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40a1f26c | 1 | ////////////////////////////////////////////////////////////////////// |
2 | //// //// | |
3 | //// File name "wb_slave.v" //// | |
4 | //// //// | |
5 | //// This file is part of the "PCI bridge" project //// | |
6 | //// http://www.opencores.org/cores/pci/ //// | |
7 | //// //// | |
8 | //// Author(s): //// | |
9 | //// - Miha Dolenc (mihad@opencores.org) //// | |
10 | //// //// | |
11 | //// All additional information is avaliable in the README //// | |
12 | //// file. //// | |
13 | //// //// | |
14 | //// //// | |
15 | ////////////////////////////////////////////////////////////////////// | |
16 | //// //// | |
17 | //// Copyright (C) 2001 Miha Dolenc, mihad@opencores.org //// | |
18 | //// //// | |
19 | //// This source file may be used and distributed without //// | |
20 | //// restriction provided that this copyright statement is not //// | |
21 | //// removed from the file and that any derivative work contains //// | |
22 | //// the original copyright notice and the associated disclaimer. //// | |
23 | //// //// | |
24 | //// This source file is free software; you can redistribute it //// | |
25 | //// and/or modify it under the terms of the GNU Lesser General //// | |
26 | //// Public License as published by the Free Software Foundation; //// | |
27 | //// either version 2.1 of the License, or (at your option) any //// | |
28 | //// later version. //// | |
29 | //// //// | |
30 | //// This source is distributed in the hope that it will be //// | |
31 | //// useful, but WITHOUT ANY WARRANTY; without even the implied //// | |
32 | //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// | |
33 | //// PURPOSE. See the GNU Lesser General Public License for more //// | |
34 | //// details. //// | |
35 | //// //// | |
36 | //// You should have received a copy of the GNU Lesser General //// | |
37 | //// Public License along with this source; if not, download it //// | |
38 | //// from http://www.opencores.org/lgpl.shtml //// | |
39 | //// //// | |
40 | ////////////////////////////////////////////////////////////////////// | |
41 | // | |
42 | // CVS Revision History | |
43 | // | |
44 | // $Log: pci_wb_slave.v,v $ | |
45 | // Revision 1.1 2007-03-20 17:50:56 sithglan | |
46 | // add shit | |
47 | // | |
48 | // Revision 1.6 2006/07/04 13:16:19 mihad | |
49 | // Write burst performance patch applied. | |
50 | // Not tested. Everything should be backwards | |
51 | // compatible, since functional code is ifdefed. | |
52 | // | |
53 | // Revision 1.5 2004/01/24 11:54:18 mihad | |
54 | // Update! SPOCI Implemented! | |
55 | // | |
56 | // Revision 1.4 2003/12/19 11:11:30 mihad | |
57 | // Compact PCI Hot Swap support added. | |
58 | // New testcases added. | |
59 | // Specification updated. | |
60 | // Test application changed to support WB B3 cycles. | |
61 | // | |
62 | // Revision 1.3 2003/08/14 18:01:53 simons | |
63 | // ifdefs moved to thier own lines, this confuses some of the tools. | |
64 | // | |
65 | // Revision 1.2 2003/08/03 18:05:06 mihad | |
66 | // Added limited WISHBONE B3 support for WISHBONE Slave Unit. | |
67 | // Doesn't support full speed bursts yet. | |
68 | // | |
69 | // Revision 1.1 2003/01/27 16:49:31 mihad | |
70 | // Changed module and file names. Updated scripts accordingly. FIFO synchronizations changed. | |
71 | // | |
72 | // Revision 1.4 2002/08/19 16:54:25 mihad | |
73 | // Got rid of undef directives | |
74 | // | |
75 | // Revision 1.3 2002/02/01 15:25:13 mihad | |
76 | // Repaired a few bugs, updated specification, added test bench files and design document | |
77 | // | |
78 | // Revision 1.2 2001/10/05 08:14:30 mihad | |
79 | // Updated all files with inclusion of timescale file for simulation purposes. | |
80 | // | |
81 | // Revision 1.1.1.1 2001/10/02 15:33:47 mihad | |
82 | // New project directory structure | |
83 | // | |
84 | // | |
85 | ||
86 | `include "bus_commands.v" | |
87 | `include "pci_constants.v" | |
88 | ||
89 | // synopsys translate_off | |
90 | `include "timescale.v" | |
91 | // synopsys translate_on | |
92 | ||
93 | ||
94 | ||
95 | module pci_wb_slave | |
96 | ( wb_clock_in, | |
97 | reset_in, | |
98 | wb_hit_in, | |
99 | wb_conf_hit_in, | |
100 | wb_map_in, | |
101 | wb_pref_en_in, | |
102 | wb_mrl_en_in, | |
103 | wb_addr_in, | |
104 | del_bc_in, | |
105 | wb_del_req_pending_in, | |
106 | wb_del_comp_pending_in, | |
107 | pci_drcomp_pending_in, | |
108 | del_bc_out, | |
109 | del_req_out, | |
110 | del_done_out, | |
111 | del_burst_out, | |
112 | del_write_out, | |
113 | del_write_in, | |
114 | del_error_in, | |
115 | del_in_progress_out, | |
116 | ccyc_addr_in, | |
117 | wb_del_addr_in, | |
118 | wb_del_be_in, | |
119 | wb_conf_offset_out, | |
120 | wb_conf_renable_out, | |
121 | wb_conf_wenable_out, | |
122 | wb_conf_be_out, | |
123 | wb_conf_data_in, | |
124 | wb_conf_data_out, | |
125 | wb_data_out, | |
126 | wb_cbe_out, | |
127 | wbw_fifo_wenable_out, | |
128 | wbw_fifo_control_out, | |
129 | wbw_fifo_almost_full_in, | |
130 | wbw_fifo_full_in, | |
131 | wbw_fifo_half_full_in, //Robert, burst issue | |
132 | wbr_fifo_renable_out, | |
133 | wbr_fifo_be_in, | |
134 | wbr_fifo_data_in, | |
135 | wbr_fifo_control_in, | |
136 | wbr_fifo_flush_out, | |
137 | wbr_fifo_empty_in, | |
138 | pciw_fifo_empty_in, | |
139 | wbs_lock_in, | |
140 | init_complete_in, | |
141 | cache_line_size_not_zero, | |
142 | sample_address_out, | |
143 | CYC_I, | |
144 | STB_I, | |
145 | WE_I, | |
146 | SEL_I, | |
147 | SDATA_I, | |
148 | SDATA_O, | |
149 | ACK_O, | |
150 | RTY_O, | |
151 | ERR_O, | |
152 | CAB_I | |
153 | ); | |
154 | ||
155 | /*---------------------------------------------------------------------------------------------------------------------- | |
156 | Various parameters needed for state machine and other stuff | |
157 | ----------------------------------------------------------------------------------------------------------------------*/ | |
158 | parameter WBR_SEL = 1'b0 ; | |
159 | parameter CONF_SEL = 1'b1 ; | |
160 | ||
161 | `define FSM_BITS 3 | |
162 | parameter S_IDLE = `FSM_BITS'h0 ; | |
163 | parameter S_DEC1 = `FSM_BITS'h1 ; | |
164 | parameter S_DEC2 = `FSM_BITS'h2 ; | |
165 | parameter S_START = `FSM_BITS'h3 ; | |
166 | parameter S_W_ADDR_DATA = `FSM_BITS'h4 ; | |
167 | parameter S_READ = `FSM_BITS'h5 ; | |
168 | parameter S_CONF_WRITE = `FSM_BITS'h6 ; | |
169 | parameter S_CONF_READ = `FSM_BITS'h7 ; | |
170 | ||
171 | /*---------------------------------------------------------------------------------------------------------------------- | |
172 | System signals inputs | |
173 | wb_clock_in - WISHBONE bus clock input | |
174 | reset_in - system reset input controlled by bridge's reset logic | |
175 | ----------------------------------------------------------------------------------------------------------------------*/ | |
176 | input wb_clock_in, reset_in ; | |
177 | ||
178 | /*---------------------------------------------------------------------------------------------------------------------- | |
179 | Inputs from address decoding logic | |
180 | wb_hit_in - Decoder logic indicates if address is in a range of one of images | |
181 | wb_conf_hit_in - Decoder logic indicates that address is in configuration space range | |
182 | wb_map_in - Decoder logic provides information about image mapping - memory mapped image - wb_map_in = 0 | |
183 | IO space mapped image - wb_map_in = 1 | |
184 | wb_pref_en_in - Prefetch enable signal from currently selected image - used for PCI bus command usage | |
185 | wb_addr_in - Address already transalted from WB bus to PCI bus input | |
186 | wb_mrl_en_in - Memory read line enable input for each image | |
187 | ----------------------------------------------------------------------------------------------------------------------*/ | |
188 | input [4:0] wb_hit_in ; // hit indicators | |
189 | input wb_conf_hit_in ; // configuration hit indicator | |
190 | input [4:0] wb_pref_en_in ; // prefetch enable from all images | |
191 | input [4:0] wb_mrl_en_in ; // Memory Read line command enable from images | |
192 | input [4:0] wb_map_in ; // address space mapping indicators - 1 memory space mapping, 0-IO space mapping | |
193 | input [31:0] wb_addr_in ; // Translated address input | |
194 | ||
195 | /*---------------------------------------------------------------------------------------------------------------------- | |
196 | Delayed transaction control inputs and outputs: | |
197 | Used for locking particular accesses when delayed transactions are in progress: | |
198 | wb_del_addr_in - delayed transaction address input - when completion is ready it's used for transaction decoding | |
199 | wb_del_be_in - delayed transaction byte enable input - when completion is ready it's used for transaction decoding | |
200 | ----------------------------------------------------------------------------------------------------------------------*/ | |
201 | input [31:0] wb_del_addr_in ; | |
202 | input [3:0] wb_del_be_in ; | |
203 | ||
204 | input [3:0] del_bc_in ; // delayed request bus command used | |
205 | input wb_del_req_pending_in ; // delayed request pending indicator | |
206 | input wb_del_comp_pending_in ; // delayed completion pending indicator | |
207 | input pci_drcomp_pending_in ; // PCI initiated delayed read completion pending | |
208 | ||
209 | output [3:0] del_bc_out ; // delayed transaction bus command output | |
210 | ||
211 | output del_req_out ; // output for issuing delayed transaction requests | |
212 | ||
213 | output del_done_out ; // output indicating current delayed completion finished on WISHBONE bus | |
214 | ||
215 | output del_burst_out ; // delayed burst transaction indicator | |
216 | ||
217 | output del_in_progress_out ; // delayed in progress indicator - since delayed transaction can be a burst transaction, progress indicator must be used for proper operation | |
218 | ||
219 | output del_write_out ; // write enable for delayed transaction - used for indicating that transaction is a write | |
220 | ||
221 | input del_write_in ; // indicates that current delayed completion is from a write request | |
222 | input del_error_in ; // indicate that delayed request terminated with an error - used for write requests | |
223 | ||
224 | input [31:0] ccyc_addr_in ; // configuration cycle address input - it's separate from other addresses, since it is stored separately and decoded for type 0 configuration access | |
225 | ||
226 | /*---------------------------------------------------------------------------------------------------------------------- | |
227 | Configuration space access control and data signals | |
228 | wb_conf_offset_out - lower 12 bits of address input provided for register offset | |
229 | wb_conf_renable - read enable signal for configuration space accesses | |
230 | wb_conf_wenable - write enable signal for configuration space accesses | |
231 | wb_conf_be_out - byte enable signals for configuration space accesses | |
232 | wb_conf_data_in - data from configuration space | |
233 | wb_conf_data_in - data provided for configuration space | |
234 | ----------------------------------------------------------------------------------------------------------------------*/ | |
235 | output [11:0] wb_conf_offset_out ; // register offset output | |
236 | output wb_conf_renable_out, // configuration read and write enable outputs | |
237 | wb_conf_wenable_out ; | |
238 | output [3:0] wb_conf_be_out ; // byte enable outputs for configuration space | |
239 | input [31:0] wb_conf_data_in ; // configuration data input from configuration space | |
240 | output [31:0] wb_conf_data_out ; // configuration data output for configuration space | |
241 | ||
242 | /*---------------------------------------------------------------------------------------------------------------------- | |
243 | Data from WISHBONE bus output to interiror of the core: | |
244 | Data output is used for normal and configuration accesses. | |
245 | ---------------------------------------------------------------------------------------------------------------------*/ | |
246 | output [31:0] wb_data_out ; | |
247 | ||
248 | /*---------------------------------------------------------------------------------------------------------------------- | |
249 | Bus command - byte enable output - during address phase of image access this bus holds information about PCI | |
250 | bus command that should be used, during dataphases ( configuration or image access ) this bus contains inverted | |
251 | SEL_I signals | |
252 | ---------------------------------------------------------------------------------------------------------------------*/ | |
253 | output [3:0] wb_cbe_out ; | |
254 | ||
255 | /*---------------------------------------------------------------------------------------------------------------------- | |
256 | WBW_FIFO control signals used for sinking data into WBW_FIFO and status monitoring | |
257 | ---------------------------------------------------------------------------------------------------------------------*/ | |
258 | output wbw_fifo_wenable_out ; // write enable for WBW_FIFO output | |
259 | output [3:0] wbw_fifo_control_out ; // control bus output for WBW_FIFO | |
260 | input wbw_fifo_almost_full_in ; // almost full status indicator from WBW_FIFO | |
261 | input wbw_fifo_full_in ; // full status indicator from WBW_FIFO | |
262 | input wbw_fifo_half_full_in; //Robert, burst issue | |
263 | ||
264 | /*---------------------------------------------------------------------------------------------------------------------- | |
265 | WBR_FIFO control signals used for fetching data from WBR_FIFO and status monitoring | |
266 | ---------------------------------------------------------------------------------------------------------------------*/ | |
267 | output wbr_fifo_renable_out ; // WBR_FIFO read enable output | |
268 | input [3:0] wbr_fifo_be_in ; // byte enable input from WBR_FIFO | |
269 | input [31:0] wbr_fifo_data_in ; // data input from WBR_FIFO | |
270 | input [3:0] wbr_fifo_control_in ; // control bus input from WBR_FIFO | |
271 | output wbr_fifo_flush_out ; // flush signal for WBR_FIFO | |
272 | input wbr_fifo_empty_in ; // empty status indicator from WBR_FIFO | |
273 | ||
274 | // used for transaction ordering requirements - WISHBONE read cannot complete until writes from PCI are completed | |
275 | input pciw_fifo_empty_in ; // empty status indicator from PCIW_FIFO | |
276 | ||
277 | /*---------------------------------------------------------------------------------------------------------------------- | |
278 | wbs_lock_in: internal signal that locks out all accesses, except delayed completions or configuration accesses. | |
279 | ( when master operation is disabled via master enable bit in configuration spacei ) | |
280 | init_complete_in: while initialization sequence is in progress, the state machine | |
281 | remains in the idle state - it does not respond to accesses. | |
282 | ---------------------------------------------------------------------------------------------------------------------*/ | |
283 | input wbs_lock_in ; | |
284 | input init_complete_in ; | |
285 | ||
286 | // cache line size register must hold appropriate value to enable read bursts and special commands on PCI bus! | |
287 | input cache_line_size_not_zero ; | |
288 | ||
289 | // state machine signals to wb_addr_mux when to sample wb address input | |
290 | output sample_address_out ; | |
291 | reg sample_address_out ; | |
292 | ||
293 | /*---------------------------------------------------------------------------------------------------------------------- | |
294 | WISHBONE bus interface signals - can be connected directly to WISHBONE bus | |
295 | ---------------------------------------------------------------------------------------------------------------------*/ | |
296 | input CYC_I ; // cycle indicator | |
297 | input STB_I ; // strobe input - input data is valid when strobe and cycle indicator are high | |
298 | input WE_I ; // write enable input - 1 - write operation, 0 - read operation | |
299 | input [3:0] SEL_I ; // Byte select inputs | |
300 | input [31:0] SDATA_I ; // WISHBONE slave interface input data bus | |
301 | output [31:0] SDATA_O ; // WISHBONE slave interface output data bus | |
302 | output ACK_O ; // Acknowledge output - qualifies valid data on data output bus or received data on data input bus | |
303 | output RTY_O ; // retry output - signals to WISHBONE master that cycle should be terminated and retried later | |
304 | output ERR_O ; // Signals to WISHBONE master that access resulted in an error | |
305 | input CAB_I ; // consecutive address burst input - indicates that master will do a serial address transfer in current cycle | |
306 | ||
307 | `ifdef REGISTER_WBS_OUTPUTS | |
308 | reg [31:0] SDATA_O ; | |
309 | reg ACK_O ; | |
310 | reg RTY_O ; | |
311 | reg ERR_O ; | |
312 | ||
313 | reg [3:0] del_bc_out ; // delayed transaction bus command output | |
314 | reg del_req_out ; // output for issuing delayed transaction requests | |
315 | reg del_done_out ; // output indicating current delayed completion finished on WISHBONE bus | |
316 | reg del_burst_out ; // delayed burst transaction indicator | |
317 | reg del_in_progress_out ; // delayed in progress indicator - since delayed transaction can be a burst transaction, progress indicator must be used for proper operation | |
318 | reg del_write_out ; // write enable for delayed transaction - used for indicating that transaction is a write | |
319 | ||
320 | `ifdef HOST | |
321 | reg wb_conf_wenable_out ; | |
322 | reg [31:0] wb_conf_data_out ; // configuration data output for configuration space | |
323 | `endif | |
324 | ||
325 | reg [3:0] wb_conf_be_out ; // byte enable outputs for configuration space | |
326 | reg [31:0] wb_data_out ; | |
327 | ||
328 | reg [3:0] wb_cbe_out ; | |
329 | ||
330 | reg wbw_fifo_wenable_out ; // write enable for WBW_FIFO output | |
331 | reg [3:0] wbw_fifo_control_out ; // control bus output for WBW_FIFO | |
332 | ||
333 | reg wbr_fifo_renable_out ; // WBR_FIFO read enable output | |
334 | `endif | |
335 | ||
336 | reg [(`FSM_BITS - 1):0] c_state ; //current state register | |
337 | ||
338 | reg [(`FSM_BITS - 1):0] n_state ; //next state input to current state register | |
339 | ||
340 | // state machine register control | |
341 | always@(posedge wb_clock_in or posedge reset_in) | |
342 | begin | |
343 | if (reset_in) | |
344 | c_state <= #`FF_DELAY S_IDLE ; | |
345 | else | |
346 | c_state <= #`FF_DELAY n_state ; | |
347 | end | |
348 | ||
349 | ||
350 | // variable for bus command multiplexer logic output for delayed requests | |
351 | reg [3:0] del_bc ; | |
352 | ||
353 | //register for intermediate data and select storage | |
354 | reg [35:0] d_incoming ; | |
355 | ||
356 | // enable for incoming data register | |
357 | reg d_incoming_ena ; | |
358 | ||
359 | // incoming data register control logic | |
360 | always@(posedge wb_clock_in or posedge reset_in) | |
361 | begin | |
362 | if (reset_in) | |
363 | d_incoming <= #`FF_DELAY {35{1'b0}} ; | |
364 | else if (d_incoming_ena) | |
365 | d_incoming <= #`FF_DELAY {SEL_I, SDATA_I} ; | |
366 | end | |
367 | ||
368 | /*=================================================================================================================================================================================== | |
369 | Write allow for image accesses. Writes through images are allowed when all of following are true: | |
370 | - WBW_FIFO musn't be almost full nor full for image writes to be allowed - Every transaction takes at least two locations in the FIFO | |
371 | - delayed read from from WISHBONE to PCI request musn't be present | |
372 | - delayed read from PCI to WISHBONE completion musn't be present | |
373 | - lock input musn't be set - it can be set because of error reporting or because PCI master state machine is disabled | |
374 | ===================================================================================================================================================================================*/ | |
375 | //Robert, burst issue | |
376 | //`ifdef BURST_ISSUE | |
377 | wire wimg_wallow = ~|{ wbw_fifo_half_full_in, wb_del_req_pending_in, pci_drcomp_pending_in, wbs_lock_in } ; | |
378 | //`else | |
379 | //wire wimg_wallow = ~|{ wbw_fifo_almost_full_in , wbw_fifo_full_in, wb_del_req_pending_in, pci_drcomp_pending_in, wbs_lock_in } ; | |
380 | //`endif | |
381 | ||
382 | reg img_wallow ; | |
383 | /*=================================================================================================================================================================================== | |
384 | WISHBONE slave can request an image read accesses when all of following are true: | |
385 | - delayed completion is not present | |
386 | - delayed request is not present | |
387 | - operation is not locked because of error reporting mechanism or because PCI master is disabled | |
388 | ===================================================================================================================================================================================*/ | |
389 | wire wdo_del_request = ~|{ wb_del_req_pending_in, wb_del_comp_pending_in, wbs_lock_in } ; | |
390 | reg do_del_request ; | |
391 | /*=================================================================================================================================================================================== | |
392 | WISHBONE slave can complete an image read accesses when all of following are true: | |
393 | - delayed read completion is present | |
394 | - delayed read completion is the same as current read access ( dread_completion_hit is 1 ) | |
395 | - PCI Write FIFO is empty - no posted write is waiting to be finished in PCIW_FIFO | |
396 | - WBR_FIFO empty status is not active | |
397 | ===================================================================================================================================================================================*/ | |
398 | wire wdel_addr_hit = ( wb_del_addr_in == wb_addr_in ) && ( SEL_I == wb_del_be_in ) ; | |
399 | reg del_addr_hit ; | |
400 | wire wdel_completion_allow = wb_del_comp_pending_in && ((~del_write_in && ~WE_I && pciw_fifo_empty_in && ~wbr_fifo_empty_in) || (del_write_in && WE_I)) ; | |
401 | reg del_completion_allow ; | |
402 | ||
403 | /*---------------------------------------------------------------------------------------------------------------------- | |
404 | img_hit - state of wb_hit_in bus when when state machine signals decode is over | |
405 | ---------------------------------------------------------------------------------------------------------------------*/ | |
406 | reg [4:0] img_hit ; | |
407 | wire wb_hit = |( img_hit ) ; | |
408 | ||
409 | /*---------------------------------------------------------------------------------------------------------------------- | |
410 | Control logic for image control signals | |
411 | pref_en - prefetch enable of currently selected image | |
412 | mrl_en - Memory read line enable of currently selected image | |
413 | map - Address space mapping for currently selected image | |
414 | ---------------------------------------------------------------------------------------------------------------------*/ | |
415 | reg pref_en, mrl_en, map ; | |
416 | wire wpref_en = |(wb_pref_en_in & wb_hit_in) ; | |
417 | wire wmrl_en = |(wb_mrl_en_in & wb_hit_in) ; | |
418 | wire wmap = |(wb_map_in & wb_hit_in) ; | |
419 | ||
420 | // state machine controls when results from decoders, comparison etc. are sampled into registers to decode an access | |
421 | reg decode_en ; | |
422 | ||
423 | reg wb_conf_hit ; | |
424 | always@(posedge reset_in or posedge wb_clock_in) | |
425 | begin | |
426 | if (reset_in) | |
427 | begin | |
428 | img_wallow <= #`FF_DELAY 1'b0 ; | |
429 | wb_conf_hit <= #`FF_DELAY 1'b0 ; | |
430 | do_del_request <= #`FF_DELAY 1'b0 ; | |
431 | del_addr_hit <= #`FF_DELAY 1'b0 ; | |
432 | del_completion_allow <= #`FF_DELAY 1'b0 ; | |
433 | img_hit <= #`FF_DELAY 5'h00 ; | |
434 | pref_en <= #`FF_DELAY 1'b0 ; | |
435 | mrl_en <= #`FF_DELAY 1'b0 ; | |
436 | map <= #`FF_DELAY 1'b0 ; | |
437 | end | |
438 | else | |
439 | if (decode_en) | |
440 | begin | |
441 | img_wallow <= #`FF_DELAY wimg_wallow ; | |
442 | wb_conf_hit <= #`FF_DELAY wb_conf_hit_in ; | |
443 | do_del_request <= #`FF_DELAY wdo_del_request ; | |
444 | del_addr_hit <= #`FF_DELAY wdel_addr_hit ; | |
445 | del_completion_allow <= #`FF_DELAY wdel_completion_allow ; | |
446 | img_hit <= #`FF_DELAY wb_hit_in ; | |
447 | pref_en <= #`FF_DELAY wpref_en && cache_line_size_not_zero ; | |
448 | mrl_en <= #`FF_DELAY wmrl_en && cache_line_size_not_zero ; | |
449 | map <= #`FF_DELAY wmap ; | |
450 | end | |
451 | end | |
452 | ||
453 | wire del_burst = CAB_I && (pref_en || mrl_en) && ~WE_I && cache_line_size_not_zero ; // delayed burst indicator - only when WB master attempts CAB transfer and cache line size register is set appropriately and | |
454 | // either prefetch enable or memory read line enable of corresponding image are set - | |
455 | // applies for reads only - delayed write cannot be a burst | |
456 | wire do_dread_completion = del_completion_allow && del_addr_hit ; | |
457 | ||
458 | `ifdef GUEST | |
459 | ||
460 | // wires indicating allowance for configuration cycle generation requests | |
461 | wire do_ccyc_req = 1'b0 ; | |
462 | wire do_ccyc_comp = 1'b0 ; | |
463 | ||
464 | // wires indicating allowance for interrupt acknowledge cycle generation requests | |
465 | wire do_iack_req = 1'b0 ; | |
466 | wire do_iack_comp = 1'b0 ; | |
467 | ||
468 | // variables for configuration access control signals | |
469 | reg conf_wenable ; | |
470 | assign wb_conf_wenable_out = 1'b0 ; | |
471 | ||
472 | // configuration cycle data register hit | |
473 | wire ccyc_hit = 1'b0 ; | |
474 | wire iack_hit = 1'b0 ; | |
475 | ||
476 | wire wccyc_hit = 1'b0 ; | |
477 | wire wiack_hit = 1'b0 ; | |
478 | ||
479 | `else | |
480 | `ifdef HOST | |
481 | // only host implementation has access for generating interrupt acknowledge and configuration cycles | |
482 | // configuration cycle data register hit | |
483 | reg current_delayed_is_ccyc ; | |
484 | reg current_delayed_is_iack ; | |
485 | ||
486 | wire wccyc_hit = (wb_addr_in[8:2] == {1'b1, `CNF_DATA_ADDR}) ; | |
487 | ||
488 | wire wiack_hit = (wb_addr_in[8:2] == {1'b1, `INT_ACK_ADDR}) ; | |
489 | ||
490 | reg iack_hit ; | |
491 | reg ccyc_hit ; | |
492 | always@(posedge reset_in or posedge wb_clock_in) | |
493 | begin | |
494 | if (reset_in) | |
495 | begin | |
496 | ccyc_hit <= #`FF_DELAY 1'b0 ; | |
497 | iack_hit <= #`FF_DELAY 1'b0 ; | |
498 | end | |
499 | else | |
500 | if (decode_en) | |
501 | begin | |
502 | ccyc_hit <= #`FF_DELAY wccyc_hit ; | |
503 | iack_hit <= #`FF_DELAY wiack_hit ; | |
504 | end | |
505 | end | |
506 | ||
507 | // wires indicating allowance for configuration cycle generation requests | |
508 | wire do_ccyc_req = do_del_request && ccyc_hit; | |
509 | wire do_ccyc_comp = del_completion_allow && ccyc_hit && current_delayed_is_ccyc ; // && del_bc_hit | |
510 | ||
511 | // wires indicating allowance for interrupt acknowledge cycle generation requests | |
512 | wire do_iack_req = do_del_request && iack_hit ; | |
513 | wire do_iack_comp = del_completion_allow && iack_hit && current_delayed_is_iack ; // && del_bc_hit | |
514 | ||
515 | // variables for configuration access control signals | |
516 | reg conf_wenable ; | |
517 | ||
518 | // following flip-flops remember whether current delayed transaction is interrupt acknowledge or configuration cycle transaction | |
519 | always@(posedge wb_clock_in or posedge reset_in) | |
520 | begin | |
521 | if ( reset_in ) | |
522 | begin | |
523 | current_delayed_is_ccyc <= #`FF_DELAY 1'b0 ; | |
524 | current_delayed_is_iack <= #`FF_DELAY 1'b0 ; | |
525 | end | |
526 | else | |
527 | if ( del_done_out ) | |
528 | begin | |
529 | current_delayed_is_ccyc <= #`FF_DELAY 1'b0 ; | |
530 | current_delayed_is_iack <= #`FF_DELAY 1'b0 ; | |
531 | end | |
532 | else | |
533 | if ( del_req_out && wb_conf_hit ) | |
534 | begin | |
535 | current_delayed_is_ccyc <= #`FF_DELAY do_ccyc_req ; | |
536 | current_delayed_is_iack <= #`FF_DELAY do_iack_req ; | |
537 | end | |
538 | end | |
539 | ||
540 | `endif | |
541 | `endif | |
542 | ||
543 | // configuration read enable - supplied for host and guest bridges | |
544 | reg conf_renable ; | |
545 | assign wb_conf_renable_out = conf_renable ; | |
546 | ||
547 | // burst access indicator | |
548 | wire burst_transfer = CYC_I && CAB_I ; | |
549 | ||
550 | // WBW_FIFO control output | |
551 | reg [3:0] wbw_fifo_control ; | |
552 | ||
553 | // WBW_FIFO wenable output assignment | |
554 | reg wbw_fifo_wenable ; | |
555 | ||
556 | // WBR_FIFO control outputs | |
557 | reg wbr_fifo_flush, wbr_fifo_renable ; // flush and read enable outputs | |
558 | ||
559 | // flush signal for WBR_FIFO must be registered, since it asinchronously resets some status registers | |
560 | wire wbr_fifo_flush_reg ; | |
561 | pci_async_reset_flop async_reset_as_wbr_flush | |
562 | ( | |
563 | .data_in (wbr_fifo_flush), | |
564 | .clk_in (wb_clock_in), | |
565 | .async_reset_data_out (wbr_fifo_flush_reg), | |
566 | .reset_in (reset_in) | |
567 | ) ; | |
568 | assign wbr_fifo_flush_out = wbr_fifo_flush_reg ; | |
569 | ||
570 | // delayed transaction request control signals | |
571 | reg del_req, del_done ; | |
572 | ||
573 | // WISHBONE handshaking control outputs | |
574 | reg ack, rty, err ; | |
575 | ||
576 | `ifdef REGISTER_WBS_OUTPUTS | |
577 | // wire for write attempt - 1 when external WB master is attempting a write | |
578 | // wire for read attempt - 1 when external master is attempting a read | |
579 | wire wattempt = ( CYC_I && STB_I && WE_I ) && (!ACK_O && !ERR_O && !RTY_O) ; | |
580 | wire rattempt = ( CYC_I && STB_I && ~WE_I ) && (!ACK_O && !ERR_O && !RTY_O) ; | |
581 | ||
582 | `else | |
583 | // wire for write attempt - 1 when external WB master is attempting a write | |
584 | // wire for read attempt - 1 when external master is attempting a read | |
585 | wire wattempt = ( CYC_I && STB_I && WE_I ) ; // write is qualified when cycle, strobe and write enable inputs are all high | |
586 | wire rattempt = ( CYC_I && STB_I && ~WE_I ) ; // read is qualified when cycle and strobe are high and write enable is low | |
587 | ||
588 | `endif | |
589 | /*---------------------------------------------------------------------------------------------------------------------- | |
590 | Delayed transaction bus command generation | |
591 | Bus command for delayed reads depends on image's address space mapping and control bits and | |
592 | whether or not these are interrupt acknowledge requests or configuration cycle requests | |
593 | ---------------------------------------------------------------------------------------------------------------------*/ | |
594 | ||
595 | always@(map or mrl_en or ccyc_hit or WE_I or wb_conf_hit or CAB_I or pref_en) | |
596 | begin | |
597 | `ifdef HOST | |
598 | // only host implementation supports configuration and interrupt acknowledge commands | |
599 | if (wb_conf_hit) | |
600 | begin | |
601 | case( {ccyc_hit, WE_I} ) | |
602 | 2'b11: del_bc = `BC_CONF_WRITE ; | |
603 | 2'b10: del_bc = `BC_CONF_READ ; | |
604 | 2'b01: del_bc = `BC_RESERVED0 ; // invalid combination - interrupt acknowledge cycle must be a read | |
605 | 2'b00: del_bc = `BC_IACK ; | |
606 | endcase | |
607 | end | |
608 | else | |
609 | `endif | |
610 | begin | |
611 | if ( map ) | |
612 | begin | |
613 | del_bc = `BC_IO_READ ; | |
614 | end | |
615 | else | |
616 | begin | |
617 | case ({(CAB_I && mrl_en), pref_en}) | |
618 | 2'b00: del_bc = `BC_MEM_READ ; // if this is not burst transfer or memory read line command is disabled - use memory read | |
619 | 2'b01: del_bc = `BC_MEM_READ ; // same as previous case | |
620 | 2'b10: del_bc = `BC_MEM_READ_LN ; // burst transfer, memory read line command enabled, prefetch disabled - use memory read line command | |
621 | 2'b11: del_bc = `BC_MEM_READ_MUL ; // same as previous case, except prefetch is enabled - use memory read multiple command | |
622 | endcase | |
623 | end | |
624 | end | |
625 | end | |
626 | ||
627 | reg del_in_progress ; // state machine indicates whether current read completion is in progress on WISHBONE bus | |
628 | ||
629 | wire image_access_error = (map && burst_transfer) ; // IO write is a burst | |
630 | ||
631 | `ifdef HOST | |
632 | reg [1:0] wbw_data_out_sel ; | |
633 | parameter SEL_ADDR_IN = 2'b10 ; | |
634 | parameter SEL_CCYC_ADDR = 2'b11 ; | |
635 | parameter SEL_DATA_IN = 2'b00 ; | |
636 | `else | |
637 | `ifdef GUEST | |
638 | reg wbw_data_out_sel ; | |
639 | parameter SEL_ADDR_IN = 1'b1 ; | |
640 | parameter SEL_DATA_IN = 1'b0 ; | |
641 | `endif | |
642 | `endif | |
643 | ||
644 | `ifdef WB_DECODE_FAST | |
645 | `ifdef REGISTER_WBS_OUTPUTS | |
646 | `define PCI_WB_SLAVE_S_DEC1 | |
647 | `endif | |
648 | `endif | |
649 | ||
650 | `ifdef WB_DECODE_MEDIUM | |
651 | `define PCI_WB_SLAVE_S_DEC1 | |
652 | `endif | |
653 | ||
654 | `ifdef WB_DECODE_SLOW | |
655 | `define PCI_WB_SLAVE_S_DEC1 | |
656 | `define PCI_WB_SLAVE_S_DEC2 | |
657 | `endif | |
658 | // state machine logic | |
659 | always@( | |
660 | c_state or | |
661 | wattempt or | |
662 | img_wallow or | |
663 | burst_transfer or | |
664 | wb_hit or | |
665 | map or | |
666 | rattempt or | |
667 | do_dread_completion or | |
668 | wbr_fifo_control_in or | |
669 | wb_conf_hit or | |
670 | do_ccyc_req or | |
671 | do_ccyc_comp or | |
672 | ccyc_hit or | |
673 | del_error_in or | |
674 | do_iack_req or | |
675 | do_iack_comp or | |
676 | iack_hit or | |
677 | image_access_error or | |
678 | wbw_fifo_almost_full_in or | |
679 | wbw_fifo_full_in or | |
680 | do_del_request or | |
681 | wbr_fifo_empty_in or | |
682 | init_complete_in | |
683 | ) | |
684 | begin | |
685 | // default signal values | |
686 | // response signals inactive | |
687 | ack = 1'b0 ; | |
688 | rty = 1'b0 ; | |
689 | err = 1'b0 ; | |
690 | ||
691 | //write signals inactive | |
692 | wbw_fifo_control[`ADDR_CTRL_BIT] = 1'b1 ; | |
693 | wbw_fifo_control[`DATA_ERROR_CTRL_BIT] = 1'b0 ; | |
694 | wbw_fifo_control[`LAST_CTRL_BIT] = 1'b0 ; | |
695 | wbw_fifo_control[`UNUSED_CTRL_BIT] = 1'b0 ; | |
696 | ||
697 | wbw_fifo_wenable = 1'b0 ; | |
698 | d_incoming_ena = 1'b0 ; | |
699 | ||
700 | // read signals inactive | |
701 | wbr_fifo_flush = 1'b0 ; | |
702 | wbr_fifo_renable = 1'b0 ; | |
703 | del_req = 1'b0 ; | |
704 | del_done = 1'b0 ; | |
705 | ||
706 | // configuration space control signals inactive | |
707 | conf_wenable = 1'b0 ; | |
708 | conf_renable = 1'b0 ; | |
709 | ||
710 | // read is not in progress | |
711 | del_in_progress = 1'b0 ; | |
712 | ||
713 | decode_en = 1'b0 ; | |
714 | ||
715 | wbw_data_out_sel = SEL_ADDR_IN ; | |
716 | ||
717 | sample_address_out = 1'b0 ; | |
718 | ||
719 | case (c_state) | |
720 | S_IDLE: begin | |
721 | if ( (wattempt || rattempt) & init_complete_in ) | |
722 | begin | |
723 | ||
724 | `ifdef PCI_WB_SLAVE_S_DEC1 | |
725 | n_state = S_DEC1 ; | |
726 | `else | |
727 | decode_en = 1'b1 ; | |
728 | n_state = S_START ; | |
729 | `endif | |
730 | ||
731 | sample_address_out = 1'b1 ; | |
732 | end | |
733 | else | |
734 | n_state = S_IDLE ; | |
735 | end | |
736 | `ifdef PCI_WB_SLAVE_S_DEC1 | |
737 | S_DEC1: begin | |
738 | if ( wattempt || rattempt ) | |
739 | begin | |
740 | ||
741 | `ifdef PCI_WB_SLAVE_S_DEC2 | |
742 | n_state = S_DEC2 ; | |
743 | `else | |
744 | decode_en = 1'b1 ; | |
745 | n_state = S_START ; | |
746 | `endif | |
747 | ||
748 | end | |
749 | else | |
750 | n_state = S_IDLE ; | |
751 | end | |
752 | `endif | |
753 | `ifdef PCI_WB_SLAVE_S_DEC2 | |
754 | S_DEC2: begin | |
755 | ||
756 | if ( wattempt || rattempt ) | |
757 | begin | |
758 | decode_en = 1'b1 ; | |
759 | n_state = S_START ; | |
760 | end | |
761 | else | |
762 | n_state = S_IDLE ; | |
763 | end | |
764 | `endif | |
765 | S_START:begin | |
766 | if (wb_conf_hit) // configuration space hit | |
767 | begin | |
768 | `ifdef HOST | |
769 | wbw_data_out_sel = SEL_CCYC_ADDR ; | |
770 | `endif | |
771 | ||
772 | if ( wattempt ) | |
773 | n_state = S_CONF_WRITE ; // go to conf. write state | |
774 | else | |
775 | if ( rattempt ) | |
776 | begin | |
777 | n_state = S_CONF_READ ; // go to conf. read state | |
778 | end | |
779 | else | |
780 | n_state = S_IDLE ; // master terminated - go back to idle state | |
781 | ||
782 | end // wb_conf_hit | |
783 | else | |
784 | if( wb_hit && (wattempt || rattempt) ) | |
785 | begin | |
786 | wbw_data_out_sel = SEL_DATA_IN ; | |
787 | ||
788 | // check error conditions for image writes or reads | |
789 | if ( image_access_error ) | |
790 | begin | |
791 | n_state = S_IDLE ; // go back to idle state because of an error condition | |
792 | err = 1'b1 ; | |
793 | end // error conditions | |
794 | else | |
795 | // check for retry conditions for image writes or reads | |
796 | if ( (wattempt && ~img_wallow) || | |
797 | (rattempt && ~do_dread_completion) // write to image not allowed, no read ready yet - retry | |
798 | ) | |
799 | begin | |
800 | n_state = S_IDLE ; // go back to IDLE | |
801 | ||
802 | rty = 1'b1 ; | |
803 | ||
804 | del_req = do_del_request && rattempt ; | |
805 | ||
806 | end //retry | |
807 | else // everything OK - proceed | |
808 | if ( wattempt ) | |
809 | begin | |
810 | n_state = S_W_ADDR_DATA ; // goto write transfer state | |
811 | ||
812 | // respond with acknowledge | |
813 | ack = 1'b1 ; | |
814 | ||
815 | wbw_fifo_wenable = 1'b1 ; | |
816 | ||
817 | // data is latched to data incoming intermidiate stage - it will be put in FIFO later | |
818 | d_incoming_ena = 1'b1 ; | |
819 | end | |
820 | else | |
821 | begin | |
822 | err = wbr_fifo_control_in[`DATA_ERROR_CTRL_BIT] ; | |
823 | ack = ~wbr_fifo_control_in[`DATA_ERROR_CTRL_BIT] ; | |
824 | wbr_fifo_renable = 1'b1 ; | |
825 | del_in_progress = 1'b1 ; | |
826 | ||
827 | if ( wbr_fifo_control_in[`DATA_ERROR_CTRL_BIT] || wbr_fifo_control_in[`LAST_CTRL_BIT] ) | |
828 | begin | |
829 | ||
830 | n_state = S_IDLE ; // go back to idle state | |
831 | // respond that read is finished | |
832 | del_done = 1'b1 ; | |
833 | ||
834 | end // end read | |
835 | else | |
836 | n_state = S_READ ; // go to read state | |
837 | end | |
838 | end | |
839 | else | |
840 | n_state = S_IDLE ; | |
841 | ||
842 | end | |
843 | ||
844 | S_W_ADDR_DATA: begin | |
845 | wbw_data_out_sel = SEL_DATA_IN ; | |
846 | err = 1'b0 ; | |
847 | rty = burst_transfer && wattempt && (wbw_fifo_almost_full_in || wbw_fifo_full_in) ; | |
848 | if ( ~burst_transfer || wattempt && ( wbw_fifo_almost_full_in || wbw_fifo_full_in ) ) | |
849 | begin | |
850 | n_state = S_IDLE ; | |
851 | ||
852 | // write last data to FIFO and don't latch new data | |
853 | wbw_fifo_control[`ADDR_CTRL_BIT] = 1'b0 ; | |
854 | wbw_fifo_control[`LAST_CTRL_BIT] = 1'b1 ; | |
855 | wbw_fifo_wenable = 1'b1 ; | |
856 | end | |
857 | else | |
858 | begin | |
859 | n_state = S_W_ADDR_DATA ; | |
860 | wbw_fifo_control[`ADDR_CTRL_BIT] = 1'b0 ; | |
861 | wbw_fifo_control[`LAST_CTRL_BIT] = 1'b0 ; | |
862 | ack = wattempt ; | |
863 | wbw_fifo_wenable = wattempt ; | |
864 | d_incoming_ena = wattempt ; | |
865 | end | |
866 | end // S_W_ADDR_DATA | |
867 | ||
868 | S_READ:begin | |
869 | // this state is for reads only - in this state read is in progress all the time | |
870 | del_in_progress = 1'b1 ; | |
871 | ||
872 | ack = burst_transfer && rattempt && ~wbr_fifo_control_in[`DATA_ERROR_CTRL_BIT] && ~wbr_fifo_empty_in ; | |
873 | err = burst_transfer && rattempt && wbr_fifo_control_in[`DATA_ERROR_CTRL_BIT] && ~wbr_fifo_empty_in ; | |
874 | ||
875 | // if acknowledge is beeing signalled then enable read from wbr fifo | |
876 | wbr_fifo_renable = burst_transfer && rattempt && ~wbr_fifo_empty_in ; | |
877 | ||
878 | if ( ~burst_transfer || rattempt && (wbr_fifo_empty_in || wbr_fifo_control_in[`DATA_ERROR_CTRL_BIT] || wbr_fifo_control_in[`LAST_CTRL_BIT]) ) | |
879 | begin | |
880 | n_state = S_IDLE ; | |
881 | del_done = 1'b1 ; | |
882 | wbr_fifo_flush = ~wbr_fifo_empty_in ; | |
883 | end | |
884 | else | |
885 | begin | |
886 | n_state = S_READ ; | |
887 | end | |
888 | end // S_READ | |
889 | ||
890 | S_CONF_WRITE: begin | |
891 | `ifdef HOST | |
892 | wbw_data_out_sel = SEL_CCYC_ADDR ; | |
893 | del_req = do_ccyc_req && ~burst_transfer ; | |
894 | del_done = do_ccyc_comp && ~burst_transfer ; | |
895 | del_in_progress = do_ccyc_comp && ~burst_transfer ; | |
896 | `endif | |
897 | ||
898 | n_state = S_IDLE ; // next state after configuration access is always idle | |
899 | ||
900 | if ( burst_transfer ) | |
901 | begin | |
902 | err = 1'b1 ; | |
903 | end | |
904 | else | |
905 | begin | |
906 | `ifdef HOST | |
907 | if ( do_ccyc_req || (ccyc_hit && ~do_ccyc_comp)) | |
908 | begin | |
909 | rty = 1'b1 ; | |
910 | end | |
911 | else | |
912 | if ( do_ccyc_comp ) | |
913 | begin | |
914 | err = del_error_in ; | |
915 | ack = ~del_error_in ; | |
916 | end | |
917 | else | |
918 | begin | |
919 | ack = ~ccyc_hit ; | |
920 | conf_wenable = ~ccyc_hit ; | |
921 | end | |
922 | `else | |
923 | ack = 1'b1 ; | |
924 | conf_wenable = 1'b1 ; | |
925 | `endif | |
926 | end | |
927 | end // S_CONF_WRITE | |
928 | ||
929 | S_CONF_READ: begin | |
930 | `ifdef HOST | |
931 | wbw_data_out_sel = SEL_CCYC_ADDR ; | |
932 | del_req = ~burst_transfer && ( do_ccyc_req || do_iack_req ) ; | |
933 | del_done = ~burst_transfer && ( do_ccyc_comp || do_iack_comp ) ; | |
934 | del_in_progress = ~burst_transfer && ( do_ccyc_comp || do_iack_comp ) ; | |
935 | wbr_fifo_renable = ~burst_transfer && ( do_ccyc_comp || do_iack_comp ) ; | |
936 | `endif | |
937 | ||
938 | n_state = S_IDLE ; // next state after configuration access is always idle | |
939 | ||
940 | if ( burst_transfer ) | |
941 | begin | |
942 | err = 1'b1 ; | |
943 | end | |
944 | else | |
945 | begin | |
946 | `ifdef HOST | |
947 | if ( do_ccyc_req || ( ccyc_hit && ~do_ccyc_comp )) | |
948 | begin | |
949 | rty = 1'b1 ; | |
950 | end | |
951 | else | |
952 | if ( do_iack_req || ( iack_hit && ~do_iack_comp )) | |
953 | begin | |
954 | rty = 1'b1 ; | |
955 | end | |
956 | else | |
957 | if ( do_iack_comp || do_ccyc_comp ) | |
958 | begin | |
959 | err = del_error_in ; | |
960 | ack = ~del_error_in ; | |
961 | end | |
962 | else | |
963 | begin | |
964 | ack = ~( ccyc_hit || iack_hit ) ; | |
965 | conf_renable = ~( ccyc_hit || iack_hit ) ; | |
966 | end | |
967 | `else | |
968 | ack = 1'b1 ; | |
969 | conf_renable = 1'b1 ; | |
970 | `endif | |
971 | end | |
972 | end //S_CONF_READ | |
973 | default:begin | |
974 | n_state = S_IDLE ; // return to idle state | |
975 | end //default | |
976 | endcase | |
977 | end | |
978 | ||
979 | // configuration space offset output assignment | |
980 | assign wb_conf_offset_out = {wb_addr_in[11:2], 2'b00} ; // upper 10 bits of address input and two zeros | |
981 | ||
982 | // data output assignment - for image writes, first data is address, subsequent data comes from intermediate register | |
983 | reg [31:0] wb_data ; | |
984 | `ifdef HOST | |
985 | reg [1:0] wbw_data_out_sel_reg ; | |
986 | always@(posedge wb_clock_in or posedge reset_in) | |
987 | begin | |
988 | if ( reset_in ) | |
989 | wbw_data_out_sel_reg <= #`FF_DELAY SEL_ADDR_IN ; | |
990 | else | |
991 | wbw_data_out_sel_reg <= #`FF_DELAY wbw_data_out_sel ; | |
992 | end | |
993 | ||
994 | always@(wbw_data_out_sel_reg or wb_addr_in or ccyc_addr_in or d_incoming) | |
995 | begin | |
996 | case ( wbw_data_out_sel_reg ) | |
997 | SEL_CCYC_ADDR: wb_data = ccyc_addr_in ; | |
998 | SEL_DATA_IN: wb_data = d_incoming ; | |
999 | default: wb_data = wb_addr_in ; | |
1000 | endcase | |
1001 | end | |
1002 | `else | |
1003 | `ifdef GUEST | |
1004 | reg wbw_data_out_sel_reg ; | |
1005 | always@(posedge wb_clock_in or posedge reset_in) | |
1006 | begin | |
1007 | if ( reset_in ) | |
1008 | wbw_data_out_sel_reg <= #`FF_DELAY SEL_ADDR_IN ; | |
1009 | else | |
1010 | wbw_data_out_sel_reg <= #`FF_DELAY wbw_data_out_sel ; | |
1011 | end | |
1012 | ||
1013 | always@(wbw_data_out_sel_reg or wb_addr_in or d_incoming) | |
1014 | begin | |
1015 | if ( wbw_data_out_sel_reg ) | |
1016 | wb_data = wb_addr_in ; | |
1017 | else | |
1018 | wb_data = d_incoming ; | |
1019 | end | |
1020 | `endif | |
1021 | `endif | |
1022 | ||
1023 | // command / byte enable assignment - with address, bus command is provided, with data - byte enables are provided | |
1024 | reg [3:0] wb_cbe ; | |
1025 | ||
1026 | always@(wbw_data_out_sel_reg or d_incoming or map) | |
1027 | begin | |
1028 | if (wbw_data_out_sel_reg && map) | |
1029 | wb_cbe = `BC_IO_WRITE ; | |
1030 | else | |
1031 | if (wbw_data_out_sel_reg) | |
1032 | wb_cbe = `BC_MEM_WRITE ; | |
1033 | else | |
1034 | wb_cbe = ~(d_incoming[35:32]) ; | |
1035 | end | |
1036 | ||
1037 | // for configuration writes, data output is always data from WISHBONE - in guest implementation data is all 0. | |
1038 | `ifdef GUEST | |
1039 | assign wb_conf_data_out = 32'h00000000 ; | |
1040 | `endif | |
1041 | ||
1042 | `ifdef GUEST | |
1043 | `ifdef NO_CNF_IMAGE | |
1044 | `else | |
1045 | `define PCI_WB_SLAVE_DO_OUT_MUX | |
1046 | `endif | |
1047 | `else | |
1048 | `ifdef HOST | |
1049 | `define PCI_WB_SLAVE_DO_OUT_MUX ; | |
1050 | `endif | |
1051 | `endif | |
1052 | ||
1053 | `ifdef PCI_WB_SLAVE_DO_OUT_MUX | |
1054 | reg [31:0] sdata_source ; | |
1055 | ||
1056 | // WISHBONE data output select lines for output multiplexor | |
1057 | wire sdata_o_sel_new = ( wb_conf_hit_in && ~wiack_hit && ~wccyc_hit ) ? CONF_SEL : WBR_SEL ; | |
1058 | reg sdata_o_sel ; | |
1059 | ||
1060 | always@(posedge wb_clock_in or posedge reset_in) | |
1061 | begin | |
1062 | if ( reset_in ) | |
1063 | sdata_o_sel <= #`FF_DELAY WBR_SEL ; | |
1064 | else | |
1065 | if ( decode_en ) | |
1066 | sdata_o_sel <= #`FF_DELAY sdata_o_sel_new ; | |
1067 | end | |
1068 | ||
1069 | always@(sdata_o_sel or wbr_fifo_data_in or wb_conf_data_in) | |
1070 | begin | |
1071 | case (sdata_o_sel) | |
1072 | WBR_SEL :sdata_source = wbr_fifo_data_in ; | |
1073 | CONF_SEL:sdata_source = wb_conf_data_in ; | |
1074 | endcase | |
1075 | end | |
1076 | `else | |
1077 | wire [31:0] sdata_source = wbr_fifo_data_in ; | |
1078 | `endif | |
1079 | ||
1080 | `ifdef REGISTER_WBS_OUTPUTS | |
1081 | ||
1082 | always@(posedge wb_clock_in or posedge reset_in) | |
1083 | begin | |
1084 | if ( reset_in ) | |
1085 | begin | |
1086 | ACK_O <= #`FF_DELAY 1'b0 ; | |
1087 | RTY_O <= #`FF_DELAY 1'b0 ; | |
1088 | ERR_O <= #`FF_DELAY 1'b0 ; | |
1089 | SDATA_O <= #`FF_DELAY 0 ; | |
1090 | del_write_out <= #`FF_DELAY 1'b0 ; | |
1091 | ||
1092 | `ifdef HOST | |
1093 | wb_conf_wenable_out <= #`FF_DELAY 1'b0 ; | |
1094 | wb_conf_data_out <= #`FF_DELAY 0 ; | |
1095 | `endif | |
1096 | ||
1097 | del_bc_out <= #`FF_DELAY `BC_RESERVED0 ; | |
1098 | del_req_out <= #`FF_DELAY 1'b0 ; | |
1099 | del_done_out <= #`FF_DELAY 1'b0 ; | |
1100 | del_burst_out <= #`FF_DELAY 1'b0 ; | |
1101 | del_in_progress_out <= #`FF_DELAY 1'b0 ; | |
1102 | wb_conf_be_out <= #`FF_DELAY 0 ; | |
1103 | wb_data_out <= #`FF_DELAY 0 ; | |
1104 | wb_cbe_out <= #`FF_DELAY 0 ; | |
1105 | wbw_fifo_wenable_out <= #`FF_DELAY 0 ; | |
1106 | wbw_fifo_control_out <= #`FF_DELAY 0 ; | |
1107 | wbr_fifo_renable_out <= #`FF_DELAY 0 ; | |
1108 | end | |
1109 | else | |
1110 | begin | |
1111 | ACK_O <= #`FF_DELAY ack && !ACK_O ; | |
1112 | RTY_O <= #`FF_DELAY rty && !RTY_O ; | |
1113 | ERR_O <= #`FF_DELAY err && !ERR_O ; | |
1114 | SDATA_O <= #`FF_DELAY sdata_source ; | |
1115 | del_write_out <= #`FF_DELAY WE_I ; | |
1116 | ||
1117 | `ifdef HOST | |
1118 | wb_conf_wenable_out <= #`FF_DELAY conf_wenable ; | |
1119 | wb_conf_data_out <= #`FF_DELAY SDATA_I ; | |
1120 | `endif | |
1121 | ||
1122 | del_bc_out <= #`FF_DELAY del_bc ; | |
1123 | del_req_out <= #`FF_DELAY del_req ; | |
1124 | del_done_out <= #`FF_DELAY del_done ; | |
1125 | del_burst_out <= #`FF_DELAY del_burst ; | |
1126 | del_in_progress_out <= #`FF_DELAY del_in_progress ; | |
1127 | wb_conf_be_out <= #`FF_DELAY SEL_I ; | |
1128 | wb_data_out <= #`FF_DELAY wb_data ; | |
1129 | wb_cbe_out <= #`FF_DELAY wb_cbe ; | |
1130 | wbw_fifo_wenable_out <= #`FF_DELAY wbw_fifo_wenable ; | |
1131 | wbw_fifo_control_out <= #`FF_DELAY wbw_fifo_control ; | |
1132 | wbr_fifo_renable_out <= #`FF_DELAY wbr_fifo_renable ; | |
1133 | end | |
1134 | end | |
1135 | ||
1136 | `else | |
1137 | ||
1138 | assign SDATA_O = sdata_source ; | |
1139 | ||
1140 | assign ACK_O = ack ; | |
1141 | assign RTY_O = rty ; | |
1142 | assign ERR_O = err ; | |
1143 | ||
1144 | // write operation indicator for delayed transaction requests | |
1145 | assign del_write_out = WE_I ; | |
1146 | assign del_bc_out = del_bc ; | |
1147 | assign del_req_out = del_req ; // read request | |
1148 | assign del_done_out = del_done ; // read done | |
1149 | assign del_burst_out = del_burst ; | |
1150 | assign del_in_progress_out = del_in_progress ; | |
1151 | `ifdef HOST | |
1152 | assign wb_conf_data_out = SDATA_I ; | |
1153 | assign wb_conf_wenable_out = conf_wenable ; | |
1154 | `endif | |
1155 | // Configuration space byte enables output | |
1156 | assign wb_conf_be_out = SEL_I ; // just route select lines from WISHBONE to conf space | |
1157 | assign wb_data_out = wb_data ; | |
1158 | assign wb_cbe_out = wb_cbe ; | |
1159 | assign wbw_fifo_wenable_out = wbw_fifo_wenable ; //write enable for WBW_FIFO | |
1160 | assign wbw_fifo_control_out = wbw_fifo_control ; //control bus output for WBW_FIFO | |
1161 | assign wbr_fifo_renable_out = wbr_fifo_renable ; //read enable for wbr_fifo | |
1162 | `endif | |
1163 | ||
1164 | endmodule //WB_SLAVE |