLE,
95	TGT_RSP_WRITE_IDLE,
96	TGT_RSP_CAS_IDLE,
97	TGT_RSP_XRAM_IDLE,
98	TGT_RSP_MULTI_ACK_IDLE,
99	TGT_RSP_CLEANUP_IDLE,
100	TGT_RSP_CONFIG,
101	TGT_RSP_TGT_CMD,
102	TGT_RSP_READ,
103	TGT_RSP_WRITE,
104	TGT_RSP_CAS,
105	TGT_RSP_XRAM,
106	TGT_RSP_MULTI_ACK,
107	TGT_RSP_CLEANUP
108	};
109
110	/* States of the DSPIN_TGT fsm */
111	enum cc_receive_fsm_state_e
112	{
113	CC_RECEIVE_IDLE,
114	CC_RECEIVE_CLEANUP,
115	CC_RECEIVE_CLEANUP_EOP,
116	CC_RECEIVE_MULTI_ACK
117	};
118
119	/* States of the CC_SEND fsm */
120	enum cc_send_fsm_state_e
121	{
122	CC_SEND_CONFIG_IDLE,
123	CC_SEND_XRAM_RSP_IDLE,
124	CC_SEND_WRITE_IDLE,
125	CC_SEND_CAS_IDLE,
126	CC_SEND_CONFIG_INVAL_HEADER,
127	CC_SEND_CONFIG_INVAL_NLINE,
128	CC_SEND_CONFIG_BRDCAST_HEADER,
129	CC_SEND_CONFIG_BRDCAST_NLINE,
130	CC_SEND_XRAM_RSP_BRDCAST_HEADER,
131	CC_SEND_XRAM_RSP_BRDCAST_NLINE,
132	CC_SEND_XRAM_RSP_INVAL_HEADER,
133	CC_SEND_XRAM_RSP_INVAL_NLINE,
134	CC_SEND_READ_NCC_INVAL_HEADER,
135	CC_SEND_READ_NCC_INVAL_NLINE,
136	CC_SEND_WRITE_NCC_INVAL_HEADER,
137	CC_SEND_WRITE_NCC_INVAL_NLINE,
138	CC_SEND_WRITE_BRDCAST_HEADER,
139	CC_SEND_WRITE_BRDCAST_NLINE,
140	CC_SEND_WRITE_UPDT_HEADER,
141	CC_SEND_WRITE_UPDT_NLINE,
142	CC_SEND_WRITE_UPDT_DATA,
143	CC_SEND_CAS_BRDCAST_HEADER,
144	CC_SEND_CAS_BRDCAST_NLINE,
145	CC_SEND_CAS_UPDT_HEADER,
146	CC_SEND_CAS_UPDT_NLINE,
147	CC_SEND_CAS_UPDT_DATA,
148	CC_SEND_CAS_UPDT_DATA_HIGH
149	};
150
151	/* States of the MULTI_ACK fsm */
152	enum multi_ack_fsm_state_e
153	{
154	MULTI_ACK_IDLE,
155	MULTI_ACK_UPT_LOCK,
156	MULTI_ACK_UPT_CLEAR,
157	MULTI_ACK_WRITE_RSP
158	};
159
160	/* States of the CONFIG fsm */
161	enum config_fsm_state_e
162	{
163	CONFIG_IDLE,
164	CONFIG_LOOP,
165	CONFIG_WAIT,
166	CONFIG_RSP,
167	CONFIG_DIR_REQ,
168	CONFIG_DIR_ACCESS,
169	CONFIG_IVT_LOCK,
170	CONFIG_BC_SEND,
171	CONFIG_INVAL_SEND,
172	CONFIG_HEAP_REQ,
173	CONFIG_HEAP_SCAN,
174	CONFIG_HEAP_LAST,
175	CONFIG_TRT_LOCK,
176	CONFIG_TRT_SET,
177	CONFIG_PUT_REQ
178	};
179
180	/* States of the READ fsm */
181	enum read_fsm_state_e
182	{
183	READ_IDLE,
184	READ_DIR_REQ,
185	READ_DIR_LOCK,
186	READ_IVT_LOCK,
187	READ_WAIT,
188	READ_DIR_HIT,
189	READ_HEAP_REQ,
190	READ_HEAP_LOCK,
191	READ_HEAP_WRITE,
192	READ_HEAP_ERASE,
193	READ_HEAP_LAST,
194	READ_RSP,
195	READ_TRT_LOCK,
196	READ_TRT_SET,
197	READ_TRT_REQ
198	};
199
200	/* States of the WRITE fsm */
201	enum write_fsm_state_e
202	{
203	WRITE_IDLE,
204	WRITE_NEXT,
205	WRITE_DIR_REQ,
206	WRITE_DIR_LOCK,
207	WRITE_IVT_LOCK_HIT_WB,
208	WRITE_DIR_HIT,
209	WRITE_UPT_LOCK,
210	WRITE_UPT_HEAP_LOCK,
211	WRITE_UPT_REQ,
212	WRITE_UPT_NEXT,
213	WRITE_UPT_DEC,
214	WRITE_RSP,
215	WRITE_MISS_IVT_LOCK,
216	WRITE_MISS_TRT_LOCK,
217	WRITE_MISS_TRT_DATA,
218	WRITE_MISS_TRT_SET,
219	WRITE_MISS_XRAM_REQ,
220	WRITE_BC_DIR_READ,
221	WRITE_BC_TRT_LOCK,
222	WRITE_BC_IVT_LOCK,
223	WRITE_BC_DIR_INVAL,
224	WRITE_BC_CC_SEND,
225	WRITE_BC_XRAM_REQ,
226	WRITE_WAIT
227	};
228
229	/* States of the IXR_RSP fsm */
230	enum ixr_rsp_fsm_state_e
231	{
232	IXR_RSP_IDLE,
233	IXR_RSP_ACK,
234	IXR_RSP_TRT_ERASE,
235	IXR_RSP_TRT_READ
236	};
237
238	/* States of the XRAM_RSP fsm */
239	enum xram_rsp_fsm_state_e
240	{
241	XRAM_RSP_IDLE,
242	XRAM_RSP_TRT_COPY,
243	XRAM_RSP_TRT_DIRTY,
244	XRAM_RSP_DIR_LOCK,
245	XRAM_RSP_DIR_UPDT,
246	XRAM_RSP_DIR_RSP,
247	XRAM_RSP_IVT_LOCK,
248	XRAM_RSP_INVAL_WAIT,
249	XRAM_RSP_INVAL,
250	XRAM_RSP_WRITE_DIRTY,
251	XRAM_RSP_HEAP_REQ,
252	XRAM_RSP_HEAP_ERASE,
253	XRAM_RSP_HEAP_LAST,
254	XRAM_RSP_ERROR_ERASE,
255	XRAM_RSP_ERROR_RSP
256	};
257
258	/* States of the IXR_CMD fsm */
259	enum ixr_cmd_fsm_state_e
260	{
261	IXR_CMD_READ_IDLE,
262	IXR_CMD_WRITE_IDLE,
263	IXR_CMD_CAS_IDLE,
264	IXR_CMD_XRAM_IDLE,
265	IXR_CMD_CLEANUP_IDLE,
266	IXR_CMD_CONFIG_IDLE,
267	IXR_CMD_READ_TRT,
268	IXR_CMD_WRITE_TRT,
269	IXR_CMD_CAS_TRT,
270	IXR_CMD_XRAM_TRT,
271	IXR_CMD_CLEANUP_TRT,
272	IXR_CMD_CONFIG_TRT,
273	IXR_CMD_READ_SEND,
274	IXR_CMD_WRITE_SEND,
275	IXR_CMD_CAS_SEND,
276	IXR_CMD_XRAM_SEND,
277	IXR_CMD_CLEANUP_DATA_SEND,
278	IXR_CMD_CONFIG_SEND
279	};
280
281	/* States of the CAS fsm */
282	enum cas_fsm_state_e
283	{
284	CAS_IDLE,
285	CAS_DIR_REQ,
286	CAS_DIR_LOCK,
287	CAS_DIR_HIT_READ,
288	CAS_DIR_HIT_COMPARE,
289	CAS_DIR_HIT_WRITE,
290	CAS_UPT_LOCK,
291	CAS_UPT_HEAP_LOCK,
292	CAS_UPT_REQ,
293	CAS_UPT_NEXT,
294	CAS_BC_TRT_LOCK,
295	CAS_BC_IVT_LOCK,
296	CAS_BC_DIR_INVAL,
297	CAS_BC_CC_SEND,
298	CAS_BC_XRAM_REQ,
299	CAS_RSP_FAIL,
300	CAS_RSP_SUCCESS,
301	CAS_MISS_TRT_LOCK,
302	CAS_MISS_TRT_SET,
303	CAS_MISS_XRAM_REQ,
304	CAS_WAIT
305	};
306
307	/* States of the CLEANUP fsm */
308	enum cleanup_fsm_state_e
309	{
310	CLEANUP_IDLE,
311	CLEANUP_GET_NLINE,
312	CLEANUP_GET_DATA,
313	CLEANUP_DIR_REQ,
314	CLEANUP_DIR_LOCK,
315	CLEANUP_DIR_WRITE,
316	CLEANUP_IVT_LOCK_DATA,
317	CLEANUP_IVT_CLEAR_DATA,
318	CLEANUP_READ_RSP,
319	CLEANUP_HEAP_REQ,
320	CLEANUP_HEAP_LOCK,
321	CLEANUP_HEAP_SEARCH,
322	CLEANUP_HEAP_CLEAN,
323	CLEANUP_HEAP_FREE,
324	CLEANUP_IVT_LOCK,
325	CLEANUP_IVT_DECREMENT,
326	CLEANUP_IVT_CLEAR,
327	CLEANUP_WRITE_RSP,
328	CLEANUP_IXR_REQ,
329	CLEANUP_WAIT,
330	CLEANUP_SEND_CLACK
331	};
332
333	/* States of the ALLOC_DIR fsm */
334	enum alloc_dir_fsm_state_e
335	{
336	ALLOC_DIR_RESET,
337	ALLOC_DIR_CONFIG,
338	ALLOC_DIR_READ,
339	ALLOC_DIR_WRITE,
340	ALLOC_DIR_CAS,
341	ALLOC_DIR_CLEANUP,
342	ALLOC_DIR_XRAM_RSP
343	};
344
345	/* States of the ALLOC_TRT fsm */
346	enum alloc_trt_fsm_state_e
347	{
348	ALLOC_TRT_READ,
349	ALLOC_TRT_WRITE,
350	ALLOC_TRT_CAS,
351	ALLOC_TRT_XRAM_RSP,
352	ALLOC_TRT_IXR_RSP,
353	ALLOC_TRT_CLEANUP,
354	ALLOC_TRT_IXR_CMD,
355	ALLOC_TRT_CONFIG
356	};
357
358	/* States of the ALLOC_UPT fsm */
359	enum alloc_upt_fsm_state_e
360	{
361	ALLOC_UPT_WRITE,
362	ALLOC_UPT_CAS,
363	ALLOC_UPT_MULTI_ACK
364	};
365
366	/* States of the ALLOC_IVT fsm */
367	enum alloc_ivt_fsm_state_e
368	{
369	ALLOC_IVT_WRITE,
370	ALLOC_IVT_READ,
371	ALLOC_IVT_XRAM_RSP,
372	ALLOC_IVT_CLEANUP,
373	ALLOC_IVT_CAS,
374	ALLOC_IVT_CONFIG
375	};
376
377	/* States of the ALLOC_HEAP fsm */
378	enum alloc_heap_fsm_state_e
379	{
380	ALLOC_HEAP_RESET,
381	ALLOC_HEAP_READ,
382	ALLOC_HEAP_WRITE,
383	ALLOC_HEAP_CAS,
384	ALLOC_HEAP_CLEANUP,
385	ALLOC_HEAP_XRAM_RSP,
386	ALLOC_HEAP_CONFIG
387	};
388
389	/* transaction type, pktid field */
390	enum transaction_type_e
391	{
392	// b3 unused
393	// b2 READ / NOT READ
394	// Si READ
395	// b1 DATA / INS
396	// b0 UNC / MISS
397	// Si NOT READ
398	// b1 accÃšs table llsc type SW / other
399	// b2 WRITE/CAS/LL/SC
400	TYPE_READ_DATA_UNC = 0x0,
401	TYPE_READ_DATA_MISS = 0x1,
402	TYPE_READ_INS_UNC = 0x2,
403	TYPE_READ_INS_MISS = 0x3,
404	TYPE_WRITE = 0x4,
405	TYPE_CAS = 0x5,
406	TYPE_LL = 0x6,
407	TYPE_SC = 0x7
408	};
409
410	/* SC return values */
411	enum sc_status_type_e
412	{
413	SC_SUCCESS = 0x00000000,
414	SC_FAIL = 0x00000001
415	};
416
417	// debug variables
418	bool m_debug;
419	bool m_debug_previous_valid;
420	size_t m_debug_previous_count;
421	bool m_debug_previous_dirty;
422	data_t * m_debug_previous_data;
423	data_t * m_debug_data;
424
425	// instrumentation counters
426	uint32_t m_cpt_cycles; // Counter of cycles
427
428	uint32_t m_cpt_read; // Number of READ transactions
429	uint32_t m_cpt_read_remote; // number of remote READ transactions
430	uint32_t m_cpt_read_flits; // number of flits for READs
431	uint32_t m_cpt_read_cost; // Number of (flits * distance) for READs
432
433	uint32_t m_cpt_read_miss; // Number of MISS READ
434
435	uint32_t m_cpt_write; // Number of WRITE transactions
436	uint32_t m_cpt_write_remote; // number of remote WRITE transactions
437	uint32_t m_cpt_write_flits; // number of flits for WRITEs
438	uint32_t m_cpt_write_cost; // Number of (flits * distance) for WRITEs
439
440	uint32_t m_cpt_write_miss; // Number of MISS WRITE
441	uint32_t m_cpt_write_cells; // Cumulated length for WRITE transactions
442	uint32_t m_cpt_write_dirty; // Cumulated length for WRITE transactions
443	uint32_t m_cpt_update; // Number of UPDATE transactions
444	uint32_t m_cpt_trt_rb; // Read blocked by a hit in trt
445	uint32_t m_cpt_trt_full; // Transaction blocked due to a full trt
446	uint32_t m_cpt_update_mult; // Number of targets for UPDATE
447	uint32_t m_cpt_inval; // Number of INVAL transactions
448	uint32_t m_cpt_inval_mult; // Number of targets for INVAL
449	uint32_t m_cpt_inval_brdcast; // Number of BROADCAST INVAL
450	uint32_t m_cpt_cleanup; // Number of CLEANUP transactions
451	uint32_t m_cpt_ll; // Number of LL transactions
452	uint32_t m_cpt_sc; // Number of SC transactions
453	uint32_t m_cpt_cas; // Number of CAS transactions
454
455	uint32_t m_cpt_read_fsm_dir_lock; // wait DIR LOCK
456	uint32_t m_cpt_read_fsm_n_dir_lock; // NB DIR LOCK
457	uint32_t m_cpt_write_fsm_dir_lock; // wait DIR LOCK
458	uint32_t m_cpt_write_fsm_n_dir_lock; // NB DIR LOCK
459	uint32_t m_cpt_xram_rsp_fsm_dir_lock; // wait DIR LOCK
460	uint32_t m_cpt_xram_rsp_fsm_n_dir_lock; // NB DIR LOCK
461	uint32_t m_cpt_cas_fsm_dir_lock; // wait DIR LOCK
462	uint32_t m_cpt_cas_fsm_n_dir_lock; // NB DIR LOCK
463	uint32_t m_cpt_cleanup_fsm_dir_lock; // wait DIR LOCK
464	uint32_t m_cpt_cleanup_fsm_n_dir_lock; // NB DIR LOCK
465
466	uint32_t m_cpt_dir_unused; // NB cycles DIR LOCK unused
467	uint32_t m_cpt_read_fsm_dir_used; // NB cycles DIR LOCK used
468	uint32_t m_cpt_write_fsm_dir_used; // NB cycles DIR LOCK used
469	uint32_t m_cpt_cas_fsm_dir_used; // NB cycles DIR LOCK used
470	uint32_t m_cpt_xram_rsp_fsm_dir_used; // NB cycles DIR LOCK used
471	uint32_t m_cpt_cleanup_fsm_dir_used; // NB cycles DIR LOCK used
472
473	uint32_t m_cpt_read_fsm_trt_lock; // wait TRT LOCK
474	uint32_t m_cpt_write_fsm_trt_lock; // wait TRT LOCK
475	uint32_t m_cpt_cas_fsm_trt_lock; // wait TRT LOCK
476	uint32_t m_cpt_xram_rsp_fsm_trt_lock; // wait TRT LOCK
477	uint32_t m_cpt_ixr_fsm_trt_lock; // wait TRT LOCK
478
479	uint32_t m_cpt_read_fsm_n_trt_lock; // NB TRT LOCK
480	uint32_t m_cpt_write_fsm_n_trt_lock; // NB TRT LOCK
481	uint32_t m_cpt_cas_fsm_n_trt_lock; // NB TRT LOCK
482	uint32_t m_cpt_xram_rsp_fsm_n_trt_lock; // NB TRT LOCK
483	uint32_t m_cpt_ixr_fsm_n_trt_lock; // NB TRT LOCK
484
485	uint32_t m_cpt_read_fsm_trt_used; // NB cycles TRT LOCK used
486	uint32_t m_cpt_write_fsm_trt_used; // NB cycles TRT LOCK used
487	uint32_t m_cpt_cas_fsm_trt_used; // NB cycles TRT LOCK used
488	uint32_t m_cpt_xram_rsp_fsm_trt_used; // NB cycles TRT LOCK used
489	uint32_t m_cpt_ixr_fsm_trt_used; // NB cycles TRT LOCK used
490
491	uint32_t m_cpt_trt_unused; // NB cycles TRT LOCK unused
492
493	uint32_t m_cpt_write_fsm_upt_lock; // wait UPT LOCK
494	uint32_t m_cpt_xram_rsp_fsm_upt_lock; // wait UPT LOCK
495	uint32_t m_cpt_multi_ack_fsm_upt_lock; // wait UPT LOCK
496	uint32_t m_cpt_cleanup_fsm_ivt_lock; // wait UPT LOCK
497	uint32_t m_cpt_cas_fsm_upt_lock; // wait UPT LOCK
498
499	uint32_t m_cpt_write_fsm_n_upt_lock; // NB UPT LOCK
500	uint32_t m_cpt_xram_rsp_fsm_n_upt_lock; // NB UPT LOCK
501	uint32_t m_cpt_multi_ack_fsm_n_upt_lock; // NB UPT LOCK
502	uint32_t m_cpt_cleanup_fsm_n_upt_lock; // NB UPT LOCK
503	uint32_t m_cpt_cas_fsm_n_upt_lock; // NB UPT LOCK
504
505	uint32_t m_cpt_write_fsm_upt_used; // NB cycles UPT LOCK used
506	uint32_t m_cpt_xram_rsp_fsm_upt_used; // NB cycles UPT LOCK used
507	uint32_t m_cpt_multi_ack_fsm_upt_used; // NB cycles UPT LOCK used
508	uint32_t m_cpt_cleanup_fsm_ivt_used; // NB cycles UPT LOCK used
509	uint32_t m_cpt_cas_fsm_upt_used; // NB cycles UPT LOCK used
510
511	uint32_t m_cpt_ivt_unused; // NB cycles UPT LOCK unused
512	uint32_t m_cpt_upt_unused; // NB cycles UPT LOCK unused
513
514	uint32_t m_cpt_read_fsm_heap_lock; // wait HEAP LOCK
515	uint32_t m_cpt_write_fsm_heap_lock; // wait HEAP LOCK
516	uint32_t m_cpt_cas_fsm_heap_lock; // wait HEAP LOCK
517	uint32_t m_cpt_cleanup_fsm_heap_lock; // wait HEAP LOCK
518	uint32_t m_cpt_xram_rsp_fsm_heap_lock; // wait HEAP LOCK
519
520	uint32_t m_cpt_read_fsm_n_heap_lock; // NB HEAP LOCK
521	uint32_t m_cpt_write_fsm_n_heap_lock; // NB HEAP LOCK
522	uint32_t m_cpt_cas_fsm_n_heap_lock; // NB HEAP LOCK
523	uint32_t m_cpt_cleanup_fsm_n_heap_lock; // NB HEAP LOCK
524	uint32_t m_cpt_xram_rsp_fsm_n_heap_lock; // NB HEAP LOCK
525
526	uint32_t m_cpt_read_fsm_heap_used; // NB cycles HEAP LOCK used
527	uint32_t m_cpt_write_fsm_heap_used; // NB cycles HEAP LOCK used
528	uint32_t m_cpt_cas_fsm_heap_used; // NB cycles HEAP LOCK used
529	uint32_t m_cpt_cleanup_fsm_heap_used; // NB cycles HEAP LOCK used
530	uint32_t m_cpt_xram_rsp_fsm_heap_used; // NB cycles HEAP LOCK used
531
532	uint32_t m_cpt_heap_unused; // NB cycles HEAP LOCK unused
533
534	//RWT
535	uint32_t m_cpt_cleanup_data;
536	uint32_t m_cpt_ncc_to_cc_read; // NB change from NCC to CC caused by a READ
537	uint32_t m_cpt_ncc_to_cc_write; // NB change from NCC to CC caused by a WRITE
538	uint32_t m_cpt_ncc_to_cc; // NB change from NCC to CC
539
540	uint32_t m_cpt_read_data_unc;
541	uint32_t m_cpt_read_data_miss_CC;
542	uint32_t m_cpt_read_ins_unc;
543	uint32_t m_cpt_read_ins_miss;
544	uint32_t m_cpt_read_ll_CC;
545	uint32_t m_cpt_read_data_miss_NCC;
546	uint32_t m_cpt_read_ll_NCC;
547	uint32_t m_cpt_read_WTF;
548
549	uint32_t m_cpt_cleanup_cost; // Number of (flits * distance) for CLEANUPs
550
551	uint32_t m_cpt_update_flits; // Number of flits for UPDATEs
552	uint32_t m_cpt_update_cost; // Number of (flits * distance) for UPDATEs
553
554	uint32_t m_cpt_inval_cost; // Number of (flits * distance) for INVALs
555
556	uint32_t m_cpt_get;
557
558	uint32_t m_cpt_put;
559
560	size_t m_prev_count;
561
562	protected:
563
564	SC_HAS_PROCESS(VciMemCache);
565
566	public:
567	sc_in<bool> p_clk;
568	sc_in<bool> p_resetn;
569	soclib::caba::VciTarget<vci_param_int> p_vci_tgt;
570	soclib::caba::VciInitiator<vci_param_ext> p_vci_ixr;
571	soclib::caba::DspinInput<dspin_in_width> p_dspin_p2m;
572	soclib::caba::DspinOutput<dspin_out_width> p_dspin_m2p;
573	soclib::caba::DspinOutput<dspin_out_width> p_dspin_clack;
574
575	VciMemCache(
576	sc_module_name name, // Instance Name
577	const soclib::common::MappingTable &mtp, // Mapping table INT network
578	const soclib::common::MappingTable &mtx, // Mapping table RAM network
579	const soclib::common::IntTab &srcid_x, // global index RAM network
580	const soclib::common::IntTab &tgtid_d, // global index INT network
581	const size_t cc_global_id, // global index CC network
582	const size_t nways, // Number of ways per set
583	const size_t nsets, // Number of sets
584	const size_t nwords, // Number of words per line
585	const size_t max_copies, // max number of copies
586	const size_t heap_size=HEAP_ENTRIES,
587	const size_t trt_lines=TRT_ENTRIES,
588	const size_t upt_lines=UPT_ENTRIES,
589	const size_t ivt_lines=IVT_ENTRIES,
590	const size_t debug_start_cycle=0,
591	const bool debug_ok=false );
592
593	~VciMemCache();
594
595	void clear_stats();
596	void print_stats();
597	void print_trace();
598	void cache_monitor(addr_t addr);
599	void start_monitor(addr_t addr, addr_t length);
600	void stop_monitor();
601
602	private:
603
604	void transition();
605	void genMoore();
606	void check_monitor(addr_t addr, data_t data, bool read);
607
608	// Component attributes
609	std::list<soclib::common::Segment> m_seglist; // segments allocated
610	size_t m_nseg; // number of segments
611	soclib::common::Segment **m_seg; // array of segments pointers
612	size_t m_seg_config; // config segment index
613	const size_t m_srcid_x; // global index on RAM network
614	const size_t m_initiators; // Number of initiators
615	const size_t m_heap_size; // Size of the heap
616	const size_t m_ways; // Number of ways in a set
617	const size_t m_sets; // Number of cache sets
618	const size_t m_words; // Number of words in a line
619	const size_t m_cc_global_id; // global_index on cc network
620	size_t m_debug_start_cycle;
621	bool m_debug_ok;
622	uint32_t m_trt_lines;
623	TransactionTab m_trt; // xram transaction table
624	uint32_t m_upt_lines;
625	UpdateTab m_upt; // pending update
626	UpdateTab m_ivt; // pending invalidate
627	CacheDirectory m_cache_directory; // data cache directory
628	CacheData m_cache_data; // data array[set][way][word]
629	HeapDirectory m_heap; // heap for copies
630	size_t m_max_copies; // max number of copies in heap
631	GenericLLSCGlobalTable
632	< 32 , // number of slots
633	4096, // number of processors in the system
634	8000, // registration life (# of LL operations)
635	addr_t > m_llsc_table; // ll/sc registration table
636
637	// adress masks
638	const soclib::common::AddressMaskingTable<addr_t> m_x;
639	const soclib::common::AddressMaskingTable<addr_t> m_y;
640	const soclib::common::AddressMaskingTable<addr_t> m_z;
641	const soclib::common::AddressMaskingTable<addr_t> m_nline;
642
643	// broadcast address
644	uint32_t m_broadcast_boundaries;
645
646	// Fifo between TGT_CMD fsm and READ fsm
647	GenericFifo<addr_t> m_cmd_read_addr_fifo;
648	GenericFifo<size_t> m_cmd_read_length_fifo;
649	GenericFifo<size_t> m_cmd_read_srcid_fifo;
650	GenericFifo<size_t> m_cmd_read_trdid_fifo;
651	GenericFifo<size_t> m_cmd_read_pktid_fifo;
652
653	// Fifo between TGT_CMD fsm and WRITE fsm
654	GenericFifo<addr_t> m_cmd_write_addr_fifo;
655	GenericFifo<bool> m_cmd_write_eop_fifo;
656	GenericFifo<size_t> m_cmd_write_srcid_fifo;
657	GenericFifo<size_t> m_cmd_write_trdid_fifo;
658	GenericFifo<size_t> m_cmd_write_pktid_fifo;
659	GenericFifo<data_t> m_cmd_write_data_fifo;
660	GenericFifo<be_t> m_cmd_write_be_fifo;
661
662	// Fifo between TGT_CMD fsm and CAS fsm
663	GenericFifo<addr_t> m_cmd_cas_addr_fifo;
664	GenericFifo<bool> m_cmd_cas_eop_fifo;
665	GenericFifo<size_t> m_cmd_cas_srcid_fifo;
666	GenericFifo<size_t> m_cmd_cas_trdid_fifo;
667	GenericFifo<size_t> m_cmd_cas_pktid_fifo;
668	GenericFifo<data_t> m_cmd_cas_wdata_fifo;
669
670	// Fifo between CC_RECEIVE fsm and CLEANUP fsm
671	GenericFifo<uint64_t> m_cc_receive_to_cleanup_fifo;
672
673	// Fifo between CC_RECEIVE fsm and MULTI_ACK fsm
674	GenericFifo<uint64_t> m_cc_receive_to_multi_ack_fifo;
675
676	// Buffer between TGT_CMD fsm and TGT_RSP fsm
677	// (segmentation violation response request)
678	sc_signal<bool> r_tgt_cmd_to_tgt_rsp_req;
679
680	sc_signal<uint32_t> r_tgt_cmd_to_tgt_rsp_rdata;
681	sc_signal<size_t> r_tgt_cmd_to_tgt_rsp_error;
682	sc_signal<size_t> r_tgt_cmd_to_tgt_rsp_srcid;
683	sc_signal<size_t> r_tgt_cmd_to_tgt_rsp_trdid;
684	sc_signal<size_t> r_tgt_cmd_to_tgt_rsp_pktid;
685
686	sc_signal<addr_t> r_tgt_cmd_config_addr;
687	sc_signal<size_t> r_tgt_cmd_config_cmd;
688
689	//////////////////////////////////////////////////
690	// Registers controlled by the TGT_CMD fsm
691	//////////////////////////////////////////////////
692
693	sc_signal<int> r_tgt_cmd_fsm;
694	sc_signal<size_t> r_tgt_cmd_srcid; // srcid for response to config
695	sc_signal<size_t> r_tgt_cmd_trdid; // trdid for response to config
696	sc_signal<size_t> r_tgt_cmd_pktid; // pktid for response to config
697
698	///////////////////////////////////////////////////////
699	// Registers controlled by the CONFIG fsm
700	///////////////////////////////////////////////////////
701
702	sc_signal<int> r_config_fsm; // FSM state
703	sc_signal<bool> r_config_lock; // lock protecting exclusive access
704	sc_signal<int> r_config_cmd; // config request type
705	sc_signal<addr_t> r_config_address; // target buffer physical address
706	sc_signal<size_t> r_config_srcid; // config request srcid
707	sc_signal<size_t> r_config_trdid; // config request trdid
708	sc_signal<size_t> r_config_pktid; // config request pktid
709	sc_signal<size_t> r_config_cmd_lines; // number of lines to be handled
710	sc_signal<size_t> r_config_rsp_lines; // number of lines not completed
711	sc_signal<size_t> r_config_dir_way; // DIR: selected way
712	sc_signal<bool> r_config_dir_lock; // DIR: locked entry
713	sc_signal<size_t> r_config_dir_count; // DIR: number of copies
714	sc_signal<bool> r_config_dir_is_cnt; // DIR: counter mode (broadcast)
715	sc_signal<size_t> r_config_dir_copy_srcid; // DIR: first copy SRCID
716	sc_signal<bool> r_config_dir_copy_inst; // DIR: first copy L1 type
717	sc_signal<size_t> r_config_dir_ptr; // DIR: index of next copy in HEAP
718	sc_signal<size_t> r_config_heap_next; // current pointer to scan HEAP
719	sc_signal<size_t> r_config_trt_index; // selected entry in TRT
720	sc_signal<size_t> r_config_ivt_index; // selected entry in IVT
721
722	// Buffer between CONFIG fsm and IXR_CMD fsm
723	sc_signal<bool> r_config_to_ixr_cmd_req; // valid request
724	sc_signal<size_t> r_config_to_ixr_cmd_index; // TRT index
725
726
727	// Buffer between CONFIG fsm and TGT_RSP fsm (send a done response to L1 cache)
728	sc_signal<bool> r_config_to_tgt_rsp_req; // valid request
729	sc_signal<bool> r_config_to_tgt_rsp_error; // error response
730	sc_signal<size_t> r_config_to_tgt_rsp_srcid; // Transaction srcid
731	sc_signal<size_t> r_config_to_tgt_rsp_trdid; // Transaction trdid
732	sc_signal<size_t> r_config_to_tgt_rsp_pktid; // Transaction pktid
733
734	// Buffer between CONFIG fsm and CC_SEND fsm (multi-inval / broadcast-inval)
735	sc_signal<bool> r_config_to_cc_send_multi_req; // multi-inval request
736	sc_signal<bool> r_config_to_cc_send_brdcast_req; // broadcast-inval request
737	sc_signal<addr_t> r_config_to_cc_send_nline; // line index
738	sc_signal<size_t> r_config_to_cc_send_trdid; // UPT index
739	GenericFifo<bool> m_config_to_cc_send_inst_fifo; // fifo for the L1 type
740	GenericFifo<size_t> m_config_to_cc_send_srcid_fifo; // fifo for owners srcid
741
742	///////////////////////////////////////////////////////
743	// Registers controlled by the READ fsm
744	///////////////////////////////////////////////////////
745
746	sc_signal<int> r_read_fsm; // FSM state
747	sc_signal<size_t> r_read_copy; // Srcid of the first copy
748	sc_signal<size_t> r_read_copy_cache; // Srcid of the first copy
749	sc_signal<bool> r_read_copy_inst; // Type of the first copy
750	sc_signal<tag_t> r_read_tag; // cache line tag (in directory)
751	sc_signal<bool> r_read_is_cnt; // is_cnt bit (in directory)
752	sc_signal<bool> r_read_lock; // lock bit (in directory)
753	sc_signal<bool> r_read_dirty; // dirty bit (in directory)
754	sc_signal<size_t> r_read_count; // number of copies
755	sc_signal<size_t> r_read_ptr; // pointer to the heap
756	sc_signal<data_t> * r_read_data; // data (one cache line)
757	sc_signal<size_t> r_read_way; // associative way (in cache)
758	sc_signal<size_t> r_read_trt_index; // Transaction Table index
759	sc_signal<size_t> r_read_next_ptr; // Next entry to point to
760	sc_signal<bool> r_read_last_free; // Last free entry
761	sc_signal<addr_t> r_read_ll_key; // LL key from llsc_global_table
762
763	// Buffer between READ fsm and IXR_CMD fsm
764	sc_signal<bool> r_read_to_ixr_cmd_req; // valid request
765	sc_signal<size_t> r_read_to_ixr_cmd_index; // TRT index
766
767	// Buffer between READ fsm and TGT_RSP fsm (send a hit read response to L1 cache)
768	sc_signal<bool> r_read_to_tgt_rsp_req; // valid request
769	sc_signal<size_t> r_read_to_tgt_rsp_srcid; // Transaction srcid
770	sc_signal<size_t> r_read_to_tgt_rsp_trdid; // Transaction trdid
771	sc_signal<size_t> r_read_to_tgt_rsp_pktid; // Transaction pktid
772	sc_signal<data_t> * r_read_to_tgt_rsp_data; // data (one cache line)
773	sc_signal<size_t> r_read_to_tgt_rsp_word; // first word of the response
774	sc_signal<size_t> r_read_to_tgt_rsp_length; // length of the response
775	sc_signal<addr_t> r_read_to_tgt_rsp_ll_key; // LL key from llsc_global_table
776
777	//RWT: Buffer between READ fsm and CC_SEND fsm (send inval)
778	sc_signal<bool> r_read_to_cc_send_req;
779	sc_signal<size_t> r_read_to_cc_send_dest;
780	sc_signal<addr_t> r_read_to_cc_send_nline;
781	sc_signal<bool> r_read_to_cc_send_inst;
782
783	//RWT: Buffer between READ fsm and CLEANUP fsm (wait for the data coming from L1 cache)
784	sc_signal<bool> r_read_to_cleanup_req; // valid request
785	sc_signal<addr_t> r_read_to_cleanup_nline; // cache line index
786	sc_signal<size_t> r_read_to_cleanup_srcid;
787	sc_signal<size_t> r_read_to_cleanup_length;
788	sc_signal<size_t> r_read_to_cleanup_first_word;
789	sc_signal<bool> r_read_to_cleanup_cached_read;
790	sc_signal<bool> r_read_to_cleanup_is_ll;
791	sc_signal<addr_t> r_read_to_cleanup_addr;
792	sc_signal<addr_t> r_read_to_cleanup_ll_key;
793
794	//RWT:
795	sc_signal<bool> r_read_coherent; // State of the cache slot after transaction
796	sc_signal<bool> r_read_ll_done;
797
798	///////////////////////////////////////////////////////////////
799	// Registers controlled by the WRITE fsm
800	///////////////////////////////////////////////////////////////
801
802	sc_signal<int> r_write_fsm; // FSM state
803	sc_signal<addr_t> r_write_address; // first word address
804	sc_signal<size_t> r_write_word_index; // first word index in line
805	sc_signal<size_t> r_write_word_count; // number of words in line
806	sc_signal<size_t> r_write_srcid; // transaction srcid
807	sc_signal<size_t> r_write_trdid; // transaction trdid
808	sc_signal<size_t> r_write_pktid; // transaction pktid
809	sc_signal<data_t> * r_write_data; // data (one cache line)
810	sc_signal<be_t> * r_write_be; // one byte enable per word
811	sc_signal<bool> r_write_byte; // (BE != 0X0) and (BE != 0xF)
812	sc_signal<bool> r_write_is_cnt; // is_cnt bit (in directory)
813	sc_signal<bool> r_write_lock; // lock bit (in directory)
814	sc_signal<tag_t> r_write_tag; // cache line tag (in directory)
815	sc_signal<size_t> r_write_copy; // first owner of the line
816	sc_signal<size_t> r_write_copy_cache; // first owner of the line
817	sc_signal<bool> r_write_copy_inst; // is this owner a ICache ?
818	sc_signal<size_t> r_write_count; // number of copies
819	sc_signal<size_t> r_write_ptr; // pointer to the heap
820	sc_signal<size_t> r_write_next_ptr; // next pointer to the heap
821	sc_signal<bool> r_write_to_dec; // need to decrement update counter
822	sc_signal<size_t> r_write_way; // way of the line
823	sc_signal<size_t> r_write_trt_index; // index in Transaction Table
824	sc_signal<size_t> r_write_upt_index; // index in Update Table
825	sc_signal<bool> r_write_sc_fail; // sc command failed
826	//sc_signal<bool> r_write_pending_sc; // sc command pending
827	sc_signal<data_t> r_write_sc_key; // sc key
828
829	// Buffer between WRITE fsm and TGT_RSP fsm (acknowledge a write command from L1)
830	sc_signal<bool> r_write_to_tgt_rsp_req; // valid request
831	sc_signal<size_t> r_write_to_tgt_rsp_srcid; // transaction srcid
832	sc_signal<size_t> r_write_to_tgt_rsp_trdid; // transaction trdid
833	sc_signal<size_t> r_write_to_tgt_rsp_pktid; // transaction pktid
834	sc_signal<bool> r_write_to_tgt_rsp_sc_fail; // sc command failed
835
836	// Buffer between WRITE fsm and IXR_CMD fsm
837	sc_signal<bool> r_write_to_ixr_cmd_req; // valid request
838	sc_signal<bool> r_write_to_ixr_cmd_put; // request type (GET/PUT)
839	sc_signal<size_t> r_write_to_ixr_cmd_index; // TRT index
840
841	// Buffer between WRITE fsm and CC_SEND fsm (Update/Invalidate L1 caches)
842	sc_signal<bool> r_write_to_cc_send_multi_req; // valid multicast request
843	sc_signal<bool> r_write_to_cc_send_brdcast_req; // valid brdcast request
844	sc_signal<addr_t> r_write_to_cc_send_nline; // cache line index
845	sc_signal<size_t> r_write_to_cc_send_trdid; // index in Update Table
846	sc_signal<data_t> * r_write_to_cc_send_data; // data (one cache line)
847	sc_signal<be_t> * r_write_to_cc_send_be; // word enable
848	sc_signal<size_t> r_write_to_cc_send_count; // number of words in line
849	sc_signal<size_t> r_write_to_cc_send_index; // index of first word in line
850	GenericFifo<bool> m_write_to_cc_send_inst_fifo; // fifo for the L1 type
851	GenericFifo<size_t> m_write_to_cc_send_srcid_fifo; // fifo for srcids
852
853	// Buffer between WRITE fsm and MULTI_ACK fsm (Decrement UPT entry)
854	sc_signal<bool> r_write_to_multi_ack_req; // valid request
855	sc_signal<size_t> r_write_to_multi_ack_upt_index; // index in update table
856
857	// RWT: Buffer between WRITE fsm and CLEANUP fsm (change slot state)
858	sc_signal<bool> r_write_to_cleanup_req; // valid request
859	sc_signal<addr_t> r_write_to_cleanup_nline; // cache line index
860
861	// RWT
862	sc_signal<bool> r_write_coherent; // cache slot state after transaction
863
864	//Buffer between WRITE fsm and CC_SEND fsm (INVAL for RWT)
865	sc_signal<bool> r_write_to_cc_send_req;
866	sc_signal<size_t> r_write_to_cc_send_dest;
867
868
869	/////////////////////////////////////////////////////////
870	// Registers controlled by MULTI_ACK fsm
871	//////////////////////////////////////////////////////////
872
873	sc_signal<int> r_multi_ack_fsm; // FSM state
874	sc_signal<size_t> r_multi_ack_upt_index; // index in the Update Table
875	sc_signal<size_t> r_multi_ack_srcid; // pending write srcid
876	sc_signal<size_t> r_multi_ack_trdid; // pending write trdid
877	sc_signal<size_t> r_multi_ack_pktid; // pending write pktid
878	sc_signal<addr_t> r_multi_ack_nline; // pending write nline
879
880	// Buffer between MULTI_ACK fsm and TGT_RSP fsm (complete write/update transaction)
881	sc_signal<bool> r_multi_ack_to_tgt_rsp_req; // valid request
882	sc_signal<size_t> r_multi_ack_to_tgt_rsp_srcid; // Transaction srcid
883	sc_signal<size_t> r_multi_ack_to_tgt_rsp_trdid; // Transaction trdid
884	sc_signal<size_t> r_multi_ack_to_tgt_rsp_pktid; // Transaction pktid
885
886	///////////////////////////////////////////////////////
887	// Registers controlled by CLEANUP fsm
888	///////////////////////////////////////////////////////
889
890	sc_signal<int> r_cleanup_fsm; // FSM state
891	sc_signal<size_t> r_cleanup_srcid; // transaction srcid
892	sc_signal<bool> r_cleanup_inst; // Instruction or Data ?
893	sc_signal<size_t> r_cleanup_way_index; // L1 Cache Way index
894	sc_signal<addr_t> r_cleanup_nline; // cache line index
895
896
897	sc_signal<copy_t> r_cleanup_copy; // first copy
898	sc_signal<copy_t> r_cleanup_copy_cache; // first copy
899	sc_signal<size_t> r_cleanup_copy_inst; // type of the first copy
900	sc_signal<copy_t> r_cleanup_count; // number of copies
901	sc_signal<size_t> r_cleanup_ptr; // pointer to the heap
902	sc_signal<size_t> r_cleanup_prev_ptr; // previous pointer to the heap
903	sc_signal<size_t> r_cleanup_prev_srcid; // srcid of previous heap entry
904	sc_signal<size_t> r_cleanup_prev_cache_id; // srcid of previous heap entry
905	sc_signal<bool> r_cleanup_prev_inst; // inst bit of previous heap entry
906	sc_signal<size_t> r_cleanup_next_ptr; // next pointer to the heap
907	sc_signal<tag_t> r_cleanup_tag; // cache line tag (in directory)
908	sc_signal<bool> r_cleanup_is_cnt; // inst bit (in directory)
909	sc_signal<bool> r_cleanup_lock; // lock bit (in directory)
910	sc_signal<bool> r_cleanup_dirty; // dirty bit (in directory)
911	sc_signal<size_t> r_cleanup_way; // associative way (in cache)
912
913	sc_signal<size_t> r_cleanup_write_srcid; // srcid of write rsp
914	sc_signal<size_t> r_cleanup_write_trdid; // trdid of write rsp
915	sc_signal<size_t> r_cleanup_write_pktid; // pktid of write rsp
916
917	sc_signal<bool> r_cleanup_need_rsp; // write response required
918	sc_signal<bool> r_cleanup_need_ack; // config acknowledge required
919
920	sc_signal<size_t> r_cleanup_index; // index of the INVAL line (in the UPT)
921
922	// Buffer between CLEANUP fsm and TGT_RSP fsm (acknowledge a write command from L1)
923	sc_signal<bool> r_cleanup_to_tgt_rsp_req; // valid request
924	sc_signal<size_t> r_cleanup_to_tgt_rsp_srcid; // transaction srcid
925	sc_signal<size_t> r_cleanup_to_tgt_rsp_trdid; // transaction trdid
926	sc_signal<size_t> r_cleanup_to_tgt_rsp_pktid; // transaction pktid
927	sc_signal<addr_t> r_cleanup_to_tgt_rsp_ll_key;
928
929	//RWT
930	sc_signal<size_t> r_cleanup_read_srcid;
931	sc_signal<size_t> r_cleanup_read_trdid;
932	sc_signal<size_t> r_cleanup_read_pktid;
933	sc_signal<bool> r_cleanup_read_need_rsp;
934	sc_signal<bool> r_cleanup_to_tgt_rsp_type;
935	sc_signal<data_t> * r_cleanup_to_tgt_rsp_data;
936	sc_signal<size_t> r_cleanup_to_tgt_rsp_length;
937	sc_signal<size_t> r_cleanup_to_tgt_rsp_first_word;
938
939	///////////////////////////////////////////////////////
940	// Registers controlled by CAS fsm
941	///////////////////////////////////////////////////////
942
943	sc_signal<int> r_cas_fsm; // FSM state
944	sc_signal<data_t> r_cas_wdata; // write data word
945	sc_signal<data_t> * r_cas_rdata; // read data word
946	sc_signal<uint32_t> r_cas_lfsr; // lfsr for random introducing
947	sc_signal<size_t> r_cas_cpt; // size of command
948	sc_signal<copy_t> r_cas_copy; // Srcid of the first copy
949	sc_signal<copy_t> r_cas_copy_cache; // Srcid of the first copy
950	sc_signal<bool> r_cas_copy_inst; // Type of the first copy
951	sc_signal<size_t> r_cas_count; // number of copies
952	sc_signal<size_t> r_cas_ptr; // pointer to the heap
953	sc_signal<size_t> r_cas_next_ptr; // next pointer to the heap
954	sc_signal<bool> r_cas_is_cnt; // is_cnt bit (in directory)
955	sc_signal<bool> r_cas_dirty; // dirty bit (in directory)
956	sc_signal<size_t> r_cas_way; // way in directory
957	sc_signal<size_t> r_cas_set; // set in directory
958	sc_signal<data_t> r_cas_tag; // cache line tag (in directory)
959	sc_signal<size_t> r_cas_trt_index; // Transaction Table index
960	sc_signal<size_t> r_cas_upt_index; // Update Table index
961	sc_signal<data_t> * r_cas_data; // cache line data
962
963	sc_signal<bool> r_cas_coherent;
964
965	// Buffer between CAS fsm and IXR_CMD fsm (XRAM write)
966	sc_signal<bool> r_cas_to_ixr_cmd_req; // valid request
967	sc_signal<bool> r_cas_to_ixr_cmd_put; // request type (GET/PUT)
968	sc_signal<size_t> r_cas_to_ixr_cmd_index; // TRT index
969
970	// Buffer between CAS fsm and TGT_RSP fsm
971	sc_signal<bool> r_cas_to_tgt_rsp_req; // valid request
972	sc_signal<data_t> r_cas_to_tgt_rsp_data; // read data word
973	sc_signal<size_t> r_cas_to_tgt_rsp_srcid; // Transaction srcid
974	sc_signal<size_t> r_cas_to_tgt_rsp_trdid; // Transaction trdid
975	sc_signal<size_t> r_cas_to_tgt_rsp_pktid; // Transaction pktid
976
977	// Buffer between CAS fsm and CC_SEND fsm (Update/Invalidate L1 caches)
978	sc_signal<bool> r_cas_to_cc_send_multi_req; // valid request
979	sc_signal<bool> r_cas_to_cc_send_brdcast_req; // brdcast request
980	sc_signal<addr_t> r_cas_to_cc_send_nline; // cache line index
981	sc_signal<size_t> r_cas_to_cc_send_trdid; // index in Update Table
982	sc_signal<data_t> r_cas_to_cc_send_wdata; // data (one word)
983	sc_signal<bool> r_cas_to_cc_send_is_long; // it is a 64 bits CAS
984	sc_signal<data_t> r_cas_to_cc_send_wdata_high; // data high (one word)
985	sc_signal<size_t> r_cas_to_cc_send_index; // index of the word in line
986	GenericFifo<bool> m_cas_to_cc_send_inst_fifo; // fifo for the L1 type
987	GenericFifo<size_t> m_cas_to_cc_send_srcid_fifo; // fifo for srcids
988
989	////////////////////////////////////////////////////
990	// Registers controlled by the IXR_RSP fsm
991	////////////////////////////////////////////////////
992
993	sc_signal<int> r_ixr_rsp_fsm; // FSM state
994	sc_signal<size_t> r_ixr_rsp_trt_index; // TRT entry index
995	sc_signal<size_t> r_ixr_rsp_cpt; // word counter
996
997	// Buffer between IXR_RSP fsm and CONFIG fsm (response from the XRAM)
998	sc_signal<bool> r_ixr_rsp_to_config_ack; // one single bit
999
1000	// Buffer between IXR_RSP fsm and XRAM_RSP fsm (response from the XRAM)
1001	sc_signal<bool> * r_ixr_rsp_to_xram_rsp_rok; // one bit per TRT entry
1002
1003	////////////////////////////////////////////////////
1004	// Registers controlled by the XRAM_RSP fsm
1005	////////////////////////////////////////////////////
1006
1007	sc_signal<int> r_xram_rsp_fsm; // FSM state
1008	sc_signal<size_t> r_xram_rsp_trt_index; // TRT entry index
1009	TransactionTabEntry r_xram_rsp_trt_buf; // TRT entry local buffer
1010	sc_signal<bool> r_xram_rsp_victim_inval; // victim line invalidate
1011	sc_signal<bool> r_xram_rsp_victim_is_cnt; // victim line inst bit
1012	sc_signal<bool> r_xram_rsp_victim_dirty; // victim line dirty bit
1013	sc_signal<size_t> r_xram_rsp_victim_way; // victim line way
1014	sc_signal<size_t> r_xram_rsp_victim_set; // victim line set
1015	sc_signal<addr_t> r_xram_rsp_victim_nline; // victim line index
1016	sc_signal<copy_t> r_xram_rsp_victim_copy; // victim line first copy
1017	sc_signal<copy_t> r_xram_rsp_victim_copy_cache; // victim line first copy
1018	sc_signal<bool> r_xram_rsp_victim_copy_inst; // victim line type of first copy
1019	sc_signal<size_t> r_xram_rsp_victim_count; // victim line number of copies
1020	sc_signal<size_t> r_xram_rsp_victim_ptr; // victim line pointer to the heap
1021	sc_signal<data_t> * r_xram_rsp_victim_data; // victim line data
1022	sc_signal<size_t> r_xram_rsp_ivt_index; // IVT entry index
1023	sc_signal<size_t> r_xram_rsp_next_ptr; // Next pointer to the heap
1024
1025	// Buffer between XRAM_RSP fsm and TGT_RSP fsm (response to L1 cache)
1026	sc_signal<bool> r_xram_rsp_to_tgt_rsp_req; // Valid request
1027	sc_signal<size_t> r_xram_rsp_to_tgt_rsp_srcid; // Transaction srcid
1028	sc_signal<size_t> r_xram_rsp_to_tgt_rsp_trdid; // Transaction trdid
1029	sc_signal<size_t> r_xram_rsp_to_tgt_rsp_pktid; // Transaction pktid
1030	sc_signal<data_t> * r_xram_rsp_to_tgt_rsp_data; // data (one cache line)
1031	sc_signal<size_t> r_xram_rsp_to_tgt_rsp_word; // first word index
1032	sc_signal<size_t> r_xram_rsp_to_tgt_rsp_length; // length of the response
1033	sc_signal<bool> r_xram_rsp_to_tgt_rsp_rerror; // send error to requester
1034	sc_signal<addr_t> r_xram_rsp_to_tgt_rsp_ll_key; // LL key from llsc_global_table
1035
1036	// Buffer between XRAM_RSP fsm and CC_SEND fsm (Inval L1 Caches)
1037	sc_signal<bool> r_xram_rsp_to_cc_send_multi_req; // Valid request
1038	sc_signal<bool> r_xram_rsp_to_cc_send_brdcast_req; // Broadcast request
1039	sc_signal<addr_t> r_xram_rsp_to_cc_send_nline; // cache line index;
1040	sc_signal<size_t> r_xram_rsp_to_cc_send_trdid; // index of UPT entry
1041	GenericFifo<bool> m_xram_rsp_to_cc_send_inst_fifo; // fifo for the L1 type
1042	GenericFifo<size_t> m_xram_rsp_to_cc_send_srcid_fifo; // fifo for srcids
1043
1044	// Buffer between XRAM_RSP fsm and IXR_CMD fsm
1045	sc_signal<bool> r_xram_rsp_to_ixr_cmd_req; // Valid request
1046	sc_signal<size_t> r_xram_rsp_to_ixr_cmd_index; // TRT index
1047
1048	//RWT
1049	sc_signal<bool> r_xram_rsp_victim_coherent; // victim's cache slot state
1050	sc_signal<bool> r_xram_rsp_coherent; // coherence of the read
1051	////////////////////////////////////////////////////
1052	// Registers controlled by the IXR_CMD fsm
1053	////////////////////////////////////////////////////
1054
1055	sc_signal<int> r_ixr_cmd_fsm;
1056	sc_signal<size_t> r_ixr_cmd_word; // word index for a put
1057	sc_signal<size_t> r_ixr_cmd_trdid; // TRT index value
1058	sc_signal<addr_t> r_ixr_cmd_address; // address to XRAM
1059	sc_signal<data_t> * r_ixr_cmd_wdata; // cache line buffer
1060	sc_signal<bool> r_ixr_cmd_get; // transaction type (PUT/GET)
1061
1062	////////////////////////////////////////////////////
1063	// Registers controlled by TGT_RSP fsm
1064	////////////////////////////////////////////////////
1065
1066	sc_signal<int> r_tgt_rsp_fsm;
1067	sc_signal<size_t> r_tgt_rsp_cpt;
1068	sc_signal<bool> r_tgt_rsp_key_sent;
1069
1070	////////////////////////////////////////////////////
1071	// Registers controlled by CC_SEND fsm
1072	////////////////////////////////////////////////////
1073
1074	sc_signal<int> r_cc_send_fsm;
1075	sc_signal<size_t> r_cc_send_cpt;
1076	sc_signal<bool> r_cc_send_inst;
1077
1078	////////////////////////////////////////////////////
1079	// Registers controlled by CC_RECEIVE fsm
1080	////////////////////////////////////////////////////
1081
1082	sc_signal<int> r_cc_receive_fsm;
1083
1084	////////////////////////////////////////////////////
1085	// Registers controlled by ALLOC_DIR fsm
1086	////////////////////////////////////////////////////
1087
1088	sc_signal<int> r_alloc_dir_fsm;
1089	sc_signal<unsigned> r_alloc_dir_reset_cpt;
1090
1091	////////////////////////////////////////////////////
1092	// Registers controlled by ALLOC_TRT fsm
1093	////////////////////////////////////////////////////
1094
1095	sc_signal<int> r_alloc_trt_fsm;
1096
1097	////////////////////////////////////////////////////
1098	// Registers controlled by ALLOC_UPT fsm
1099	////////////////////////////////////////////////////
1100
1101	sc_signal<int> r_alloc_upt_fsm;
1102
1103	////////////////////////////////////////////////////
1104	// Registers controlled by ALLOC_IVT fsm
1105	////////////////////////////////////////////////////
1106
1107	sc_signal<int> r_alloc_ivt_fsm;
1108
1109	////////////////////////////////////////////////////
1110	// Registers controlled by ALLOC_HEAP fsm
1111	////////////////////////////////////////////////////
1112
1113	sc_signal<int> r_alloc_heap_fsm;
1114	sc_signal<unsigned> r_alloc_heap_reset_cpt;
1115
1116
1117	////////////////////////////////////////////////////
1118	// REGISTERS FOR ODCCP
1119	////////////////////////////////////////////////////
1120
1121	sc_signal<uint32_t> r_cleanup_data_index;
1122	sc_signal<uint32_t> r_cleanup_trdid;
1123	sc_signal<uint32_t> r_cleanup_pktid;
1124	sc_signal<bool> r_cleanup_coherent;
1125	sc_signal<data_t> *r_cleanup_data;
1126	sc_signal<data_t> *r_cleanup_old_data;
1127	sc_signal<bool> r_cleanup_contains_data;
1128
1129	sc_signal<bool> r_cleanup_ncc;
1130	sc_signal<bool> r_cleanup_to_ixr_cmd_ncc_l1_dirty;
1131	sc_signal<bool> r_xram_rsp_to_ixr_cmd_inval_ncc_pending;
1132
1133	sc_signal<bool> r_cleanup_to_ixr_cmd_req;
1134	sc_signal<data_t> *r_cleanup_to_ixr_cmd_data;
1135	sc_signal<uint32_t> r_cleanup_to_ixr_cmd_srcid;
1136	sc_signal<uint32_t> r_cleanup_to_ixr_cmd_index;
1137	sc_signal<uint32_t> r_cleanup_to_ixr_cmd_pktid;
1138	sc_signal<addr_t> r_cleanup_to_ixr_cmd_nline;
1139	}; // end class VciMemCache
1140
1141	}}
1142
1143	#endif
1144
1145	// Local Variables:
1146	// tab-width: 2
1147	// c-basic-offset: 2
1148	// c-file-offsets:((innamespace . 0)(inline-open . 0))
1149	// indent-tabs-mode: nil
1150	// End:
1151
1152	// vim: filetype=cpp:expandtab:shiftwidth=2:tabstop=2:softtabstop=2
1153

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