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1 42 lmaarsen
--------------------------------------------------------------------------------
2
----                                                                        ----
3
---- Ethernet Switch on Configurable Logic IP Core                          ----
4
----                                                                        ----
5
---- This file is part of the ESoCL project                                 ----
6
---- http://www.opencores.org/cores/esoc/                                   ----
7
----                                                                        ----
8
---- Description: see design description ESoCL_dd_71022001.pdf              ----
9
----                                                                        ----
10
---- To Do: see roadmap description ESoCL_dd_71022001.pdf                   ----
11
----        and/or release bulleting ESoCL_rb_71022001.pdf                  ----
12
----                                                                        ----
13
---- Author(s): L.Maarsen                                                   ----
14
---- Bert Maarsen, lmaarsen@opencores.org                                   ----
15
----                                                                        ----
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--------------------------------------------------------------------------------
17
----                                                                        ----
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---- Copyright (C) 2009 Authors and OPENCORES.ORG                           ----
19
----                                                                        ----
20
---- This source file may be used and distributed without                   ----
21
---- restriction provided that this copyright statement is not              ----
22
---- removed from the file and that any derivative work contains            ----
23
---- the original copyright notice and the associated disclaimer.           ----
24
----                                                                        ----
25
---- This source file is free software; you can redistribute it             ----
26
---- and/or modify it under the terms of the GNU Lesser General             ----
27
---- Public License as published by the Free Software Foundation;           ----
28
---- either version 2.1 of the License, or (at your option) any             ----
29
---- later version.                                                         ----
30
----                                                                        ----
31
---- This source is distributed in the hope that it will be                 ----
32
---- useful, but WITHOUT ANY WARRANTY; without even the implied             ----
33
---- warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR                ----
34
---- PURPOSE. See the GNU Lesser General Public License for more            ----
35
---- details.                                                               ----
36
----                                                                        ----
37
---- You should have received a copy of the GNU Lesser General              ----
38
---- Public License along with this source; if not, download it             ----
39
---- from http://www.opencores.org/lgpl.shtml                               ----
40
----                                                                        ----
41
--------------------------------------------------------------------------------
42
-- Object        : Entity work.esoc_tb
43
-- Last modified : Mon Apr 14 12:50:20 2014.
44
--------------------------------------------------------------------------------
45
 
46
 
47
 
48
library ieee, std, work;
49
use ieee.std_logic_1164.all;
50
use std.textio.all;
51
use ieee.numeric_std.all;
52
use work.package_crc32_8b.all;
53
use work.package_esoc_configuration.all;
54
use work.package_txt_utilities.all;
55
 
56
entity esoc_tb is
57
end entity esoc_tb;
58
 
59
--------------------------------------------------------------------------------
60
-- Object        : Architecture work.esoc_tb.esoc_tb
61
-- Last modified : Mon Apr 14 12:50:20 2014.
62
--------------------------------------------------------------------------------
63
 
64
architecture esoc_tb of esoc_tb is
65
 
66
  type smi_states is (start, preamble, cmd, dev_addr, reg_addr, ta_cycles, data,store);
67
 
68
  signal esoc_wait_timer_start  : std_logic; -- Used by CONTROL testbench to protect bus cycles from freezing
69
  signal esoc_wait_time_enable  : std_logic;
70
  signal esoc_wait_timer        : integer; -- Used by CONTROL testbench to protect bus cycles from freezing
71
  signal esoc_wait_timeout      : std_logic; -- Used by CONTROL testbench to protect bus cycles from freezing
72
  signal esoc_rgmii_rxc_int     : std_logic; -- Used by RGMII testbench
73
  signal esoc_rgmii_txc_int     : std_logic_vector(esoc_port_count-1 downto 0); -- Used by RGMII testbench
74
  signal reg_rgmii_port_enable  : std_logic_vector(31 downto 0); -- Used by RGMII testbench, under control of CONTROL testbench
75
  signal reg_rgmii_port_enable2 : std_logic_vector(31 downto 0); -- Used by RGMII testbench, under control of CONTROL testbench
76
  signal smi_mdio               : std_logic_vector(esoc_port_count-1 downto 0);
77
  signal smi_mdio_ena           : std_logic_vector(esoc_port_count-1 downto 0);
78
  signal esoc_wait              : std_logic;
79
  signal esoc_rgmii_txc         : std_logic_vector(esoc_port_count-1 downto 0);
80
  signal esoc_rgmii_rxd         : std_logic_vector(3+4*(esoc_port_count-1) downto 0);
81
  signal esoc_rgmii_rxctl       : std_logic_vector(esoc_port_count-1 downto 0);
82
  signal esoc_rgmii_rxc         : std_logic_vector(esoc_port_count-1 downto 0);
83
  signal esoc_address           : std_logic_vector(15 downto 0);
84
  signal esoc_wr                : std_logic;
85
  signal esoc_data              : std_logic_vector(31 downto 0);
86
  signal esoc_rd                : std_logic;
87
  signal esoc_areset            : std_logic;
88
  signal esoc_cs                : std_logic;
89
  signal esoc_clk               : std_logic;
90
  signal esoc_rgmii_txctl       : std_logic_vector(esoc_port_count-1 downto 0);
91
  signal esoc_rgmii_txd         : std_logic_vector(3+4*(esoc_port_count-1) downto 0);
92
  signal esoc_boot_complete     : std_logic;
93
  signal esoc_mdio              : std_logic_vector(esoc_port_count-1 downto 0);
94
  signal esoc_mdc               : std_logic_vector(esoc_port_count-1 downto 0);
95
 
96
  component esoc
97
    port(
98
      esoc_address       : in     std_logic_vector(15 downto 0);
99
      esoc_areset        : in     std_logic;
100
      esoc_boot_complete : out    std_logic;
101
      esoc_clk           : in     std_logic;
102
      esoc_cs            : in     std_logic;
103
      esoc_data          : inout  std_logic_vector(31 downto 0);
104
      esoc_mdc           : out    std_logic_vector(esoc_port_count-1 downto 0);
105
      esoc_mdio          : inout  std_logic_vector(esoc_port_count-1 downto 0);
106
      esoc_rd            : in     std_logic;
107
      esoc_rgmii_rxc     : in     std_logic_vector(esoc_port_count-1 downto 0);
108
      esoc_rgmii_rxctl   : in     std_logic_vector(esoc_port_count-1 downto 0);
109
      esoc_rgmii_rxd     : in     std_logic_vector(3+4*(esoc_port_count-1) downto 0);
110
      esoc_rgmii_txc     : out    std_logic_vector(esoc_port_count-1 downto 0);
111
      esoc_rgmii_txctl   : out    std_logic_vector(esoc_port_count-1 downto 0);
112
      esoc_rgmii_txd     : out    std_logic_vector(3+4*(esoc_port_count-1) downto 0);
113
      esoc_wait          : out    std_logic;
114
      esoc_wr            : in     std_logic);
115
  end component esoc;
116
 
117
begin
118
  esoc_test_rgmii_loggers: for esoc_port_nr in esoc_port_count-1 downto 0 generate
119
  begin
120
 
121
    esoc_test_rgmii_logger: process             -- EASE/HDL sens.list
122
                            begin
123
                            wait;
124
                            end process esoc_test_rgmii_logger ;
125
    -- create shifted txc clock                        
126
    esoc_rgmii_txc_int <= esoc_rgmii_txc after 2 ns;
127
 
128
    --=============================================================================================================
129
    -- Process            : store all packets on RGMII RX interfaces
130
    -- Description      : 
131
    --=============================================================================================================                       
132
    esoc_rgmii_rx_logging:  process(esoc_rgmii_rxc, esoc_areset)
133
                                                                -- declare file for rgmii interface logging
134
                                                                file esoc_rgmii_rx_log : TEXT open WRITE_MODE is "../../Simulation/Logs/esoc_rgmii_test_rx_port_" & to_string(esoc_port_nr) & "_log.txt";
135
 
136
                                        variable esoc_rgmii_rx_buffer: LINE;
137
 
138
                                        variable byte: std_logic_vector(7 downto 0);
139
                                        variable byte_counter: integer;
140
                                        variable rx_state: std_logic;
141
 
142
                                                              begin
143
                                                                if esoc_areset = '1' then
144
                                                                  byte_counter := 0;
145
                                                                  rx_state := '0';
146
 
147
                                                                elsif esoc_rgmii_rxc(esoc_port_nr)'event and esoc_rgmii_rxc(esoc_port_nr) = '1' then
148
                                                                  if esoc_rgmii_rxctl(esoc_port_nr) = '1' then
149
                                                                    rx_state := '1';
150
                                                                  byte(3 downto 0) := esoc_rgmii_rxd(esoc_port_nr*4+3 downto esoc_port_nr*4);
151
 
152
                                                                elsif rx_state = '1' then
153
                                                                  rx_state := '0';
154
                                                                  byte_counter := 0;
155
                                                                  write(esoc_rgmii_rx_buffer,string'(""));
156
                                                                  writeline(esoc_rgmii_rx_log, esoc_rgmii_rx_buffer);
157
                                                                  writeline(esoc_rgmii_rx_log, esoc_rgmii_rx_buffer);
158
                                end if;
159
 
160
                              elsif esoc_rgmii_rxc(esoc_port_nr)'event and esoc_rgmii_rxc(esoc_port_nr) = '0' then
161
                                if esoc_rgmii_rxctl(esoc_port_nr) = '1' and rx_state = '1' then
162
                                                                  byte(7 downto 4) := esoc_rgmii_rxd(esoc_port_nr*4+3 downto esoc_port_nr*4);
163
                                                                  write(esoc_rgmii_rx_buffer, to_hexstring(byte) & " ");
164
 
165
                                                                  if byte_counter = 15 then
166
                                                                    byte_counter := 0;
167
                                                                    writeline(esoc_rgmii_rx_log, esoc_rgmii_rx_buffer);
168
                                                                  else
169
                                                                    byte_counter := byte_counter + 1;
170
                                  end if;
171
                                end if;
172
                              end if;
173
                            end process esoc_rgmii_rx_logging;
174
 
175
    --=============================================================================================================
176
    -- Process            : store all packets on RGMII TX interfaces
177
    -- Description      : 
178
    --=============================================================================================================
179
    esoc_rgmii_tx_logging:  process(esoc_rgmii_txc_int, esoc_areset)
180
                                                                -- declare file for rgmii interface logging
181
                                                                file esoc_rgmii_tx_log : TEXT open WRITE_MODE is "../../Simulation/Logs/esoc_rgmii_test_tx_port_" & to_string(esoc_port_nr) & "_log.txt";
182
 
183
                                        variable esoc_rgmii_tx_buffer: LINE;
184
 
185
                                        variable byte: std_logic_vector(7 downto 0);
186
                                        variable byte_counter: integer;
187
                                        variable tx_state: std_logic;
188
 
189
                                                              begin
190
                                                                if esoc_areset = '1' then
191
                                                                  byte_counter := 0;
192
                                                                  tx_state := '0';
193
 
194
                                                                elsif esoc_rgmii_txc_int(esoc_port_nr)'event and esoc_rgmii_txc_int(esoc_port_nr) = '1' then
195
                                                                  if esoc_rgmii_txctl(esoc_port_nr) = '1' then
196
                                                                    tx_state := '1';
197
                                                                  byte(3 downto 0) := esoc_rgmii_txd(esoc_port_nr*4+3 downto esoc_port_nr*4);
198
 
199
                                                                elsif tx_state = '1' then
200
                                                                  tx_state := '0';
201
                                                                  byte_counter := 0;
202
                                                                  write(esoc_rgmii_tx_buffer,string'(""));
203
                                                                  writeline(esoc_rgmii_tx_log, esoc_rgmii_tx_buffer);
204
                                                                  writeline(esoc_rgmii_tx_log, esoc_rgmii_tx_buffer);
205
 
206
                                end if;
207
 
208
                              elsif esoc_rgmii_txc_int(esoc_port_nr)'event and esoc_rgmii_txc_int(esoc_port_nr) = '0' then
209
                                if esoc_rgmii_txctl(esoc_port_nr) = '1' and tx_state = '1' then
210
                                                                  byte(7 downto 4) := esoc_rgmii_txd(esoc_port_nr*4+3 downto esoc_port_nr*4);
211
                                                                  write(esoc_rgmii_tx_buffer, to_hexstring(byte) & " ");
212
 
213
                                                                  if byte_counter = 15 then
214
                                                                    byte_counter := 0;
215
                                                                    writeline(esoc_rgmii_tx_log, esoc_rgmii_tx_buffer);
216
                                                                  else
217
                                                                    byte_counter := byte_counter + 1;
218
                                  end if;
219
                                end if;
220
                              end if;
221
                            end process esoc_rgmii_tx_logging;
222
  end generate esoc_test_rgmii_loggers;
223
  esoc_test_smi: for esoc_port_nr in esoc_port_count-1 downto 0 generate
224
  begin
225
 
226
    esoc_test_smi: process (esoc_mdio, esoc_mdc, esoc_areset) is                -- EASE/HDL sens.list
227
                      variable smi_cmd      : std_logic_vector(1 downto 0);
228
                      variable smi_dev_addr : std_logic_vector(4 downto 0);
229
                      variable smi_dev_reg  : std_logic_vector(4 downto 0);
230
                      variable smi_data     : std_logic_vector(15 downto 0);
231
 
232
                      variable smi_counter : integer;
233
 
234
                      variable smi_registers: std_logic_vector(511 downto 0);
235
 
236
 
237
                      variable smi_state : smi_states;
238
 
239
                    begin
240
                      if esoc_areset = '1' then
241
                        smi_cmd       := (others => '0');
242
                        smi_dev_addr  := (others => '0');
243
                        smi_dev_reg   := (others => '0');
244
                        smi_data      := (others => '0');
245
 
246
                        smi_registers := (others => '0');
247
 
248
                        smi_mdio(esoc_port_nr)      <= '0';
249
                        smi_mdio_ena(esoc_port_nr)  <= '0';
250
 
251
                        smi_counter   := 31;
252
                        smi_state     := preamble;
253
 
254
                      elsif esoc_mdc(esoc_port_nr)'event and esoc_mdc(esoc_port_nr) = '1' then
255
 
256
                        case smi_state is
257
                          when preamble =>  -- detect preamble of 32 ones
258
                                            if esoc_mdio(esoc_port_nr) = '1' then
259
                                              if smi_counter = 0 then
260
                                                smi_counter := 1;
261
                                                smi_state   := start;
262
                                              else
263
                                                smi_counter := smi_counter - 1;
264
                                              end if;
265
 
266
                                            else
267
                                              smi_counter := 31;
268
                                            end if;
269
 
270
                          when start    =>  -- detect two start bits, if valid continue else back
271
                                            if smi_counter = 1 then
272
                                              if  esoc_mdio(esoc_port_nr) = '0' then
273
                                                smi_counter := smi_counter - 1;
274
                                              end if;
275
 
276
                                            elsif smi_counter = 0 then
277
                                              if  esoc_mdio(esoc_port_nr) = '1' then
278
                                                smi_counter := 1;
279
                                                smi_state   := cmd;
280
 
281
                                              else
282
                                                smi_counter := 31;
283
                                                smi_state   := preamble;
284
                                              end if;
285
                                            end if;
286
 
287
                          when cmd      =>  smi_cmd(smi_counter) := esoc_mdio(esoc_port_nr);
288
 
289
                                            if smi_counter = 0 then
290
                                              smi_counter := 4;
291
                                              smi_state   := dev_addr;
292
                                            else
293
                                              smi_counter := smi_counter - 1;
294
                                            end if;
295
 
296
 
297
                          when dev_addr =>  smi_dev_addr(smi_counter) := esoc_mdio(esoc_port_nr);
298
 
299
                                            if smi_counter = 0 then
300
                                              smi_counter := 4;
301
                                              smi_state   := reg_addr;
302
                                            else
303
                                              smi_counter := smi_counter - 1;
304
                                            end if;
305
 
306
                          when reg_addr =>  smi_dev_reg(smi_counter) := esoc_mdio(esoc_port_nr);
307
 
308
                                            if smi_counter = 0 then
309
                                              smi_counter := 1;
310
                                              smi_state   := ta_cycles;
311
                                            else
312
                                              smi_counter := smi_counter - 1;
313
                                            end if;
314
 
315
                          when ta_cycles =>  -- check device address
316
                                             if smi_dev_addr /= std_logic_vector(to_unsigned(esoc_port_nr,smi_dev_addr'length)) then
317
                                               smi_counter := 31;
318
                                               smi_state   := preamble;
319
 
320
                                             elsif smi_counter = 0 then
321
                                               smi_mdio(esoc_port_nr) <= smi_data(smi_data'high);
322
                                               smi_data := smi_data(smi_data'high-1 downto 0) & '0';
323
                                               smi_counter := 15;
324
                                               smi_state   := data;
325
 
326
                                             else
327
                                               -- SMI Read, prepare
328
                                               if smi_cmd = "10" then
329
                                                 smi_data := smi_registers((to_integer(unsigned(smi_dev_reg))*16)+15 downto (to_integer(unsigned(smi_dev_reg))*16));
330
                                                 smi_mdio(esoc_port_nr) <= '0';
331
                                                 smi_mdio_ena(esoc_port_nr) <= '1';
332
                                               end if;
333
 
334
                                               smi_counter := smi_counter - 1;
335
                                             end if;
336
 
337
                          when data     =>  -- SMI Read, provide data
338
                                            if smi_cmd = "10" then
339
                                              smi_mdio(esoc_port_nr) <= smi_data(smi_data'high);
340
                                              smi_data := smi_data(smi_data'high-1 downto 0) & '0';
341
 
342
                                            -- SMI Write, store data
343
                                            else
344
                                              smi_data := smi_data(smi_data'high-1 downto 0) & esoc_mdio(esoc_port_nr);
345
                                            end if;
346
 
347
                                            if smi_counter = 0 then
348
                                              smi_counter := 31;
349
                                              smi_mdio_ena(esoc_port_nr) <= '0';
350
 
351
                                              -- SMI Read, return to preamble; SMI Write, store data
352
                                              if smi_cmd = "10" then
353
                                                smi_state   := preamble;
354
                                              else
355
                                                smi_state   := store;
356
                                              end if;
357
 
358
                                            else
359
                                              smi_counter := smi_counter - 1;
360
                                            end if;
361
 
362
                          when store    =>  -- store received data
363
                                            smi_registers((to_integer(unsigned(smi_dev_reg))*16)+15 downto (to_integer(unsigned(smi_dev_reg))*16)) := smi_data;
364
                                            smi_state   := preamble;
365
 
366
                          when others   =>  smi_state     := preamble;
367
                        end case;
368
 
369
                      end if;
370
                    end process esoc_test_smi ;
371
 
372
                    -- drive the mdio line when enabled
373
                    esoc_mdio(esoc_port_nr) <= smi_mdio(esoc_port_nr) when smi_mdio_ena(esoc_port_nr) = '1'  else 'Z';
374
  end generate esoc_test_smi;
375
  esoc_tb: esoc
376
    port map(
377
      esoc_address       => esoc_address,
378
      esoc_areset        => esoc_areset,
379
      esoc_boot_complete => esoc_boot_complete,
380
      esoc_clk           => esoc_clk,
381
      esoc_cs            => esoc_cs,
382
      esoc_data          => esoc_data,
383
      esoc_mdc           => esoc_mdc,
384
      esoc_mdio          => esoc_mdio,
385
      esoc_rd            => esoc_rd,
386
      esoc_rgmii_rxc     => esoc_rgmii_rxc,
387
      esoc_rgmii_rxctl   => esoc_rgmii_rxctl,
388
      esoc_rgmii_rxd     => esoc_rgmii_rxd,
389
      esoc_rgmii_txc     => esoc_rgmii_txc,
390
      esoc_rgmii_txctl   => esoc_rgmii_txctl,
391
      esoc_rgmii_txd     => esoc_rgmii_txd,
392
      esoc_wait          => esoc_wait,
393
      esoc_wr            => esoc_wr);
394
 
395
 
396
 
397
  --=============================================================================================================
398
  -- Process              : 
399
  -- Description        : 
400
  --=============================================================================================================
401
  esoc_test_control: process            -- EASE/HDL sens.list
402
                                                begin
403
                                                wait;
404
                                                end process esoc_test_control ;
405
 
406
  --=============================================================================================================
407
  -- Process              : generate esoc input reset
408
  -- Description        : 
409
  --=============================================================================================================
410
  esoc_reset: process
411
                                                -- EASE/HDL sens.list
412
              begin
413
                esoc_areset <= '1';
414
                wait for 1 us;
415
                esoc_areset <= '0';
416
                assert false report "ESOC Reset -> reset released" severity note;
417
                wait;
418
              end process esoc_reset ;
419
 
420
  --=============================================================================================================
421
  -- Process              : generate esoc control input clock
422
  -- Description        : 
423
  --=============================================================================================================
424
  esoc_ctrl_clock:  process
425
                                -- EASE/HDL sens.list
426
                    begin
427
                      esoc_clk <= '1';
428
                      wait for 10 ns;
429
                      esoc_clk <= '0';
430
                      wait for 10 ns;
431
                    end process esoc_ctrl_clock ;
432
 
433
  --=============================================================================================================
434
  -- Process              : generate input for the esoc control interface
435
  -- Description        : 
436
  --=============================================================================================================
437
  esoc_ctrl:    process
438
                                                -- EASE/HDL sens.list
439
                                                        -- declare files for control interface stimuli and logging
440
                                                  file esoc_ctrl_out: TEXT open WRITE_MODE is "../../Simulation/Logs/esoc_control_test_log.txt";
441
                                                  file esoc_ctrl_in : TEXT open READ_MODE  is "../../Simulation/Scripts/esoc_control_test_stim.txt";
442
                                                  file esoc_control_auto_log : TEXT open APPEND_MODE  is "../../Simulation/Logs/auto/esoc_control_auto_log.txt";
443
 
444
                                                -- declare buffers for a complete line from file
445
                                                variable esoc_ctrl_in_buffer: LINE;
446
                                                variable esoc_ctrl_out_buffer: LINE;
447
                                                variable esoc_control_auto_log_buffer: LINE;
448
 
449
                                                -- define fields in a line (only white spaces before first field are skipped)
450
                                                variable esoc_ctrl_in_id : string(7 downto 1);
451
                                                variable esoc_ctrl_in_cmd : string(2 downto 1);
452
                                                variable esoc_ctrl_in_addr: string(5 downto 1);
453
                                                variable esoc_ctrl_in_val : string(9 downto 1);
454
                                                variable esoc_ctrl_out_val : string(9 downto 1);
455
                                                variable esoc_ctrl_in_info : string(40 downto 1);
456
                                                variable esoc_ctrl_wait : integer;
457
 
458
                                                variable error_counter: integer;
459
 
460
                                        begin
461
 
462
                -- init control interface inputs
463
                esoc_cs <= '0';
464
                esoc_wr <= '0';
465
                                                        esoc_rd <= '0';
466
                                                        esoc_address <= (others => '0');
467
                                                        esoc_data  <= (others => 'Z');
468
                                                        esoc_wait_timer_start <= '0';
469
                                                        error_counter := 0;
470
 
471
                                                        -- wait for de-assertion of external reset
472
                                                        wait until esoc_areset = '0';
473
 
474
                                                        -- wait for assertion of boot status
475
                                                        wait until esoc_boot_complete = '1';
476
                                                        wait for 1 us;
477
 
478
                                                        -- read stimuli ID
479
                                                        readline(esoc_ctrl_in, esoc_ctrl_in_buffer);
480
                                                        read(esoc_ctrl_in_buffer, esoc_ctrl_in_cmd);
481
                                                        read(esoc_ctrl_in_buffer, esoc_ctrl_in_id);
482
 
483
                                                        -- start access on control interface
484
                                                        assert false report "ESOC Control -> generate read/write cycles on control interface" severity note;
485
                                                        write(esoc_ctrl_out_buffer, string'("ESOC Control -> start generating read/write cycles on control interface"));
486
                                                writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
487
 
488
                                                        -- read file until end of file is reached
489
                                                        loop
490
                                                          exit when endfile(esoc_ctrl_in);
491
                                                          -- read command before reading the arguments
492
                                                                readline(esoc_ctrl_in, esoc_ctrl_in_buffer);
493
                                                                read(esoc_ctrl_in_buffer, esoc_ctrl_in_cmd);
494
 
495
                                                                --
496
                                                                -- start WRITE CYCLE
497
                                                                --
498
                                                                if esoc_ctrl_in_cmd = "mw" then
499
                                                                  -- read address and data from file
500
                                                                  read(esoc_ctrl_in_buffer, esoc_ctrl_in_addr);
501
                                                                  read(esoc_ctrl_in_buffer, esoc_ctrl_in_val);
502
 
503
                                                                  -- drive the control interface
504
                                                                  wait for 30 ns;
505
                                                                  esoc_cs <= '1';
506
                                                                  esoc_wr <= '1';
507
                                                                  esoc_address <= hex_string_to_std_logic_vector(esoc_ctrl_in_addr(4 downto 1));
508
                                                                  esoc_data  <= hex_string_to_std_logic_vector(esoc_ctrl_in_val(8 downto 1));
509
 
510
                                                                  -- enable timer to avoid lockup
511
                                                                  esoc_wait_timer_start <= '1';
512
                                                                  wait until esoc_wait = '0' or esoc_wait_timeout = '1';
513
 
514
                                                                  -- check for timeout
515
                                                                  if esoc_wait_timeout = '0' then
516
                                                                    esoc_wait_timer_start <= '0';
517
                                                                  end if;
518
 
519
                                                                  -- finalize cycle
520
                                                                  wait for 20 ns;
521
                                                                  esoc_cs <= '0';
522
                                                                  esoc_wr <= '0';
523
                                                                  esoc_data  <= (others => 'Z');
524
 
525
                                                                  -- report time out
526
                                                                  if esoc_wait_timeout = '1'  then
527
                                                                    esoc_wait_timer_start <= '0';
528
                                                                    -- write control bus access to output file
529
                                                                  assert false report "ESOC Control -> write to address" & esoc_ctrl_in_addr & "h" & esoc_ctrl_out_val & "h, status: TIMEOUT" severity error;
530
                                                                  write(esoc_ctrl_out_buffer, esoc_ctrl_in_cmd & esoc_ctrl_in_addr & esoc_ctrl_out_val & ", status: TIMEOUT");
531
                                                                  writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
532
 
533
                                                                else
534
                                                                  -- write control bus access to output file
535
                                                                  assert false report "ESOC Control -> write" & esoc_ctrl_in_val  & "h" & " to address" & esoc_ctrl_in_addr  & "h" severity note;
536
                                                                  write(esoc_ctrl_out_buffer, esoc_ctrl_in_cmd & esoc_ctrl_in_addr & esoc_ctrl_in_val);
537
                                                                  writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
538
                                                                  end if;
539
 
540
                                                                --  
541
                                                                -- start READ CYCLE
542
                                                                --
543
                                                                elsif esoc_ctrl_in_cmd = "mr" then
544
                                                                  -- read address and data from file
545
                                                                  read(esoc_ctrl_in_buffer, esoc_ctrl_in_addr);
546
                                                                  read(esoc_ctrl_in_buffer, esoc_ctrl_in_val);
547
 
548
                                                                  -- drive the control interface
549
                                                                  wait for 30 ns;
550
                                                                  esoc_cs <= '1';
551
                                                                  esoc_rd <= '1';
552
                                                                  esoc_address <= hex_string_to_std_logic_vector(esoc_ctrl_in_addr(4 downto 1));
553
 
554
                                                                  -- enable timer to avoid lockup
555
                                                                  esoc_wait_timer_start <= '1';
556
                                                                  wait until esoc_wait = '0' or esoc_wait_timeout = '1';
557
 
558
                                                                   -- check for timeout
559
                                                                  if esoc_wait_timeout = '0' then
560
                                                                    esoc_wait_timer_start <= '0';
561
                                                                  end if;
562
 
563
                                                                  -- finalize cycle
564
                                                                  wait for 20 ns;
565
                    esoc_cs <= '0';
566
                                                                  esoc_rd <= '0';
567
 
568
                                                                  -- store read data, add space in front to be able to compare to expected value from file
569
                                                                  esoc_ctrl_out_val(8 downto 1) := to_hexstring(esoc_data);
570
                                                                  esoc_ctrl_out_val := " " & esoc_ctrl_out_val(8 downto 1);
571
 
572
                                                                  -- check expected read value with actual read value or report time out
573
                                                                  if esoc_wait_timeout = '1'  then
574
                                                                    esoc_wait_timer_start <= '0';
575
                                                                    -- write control bus access to output file
576
                                                                  assert false report "ESOC Control -> read from address" & esoc_ctrl_in_addr & "h" & esoc_ctrl_out_val & "h, expected" & ", status: TIMEOUT" severity error;
577
                                                                  write(esoc_ctrl_out_buffer, esoc_ctrl_in_cmd & esoc_ctrl_in_addr & esoc_ctrl_out_val & ", status: TIMEOUT");
578
                                                                  writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
579
 
580
                                                                  elsif esoc_ctrl_in_val = esoc_ctrl_out_val then
581
                                                                    -- write control bus access to output file
582
                                                                  assert false report "ESOC Control -> read from address" & esoc_ctrl_in_addr & "h" & esoc_ctrl_out_val & "h, expected" & esoc_ctrl_in_val & "h, status: OK" severity note;
583
                                                                  write(esoc_ctrl_out_buffer, esoc_ctrl_in_cmd & esoc_ctrl_in_addr & esoc_ctrl_out_val & ", expected" & esoc_ctrl_in_val & ", status: OK");
584
                                                                  writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
585
                                                                  else
586
                                                                    -- write control bus access to output file
587
                                                                  assert false report "ESOC Control -> read from address" & esoc_ctrl_in_addr & "h" & esoc_ctrl_out_val & "h, expected" & esoc_ctrl_in_val & "h, status: ERROR" severity note;
588
                                                                  write(esoc_ctrl_out_buffer, esoc_ctrl_in_cmd & esoc_ctrl_in_addr & esoc_ctrl_out_val & ", expected" & esoc_ctrl_in_val & ", status: ERROR");
589
                                                                  writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
590
                                                                  error_counter := error_counter + 1;
591
                                                                  end if;
592
 
593
                                                                --                                                                
594
                                                                -- create delay 
595
                                                                --
596
                                                                elsif esoc_ctrl_in_cmd = "wt" then
597
                                                                  read(esoc_ctrl_in_buffer, esoc_ctrl_wait);
598
                                                                  for i in esoc_ctrl_wait downto 0 loop
599
                                                                    wait until esoc_clk'event and esoc_clk = '1';
600
                                                                  end loop;
601
 
602
                                                                --                                                                
603
                                                                -- process information 
604
                                                                --
605
                                                                elsif esoc_ctrl_in_cmd = "--" then
606
                                                                  writeline(esoc_ctrl_out, esoc_ctrl_in_buffer);
607
 
608
                                                                -- ignore other commands  
609
                                                                else
610
                                                                  assert false report "ESOC Control -> illegal command for read/write cycles on control interface" severity error;
611
                                                                  write(esoc_ctrl_out_buffer, string'("ESOC Control -> illegal command for read/write cycles on control interface"));
612
                                                                writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
613
                                                                end if;
614
                                                        end loop;
615
 
616
                                                        if error_counter = 1 then
617
                                                          assert false report "ESOC Control -> end of stimuli for control interface (" & to_string(error_counter,10) & " error)" severity note;
618
                                                        else
619
                                                          assert false report "ESOC Control -> end of stimuli for control interface (" & to_string(error_counter,10) & " errors)" severity note;
620
                                                        end if;
621
 
622
                                                        --write(esoc_ctrl_out_buffer, string'("ESOC Control -> end of stimuli for control interface")& error_counter & " errors)");
623
                                                        write(esoc_ctrl_out_buffer, string'("ESOC Control -> end of stimuli for control interface (") & to_string(error_counter,10) & " errors)");
624
                                          writeline(esoc_ctrl_out, esoc_ctrl_out_buffer);
625
 
626
                                                        write(esoc_control_auto_log_buffer, "Test script" & esoc_ctrl_in_id & " - " & to_string(error_counter,10) & " errors");
627
                                          writeline(esoc_control_auto_log, esoc_control_auto_log_buffer);
628
 
629
                                                        wait;
630
              end process esoc_ctrl ;
631
 
632
  --=============================================================================================================
633
  -- Process              : start timer when previous process waits for signal from esoc
634
  -- Description        : 
635
  --=============================================================================================================
636
  esoc_ctrl_timer:      process (esoc_areset, esoc_clk)
637
                    begin
638
                      if esoc_areset = '1'  then
639
                        esoc_wait_timer <= 3000;
640
                        esoc_wait_timeout <= '0';
641
                        esoc_wait_time_enable <= '1';
642
 
643
                      elsif esoc_clk = '1'  and esoc_clk'event then
644
                        if esoc_wait_time_enable = '1' then
645
                          -- start timer on command of read/write process
646
                          if esoc_wait_timer_start = '1' then
647
                            -- assert time out signal when timer expires
648
                            if esoc_wait_timer = 0 then
649
                              esoc_wait_timeout <= '1';
650
                            else
651
                              esoc_wait_timer <= esoc_wait_timer - 1;
652
                            end if;
653
 
654
                          -- reset timer settings when timer is stopped by read/write process  
655
                          else
656
                            esoc_wait_timeout <= '0';
657
                            esoc_wait_timer <= 3000;
658
                          end if;
659
                        end if;
660
                      end if;
661
                    end process esoc_ctrl_timer;
662
 
663
 
664
 
665
  --=============================================================================================================
666
  -- Process              : 
667
  -- Description        : 
668
  --=============================================================================================================
669
  esoc_test_rgmii: process              -- EASE/HDL sens.list
670
                                                begin
671
                                                wait;
672
                                                end process esoc_test_rgmii ;
673
 
674
  --=============================================================================================================
675
  -- Process              : generate esoc rgmii input clock
676
  -- Description        : 
677
  --=============================================================================================================
678
  esoc_rgmii_clock: process
679
                                -- EASE/HDL sens.list
680
                    begin
681
                      -- create internal and external RGMII clock, phase shift of 90 degrees
682
                      for i in esoc_port_count-1 downto 0 loop
683
                        esoc_rgmii_rxc_int <= '1';
684
                        esoc_rgmii_rxc(i)  <= '1' after 2 ns;
685
                      end loop;
686
 
687
                      wait for 4 ns;
688
 
689
                      for i in esoc_port_count-1 downto 0 loop
690
                        esoc_rgmii_rxc_int <= '0';
691
                        esoc_rgmii_rxc(i)  <= '0' after 2 ns;
692
                      end loop;
693
 
694
                      wait for 4 ns;
695
                    end process esoc_rgmii_clock ;
696
 
697
  --=============================================================================================================
698
  -- Process              : access registers of testbench
699
  -- Description        : 
700
  --=============================================================================================================    
701
  registers:  process(esoc_areset, esoc_cs, esoc_rd, esoc_wr)
702
                variable esoc_rd_pending: std_logic;
703
                variable esoc_wr_pending: std_logic;
704
              begin
705
                if esoc_areset = '1' then
706
                  reg_rgmii_port_enable <= (others => '0');
707
                  esoc_wait <= 'Z';
708
                  esoc_data <= (others => 'Z');
709
                  esoc_rd_pending := '0';
710
                  esoc_wr_pending := '0';
711
 
712
                -- continu if memory space of this entity is addressed
713
                elsif to_integer(unsigned(esoc_address)) >= esoc_testbench_base and to_integer(unsigned(esoc_address)) < esoc_testbench_base + esoc_testbench_size then
714
                  --
715
                  -- READ CYCLE started, unit addressed?
716
                  --
717
                  if esoc_cs = '1' and esoc_rd = '1' and esoc_rd_pending = '0' then
718
                    -- Check register address and provide data when addressed
719
                    case to_integer(unsigned(esoc_address)) - esoc_testbench_base is
720
                      when 0          =>   esoc_data <= reg_rgmii_port_enable after 40 ns;
721
 
722
                      when others     =>   esoc_data <= (others => '0');
723
                    end case;
724
 
725
                    esoc_rd_pending := '1';
726
                    esoc_wait <= '0' after 40 ns;
727
 
728
                  -- wait until cycle is finished                  
729
                  elsif esoc_cs = '0' and esoc_rd = '0' and esoc_rd_pending = '1' then
730
                    esoc_rd_pending := '0';
731
 
732
                    -- finalize cycle
733
                    esoc_wait <= 'Z' after 20 ns;
734
                    esoc_data <= (others => 'Z') after 20 ns;
735
 
736
                  --
737
                  -- WRITE CYCLE started, unit addressed?  
738
                  --
739
                  elsif esoc_cs = '1' and esoc_wr = '1' and esoc_wr_pending = '0' then
740
                        -- Check register address and accept data when addressed
741
                        case to_integer(unsigned(esoc_address)) - esoc_testbench_base is
742
                      when 0          =>   reg_rgmii_port_enable <= esoc_data;
743
 
744
                      when others     =>   NULL;
745
                    end case;
746
 
747
                    esoc_wr_pending := '1';
748
                    esoc_wait <= '0' after 40 ns;
749
 
750
                  -- wait until cycle is finished
751
                  elsif esoc_cs = '0' and esoc_wr = '0' and esoc_wr_pending = '1' then
752
                    -- finalize cycle
753
                    esoc_wr_pending := '0';
754
                    esoc_wait <= 'Z' after 20 ns;
755
                                                        end if;
756
                                          end if;
757
            end process;
758
 
759
  --=============================================================================================================
760
  -- Process              : fill packet transmit buffers for all ports
761
  -- Description        : 
762
  --=============================================================================================================
763
  esoc_rgmii_tx:    process
764
                                                          -- declare files for rgmii interface stimuli and logging
765
                                                          file esoc_rgmii_in : TEXT open READ_MODE  is "../../Simulation/Scripts/esoc_rgmii_test_stim.txt";
766
                                  file esoc_rgmii_out: TEXT open WRITE_MODE is "../../Simulation/Logs/esoc_rgmii_test_log.txt";
767
 
768
                                                        -- declare buffer for a complete line from file
769
                                                        variable esoc_rgmii_in_buffer: LINE;
770
                                                        variable esoc_rgmii_out_buffer: LINE;
771
 
772
                                                        -- define fields in a line
773
                                                        variable esoc_rgmii_in_port   : string(2 downto 1);
774
                                                        variable esoc_rgmii_in_dmac   : string(12 downto 1);
775
                                                        variable esoc_rgmii_in_smac   : string(12 downto 1);
776
                                                        variable esoc_rgmii_in_vid    : string(8 downto 1);
777
                                                        variable esoc_rgmii_in_type   : string(4 downto 1);
778
                                                        variable esoc_rgmii_in_plen   : string(4 downto 1);
779
                                                        variable esoc_rgmii_in_pstart : string(2 downto 1);
780
                                                        variable esoc_rgmii_in_gap    : string(8 downto 1);
781
                                                        variable esoc_rgmii_in_white_space : string(1 downto 1);
782
 
783
                                                        variable esoc_rgmii_in_wait   : integer;
784
 
785
                                                  -- create packet buffers for all ports (use variable to avoid slow simulations)
786
                                                  constant packet_buffer_size           : integer := 64*1024;
787
 
788
                                                        type     packet_buffer_array is array (esoc_port_count-1 downto 0, packet_buffer_size-1 downto 0) of std_logic_vector(8 downto 0);
789
                                                        variable packet_buffers               : packet_buffer_array;
790
 
791
                      constant pck_type_ipg: std_logic := '0';
792
                      constant pck_type_pck: std_logic := '1';
793
 
794
                      -- create packet counter for all ports (use variable to avoid slow simulations)
795
                      type     packet_buffer_bytes_array is array (esoc_port_count-1 downto 0) of integer;
796
                      variable packet_buffer_bytes              : packet_buffer_bytes_array;
797
                      variable packet_buffer_bytes_sent         : packet_buffer_bytes_array;
798
 
799
                      -- create inter packet gap counter for all ports (use variable to avoid slow simulations)
800
                      type     packet_ipg_array is array (esoc_port_count-1 downto 0) of integer;
801
                      variable packet_ipg : packet_ipg_array;
802
 
803
                      -- signals and variables for inside process
804
                      variable esoc_rgmii_port : integer;
805
                      variable esoc_rgmii_count : integer;
806
                      variable esoc_rgmii_data : std_logic_vector(47 downto 0);
807
 
808
                      variable esoc_rgmii_crc : std_logic_vector(31 downto 0);
809
 
810
                    begin
811
                      --
812
                      -- initialize signals, buffers and clear counters
813
                      --
814
                                                  for i in esoc_port_count-1 downto 0 loop
815
                                                    packet_buffer_bytes(i) := 0;
816
                                                    packet_buffer_bytes_sent(i) := 0;
817
 
818
                                                    esoc_rgmii_rxctl(i) <= '0';
819
                                                    esoc_rgmii_rxd(i*4+3 downto i*4) <= (others => '0');
820
 
821
                                                    packet_ipg(i) := 0;
822
 
823
                                                    for j in packet_buffer_size-1 downto 0 loop
824
                                                      packet_buffers(i,j) := '0' & X"00";
825
                                                    end loop;
826
                                                  end loop;
827
 
828
                                                  reg_rgmii_port_enable2 <= (others => '0');
829
 
830
                                                  -- wait for de-assertion of external reset
831
                                                                wait until esoc_areset = '0';
832
                                                                wait for 1 us;
833
 
834
                                                                --
835
                                                                -- start preprocessing of Ethernet packets
836
                                                                --
837
                      assert false report "ESOC RGMII Preprocessing -> start of processing stimuli for RGMII interfaces" severity note;
838
                                                                write(esoc_rgmii_out_buffer, string'("ESOC RGMII Preprocessing -> start of processng stimuli for RGMII interfaces"));
839
                                                                  writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
840
 
841
                                                  loop
842
                                                                  exit when endfile(esoc_rgmii_in);
843
 
844
                                                                  -- read packet information, read away the post white space
845
                                                                        readline(esoc_rgmii_in, esoc_rgmii_in_buffer);
846
                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_port);
847
 
848
                                                                        -- skip comment
849
                                                                        if esoc_rgmii_in_port = "--" then
850
 
851
                                                                      -- check packet information
852
                                                                  elsif to_integer(unsigned(hex_string_to_std_logic_vector(esoc_rgmii_in_port))) > esoc_port_count-1 then
853
                          assert false report "ESOC RGMII Preprocessing -> " & esoc_rgmii_in_port & " is illegal port number in RGMII stimuli (max ESOC Port count is " &  to_string(esoc_port_count-1, 10) & ")" severity error;
854
                                                                    write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> " & esoc_rgmii_in_port & " is illegal port number in RGMII stimuli (max ESOC Port count is " &  to_string(esoc_port_count-1, 10) & ")");
855
                                                                      writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
856
 
857
                                                                  -- write packet into buffer of correct port
858
                                                                  else
859
                                                                    -- read packet information, read away the pre white space
860
                                                                    read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_dmac);
861
                                                                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_smac);
862
                                                                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_vid);
863
                                                                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_type);
864
                                                                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_plen);
865
                                                                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_pstart);
866
                                                                        read(esoc_rgmii_in_buffer, esoc_rgmii_in_white_space);  read(esoc_rgmii_in_buffer, esoc_rgmii_in_gap);
867
 
868
                                                                  -- convert port number to have index inside the buffer and counter arrays, counter itself is also index inside buffer array
869
                                                                        esoc_rgmii_port  := to_integer(unsigned(hex_string_to_std_logic_vector(esoc_rgmii_in_port)));
870
 
871
                                                                        -- store current value of byte counter of port before new packet is written
872
                                                                        esoc_rgmii_count := packet_buffer_bytes(esoc_rgmii_port);
873
 
874
                                                                        -- reset CRC storage
875
                                                                        esoc_rgmii_crc := (others => '0');
876
 
877
                                                                        -- store preamble and SFD
878
                                                                        for i in 7 downto 0 loop
879
                                                        -- check and update byte counter related to the port, store data if space available, update crc
880
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
881
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
882
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
883
                                                                          writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
884
 
885
                            else
886
                              -- write sfd as last byte, write preamble bytes before
887
                              if i = 0 then
888
                                                                              packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & X"D5";
889
                                                                            else
890
                                                                              packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & X"55";
891
                                                                            end if;
892
 
893
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
894
                                                                          end if;
895
                                                      end loop;
896
 
897
                                                                        -- store DMAC in buffer
898
                                                                        esoc_rgmii_data := hex_string_to_std_logic_vector(esoc_rgmii_in_dmac);
899
 
900
                                                                        for i in 5 downto 0 loop
901
                                                        -- check and update byte counter related to the port, store data if space available, update crc
902
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
903
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
904
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
905
                                                                          writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
906
 
907
                            else
908
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & esoc_rgmii_data(i*8+7 downto i*8);
909
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
910
 
911
 
912
                                                                            -- invert first four bytes of packet (32 bits of DMAC) before CRC calculation
913
                                                                            if i > 1 then
914
                                                                              esoc_rgmii_data(i*8+7 downto i*8) := INVERT_CRC32_DATA(esoc_rgmii_data(i*8+7 downto i*8));
915
                                                                            end if;
916
 
917
                                                                            -- swap bit order in accordance with bit order at physical interface before CRC calculation
918
                                                                            esoc_rgmii_data(i*8+7 downto i*8) := SWAP_CRC32_DATA(esoc_rgmii_data(i*8+7 downto i*8));
919
                                                                            esoc_rgmii_crc := CALC_CRC32(esoc_rgmii_data(i*8+7 downto i*8),esoc_rgmii_crc);
920
                                                                          end if;
921
                                                      end loop;
922
 
923
                                                      -- store SMAC in buffer
924
                                                                        esoc_rgmii_data := hex_string_to_std_logic_vector(esoc_rgmii_in_smac);
925
 
926
                                                                        for i in 5 downto 0 loop
927
                                                        -- check and update byte counter related to the port, store data if space available, update crc
928
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
929
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
930
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
931
                                                                          writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
932
 
933
                                                                          else
934
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & esoc_rgmii_data(i*8+7 downto i*8);
935
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
936
 
937
                                                                            -- swap bit order in accordance with bit order at physical interface before CRC calculation
938
                                                                            esoc_rgmii_data(i*8+7 downto i*8) := SWAP_CRC32_DATA(esoc_rgmii_data(i*8+7 downto i*8));
939
                                                                            esoc_rgmii_crc := CALC_CRC32(esoc_rgmii_data(i*8+7 downto i*8),esoc_rgmii_crc);
940
                                                                          end if;
941
                                                      end loop;
942
 
943
                                                      -- store VID in buffer (0x8100**** is  VLAN tagged packet)
944
                                                      esoc_rgmii_data(31 downto 0) := hex_string_to_std_logic_vector(esoc_rgmii_in_vid);
945
 
946
                                                      if esoc_rgmii_data(31 downto 16) = X"8100" then
947
                                                      for i in 3 downto 0 loop
948
                                                        -- check and update byte counter related to the port, store data if space available, update crc
949
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
950
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
951
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
952
                                                                            writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
953
 
954
                                                                          else
955
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & esoc_rgmii_data(i*8+7 downto i*8);
956
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
957
 
958
                                                                            -- swap bit order in accordance with bit order at physical interface before CRC calculation
959
                                                                              esoc_rgmii_data(i*8+7 downto i*8) := SWAP_CRC32_DATA(esoc_rgmii_data(i*8+7 downto i*8));
960
                                                                            esoc_rgmii_crc := CALC_CRC32(esoc_rgmii_data(i*8+7 downto i*8),esoc_rgmii_crc);
961
                                                                          end if;
962
                                                      end loop;
963
                                                    end if;
964
 
965
                                                      -- store TYPE/LEN in buffer
966
                                                                        esoc_rgmii_data(15 downto 0) := hex_string_to_std_logic_vector(esoc_rgmii_in_type);
967
 
968
                                                                        for i in 1 downto 0 loop
969
                                                        -- check and update byte counter related to the port, store data if space available, update crc
970
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size  then
971
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
972
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
973
                                                                          writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
974
 
975
                                                                          else
976
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & esoc_rgmii_data(i*8+7 downto i*8);
977
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
978
 
979
                                                                            -- swap bit order in accordance with bit order at physical interface before CRC calculation
980
                                                                            esoc_rgmii_data(i*8+7 downto i*8) := SWAP_CRC32_DATA(esoc_rgmii_data(i*8+7 downto i*8));
981
                                                                            esoc_rgmii_crc := CALC_CRC32(esoc_rgmii_data(i*8+7 downto i*8),esoc_rgmii_crc);
982
                                                                          end if;
983
                                                      end loop;
984
 
985
                          -- store payload (if length is sufficient)
986
                          if to_integer(unsigned(hex_string_to_std_logic_vector(esoc_rgmii_in_plen))) < 46 then
987
                            assert false report "ESOC RGMII Preprocessing -> payload field too short, should be at least 46 bytes." severity error;
988
                            write(esoc_rgmii_out_buffer, string'("ESOC RGMII Preprocessing -> payload field too short, should be at least 46 bytes."));
989
                                                                        writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
990
 
991
                          else
992
                            esoc_rgmii_data(7 downto 0) := hex_string_to_std_logic_vector(esoc_rgmii_in_pstart);
993
 
994
                                                                        for i in to_integer(unsigned(hex_string_to_std_logic_vector(esoc_rgmii_in_plen)))-1 downto 0 loop
995
                                                        -- check and update byte counter related to the port, store data if space available, update crc
996
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
997
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
998
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
999
                                                                            writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1000
 
1001
                                                                          else
1002
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & esoc_rgmii_data(7 downto 0);
1003
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
1004
 
1005
                                                                            -- swap bit order in accordance with bit order at physical interface before CRC calculation
1006
                                                                              esoc_rgmii_data(7 downto 0) := SWAP_CRC32_DATA(esoc_rgmii_data(7 downto 0));
1007
                                                                            esoc_rgmii_crc := CALC_CRC32(esoc_rgmii_data(7 downto 0),esoc_rgmii_crc);
1008
                                                                            esoc_rgmii_data(7 downto 0) := SWAP_CRC32_DATA(esoc_rgmii_data(7 downto 0));
1009
                                                                          end if;
1010
 
1011
                                                                          esoc_rgmii_data(7 downto 0) := std_logic_vector(to_unsigned(to_integer(unsigned(esoc_rgmii_data(7 downto 0)))+1, 8));
1012
                                                      end loop;
1013
                                                                        end if;
1014
 
1015
                                                                        -- store CRC, invert and change order before ...
1016
                                                                        esoc_rgmii_crc := SWAP_CRC32_RESULT(esoc_rgmii_crc);
1017
                                                                        esoc_rgmii_crc := INVERT_CRC32_RESULT(esoc_rgmii_crc);
1018
                                                                        esoc_rgmii_data(31 downto 0) := esoc_rgmii_crc;
1019
 
1020
                                                                        for i in 3 downto 0 loop
1021
                                                        -- check and update byte counter related to the port, store data if space available
1022
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
1023
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
1024
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
1025
                                                                          writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1026
 
1027
                                                                          else
1028
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_pck & esoc_rgmii_data(i*8+7 downto i*8);
1029
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
1030
                                                                          end if;
1031
                                                      end loop;
1032
 
1033
                                                      -- store GAP (if length is sufficient)
1034
                                                      esoc_rgmii_data(31 downto 0) := hex_string_to_std_logic_vector(esoc_rgmii_in_gap);
1035
 
1036
                                                                        if to_integer(unsigned(hex_string_to_std_logic_vector(esoc_rgmii_in_gap))) < 12 then
1037
                            assert false report "ESOC RGMII Preprocessing -> Inter Packet Gap too short, should be at least 12 bytes." severity error;
1038
                            write(esoc_rgmii_out_buffer, string'("ESOC RGMII Preprocessing -> Inter Packet Gap too short, should be at least 12 bytes."));
1039
                                                                        writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1040
 
1041
                          else
1042
                            for i in 3 downto 0 loop
1043
                                                        -- check and update byte counter related to the port, store data if space available
1044
                                                                          if packet_buffer_bytes(esoc_rgmii_port) = packet_buffer_size then
1045
                                                                            assert false report "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded." severity error;
1046
                                                                            write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet buffer for port " & esoc_rgmii_in_port & "overloaded.");
1047
                                                                            writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1048
 
1049
                                                                          else
1050
                                                                            packet_buffers(esoc_rgmii_port, packet_buffer_bytes(esoc_rgmii_port)) := pck_type_ipg & esoc_rgmii_data(i*8+7 downto i*8);
1051
                                                                            packet_buffer_bytes(esoc_rgmii_port) := packet_buffer_bytes(esoc_rgmii_port) + 1;
1052
                                                                          end if;
1053
                                                                        end loop;
1054
                                                                        end if;
1055
 
1056
 
1057
                                                                        -- log packet information in file
1058
                                                                        assert false report "ESOC RGMII Preprocessing -> packet with length of " & to_string(packet_buffer_bytes(esoc_rgmii_port) - esoc_rgmii_count) & " bytes written to port " & esoc_rgmii_in_port severity note;
1059
                                                                        assert false report "ESOC RGMII Preprocessing -> packet details -> dmac: 0x" & esoc_rgmii_in_dmac & " smac: 0x" & esoc_rgmii_in_smac & " vid: 0x" & esoc_rgmii_in_vid & " type: 0x" & esoc_rgmii_in_type & " plen: 0x" & esoc_rgmii_in_plen & " pstart: 0x" & esoc_rgmii_in_pstart & " crc: 0x" & to_hexstring(esoc_rgmii_crc) & " ipg: 0x" & esoc_rgmii_in_gap severity note;
1060
 
1061
                                                                        write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet with length of " & to_string(packet_buffer_bytes(esoc_rgmii_port) - esoc_rgmii_count) & " bytes written to port " & esoc_rgmii_in_port);
1062
                                                                        writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1063
                                                                        write(esoc_rgmii_out_buffer, "ESOC RGMII Preprocessing -> packet details -> dmac: 0x" & esoc_rgmii_in_dmac & " smac: 0x" & esoc_rgmii_in_smac & " vid: 0x" & esoc_rgmii_in_vid & " type: 0x" & esoc_rgmii_in_type & " plen: 0x" & esoc_rgmii_in_plen & " pstart: 0x" & esoc_rgmii_in_pstart & " crc: 0x" & to_hexstring(esoc_rgmii_crc) & " ipg: 0x" & esoc_rgmii_in_gap);
1064
                                                                      writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1065
                                                                  end if;
1066
                                                                end loop;
1067
 
1068
                      assert false report "ESOC RGMII Preprocessing -> end of processing stimuli for RGMII interfaces" severity note;
1069
                                                                write(esoc_rgmii_out_buffer, string'("ESOC RGMII Preprocessing -> end of processng stimuli for RGMII interfaces"));
1070
                                                                writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1071
                                                                write(esoc_rgmii_out_buffer, string'(""));
1072
                                                                writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1073
 
1074
                                                                --
1075
                                                                -- start transmitting of Ethernet packets
1076
                                                                --
1077
                                                                assert false report "ESOC RGMII Transmit -> start of transmitting stimuli to RGMII interfaces" severity note;
1078
                                                                write(esoc_rgmii_out_buffer, string'("ESOC RGMII Transmit -> start of transmitting stimuli to RGMII interfaces"));
1079
                                                                  writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1080
 
1081
                                                                  while true loop
1082
 
1083
 
1084
 
1085
                                                                  -- get data for each port from their buffer and send on rising edge
1086
                                                                  wait until esoc_rgmii_rxc_int'event and esoc_rgmii_rxc_int = '1';
1087
 
1088
                                                                  for i in esoc_port_count-1 downto 0 loop
1089
                                                                    reg_rgmii_port_enable2(i) <= reg_rgmii_port_enable(i);
1090
                                                                    -- check whether the port is enabled or not 
1091
                                                                    if reg_rgmii_port_enable(i) = '1' then
1092
                                                                      -- check whether there are still bytes to send
1093
                                                                      if packet_buffer_bytes_sent(i) < packet_buffer_bytes(i) then
1094
                                                                      -- start inter packet gap delay period?
1095
                                                                      if packet_buffers(i,packet_buffer_bytes_sent(i))(8) = pck_type_ipg and packet_ipg(i) = 0 then
1096
                                                                        esoc_rgmii_rxd(i*4+3 downto i*4) <= X"0";
1097
                                                                        esoc_rgmii_rxctl(i) <= '0';
1098
 
1099
                                                                        packet_ipg(i) := to_integer(unsigned(packet_buffers(i,packet_buffer_bytes_sent(i))(7 downto 0) & packet_buffers(i,packet_buffer_bytes_sent(i)+1)(7 downto 0)  & packet_buffers(i,packet_buffer_bytes_sent(i)+2)(7 downto 0)  & packet_buffers(i,packet_buffer_bytes_sent(i)+3)(7 downto 0)));
1100
                                                                        packet_buffer_bytes_sent(i) := packet_buffer_bytes_sent(i) + 4;
1101
 
1102
                                                                      -- inter packet gap delay passed?  
1103
                                                                      elsif packet_ipg(i) /= 0 then
1104
 
1105
                                                                      -- inter packet gap delay passed, send data
1106
                                                                      else
1107
                                                                        esoc_rgmii_rxd(i*4+3 downto i*4) <= packet_buffers(i,packet_buffer_bytes_sent(i))(3 downto 0);
1108
                                                                        esoc_rgmii_rxctl(i) <= '1';
1109
                                                                      end if;
1110
                                                                    end if;
1111
                                                                  end if;
1112
                                                                  end loop;
1113
 
1114
                                                                  -- get data for each port from their buffer and send on falling edge
1115
                                                                  wait until esoc_rgmii_rxc_int'event and esoc_rgmii_rxc_int = '0';
1116
 
1117
                      for i in esoc_port_count-1 downto 0 loop
1118
                        -- check whether the port is enabled or not 
1119
                        if reg_rgmii_port_enable2(i) = pck_type_pck then
1120
                          -- check whether there are still bytes to send
1121
                          if packet_buffer_bytes_sent(i) < packet_buffer_bytes(i) then
1122
                            -- inter packet gap delay passed?  
1123
                            if packet_ipg(i) /= 0 then
1124
                                                                        packet_ipg(i) := packet_ipg(i) - 1;
1125
                            -- inter packet gap delay passed, send data                                                                         
1126
                            else
1127
                                                                        esoc_rgmii_rxd(i*4+3 downto i*4) <= packet_buffers(i,packet_buffer_bytes_sent(i))(7 downto 4);
1128
                                                                        packet_buffer_bytes_sent(i) := packet_buffer_bytes_sent(i) + 1;
1129
                                                                      end if;
1130
                                                                    end if;
1131
                                                                    end if;
1132
                                                                  end loop;
1133
 
1134
                                                                  end loop;
1135
 
1136
                                                                  assert false report "ESOC RGMII Transmit -> end of transmitting stimuli to RGMII interfaces" severity note;
1137
                                                                write(esoc_rgmii_out_buffer, string'("ESOC RGMII Transmit -> end of transmitting stimuli to RGMII interfaces"));
1138
                                                                  writeline(esoc_rgmii_out, esoc_rgmii_out_buffer);
1139
 
1140
                                                                wait;
1141
                    end process esoc_rgmii_tx;
1142
end architecture esoc_tb ; -- of esoc_tb
1143
 

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