Line Coverage for Module :
alert_handler_ping_timer
| Line No. | Total | Covered | Percent |
TOTAL | | 62 | 62 | 100.00 |
CONT_ASSIGN | 78 | 1 | 1 | 100.00 |
CONT_ASSIGN | 81 | 1 | 1 | 100.00 |
CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
ALWAYS | 85 | 3 | 3 | 100.00 |
CONT_ASSIGN | 99 | 1 | 1 | 100.00 |
CONT_ASSIGN | 134 | 1 | 1 | 100.00 |
ALWAYS | 141 | 4 | 4 | 100.00 |
CONT_ASSIGN | 152 | 1 | 1 | 100.00 |
CONT_ASSIGN | 156 | 1 | 1 | 100.00 |
CONT_ASSIGN | 196 | 1 | 1 | 100.00 |
CONT_ASSIGN | 233 | 1 | 1 | 100.00 |
CONT_ASSIGN | 234 | 1 | 1 | 100.00 |
CONT_ASSIGN | 264 | 1 | 1 | 100.00 |
CONT_ASSIGN | 265 | 1 | 1 | 100.00 |
CONT_ASSIGN | 268 | 1 | 1 | 100.00 |
CONT_ASSIGN | 278 | 1 | 1 | 100.00 |
CONT_ASSIGN | 279 | 1 | 1 | 100.00 |
ALWAYS | 331 | 37 | 37 | 100.00 |
ALWAYS | 426 | 3 | 3 | 100.00 |
77
78 1/1 assign reseed_timer_d = (reseed_timer_q > '0) ? reseed_timer_q - 1'b1 :
Tests: T1 T2 T3
79 (reseed_en) ? {wait_cyc_mask_i,
80 {ReseedLfsrExtraBits{1'b1}}} : '0;
81 1/1 assign edn_req_o = (reseed_timer_q == '0);
Tests: T1 T2 T3
82 1/1 assign reseed_en = edn_req_o & edn_ack_i;
Tests: T1 T2 T3
83
84 always_ff @(posedge clk_i or negedge rst_ni) begin : p_regs
85 1/1 if (!rst_ni) begin
Tests: T1 T2 T3
86 1/1 reseed_timer_q <= '0;
Tests: T1 T2 T3
87 end else begin
88 1/1 reseed_timer_q <= reseed_timer_d;
Tests: T1 T2 T3
89 end
90 end
91
92 ///////////////////////////
93 // Tandem LFSR Instances //
94 ///////////////////////////
95
96 logic cnt_set, lfsr_err;
97 logic [LfsrWidth-1:0] entropy;
98 logic [PING_CNT_DW + IdDw - 1:0] lfsr_state;
99 1/1 assign entropy = (reseed_en) ? edn_data_i[LfsrWidth-1:0] : '0;
Tests: T1 T2 T3
100
101 // SEC_CM: PING_TIMER.LFSR.REDUN
102 // We employ two redundant LFSRs to guard against FI attacks.
103 // If any of the two is glitched and the two LFSR states do not agree,
104 // the FSM below is moved into a terminal error state and all ping alerts
105 // are permanently asserted.
106 prim_double_lfsr #(
107 .LfsrDw ( LfsrWidth ),
108 .EntropyDw ( LfsrWidth ),
109 .StateOutDw ( PING_CNT_DW + IdDw ),
110 .DefaultSeed ( RndCnstLfsrSeed ),
111 .StatePermEn ( 1'b1 ),
112 .StatePerm ( RndCnstLfsrPerm ),
113 .MaxLenSVA ( MaxLenSVA ),
114 .LockupSVA ( LockupSVA ),
115 .ExtSeedSVA ( 1'b0 ), // ext seed is unused
116 .EnableAlertTriggerSVA ( 1'b0 )
117 ) u_prim_double_lfsr (
118 .clk_i,
119 .rst_ni,
120 .seed_en_i ( 1'b0 ),
121 .seed_i ( '0 ),
122 .lfsr_en_i ( reseed_en || cnt_set ),
123 .entropy_i ( entropy ),
124 .state_o ( lfsr_state ),
125 .err_o ( lfsr_err )
126 );
127
128 logic [IdDw-1:0] id_to_ping_d, id_to_ping_q;
129 // The subtraction below ensures that the alert ID is always in range. If
130 // all alerts are enabled, an alert ID drawn in this way will always be
131 // valid. This comes at the cost of a bias towards certain alert IDs that
132 // will be pinged twice as often on average - but it ensures that we have
133 // less alert IDs that need to be skipped since they are invalid.
134 1/1 assign id_to_ping_d = (lfsr_state[PING_CNT_DW +: IdDw] >= NAlerts) ?
Tests: T1 T2 T3
135 lfsr_state[PING_CNT_DW +: IdDw] - NAlerts :
136 lfsr_state[PING_CNT_DW +: IdDw];
137
138 // we need to hold the ID stable while the ping is ongoing since this will result in
139 // spurious ping responses otherwise.
140 always_ff @(posedge clk_i or negedge rst_ni) begin : p_id_reg
141 1/1 if (!rst_ni) begin
Tests: T1 T2 T3
142 1/1 id_to_ping_q <= '0;
Tests: T1 T2 T3
143 end else begin
144 1/1 if (cnt_set) begin
Tests: T1 T2 T3
145 1/1 id_to_ping_q <= id_to_ping_d;
Tests: T4 T5 T6
146 end
MISSING_ELSE
147 end
148 end
149
150 // align the enable mask with powers of two for the indexing operation below.
151 logic [2**IdDw-1:0] enable_mask;
152 1/1 assign enable_mask = (2**IdDw)'(alert_ping_en_i);
Tests: T1 T2 T3
153
154 // check if the randomly drawn alert ID is actually valid and the alert is enabled
155 logic id_vld;
156 1/1 assign id_vld = enable_mask[id_to_ping_q];
Tests: T1 T2 T3
157
158 //////////////////////////////////
159 // Escalation Counter Instances //
160 //////////////////////////////////
161
162 // As opposed to the alert ID, the escalation sender ID to be pinged is not drawn at random.
163 // Rather, we cycle through the escalation senders one by one in a deterministic fashion.
164 // This allows us to provide guarantees needed for the ping timeout / auto escalation feature
165 // implemented at the escalation receiver side.
166 //
167 // In particular, with N_ESC_SEV escalation senders in the design, we can guarantee
168 // that each escalation channel will be pinged at least once every
169 //
170 // N_ESC_SEV x (NUM_WAIT_COUNT + NUM_TIMEOUT_COUNT) x 2**PING_CNT_DW
171 //
172 // cycles - independently of the reseeding operation.
173 //
174 // - N_ESC_SEV: # escalation channels to ping.
175 // - NUM_WAIT_COUNT: # wait counts between subsequent escalation channel pings.
176 // - NUM_TIMEOUT_COUNT: # timeout counts between subsequent escalation channel pings.
177 // - 2**PING_CNT_DW: # maximum counter value.
178 //
179 // This guarantee is used inside the escalation receivers to monitor the pings sent out by the
180 // alert handler. I.e., once the alert handler has started to send out pings, each escalation
181 // receiver employs a timeout window within which it expects the next ping to arrive. If
182 // escalation pings cease to arrive at an escalation receiver for any reason, this will
183 // automatically trigger the associated escalation countermeasure.
184 //
185 // In order to have enough margin, the escalation receiver timeout counters use a threshold that
186 // is 4x higher than the value calculated above. With N_ESC_SEV = 4, PING_CNT_DW = 16 and
187 // NUM_WAIT_COUNT = NUM_TIMEOUT_COUNT = 2 this amounts to a 22bit timeout threshold.
188 //
189 // We employ two redundant counters to guard against FI attacks.
190 // If any of the two is glitched and the two counter states do not agree,
191 // the FSM below is moved into a terminal error state and all ping alerts
192 // are permanently asserted.
193
194 logic esc_cnt_en, esc_cnt_clr, esc_cnt_error;
195 logic [EscSenderIdxWidth-1:0] esc_cnt;
196 1/1 assign esc_cnt_clr = (esc_cnt >= EscSenderIdxWidth'(N_ESC_SEV-1)) && esc_cnt_en;
Tests: T1 T2 T3
197
198 // SEC_CM: PING_TIMER.CTR.REDUN
199 prim_count #(
200 .Width(EscSenderIdxWidth),
201 // The alert handler behaves differently than other comportable IP. I.e., instead of sending out
202 // an alert signal, this condition is handled internally in the alert handler.
203 .EnableAlertTriggerSVA(0),
204 // Pass a parameter to disable coverage for some assertions that are unreachable because set_i
205 // and decr_en_i are tied to zero.
206 .PossibleActions(prim_count_pkg::Clr |
207 prim_count_pkg::Incr)
208 ) u_prim_count_esc_cnt (
209 .clk_i,
210 .rst_ni,
211 .clr_i(esc_cnt_clr),
212 .set_i(1'b0),
213 .set_cnt_i('0),
214 .incr_en_i(esc_cnt_en),
215 .decr_en_i(1'b0),
216 .step_i(EscSenderIdxWidth'(1)),
217 .commit_i(1'b1),
218 .cnt_o(esc_cnt),
219 .cnt_after_commit_o(),
220 .err_o(esc_cnt_error)
221 );
222
223 /////////////////////////////
224 // Timer Counter Instances //
225 /////////////////////////////
226
227 // We employ two redundant counters to guard against FI attacks.
228 // If any of the two is glitched and the two counter states do not agree,
229 // the FSM below is moved into a terminal error state and all ping alerts
230 // are permanently asserted.
231 logic [PING_CNT_DW-1:0] cnt, cnt_setval;
232 logic wait_cnt_set, timeout_cnt_set, timer_expired, cnt_error;
233 1/1 assign timer_expired = (cnt == '0);
Tests: T1 T2 T3
234 1/1 assign cnt_set = wait_cnt_set || timeout_cnt_set;
Tests: T1 T2 T3
235
236 // SEC_CM: PING_TIMER.CTR.REDUN
237 prim_count #(
238 .Width(PING_CNT_DW),
239 // The alert handler behaves differently than other comportable IP. I.e., instead of sending out
240 // an alert signal, this condition is handled internally in the alert handler.
241 .EnableAlertTriggerSVA(0),
242 // Pass a parameter to disable coverage for some assertions that are unreachable because clr_i
243 // and incr_en_i are tied to zero.
244 .PossibleActions(prim_count_pkg::Set |
245 prim_count_pkg::Decr)
246 ) u_prim_count_cnt (
247 .clk_i,
248 .rst_ni,
249 .clr_i(1'b0),
250 .set_i(cnt_set),
251 .set_cnt_i(cnt_setval),
252 .incr_en_i(1'b0),
253 .decr_en_i(1'b1), // we are counting down here.
254 .step_i(PING_CNT_DW'(1'b1)),
255 .commit_i(1'b1),
256 .cnt_o(cnt),
257 .cnt_after_commit_o(),
258 .err_o(cnt_error)
259 );
260
261 // the constant offset ensures a minimum cycle spacing between pings.
262 logic unused_bits;
263 logic [PING_CNT_DW-1:0] wait_cyc;
264 1/1 assign wait_cyc = (lfsr_state[PING_CNT_DW-1:0] | PING_CNT_DW'(3'b100));
Tests: T1 T2 T3
265 1/1 assign unused_bits = lfsr_state[2];
Tests: T1 T2 T3
266
267 // note that the masks are used for DV/FPV only in order to reduce the state space.
268 1/1 assign cnt_setval = (wait_cnt_set) ? (wait_cyc & wait_cyc_mask_i) : ping_timeout_cyc_i;
Tests: T1 T2 T3
269
270 ////////////////////////////
271 // Ping and Timeout Logic //
272 ////////////////////////////
273
274 logic alert_ping_en, esc_ping_en;
275 logic spurious_alert_ping, spurious_esc_ping;
276
277 // generate ping enable vector
278 1/1 assign alert_ping_req_o = NAlerts'(alert_ping_en) << id_to_ping_q;
Tests: T1 T2 T3
279 1/1 assign esc_ping_req_o = EscSenderIdxWidth'(esc_ping_en) << esc_cnt;
Tests: T1 T2 T3
280
281 // under normal operation, these signals should never be asserted.
282 // we place hand instantiated buffers here such that these signals are not
283 // optimized away during synthesis (these buffers will receive a keep or size_only
284 // attribute in our Vivado and DC synthesis flows).
285 prim_buf u_prim_buf_spurious_alert_ping (
286 .in_i(|(alert_ping_ok_i & ~alert_ping_req_o)),
287 .out_o(spurious_alert_ping)
288 );
289 prim_buf u_prim_buf_spurious_esc_ping (
290 .in_i(|(esc_ping_ok_i & ~esc_ping_req_o)),
291 .out_o(spurious_esc_ping)
292 );
293
294 // SEC_CM: PING_TIMER.FSM.SPARSE
295 // Encoding generated with:
296 // $ ./util/design/sparse-fsm-encode.py -d 5 -m 6 -n 9 \
297 // -s 728582219 --language=sv
298 //
299 // Hamming distance histogram:
300 //
301 // 0: --
302 // 1: --
303 // 2: --
304 // 3: --
305 // 4: --
306 // 5: |||||||||||||||||||| (60.00%)
307 // 6: ||||||||||||| (40.00%)
308 // 7: --
309 // 8: --
310 // 9: --
311 //
312 // Minimum Hamming distance: 5
313 // Maximum Hamming distance: 6
314 // Minimum Hamming weight: 2
315 // Maximum Hamming weight: 6
316 //
317 localparam int StateWidth = 9;
318 typedef enum logic [StateWidth-1:0] {
319 InitSt = 9'b011001011,
320 AlertWaitSt = 9'b110000000,
321 AlertPingSt = 9'b101110001,
322 EscWaitSt = 9'b010110110,
323 EscPingSt = 9'b000011101,
324 FsmErrorSt = 9'b101101110
325 } state_e;
326
327 state_e state_d, state_q;
328
329 always_comb begin : p_fsm
330 // default
331 1/1 state_d = state_q;
Tests: T1 T2 T3
332 1/1 wait_cnt_set = 1'b0;
Tests: T1 T2 T3
333 1/1 timeout_cnt_set = 1'b0;
Tests: T1 T2 T3
334 1/1 esc_cnt_en = 1'b0;
Tests: T1 T2 T3
335 1/1 alert_ping_en = 1'b0;
Tests: T1 T2 T3
336 1/1 esc_ping_en = 1'b0;
Tests: T1 T2 T3
337 // this captures spurious ping responses
338 1/1 alert_ping_fail_o = spurious_alert_ping;
Tests: T1 T2 T3
339 1/1 esc_ping_fail_o = spurious_esc_ping;
Tests: T1 T2 T3
340
341 1/1 unique case (state_q)
Tests: T1 T2 T3
342 // wait until activated
343 // we never return to this state
344 // once activated!
345 InitSt: begin
346 1/1 if (en_i) begin
Tests: T1 T2 T3
347 1/1 state_d = AlertWaitSt;
Tests: T4 T5 T6
348 1/1 wait_cnt_set = 1'b1;
Tests: T4 T5 T6
349 end
MISSING_ELSE
350 end
351 // wait for random amount of cycles
352 AlertWaitSt: begin
353 1/1 if (timer_expired) begin
Tests: T4 T5 T6
354 1/1 state_d = AlertPingSt;
Tests: T4 T6 T16
355 1/1 timeout_cnt_set = 1'b1;
Tests: T4 T6 T16
356 end
MISSING_ELSE
357 end
358 // SEC_CM: ALERT_RX.INTERSIG.BKGN_CHK
359 // send out an alert ping request and wait for a ping
360 // response or a ping timeout (whatever comes first).
361 // if the alert ID is not valid, we drop the request and
362 // proceed to the next ping.
363 AlertPingSt: begin
364 1/1 alert_ping_en = id_vld;
Tests: T4 T6 T16
365 1/1 if (timer_expired || |(alert_ping_ok_i & alert_ping_req_o) || !id_vld) begin
Tests: T4 T6 T16
366 1/1 state_d = EscWaitSt;
Tests: T4 T6 T16
367 1/1 wait_cnt_set = 1'b1;
Tests: T4 T6 T16
368 1/1 if (timer_expired) begin
Tests: T4 T6 T16
369 1/1 alert_ping_fail_o = 1'b1;
Tests: T17 T18 T19
370 end
MISSING_ELSE
371 end
MISSING_ELSE
372 end
373 // wait for random amount of cycles
374 EscWaitSt: begin
375 1/1 if (timer_expired) begin
Tests: T4 T6 T16
376 1/1 state_d = EscPingSt;
Tests: T4 T6 T7
377 1/1 timeout_cnt_set = 1'b1;
Tests: T4 T6 T7
378 end
MISSING_ELSE
379 end
380 // SEC_CM: ESC_TX.INTERSIG.BKGN_CHK
381 // send out an escalation ping request and wait for a ping
382 // response or a ping timeout (whatever comes first)
383 EscPingSt: begin
384 1/1 esc_ping_en = 1'b1;
Tests: T4 T6 T7
385 1/1 if (timer_expired || |(esc_ping_ok_i & esc_ping_req_o)) begin
Tests: T4 T6 T7
386 1/1 state_d = AlertWaitSt;
Tests: T4 T6 T7
387 1/1 wait_cnt_set = 1'b1;
Tests: T4 T6 T7
388 1/1 esc_cnt_en = 1'b1;
Tests: T4 T6 T7
389 1/1 if (timer_expired) begin
Tests: T4 T6 T7
390 1/1 esc_ping_fail_o = 1'b1;
Tests: T17 T18 T19
391 end
MISSING_ELSE
392 end
MISSING_ELSE
393 end
394 // SEC_CM: PING_TIMER.FSM.LOCAL_ESC
395 // terminal FSM error state.
396 // if we for some reason end up in this state (e.g. malicious glitching)
397 // we are going to assert both ping fails continuously
398 FsmErrorSt: begin
399 1/1 alert_ping_fail_o = 1'b1;
Tests: T5 T8 T9
400 1/1 esc_ping_fail_o = 1'b1;
Tests: T5 T8 T9
401 end
402 default: begin
403 state_d = FsmErrorSt;
404 alert_ping_fail_o = 1'b1;
405 esc_ping_fail_o = 1'b1;
406 end
407 endcase
408
409 // SEC_CM: PING_TIMER.FSM.LOCAL_ESC
410 // if the two LFSR or counter states do not agree,
411 // we move into the terminal state.
412 1/1 if (lfsr_err || cnt_error || esc_cnt_error) begin
Tests: T1 T2 T3
413 1/1 state_d = FsmErrorSt;
Tests: T5 T8 T9
414 1/1 alert_ping_fail_o = 1'b1;
Tests: T5 T8 T9
415 1/1 esc_ping_fail_o = 1'b1;
Tests: T5 T8 T9
416 end
MISSING_ELSE
417 end
418
419 ///////////////////
420 // FSM Registers //
421 ///////////////////
422
423 // The alert handler behaves differently than other comportable IP. I.e., instead of sending out
424 // an alert signal, this condition is handled internally in the alert handler. The
425 // EnableAlertTriggerSVA parameter is therefore set to 0.
426 3/3 `PRIM_FLOP_SPARSE_FSM(u_state_regs, state_d, state_q, state_e, InitSt, clk_i, rst_ni, 0)
Tests: T1 T2 T3 | T1 T2 T3 | T1 T2 T3
PRIM_FLOP_SPARSE_FSM(u_state_regs, state_d, state_q, state_e, InitSt, clk_i, rst_ni, 0):
426.1 `ifdef SIMULATION
426.2 prim_sparse_fsm_flop #(
426.3 .StateEnumT(state_e),
426.4 .Width($bits(state_e)),
426.5 .ResetValue($bits(state_e)'(InitSt)),
426.6 .EnableAlertTriggerSVA(0),
426.7 .CustomForceName("state_q")
426.8 ) u_state_regs (
426.9 .clk_i ( clk_i ),
426.10 .rst_ni ( rst_ni ),
426.11 .state_i ( state_d ),
426.12 .state_o ( )
426.13 );
426.14 always_ff @(posedge clk_i or negedge rst_ni) begin
426.15 1/1 if (!rst_ni) begin
Tests: T1 T2 T3
426.16 1/1 state_q <= InitSt;
Tests: T1 T2 T3
426.17 end else begin
426.18 1/1 state_q <= state_d;
Tests: T1 T2 T3
426.19 end
426.20 end
426.21 u_state_regs_A: assert property (@(posedge clk_i) disable iff ((!rst_ni) !== '0) (state_q === u_state_regs.state_o))
426.22 else begin
426.23 `ifdef UVM
426.24 uvm_pkg::uvm_report_error("ASSERT FAILED", "u_state_regs_A", uvm_pkg::UVM_NONE,
426.25 "../src/lowrisc_ip_alert_handler_component_0.1/rtl/alert_handler_ping_timer.sv", 426, "", 1);
426.26 `else
426.27 $error("%0t: (%0s:%0d) [%m] [ASSERT FAILED] %0s", $time, `__FILE__, `__LINE__,
426.28 `PRIM_STRINGIFY(u_state_regs_A));
426.29 `endif
426.30 end
426.31 `else
426.32 prim_sparse_fsm_flop #(
426.33 .StateEnumT(state_e),
426.34 .Width($bits(state_e)),
426.35 .ResetValue($bits(state_e)'(InitSt)),
426.36 .EnableAlertTriggerSVA(0)
426.37 ) u_state_regs (
426.38 .clk_i ( clk_i ),
426.39 .rst_ni ( rst_ni ),
426.40 .state_i ( state_d ),
426.41 .state_o ( state_q )
426.42 );
426.43 `endif
Cond Coverage for Module :
alert_handler_ping_timer
| Total | Covered | Percent |
Conditions | 37 | 36 | 97.30 |
Logical | 37 | 36 | 97.30 |
Non-Logical | 0 | 0 | |
Event | 0 | 0 | |
LINE 78
EXPRESSION ((reseed_timer_q > '0) ? ((reseed_timer_q - 1'b1)) : (reseed_en ? ({wait_cyc_mask_i, {ReseedLfsrExtraBits {1'b1}}}) : '0))
----------1----------
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 78
SUB-EXPRESSION (reseed_en ? ({wait_cyc_mask_i, {ReseedLfsrExtraBits {1'b1}}}) : '0)
----1----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 81
EXPRESSION (reseed_timer_q == '0)
-----------1----------
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 82
EXPRESSION (edn_req_o & edn_ack_i)
----1---- ----2----
-1- | -2- | Status | Tests |
0 | 1 | Not Covered | |
1 | 0 | Covered | T1,T2,T3 |
1 | 1 | Covered | T1,T2,T3 |
LINE 99
EXPRESSION (reseed_en ? edn_data_i[(alert_pkg::LfsrWidth - 1):0] : '0)
----1----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 117
EXPRESSION (reseed_en || cnt_set)
----1---- ---2---
-1- | -2- | Status | Tests |
0 | 0 | Covered | T1,T2,T3 |
0 | 1 | Covered | T4,T5,T6 |
1 | 0 | Covered | T1,T2,T3 |
LINE 134
EXPRESSION
Number Term
1 (lfsr_state[alert_pkg::PING_CNT_DW+:IdDw] >= alert_pkg::NAlerts) ? ((lfsr_state[alert_pkg::PING_CNT_DW+:IdDw] - alert_pkg::NAlerts)) : lfsr_state[alert_pkg::PING_CNT_DW+:IdDw])
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T3,T20 |
LINE 196
EXPRESSION ((esc_cnt >= 2'((alert_pkg::N_ESC_SEV - 1))) && esc_cnt_en)
---------------------1--------------------- -----2----
-1- | -2- | Status | Tests |
0 | 1 | Covered | T4,T6,T7 |
1 | 0 | Covered | T4,T5,T6 |
1 | 1 | Covered | T4,T6,T7 |
LINE 233
EXPRESSION (cnt == '0)
-----1-----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 234
EXPRESSION (wait_cnt_set || timeout_cnt_set)
------1----- -------2-------
-1- | -2- | Status | Tests |
0 | 0 | Covered | T1,T2,T3 |
0 | 1 | Covered | T4,T6,T16 |
1 | 0 | Covered | T4,T5,T6 |
LINE 268
EXPRESSION (wait_cnt_set ? ((wait_cyc & wait_cyc_mask_i)) : ping_timeout_cyc_i)
------1-----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T4,T5,T6 |
LINE 365
EXPRESSION (timer_expired || ((|(alert_ping_ok_i & alert_ping_req_o))) || ((!id_vld)))
------1------ --------------------2-------------------- -----3-----
-1- | -2- | -3- | Status | Tests |
0 | 0 | 0 | Covered | T4,T6,T7 |
0 | 0 | 1 | Covered | T4,T6,T16 |
0 | 1 | 0 | Covered | T4,T6,T7 |
1 | 0 | 0 | Covered | T17,T18,T19 |
LINE 385
EXPRESSION (timer_expired || ((|(esc_ping_ok_i & esc_ping_req_o))))
------1------ ------------------2------------------
-1- | -2- | Status | Tests |
0 | 0 | Covered | T4,T6,T7 |
0 | 1 | Covered | T4,T6,T7 |
1 | 0 | Covered | T17,T18,T19 |
LINE 412
EXPRESSION (lfsr_err || cnt_error || esc_cnt_error)
----1--- ----2---- ------3------
-1- | -2- | -3- | Status | Tests |
0 | 0 | 0 | Covered | T1,T2,T3 |
0 | 0 | 1 | Covered | T5,T8,T9 |
0 | 1 | 0 | Covered | T5,T8,T9 |
1 | 0 | 0 | Covered | T5,T8,T9 |
FSM Coverage for Module :
alert_handler_ping_timer
Summary for FSM :: state_q
| Total | Covered | Percent | |
States |
6 |
6 |
100.00 |
(Not included in score) |
Transitions |
10 |
6 |
60.00 |
|
Sequences |
0 |
0 |
|
|
State, Transition and Sequence Details for FSM :: state_q
states | Line No. | Covered | Tests |
AlertPingSt |
354 |
Covered |
T4,T6,T16 |
AlertWaitSt |
347 |
Covered |
T4,T5,T6 |
EscPingSt |
376 |
Covered |
T4,T6,T7 |
EscWaitSt |
366 |
Covered |
T4,T6,T16 |
FsmErrorSt |
413 |
Covered |
T5,T8,T9 |
InitSt |
345 |
Covered |
T1,T2,T3 |
transitions | Line No. | Covered | Tests |
AlertPingSt->EscWaitSt |
366 |
Covered |
T4,T6,T16 |
AlertPingSt->FsmErrorSt |
413 |
Not Covered |
|
AlertWaitSt->AlertPingSt |
354 |
Covered |
T4,T6,T16 |
AlertWaitSt->FsmErrorSt |
413 |
Covered |
T5,T8,T9 |
EscPingSt->AlertWaitSt |
386 |
Covered |
T4,T6,T7 |
EscPingSt->FsmErrorSt |
413 |
Not Covered |
|
EscWaitSt->EscPingSt |
376 |
Covered |
T4,T6,T7 |
EscWaitSt->FsmErrorSt |
413 |
Not Covered |
|
InitSt->AlertWaitSt |
347 |
Covered |
T4,T5,T6 |
InitSt->FsmErrorSt |
413 |
Not Covered |
|
Branch Coverage for Module :
alert_handler_ping_timer
| Line No. | Total | Covered | Percent |
Branches |
|
32 |
32 |
100.00 |
TERNARY |
78 |
3 |
3 |
100.00 |
TERNARY |
99 |
2 |
2 |
100.00 |
TERNARY |
134 |
2 |
2 |
100.00 |
TERNARY |
268 |
2 |
2 |
100.00 |
IF |
85 |
2 |
2 |
100.00 |
IF |
141 |
3 |
3 |
100.00 |
CASE |
341 |
14 |
14 |
100.00 |
IF |
412 |
2 |
2 |
100.00 |
IF |
426 |
2 |
2 |
100.00 |
78 assign reseed_timer_d = (reseed_timer_q > '0) ? reseed_timer_q - 1'b1 :
-1-
==>
79 (reseed_en) ? {wait_cyc_mask_i,
-2-
==>
==>
Branches:
-1- | -2- | Status | Tests |
1 |
- |
Covered |
T1,T2,T3 |
0 |
1 |
Covered |
T1,T2,T3 |
0 |
0 |
Covered |
T1,T2,T3 |
99 assign entropy = (reseed_en) ? edn_data_i[LfsrWidth-1:0] : '0;
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T2,T3 |
0 |
Covered |
T1,T2,T3 |
134 assign id_to_ping_d = (lfsr_state[PING_CNT_DW +: IdDw] >= NAlerts) ?
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T3,T20 |
0 |
Covered |
T1,T2,T3 |
268 assign cnt_setval = (wait_cnt_set) ? (wait_cyc & wait_cyc_mask_i) : ping_timeout_cyc_i;
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T4,T5,T6 |
0 |
Covered |
T1,T2,T3 |
85 if (!rst_ni) begin
-1-
86 reseed_timer_q <= '0;
==>
87 end else begin
88 reseed_timer_q <= reseed_timer_d;
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T2,T3 |
0 |
Covered |
T1,T2,T3 |
141 if (!rst_ni) begin
-1-
142 id_to_ping_q <= '0;
==>
143 end else begin
144 if (cnt_set) begin
-2-
145 id_to_ping_q <= id_to_ping_d;
==>
146 end
MISSING_ELSE
==>
Branches:
-1- | -2- | Status | Tests |
1 |
- |
Covered |
T1,T2,T3 |
0 |
1 |
Covered |
T4,T5,T6 |
0 |
0 |
Covered |
T1,T2,T3 |
341 unique case (state_q)
-1-
342 // wait until activated
343 // we never return to this state
344 // once activated!
345 InitSt: begin
346 if (en_i) begin
-2-
347 state_d = AlertWaitSt;
==>
348 wait_cnt_set = 1'b1;
349 end
MISSING_ELSE
==>
350 end
351 // wait for random amount of cycles
352 AlertWaitSt: begin
353 if (timer_expired) begin
-3-
354 state_d = AlertPingSt;
==>
355 timeout_cnt_set = 1'b1;
356 end
MISSING_ELSE
==>
357 end
358 // SEC_CM: ALERT_RX.INTERSIG.BKGN_CHK
359 // send out an alert ping request and wait for a ping
360 // response or a ping timeout (whatever comes first).
361 // if the alert ID is not valid, we drop the request and
362 // proceed to the next ping.
363 AlertPingSt: begin
364 alert_ping_en = id_vld;
365 if (timer_expired || |(alert_ping_ok_i & alert_ping_req_o) || !id_vld) begin
-4-
366 state_d = EscWaitSt;
367 wait_cnt_set = 1'b1;
368 if (timer_expired) begin
-5-
369 alert_ping_fail_o = 1'b1;
==>
370 end
MISSING_ELSE
==>
371 end
MISSING_ELSE
==>
372 end
373 // wait for random amount of cycles
374 EscWaitSt: begin
375 if (timer_expired) begin
-6-
376 state_d = EscPingSt;
==>
377 timeout_cnt_set = 1'b1;
378 end
MISSING_ELSE
==>
379 end
380 // SEC_CM: ESC_TX.INTERSIG.BKGN_CHK
381 // send out an escalation ping request and wait for a ping
382 // response or a ping timeout (whatever comes first)
383 EscPingSt: begin
384 esc_ping_en = 1'b1;
385 if (timer_expired || |(esc_ping_ok_i & esc_ping_req_o)) begin
-7-
386 state_d = AlertWaitSt;
387 wait_cnt_set = 1'b1;
388 esc_cnt_en = 1'b1;
389 if (timer_expired) begin
-8-
390 esc_ping_fail_o = 1'b1;
==>
391 end
MISSING_ELSE
==>
392 end
MISSING_ELSE
==>
393 end
394 // SEC_CM: PING_TIMER.FSM.LOCAL_ESC
395 // terminal FSM error state.
396 // if we for some reason end up in this state (e.g. malicious glitching)
397 // we are going to assert both ping fails continuously
398 FsmErrorSt: begin
399 alert_ping_fail_o = 1'b1;
==>
400 esc_ping_fail_o = 1'b1;
401 end
402 default: begin
403 state_d = FsmErrorSt;
==>
Branches:
-1- | -2- | -3- | -4- | -5- | -6- | -7- | -8- | Status | Tests |
InitSt |
1 |
- |
- |
- |
- |
- |
- |
Covered |
T4,T5,T6 |
InitSt |
0 |
- |
- |
- |
- |
- |
- |
Covered |
T1,T2,T3 |
AlertWaitSt |
- |
1 |
- |
- |
- |
- |
- |
Covered |
T4,T6,T16 |
AlertWaitSt |
- |
0 |
- |
- |
- |
- |
- |
Covered |
T4,T5,T6 |
AlertPingSt |
- |
- |
1 |
1 |
- |
- |
- |
Covered |
T17,T18,T19 |
AlertPingSt |
- |
- |
1 |
0 |
- |
- |
- |
Covered |
T4,T6,T16 |
AlertPingSt |
- |
- |
0 |
- |
- |
- |
- |
Covered |
T4,T6,T7 |
EscWaitSt |
- |
- |
- |
- |
1 |
- |
- |
Covered |
T4,T6,T7 |
EscWaitSt |
- |
- |
- |
- |
0 |
- |
- |
Covered |
T4,T6,T16 |
EscPingSt |
- |
- |
- |
- |
- |
1 |
1 |
Covered |
T17,T18,T19 |
EscPingSt |
- |
- |
- |
- |
- |
1 |
0 |
Covered |
T4,T6,T7 |
EscPingSt |
- |
- |
- |
- |
- |
0 |
- |
Covered |
T4,T6,T7 |
FsmErrorSt |
- |
- |
- |
- |
- |
- |
- |
Covered |
T5,T8,T9 |
default |
- |
- |
- |
- |
- |
- |
- |
Covered |
T5,T8,T9 |
412 if (lfsr_err || cnt_error || esc_cnt_error) begin
-1-
413 state_d = FsmErrorSt;
==>
414 alert_ping_fail_o = 1'b1;
415 esc_ping_fail_o = 1'b1;
416 end
MISSING_ELSE
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T5,T8,T9 |
0 |
Covered |
T1,T2,T3 |
426 `PRIM_FLOP_SPARSE_FSM(u_state_regs, state_d, state_q, state_e, InitSt, clk_i, rst_ni, 0)
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T2,T3 |
0 |
Covered |
T1,T2,T3 |
Assert Coverage for Module :
alert_handler_ping_timer
Assertion Details
AlertPingOH_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
189903 |
0 |
0 |
T4 |
14715 |
1275 |
0 |
0 |
T5 |
54634 |
0 |
0 |
0 |
T6 |
66911 |
2262 |
0 |
0 |
T7 |
0 |
2293 |
0 |
0 |
T8 |
41275 |
0 |
0 |
0 |
T12 |
6904 |
0 |
0 |
0 |
T13 |
16089 |
0 |
0 |
0 |
T14 |
2924 |
0 |
0 |
0 |
T15 |
25445 |
0 |
0 |
0 |
T16 |
19328 |
0 |
0 |
0 |
T17 |
0 |
784 |
0 |
0 |
T18 |
0 |
1528 |
0 |
0 |
T19 |
0 |
2692 |
0 |
0 |
T21 |
0 |
3180 |
0 |
0 |
T22 |
0 |
2250 |
0 |
0 |
T23 |
0 |
2830 |
0 |
0 |
T24 |
0 |
2669 |
0 |
0 |
T25 |
47484 |
0 |
0 |
0 |
EscPingOH_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
126169 |
0 |
0 |
T4 |
14715 |
1295 |
0 |
0 |
T5 |
54634 |
0 |
0 |
0 |
T6 |
66911 |
2250 |
0 |
0 |
T7 |
0 |
2355 |
0 |
0 |
T8 |
41275 |
0 |
0 |
0 |
T12 |
6904 |
0 |
0 |
0 |
T13 |
16089 |
0 |
0 |
0 |
T14 |
2924 |
0 |
0 |
0 |
T15 |
25445 |
0 |
0 |
0 |
T16 |
19328 |
0 |
0 |
0 |
T17 |
0 |
211 |
0 |
0 |
T18 |
0 |
784 |
0 |
0 |
T19 |
0 |
1202 |
0 |
0 |
T21 |
0 |
3155 |
0 |
0 |
T22 |
0 |
2165 |
0 |
0 |
T23 |
0 |
2770 |
0 |
0 |
T24 |
0 |
2660 |
0 |
0 |
T25 |
47484 |
0 |
0 |
0 |
MaxIdDw_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
623 |
623 |
0 |
0 |
T1 |
1 |
1 |
0 |
0 |
T2 |
1 |
1 |
0 |
0 |
T3 |
1 |
1 |
0 |
0 |
T4 |
1 |
1 |
0 |
0 |
T5 |
1 |
1 |
0 |
0 |
T10 |
1 |
1 |
0 |
0 |
T11 |
1 |
1 |
0 |
0 |
T13 |
1 |
1 |
0 |
0 |
T15 |
1 |
1 |
0 |
0 |
T20 |
1 |
1 |
0 |
0 |
PingOH0_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
WaitCycMaskIsRightAlignedMask_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
WaitCycMaskMin_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
u_state_regs_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_ping_timer
| Line No. | Total | Covered | Percent |
TOTAL | | 62 | 62 | 100.00 |
CONT_ASSIGN | 78 | 1 | 1 | 100.00 |
CONT_ASSIGN | 81 | 1 | 1 | 100.00 |
CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
ALWAYS | 85 | 3 | 3 | 100.00 |
CONT_ASSIGN | 99 | 1 | 1 | 100.00 |
CONT_ASSIGN | 134 | 1 | 1 | 100.00 |
ALWAYS | 141 | 4 | 4 | 100.00 |
CONT_ASSIGN | 152 | 1 | 1 | 100.00 |
CONT_ASSIGN | 156 | 1 | 1 | 100.00 |
CONT_ASSIGN | 196 | 1 | 1 | 100.00 |
CONT_ASSIGN | 233 | 1 | 1 | 100.00 |
CONT_ASSIGN | 234 | 1 | 1 | 100.00 |
CONT_ASSIGN | 264 | 1 | 1 | 100.00 |
CONT_ASSIGN | 265 | 1 | 1 | 100.00 |
CONT_ASSIGN | 268 | 1 | 1 | 100.00 |
CONT_ASSIGN | 278 | 1 | 1 | 100.00 |
CONT_ASSIGN | 279 | 1 | 1 | 100.00 |
ALWAYS | 331 | 37 | 37 | 100.00 |
ALWAYS | 426 | 3 | 3 | 100.00 |
77
78 1/1 assign reseed_timer_d = (reseed_timer_q > '0) ? reseed_timer_q - 1'b1 :
Tests: T1 T2 T3
79 (reseed_en) ? {wait_cyc_mask_i,
80 {ReseedLfsrExtraBits{1'b1}}} : '0;
81 1/1 assign edn_req_o = (reseed_timer_q == '0);
Tests: T1 T2 T3
82 1/1 assign reseed_en = edn_req_o & edn_ack_i;
Tests: T1 T2 T3
83
84 always_ff @(posedge clk_i or negedge rst_ni) begin : p_regs
85 1/1 if (!rst_ni) begin
Tests: T1 T2 T3
86 1/1 reseed_timer_q <= '0;
Tests: T1 T2 T3
87 end else begin
88 1/1 reseed_timer_q <= reseed_timer_d;
Tests: T1 T2 T3
89 end
90 end
91
92 ///////////////////////////
93 // Tandem LFSR Instances //
94 ///////////////////////////
95
96 logic cnt_set, lfsr_err;
97 logic [LfsrWidth-1:0] entropy;
98 logic [PING_CNT_DW + IdDw - 1:0] lfsr_state;
99 1/1 assign entropy = (reseed_en) ? edn_data_i[LfsrWidth-1:0] : '0;
Tests: T1 T2 T3
100
101 // SEC_CM: PING_TIMER.LFSR.REDUN
102 // We employ two redundant LFSRs to guard against FI attacks.
103 // If any of the two is glitched and the two LFSR states do not agree,
104 // the FSM below is moved into a terminal error state and all ping alerts
105 // are permanently asserted.
106 prim_double_lfsr #(
107 .LfsrDw ( LfsrWidth ),
108 .EntropyDw ( LfsrWidth ),
109 .StateOutDw ( PING_CNT_DW + IdDw ),
110 .DefaultSeed ( RndCnstLfsrSeed ),
111 .StatePermEn ( 1'b1 ),
112 .StatePerm ( RndCnstLfsrPerm ),
113 .MaxLenSVA ( MaxLenSVA ),
114 .LockupSVA ( LockupSVA ),
115 .ExtSeedSVA ( 1'b0 ), // ext seed is unused
116 .EnableAlertTriggerSVA ( 1'b0 )
117 ) u_prim_double_lfsr (
118 .clk_i,
119 .rst_ni,
120 .seed_en_i ( 1'b0 ),
121 .seed_i ( '0 ),
122 .lfsr_en_i ( reseed_en || cnt_set ),
123 .entropy_i ( entropy ),
124 .state_o ( lfsr_state ),
125 .err_o ( lfsr_err )
126 );
127
128 logic [IdDw-1:0] id_to_ping_d, id_to_ping_q;
129 // The subtraction below ensures that the alert ID is always in range. If
130 // all alerts are enabled, an alert ID drawn in this way will always be
131 // valid. This comes at the cost of a bias towards certain alert IDs that
132 // will be pinged twice as often on average - but it ensures that we have
133 // less alert IDs that need to be skipped since they are invalid.
134 1/1 assign id_to_ping_d = (lfsr_state[PING_CNT_DW +: IdDw] >= NAlerts) ?
Tests: T1 T2 T3
135 lfsr_state[PING_CNT_DW +: IdDw] - NAlerts :
136 lfsr_state[PING_CNT_DW +: IdDw];
137
138 // we need to hold the ID stable while the ping is ongoing since this will result in
139 // spurious ping responses otherwise.
140 always_ff @(posedge clk_i or negedge rst_ni) begin : p_id_reg
141 1/1 if (!rst_ni) begin
Tests: T1 T2 T3
142 1/1 id_to_ping_q <= '0;
Tests: T1 T2 T3
143 end else begin
144 1/1 if (cnt_set) begin
Tests: T1 T2 T3
145 1/1 id_to_ping_q <= id_to_ping_d;
Tests: T4 T5 T6
146 end
MISSING_ELSE
147 end
148 end
149
150 // align the enable mask with powers of two for the indexing operation below.
151 logic [2**IdDw-1:0] enable_mask;
152 1/1 assign enable_mask = (2**IdDw)'(alert_ping_en_i);
Tests: T1 T2 T3
153
154 // check if the randomly drawn alert ID is actually valid and the alert is enabled
155 logic id_vld;
156 1/1 assign id_vld = enable_mask[id_to_ping_q];
Tests: T1 T2 T3
157
158 //////////////////////////////////
159 // Escalation Counter Instances //
160 //////////////////////////////////
161
162 // As opposed to the alert ID, the escalation sender ID to be pinged is not drawn at random.
163 // Rather, we cycle through the escalation senders one by one in a deterministic fashion.
164 // This allows us to provide guarantees needed for the ping timeout / auto escalation feature
165 // implemented at the escalation receiver side.
166 //
167 // In particular, with N_ESC_SEV escalation senders in the design, we can guarantee
168 // that each escalation channel will be pinged at least once every
169 //
170 // N_ESC_SEV x (NUM_WAIT_COUNT + NUM_TIMEOUT_COUNT) x 2**PING_CNT_DW
171 //
172 // cycles - independently of the reseeding operation.
173 //
174 // - N_ESC_SEV: # escalation channels to ping.
175 // - NUM_WAIT_COUNT: # wait counts between subsequent escalation channel pings.
176 // - NUM_TIMEOUT_COUNT: # timeout counts between subsequent escalation channel pings.
177 // - 2**PING_CNT_DW: # maximum counter value.
178 //
179 // This guarantee is used inside the escalation receivers to monitor the pings sent out by the
180 // alert handler. I.e., once the alert handler has started to send out pings, each escalation
181 // receiver employs a timeout window within which it expects the next ping to arrive. If
182 // escalation pings cease to arrive at an escalation receiver for any reason, this will
183 // automatically trigger the associated escalation countermeasure.
184 //
185 // In order to have enough margin, the escalation receiver timeout counters use a threshold that
186 // is 4x higher than the value calculated above. With N_ESC_SEV = 4, PING_CNT_DW = 16 and
187 // NUM_WAIT_COUNT = NUM_TIMEOUT_COUNT = 2 this amounts to a 22bit timeout threshold.
188 //
189 // We employ two redundant counters to guard against FI attacks.
190 // If any of the two is glitched and the two counter states do not agree,
191 // the FSM below is moved into a terminal error state and all ping alerts
192 // are permanently asserted.
193
194 logic esc_cnt_en, esc_cnt_clr, esc_cnt_error;
195 logic [EscSenderIdxWidth-1:0] esc_cnt;
196 1/1 assign esc_cnt_clr = (esc_cnt >= EscSenderIdxWidth'(N_ESC_SEV-1)) && esc_cnt_en;
Tests: T1 T2 T3
197
198 // SEC_CM: PING_TIMER.CTR.REDUN
199 prim_count #(
200 .Width(EscSenderIdxWidth),
201 // The alert handler behaves differently than other comportable IP. I.e., instead of sending out
202 // an alert signal, this condition is handled internally in the alert handler.
203 .EnableAlertTriggerSVA(0),
204 // Pass a parameter to disable coverage for some assertions that are unreachable because set_i
205 // and decr_en_i are tied to zero.
206 .PossibleActions(prim_count_pkg::Clr |
207 prim_count_pkg::Incr)
208 ) u_prim_count_esc_cnt (
209 .clk_i,
210 .rst_ni,
211 .clr_i(esc_cnt_clr),
212 .set_i(1'b0),
213 .set_cnt_i('0),
214 .incr_en_i(esc_cnt_en),
215 .decr_en_i(1'b0),
216 .step_i(EscSenderIdxWidth'(1)),
217 .commit_i(1'b1),
218 .cnt_o(esc_cnt),
219 .cnt_after_commit_o(),
220 .err_o(esc_cnt_error)
221 );
222
223 /////////////////////////////
224 // Timer Counter Instances //
225 /////////////////////////////
226
227 // We employ two redundant counters to guard against FI attacks.
228 // If any of the two is glitched and the two counter states do not agree,
229 // the FSM below is moved into a terminal error state and all ping alerts
230 // are permanently asserted.
231 logic [PING_CNT_DW-1:0] cnt, cnt_setval;
232 logic wait_cnt_set, timeout_cnt_set, timer_expired, cnt_error;
233 1/1 assign timer_expired = (cnt == '0);
Tests: T1 T2 T3
234 1/1 assign cnt_set = wait_cnt_set || timeout_cnt_set;
Tests: T1 T2 T3
235
236 // SEC_CM: PING_TIMER.CTR.REDUN
237 prim_count #(
238 .Width(PING_CNT_DW),
239 // The alert handler behaves differently than other comportable IP. I.e., instead of sending out
240 // an alert signal, this condition is handled internally in the alert handler.
241 .EnableAlertTriggerSVA(0),
242 // Pass a parameter to disable coverage for some assertions that are unreachable because clr_i
243 // and incr_en_i are tied to zero.
244 .PossibleActions(prim_count_pkg::Set |
245 prim_count_pkg::Decr)
246 ) u_prim_count_cnt (
247 .clk_i,
248 .rst_ni,
249 .clr_i(1'b0),
250 .set_i(cnt_set),
251 .set_cnt_i(cnt_setval),
252 .incr_en_i(1'b0),
253 .decr_en_i(1'b1), // we are counting down here.
254 .step_i(PING_CNT_DW'(1'b1)),
255 .commit_i(1'b1),
256 .cnt_o(cnt),
257 .cnt_after_commit_o(),
258 .err_o(cnt_error)
259 );
260
261 // the constant offset ensures a minimum cycle spacing between pings.
262 logic unused_bits;
263 logic [PING_CNT_DW-1:0] wait_cyc;
264 1/1 assign wait_cyc = (lfsr_state[PING_CNT_DW-1:0] | PING_CNT_DW'(3'b100));
Tests: T1 T2 T3
265 1/1 assign unused_bits = lfsr_state[2];
Tests: T1 T2 T3
266
267 // note that the masks are used for DV/FPV only in order to reduce the state space.
268 1/1 assign cnt_setval = (wait_cnt_set) ? (wait_cyc & wait_cyc_mask_i) : ping_timeout_cyc_i;
Tests: T1 T2 T3
269
270 ////////////////////////////
271 // Ping and Timeout Logic //
272 ////////////////////////////
273
274 logic alert_ping_en, esc_ping_en;
275 logic spurious_alert_ping, spurious_esc_ping;
276
277 // generate ping enable vector
278 1/1 assign alert_ping_req_o = NAlerts'(alert_ping_en) << id_to_ping_q;
Tests: T1 T2 T3
279 1/1 assign esc_ping_req_o = EscSenderIdxWidth'(esc_ping_en) << esc_cnt;
Tests: T1 T2 T3
280
281 // under normal operation, these signals should never be asserted.
282 // we place hand instantiated buffers here such that these signals are not
283 // optimized away during synthesis (these buffers will receive a keep or size_only
284 // attribute in our Vivado and DC synthesis flows).
285 prim_buf u_prim_buf_spurious_alert_ping (
286 .in_i(|(alert_ping_ok_i & ~alert_ping_req_o)),
287 .out_o(spurious_alert_ping)
288 );
289 prim_buf u_prim_buf_spurious_esc_ping (
290 .in_i(|(esc_ping_ok_i & ~esc_ping_req_o)),
291 .out_o(spurious_esc_ping)
292 );
293
294 // SEC_CM: PING_TIMER.FSM.SPARSE
295 // Encoding generated with:
296 // $ ./util/design/sparse-fsm-encode.py -d 5 -m 6 -n 9 \
297 // -s 728582219 --language=sv
298 //
299 // Hamming distance histogram:
300 //
301 // 0: --
302 // 1: --
303 // 2: --
304 // 3: --
305 // 4: --
306 // 5: |||||||||||||||||||| (60.00%)
307 // 6: ||||||||||||| (40.00%)
308 // 7: --
309 // 8: --
310 // 9: --
311 //
312 // Minimum Hamming distance: 5
313 // Maximum Hamming distance: 6
314 // Minimum Hamming weight: 2
315 // Maximum Hamming weight: 6
316 //
317 localparam int StateWidth = 9;
318 typedef enum logic [StateWidth-1:0] {
319 InitSt = 9'b011001011,
320 AlertWaitSt = 9'b110000000,
321 AlertPingSt = 9'b101110001,
322 EscWaitSt = 9'b010110110,
323 EscPingSt = 9'b000011101,
324 FsmErrorSt = 9'b101101110
325 } state_e;
326
327 state_e state_d, state_q;
328
329 always_comb begin : p_fsm
330 // default
331 1/1 state_d = state_q;
Tests: T1 T2 T3
332 1/1 wait_cnt_set = 1'b0;
Tests: T1 T2 T3
333 1/1 timeout_cnt_set = 1'b0;
Tests: T1 T2 T3
334 1/1 esc_cnt_en = 1'b0;
Tests: T1 T2 T3
335 1/1 alert_ping_en = 1'b0;
Tests: T1 T2 T3
336 1/1 esc_ping_en = 1'b0;
Tests: T1 T2 T3
337 // this captures spurious ping responses
338 1/1 alert_ping_fail_o = spurious_alert_ping;
Tests: T1 T2 T3
339 1/1 esc_ping_fail_o = spurious_esc_ping;
Tests: T1 T2 T3
340
341 1/1 unique case (state_q)
Tests: T1 T2 T3
342 // wait until activated
343 // we never return to this state
344 // once activated!
345 InitSt: begin
346 1/1 if (en_i) begin
Tests: T1 T2 T3
347 1/1 state_d = AlertWaitSt;
Tests: T4 T5 T6
348 1/1 wait_cnt_set = 1'b1;
Tests: T4 T5 T6
349 end
MISSING_ELSE
350 end
351 // wait for random amount of cycles
352 AlertWaitSt: begin
353 1/1 if (timer_expired) begin
Tests: T4 T5 T6
354 1/1 state_d = AlertPingSt;
Tests: T4 T6 T16
355 1/1 timeout_cnt_set = 1'b1;
Tests: T4 T6 T16
356 end
MISSING_ELSE
357 end
358 // SEC_CM: ALERT_RX.INTERSIG.BKGN_CHK
359 // send out an alert ping request and wait for a ping
360 // response or a ping timeout (whatever comes first).
361 // if the alert ID is not valid, we drop the request and
362 // proceed to the next ping.
363 AlertPingSt: begin
364 1/1 alert_ping_en = id_vld;
Tests: T4 T6 T16
365 1/1 if (timer_expired || |(alert_ping_ok_i & alert_ping_req_o) || !id_vld) begin
Tests: T4 T6 T16
366 1/1 state_d = EscWaitSt;
Tests: T4 T6 T16
367 1/1 wait_cnt_set = 1'b1;
Tests: T4 T6 T16
368 1/1 if (timer_expired) begin
Tests: T4 T6 T16
369 1/1 alert_ping_fail_o = 1'b1;
Tests: T17 T18 T19
370 end
MISSING_ELSE
371 end
MISSING_ELSE
372 end
373 // wait for random amount of cycles
374 EscWaitSt: begin
375 1/1 if (timer_expired) begin
Tests: T4 T6 T16
376 1/1 state_d = EscPingSt;
Tests: T4 T6 T7
377 1/1 timeout_cnt_set = 1'b1;
Tests: T4 T6 T7
378 end
MISSING_ELSE
379 end
380 // SEC_CM: ESC_TX.INTERSIG.BKGN_CHK
381 // send out an escalation ping request and wait for a ping
382 // response or a ping timeout (whatever comes first)
383 EscPingSt: begin
384 1/1 esc_ping_en = 1'b1;
Tests: T4 T6 T7
385 1/1 if (timer_expired || |(esc_ping_ok_i & esc_ping_req_o)) begin
Tests: T4 T6 T7
386 1/1 state_d = AlertWaitSt;
Tests: T4 T6 T7
387 1/1 wait_cnt_set = 1'b1;
Tests: T4 T6 T7
388 1/1 esc_cnt_en = 1'b1;
Tests: T4 T6 T7
389 1/1 if (timer_expired) begin
Tests: T4 T6 T7
390 1/1 esc_ping_fail_o = 1'b1;
Tests: T17 T18 T19
391 end
MISSING_ELSE
392 end
MISSING_ELSE
393 end
394 // SEC_CM: PING_TIMER.FSM.LOCAL_ESC
395 // terminal FSM error state.
396 // if we for some reason end up in this state (e.g. malicious glitching)
397 // we are going to assert both ping fails continuously
398 FsmErrorSt: begin
399 1/1 alert_ping_fail_o = 1'b1;
Tests: T5 T8 T9
400 1/1 esc_ping_fail_o = 1'b1;
Tests: T5 T8 T9
401 end
402 default: begin
403 state_d = FsmErrorSt;
404 alert_ping_fail_o = 1'b1;
405 esc_ping_fail_o = 1'b1;
406 end
407 endcase
408
409 // SEC_CM: PING_TIMER.FSM.LOCAL_ESC
410 // if the two LFSR or counter states do not agree,
411 // we move into the terminal state.
412 1/1 if (lfsr_err || cnt_error || esc_cnt_error) begin
Tests: T1 T2 T3
413 1/1 state_d = FsmErrorSt;
Tests: T5 T8 T9
414 1/1 alert_ping_fail_o = 1'b1;
Tests: T5 T8 T9
415 1/1 esc_ping_fail_o = 1'b1;
Tests: T5 T8 T9
416 end
MISSING_ELSE
417 end
418
419 ///////////////////
420 // FSM Registers //
421 ///////////////////
422
423 // The alert handler behaves differently than other comportable IP. I.e., instead of sending out
424 // an alert signal, this condition is handled internally in the alert handler. The
425 // EnableAlertTriggerSVA parameter is therefore set to 0.
426 3/3 `PRIM_FLOP_SPARSE_FSM(u_state_regs, state_d, state_q, state_e, InitSt, clk_i, rst_ni, 0)
Tests: T1 T2 T3 | T1 T2 T3 | T1 T2 T3
PRIM_FLOP_SPARSE_FSM(u_state_regs, state_d, state_q, state_e, InitSt, clk_i, rst_ni, 0):
426.1 `ifdef SIMULATION
426.2 prim_sparse_fsm_flop #(
426.3 .StateEnumT(state_e),
426.4 .Width($bits(state_e)),
426.5 .ResetValue($bits(state_e)'(InitSt)),
426.6 .EnableAlertTriggerSVA(0),
426.7 .CustomForceName("state_q")
426.8 ) u_state_regs (
426.9 .clk_i ( clk_i ),
426.10 .rst_ni ( rst_ni ),
426.11 .state_i ( state_d ),
426.12 .state_o ( )
426.13 );
426.14 always_ff @(posedge clk_i or negedge rst_ni) begin
426.15 1/1 if (!rst_ni) begin
Tests: T1 T2 T3
426.16 1/1 state_q <= InitSt;
Tests: T1 T2 T3
426.17 end else begin
426.18 1/1 state_q <= state_d;
Tests: T1 T2 T3
426.19 end
426.20 end
426.21 u_state_regs_A: assert property (@(posedge clk_i) disable iff ((!rst_ni) !== '0) (state_q === u_state_regs.state_o))
426.22 else begin
426.23 `ifdef UVM
426.24 uvm_pkg::uvm_report_error("ASSERT FAILED", "u_state_regs_A", uvm_pkg::UVM_NONE,
426.25 "../src/lowrisc_ip_alert_handler_component_0.1/rtl/alert_handler_ping_timer.sv", 426, "", 1);
426.26 `else
426.27 $error("%0t: (%0s:%0d) [%m] [ASSERT FAILED] %0s", $time, `__FILE__, `__LINE__,
426.28 `PRIM_STRINGIFY(u_state_regs_A));
426.29 `endif
426.30 end
426.31 `else
426.32 prim_sparse_fsm_flop #(
426.33 .StateEnumT(state_e),
426.34 .Width($bits(state_e)),
426.35 .ResetValue($bits(state_e)'(InitSt)),
426.36 .EnableAlertTriggerSVA(0)
426.37 ) u_state_regs (
426.38 .clk_i ( clk_i ),
426.39 .rst_ni ( rst_ni ),
426.40 .state_i ( state_d ),
426.41 .state_o ( state_q )
426.42 );
426.43 `endif
Cond Coverage for Instance : tb.dut.u_ping_timer
| Total | Covered | Percent |
Conditions | 37 | 36 | 97.30 |
Logical | 37 | 36 | 97.30 |
Non-Logical | 0 | 0 | |
Event | 0 | 0 | |
LINE 78
EXPRESSION ((reseed_timer_q > '0) ? ((reseed_timer_q - 1'b1)) : (reseed_en ? ({wait_cyc_mask_i, {ReseedLfsrExtraBits {1'b1}}}) : '0))
----------1----------
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 78
SUB-EXPRESSION (reseed_en ? ({wait_cyc_mask_i, {ReseedLfsrExtraBits {1'b1}}}) : '0)
----1----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 81
EXPRESSION (reseed_timer_q == '0)
-----------1----------
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 82
EXPRESSION (edn_req_o & edn_ack_i)
----1---- ----2----
-1- | -2- | Status | Tests |
0 | 1 | Not Covered | |
1 | 0 | Covered | T1,T2,T3 |
1 | 1 | Covered | T1,T2,T3 |
LINE 99
EXPRESSION (reseed_en ? edn_data_i[(alert_pkg::LfsrWidth - 1):0] : '0)
----1----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 117
EXPRESSION (reseed_en || cnt_set)
----1---- ---2---
-1- | -2- | Status | Tests |
0 | 0 | Covered | T1,T2,T3 |
0 | 1 | Covered | T4,T5,T6 |
1 | 0 | Covered | T1,T2,T3 |
LINE 134
EXPRESSION
Number Term
1 (lfsr_state[alert_pkg::PING_CNT_DW+:IdDw] >= alert_pkg::NAlerts) ? ((lfsr_state[alert_pkg::PING_CNT_DW+:IdDw] - alert_pkg::NAlerts)) : lfsr_state[alert_pkg::PING_CNT_DW+:IdDw])
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T3,T20 |
LINE 196
EXPRESSION ((esc_cnt >= 2'((alert_pkg::N_ESC_SEV - 1))) && esc_cnt_en)
---------------------1--------------------- -----2----
-1- | -2- | Status | Tests |
0 | 1 | Covered | T4,T6,T7 |
1 | 0 | Covered | T4,T5,T6 |
1 | 1 | Covered | T4,T6,T7 |
LINE 233
EXPRESSION (cnt == '0)
-----1-----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T1,T2,T3 |
LINE 234
EXPRESSION (wait_cnt_set || timeout_cnt_set)
------1----- -------2-------
-1- | -2- | Status | Tests |
0 | 0 | Covered | T1,T2,T3 |
0 | 1 | Covered | T4,T6,T16 |
1 | 0 | Covered | T4,T5,T6 |
LINE 268
EXPRESSION (wait_cnt_set ? ((wait_cyc & wait_cyc_mask_i)) : ping_timeout_cyc_i)
------1-----
-1- | Status | Tests |
0 | Covered | T1,T2,T3 |
1 | Covered | T4,T5,T6 |
LINE 365
EXPRESSION (timer_expired || ((|(alert_ping_ok_i & alert_ping_req_o))) || ((!id_vld)))
------1------ --------------------2-------------------- -----3-----
-1- | -2- | -3- | Status | Tests |
0 | 0 | 0 | Covered | T4,T6,T7 |
0 | 0 | 1 | Covered | T4,T6,T16 |
0 | 1 | 0 | Covered | T4,T6,T7 |
1 | 0 | 0 | Covered | T17,T18,T19 |
LINE 385
EXPRESSION (timer_expired || ((|(esc_ping_ok_i & esc_ping_req_o))))
------1------ ------------------2------------------
-1- | -2- | Status | Tests |
0 | 0 | Covered | T4,T6,T7 |
0 | 1 | Covered | T4,T6,T7 |
1 | 0 | Covered | T17,T18,T19 |
LINE 412
EXPRESSION (lfsr_err || cnt_error || esc_cnt_error)
----1--- ----2---- ------3------
-1- | -2- | -3- | Status | Tests |
0 | 0 | 0 | Covered | T1,T2,T3 |
0 | 0 | 1 | Covered | T5,T8,T9 |
0 | 1 | 0 | Covered | T5,T8,T9 |
1 | 0 | 0 | Covered | T5,T8,T9 |
FSM Coverage for Instance : tb.dut.u_ping_timer
Summary for FSM :: state_q
| Total | Covered | Percent | |
States |
6 |
6 |
100.00 |
(Not included in score) |
Transitions |
6 |
6 |
100.00 |
|
Sequences |
0 |
0 |
|
|
State, Transition and Sequence Details for FSM :: state_q
states | Line No. | Covered | Tests |
AlertPingSt |
354 |
Covered |
T4,T6,T16 |
AlertWaitSt |
347 |
Covered |
T4,T5,T6 |
EscPingSt |
376 |
Covered |
T4,T6,T7 |
EscWaitSt |
366 |
Covered |
T4,T6,T16 |
FsmErrorSt |
413 |
Covered |
T5,T8,T9 |
InitSt |
345 |
Covered |
T1,T2,T3 |
transitions | Line No. | Covered | Tests | Exclude Annotation |
AlertPingSt->EscWaitSt |
366 |
Covered |
T4,T6,T16 |
|
AlertPingSt->FsmErrorSt |
413 |
Excluded |
|
[LOW_RISK]: Forcing from any state other than IdleSt to FSMErrorSt is covered in FPV. |
AlertWaitSt->AlertPingSt |
354 |
Covered |
T4,T6,T16 |
|
AlertWaitSt->FsmErrorSt |
413 |
Covered |
T5,T8,T9 |
|
EscPingSt->AlertWaitSt |
386 |
Covered |
T4,T6,T7 |
|
EscPingSt->FsmErrorSt |
413 |
Excluded |
|
[LOW_RISK]: Forcing from any state other than IdleSt to FSMErrorSt is covered in FPV. |
EscWaitSt->EscPingSt |
376 |
Covered |
T4,T6,T7 |
|
EscWaitSt->FsmErrorSt |
413 |
Excluded |
|
[LOW_RISK]: Forcing from any state other than IdleSt to FSMErrorSt is covered in FPV. |
InitSt->AlertWaitSt |
347 |
Covered |
T4,T5,T6 |
|
InitSt->FsmErrorSt |
413 |
Excluded |
|
[LOW_RISK]: Forcing from any state other than IdleSt to FSMErrorSt is covered in FPV. |
Branch Coverage for Instance : tb.dut.u_ping_timer
| Line No. | Total | Covered | Percent |
Branches |
|
32 |
32 |
100.00 |
TERNARY |
78 |
3 |
3 |
100.00 |
TERNARY |
99 |
2 |
2 |
100.00 |
TERNARY |
134 |
2 |
2 |
100.00 |
TERNARY |
268 |
2 |
2 |
100.00 |
IF |
85 |
2 |
2 |
100.00 |
IF |
141 |
3 |
3 |
100.00 |
CASE |
341 |
14 |
14 |
100.00 |
IF |
412 |
2 |
2 |
100.00 |
IF |
426 |
2 |
2 |
100.00 |
78 assign reseed_timer_d = (reseed_timer_q > '0) ? reseed_timer_q - 1'b1 :
-1-
==>
79 (reseed_en) ? {wait_cyc_mask_i,
-2-
==>
==>
Branches:
-1- | -2- | Status | Tests |
1 |
- |
Covered |
T1,T2,T3 |
0 |
1 |
Covered |
T1,T2,T3 |
0 |
0 |
Covered |
T1,T2,T3 |
99 assign entropy = (reseed_en) ? edn_data_i[LfsrWidth-1:0] : '0;
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T2,T3 |
0 |
Covered |
T1,T2,T3 |
134 assign id_to_ping_d = (lfsr_state[PING_CNT_DW +: IdDw] >= NAlerts) ?
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T3,T20 |
0 |
Covered |
T1,T2,T3 |
268 assign cnt_setval = (wait_cnt_set) ? (wait_cyc & wait_cyc_mask_i) : ping_timeout_cyc_i;
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T4,T5,T6 |
0 |
Covered |
T1,T2,T3 |
85 if (!rst_ni) begin
-1-
86 reseed_timer_q <= '0;
==>
87 end else begin
88 reseed_timer_q <= reseed_timer_d;
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T2,T3 |
0 |
Covered |
T1,T2,T3 |
141 if (!rst_ni) begin
-1-
142 id_to_ping_q <= '0;
==>
143 end else begin
144 if (cnt_set) begin
-2-
145 id_to_ping_q <= id_to_ping_d;
==>
146 end
MISSING_ELSE
==>
Branches:
-1- | -2- | Status | Tests |
1 |
- |
Covered |
T1,T2,T3 |
0 |
1 |
Covered |
T4,T5,T6 |
0 |
0 |
Covered |
T1,T2,T3 |
341 unique case (state_q)
-1-
342 // wait until activated
343 // we never return to this state
344 // once activated!
345 InitSt: begin
346 if (en_i) begin
-2-
347 state_d = AlertWaitSt;
==>
348 wait_cnt_set = 1'b1;
349 end
MISSING_ELSE
==>
350 end
351 // wait for random amount of cycles
352 AlertWaitSt: begin
353 if (timer_expired) begin
-3-
354 state_d = AlertPingSt;
==>
355 timeout_cnt_set = 1'b1;
356 end
MISSING_ELSE
==>
357 end
358 // SEC_CM: ALERT_RX.INTERSIG.BKGN_CHK
359 // send out an alert ping request and wait for a ping
360 // response or a ping timeout (whatever comes first).
361 // if the alert ID is not valid, we drop the request and
362 // proceed to the next ping.
363 AlertPingSt: begin
364 alert_ping_en = id_vld;
365 if (timer_expired || |(alert_ping_ok_i & alert_ping_req_o) || !id_vld) begin
-4-
366 state_d = EscWaitSt;
367 wait_cnt_set = 1'b1;
368 if (timer_expired) begin
-5-
369 alert_ping_fail_o = 1'b1;
==>
370 end
MISSING_ELSE
==>
371 end
MISSING_ELSE
==>
372 end
373 // wait for random amount of cycles
374 EscWaitSt: begin
375 if (timer_expired) begin
-6-
376 state_d = EscPingSt;
==>
377 timeout_cnt_set = 1'b1;
378 end
MISSING_ELSE
==>
379 end
380 // SEC_CM: ESC_TX.INTERSIG.BKGN_CHK
381 // send out an escalation ping request and wait for a ping
382 // response or a ping timeout (whatever comes first)
383 EscPingSt: begin
384 esc_ping_en = 1'b1;
385 if (timer_expired || |(esc_ping_ok_i & esc_ping_req_o)) begin
-7-
386 state_d = AlertWaitSt;
387 wait_cnt_set = 1'b1;
388 esc_cnt_en = 1'b1;
389 if (timer_expired) begin
-8-
390 esc_ping_fail_o = 1'b1;
==>
391 end
MISSING_ELSE
==>
392 end
MISSING_ELSE
==>
393 end
394 // SEC_CM: PING_TIMER.FSM.LOCAL_ESC
395 // terminal FSM error state.
396 // if we for some reason end up in this state (e.g. malicious glitching)
397 // we are going to assert both ping fails continuously
398 FsmErrorSt: begin
399 alert_ping_fail_o = 1'b1;
==>
400 esc_ping_fail_o = 1'b1;
401 end
402 default: begin
403 state_d = FsmErrorSt;
==>
Branches:
-1- | -2- | -3- | -4- | -5- | -6- | -7- | -8- | Status | Tests |
InitSt |
1 |
- |
- |
- |
- |
- |
- |
Covered |
T4,T5,T6 |
InitSt |
0 |
- |
- |
- |
- |
- |
- |
Covered |
T1,T2,T3 |
AlertWaitSt |
- |
1 |
- |
- |
- |
- |
- |
Covered |
T4,T6,T16 |
AlertWaitSt |
- |
0 |
- |
- |
- |
- |
- |
Covered |
T4,T5,T6 |
AlertPingSt |
- |
- |
1 |
1 |
- |
- |
- |
Covered |
T17,T18,T19 |
AlertPingSt |
- |
- |
1 |
0 |
- |
- |
- |
Covered |
T4,T6,T16 |
AlertPingSt |
- |
- |
0 |
- |
- |
- |
- |
Covered |
T4,T6,T7 |
EscWaitSt |
- |
- |
- |
- |
1 |
- |
- |
Covered |
T4,T6,T7 |
EscWaitSt |
- |
- |
- |
- |
0 |
- |
- |
Covered |
T4,T6,T16 |
EscPingSt |
- |
- |
- |
- |
- |
1 |
1 |
Covered |
T17,T18,T19 |
EscPingSt |
- |
- |
- |
- |
- |
1 |
0 |
Covered |
T4,T6,T7 |
EscPingSt |
- |
- |
- |
- |
- |
0 |
- |
Covered |
T4,T6,T7 |
FsmErrorSt |
- |
- |
- |
- |
- |
- |
- |
Covered |
T5,T8,T9 |
default |
- |
- |
- |
- |
- |
- |
- |
Covered |
T5,T8,T9 |
412 if (lfsr_err || cnt_error || esc_cnt_error) begin
-1-
413 state_d = FsmErrorSt;
==>
414 alert_ping_fail_o = 1'b1;
415 esc_ping_fail_o = 1'b1;
416 end
MISSING_ELSE
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T5,T8,T9 |
0 |
Covered |
T1,T2,T3 |
426 `PRIM_FLOP_SPARSE_FSM(u_state_regs, state_d, state_q, state_e, InitSt, clk_i, rst_ni, 0)
-1-
==>
==>
Branches:
-1- | Status | Tests |
1 |
Covered |
T1,T2,T3 |
0 |
Covered |
T1,T2,T3 |
Assert Coverage for Instance : tb.dut.u_ping_timer
Assertion Details
AlertPingOH_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
189903 |
0 |
0 |
T4 |
14715 |
1275 |
0 |
0 |
T5 |
54634 |
0 |
0 |
0 |
T6 |
66911 |
2262 |
0 |
0 |
T7 |
0 |
2293 |
0 |
0 |
T8 |
41275 |
0 |
0 |
0 |
T12 |
6904 |
0 |
0 |
0 |
T13 |
16089 |
0 |
0 |
0 |
T14 |
2924 |
0 |
0 |
0 |
T15 |
25445 |
0 |
0 |
0 |
T16 |
19328 |
0 |
0 |
0 |
T17 |
0 |
784 |
0 |
0 |
T18 |
0 |
1528 |
0 |
0 |
T19 |
0 |
2692 |
0 |
0 |
T21 |
0 |
3180 |
0 |
0 |
T22 |
0 |
2250 |
0 |
0 |
T23 |
0 |
2830 |
0 |
0 |
T24 |
0 |
2669 |
0 |
0 |
T25 |
47484 |
0 |
0 |
0 |
EscPingOH_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
126169 |
0 |
0 |
T4 |
14715 |
1295 |
0 |
0 |
T5 |
54634 |
0 |
0 |
0 |
T6 |
66911 |
2250 |
0 |
0 |
T7 |
0 |
2355 |
0 |
0 |
T8 |
41275 |
0 |
0 |
0 |
T12 |
6904 |
0 |
0 |
0 |
T13 |
16089 |
0 |
0 |
0 |
T14 |
2924 |
0 |
0 |
0 |
T15 |
25445 |
0 |
0 |
0 |
T16 |
19328 |
0 |
0 |
0 |
T17 |
0 |
211 |
0 |
0 |
T18 |
0 |
784 |
0 |
0 |
T19 |
0 |
1202 |
0 |
0 |
T21 |
0 |
3155 |
0 |
0 |
T22 |
0 |
2165 |
0 |
0 |
T23 |
0 |
2770 |
0 |
0 |
T24 |
0 |
2660 |
0 |
0 |
T25 |
47484 |
0 |
0 |
0 |
MaxIdDw_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
623 |
623 |
0 |
0 |
T1 |
1 |
1 |
0 |
0 |
T2 |
1 |
1 |
0 |
0 |
T3 |
1 |
1 |
0 |
0 |
T4 |
1 |
1 |
0 |
0 |
T5 |
1 |
1 |
0 |
0 |
T10 |
1 |
1 |
0 |
0 |
T11 |
1 |
1 |
0 |
0 |
T13 |
1 |
1 |
0 |
0 |
T15 |
1 |
1 |
0 |
0 |
T20 |
1 |
1 |
0 |
0 |
PingOH0_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
WaitCycMaskIsRightAlignedMask_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
WaitCycMaskMin_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |
u_state_regs_A
Name | Attempts | Real Successes | Failures | Incomplete |
Total |
536682127 |
536511140 |
0 |
0 |
T1 |
1832 |
1738 |
0 |
0 |
T2 |
4638 |
4562 |
0 |
0 |
T3 |
1737 |
1659 |
0 |
0 |
T4 |
14715 |
14541 |
0 |
0 |
T5 |
54634 |
41677 |
0 |
0 |
T10 |
16916 |
16835 |
0 |
0 |
T11 |
3660 |
3601 |
0 |
0 |
T13 |
16089 |
16008 |
0 |
0 |
T15 |
25445 |
25358 |
0 |
0 |
T20 |
15700 |
15639 |
0 |
0 |