xref: /illumos-gate/usr/src/test/os-tests/tests/imc/imc_test_fail.c (revision a92282e44f968185a6bba094d1e5fece2da819cf)
1 /*
2  * This file and its contents are supplied under the terms of the
3  * Common Development and Distribution License ("CDDL"), version 1.0.
4  * You may only use this file in accordance with the terms of version
5  * 1.0 of the CDDL.
6  *
7  * A full copy of the text of the CDDL should have accompanied this
8  * source.  A copy of the CDDL is also available via the Internet at
9  * http://www.illumos.org/license/CDDL.
10  */
11 
12 /*
13  * Copyright 2019 Joyent, Inc.
14  */
15 
16 #include "imc_test.h"
17 
18 /*
19  * This file tests several different miscellaneous failure modes by using
20  * incomplete imc_t and imc_t with bad data.
21  */
22 
23 /*
24  * This IMC is a nominally valid IMC; however, it has flags indicate that the
25  * socket has bad data.
26  */
27 static const imc_t imc_badsock = {
28 	.imc_gen = IMC_GEN_SANDY,
29 	.imc_nsockets = 1,
30 	.imc_sockets[0] = {
31 		.isock_valid = IMC_SOCKET_V_BAD_NODEID,
32 		.isock_sad = {
33 			.isad_flags = 0,
34 			.isad_valid = IMC_SAD_V_VALID,
35 			.isad_tolm = 0x80000000,	/* 2 GiB */
36 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
37 			.isad_nrules = 10,
38 			.isad_rules[0] = {
39 				.isr_enable = B_TRUE,
40 				.isr_limit = 0x80000000,
41 				.isr_imode = IMC_SAD_IMODE_8t6,
42 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
43 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
44 			},
45 			.isad_rules[1] = {
46 				.isr_enable = B_TRUE,
47 				.isr_limit = 0x280000000ULL,
48 				.isr_imode = IMC_SAD_IMODE_8t6,
49 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
50 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
51 			}
52 		},
53 		.isock_ntad = 1,
54 		.isock_tad[0] = {
55 			.itad_flags = 0,
56 			.itad_nrules = 12,
57 			.itad_rules[0] = {
58 				.itr_base = 0x0,
59 				.itr_limit = 0x80000000,
60 				.itr_sock_way = 1,
61 				.itr_chan_way = 1,
62 				.itr_sock_gran = IMC_TAD_GRAN_64B,
63 				.itr_chan_gran = IMC_TAD_GRAN_64B,
64 				.itr_ntargets = 4,
65 				.itr_targets = { 0, 0, 0, 0 }
66 			},
67 			.itad_rules[1] = {
68 				.itr_base = 0x80000000,
69 				.itr_limit = 0x280000000ULL,
70 				.itr_sock_way = 1,
71 				.itr_chan_way = 1,
72 				.itr_sock_gran = IMC_TAD_GRAN_64B,
73 				.itr_chan_gran = IMC_TAD_GRAN_64B,
74 				.itr_ntargets = 4,
75 				.itr_targets = { 0, 0, 0, 0 }
76 			}
77 		},
78 		.isock_nimc = 1,
79 		.isock_imcs[0] = {
80 			.icn_nchannels = 1,
81 			.icn_dimm_type = IMC_DIMM_DDR3,
82 			.icn_ecc = B_TRUE,
83 			.icn_lockstep = B_FALSE,
84 			.icn_closed = B_FALSE,
85 			.icn_channels[0] = {
86 				.ich_ndimms = 1,
87 				.ich_dimms[0] = {
88 					.idimm_present = B_TRUE,
89 					.idimm_nbanks = 3,
90 					.idimm_width = 8,
91 					.idimm_density = 2,
92 					.idimm_nranks = 2,
93 					.idimm_nrows = 14,
94 					.idimm_ncolumns = 10,
95 					.idimm_size = 0x80000000
96 				},
97 				.ich_ntad_offsets = 12,
98 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
99 				    0, 0, 0, 0, 0 },
100 				.ich_nrankileaves = 8,
101 				.ich_rankileaves[0] = {
102 					.irle_enabled = B_TRUE,
103 					.irle_nways = 2,
104 					.irle_nwaysbits = 1,
105 					.irle_limit = 0x200000000ULL,
106 					.irle_nentries = 5,
107 					.irle_entries[0] = { 0x0, 0x0 },
108 					.irle_entries[1] = { 0x1, 0x0 }
109 				}
110 			}
111 		}
112 	}
113 };
114 
115 static const imc_t imc_invalid_sad = {
116 	.imc_gen = IMC_GEN_SANDY,
117 	.imc_nsockets = 1,
118 	.imc_sockets[0] = {
119 		.isock_valid = 0,
120 		.isock_sad = {
121 			.isad_flags = 0,
122 			.isad_valid = IMC_SAD_V_BAD_DRAM_ATTR,
123 			.isad_tolm = 0x80000000,	/* 2 GiB */
124 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
125 			.isad_nrules = 10,
126 			.isad_rules[0] = {
127 				.isr_enable = B_TRUE,
128 				.isr_limit = 0x80000000,
129 				.isr_imode = IMC_SAD_IMODE_8t6,
130 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
131 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
132 			},
133 			.isad_rules[1] = {
134 				.isr_enable = B_TRUE,
135 				.isr_limit = 0x280000000ULL,
136 				.isr_imode = IMC_SAD_IMODE_8t6,
137 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
138 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
139 			}
140 		}
141 	}
142 };
143 
144 static const imc_t imc_invalid_sad_rule = {
145 	.imc_gen = IMC_GEN_SANDY,
146 	.imc_nsockets = 1,
147 	.imc_sockets[0] = {
148 		.isock_valid = 0,
149 		.isock_sad = {
150 			.isad_flags = 0,
151 			.isad_valid = IMC_SAD_V_VALID,
152 			.isad_tolm = 0x80000000,	/* 2 GiB */
153 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
154 			.isad_nrules = 10,
155 			.isad_rules[0] = {
156 				.isr_enable = B_TRUE,
157 				.isr_limit = 0x34,
158 				.isr_imode = IMC_SAD_IMODE_8t6,
159 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
160 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
161 			},
162 			.isad_rules[1] = {
163 				.isr_enable = B_TRUE,
164 				.isr_limit = 0x42,
165 				.isr_imode = IMC_SAD_IMODE_8t6,
166 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
167 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
168 			}
169 		}
170 	}
171 };
172 
173 static const imc_t imc_invalid_sad_interleave = {
174 	.imc_gen = IMC_GEN_SANDY,
175 	.imc_nsockets = 1,
176 	.imc_sockets[0] = {
177 		.isock_valid = 0,
178 		.isock_sad = {
179 			.isad_flags = 0,
180 			.isad_valid = IMC_SAD_V_VALID,
181 			.isad_tolm = 0x80000000,	/* 2 GiB */
182 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
183 			.isad_nrules = 10,
184 			.isad_rules[0] = {
185 				.isr_enable = B_TRUE,
186 				.isr_limit = 0x80000000,
187 				.isr_imode = IMC_SAD_IMODE_8t6,
188 				.isr_ntargets = 0
189 			},
190 			.isad_rules[1] = {
191 				.isr_enable = B_TRUE,
192 				.isr_limit = 0x280000000ULL,
193 				.isr_imode = IMC_SAD_IMODE_8t6,
194 				.isr_ntargets = 0
195 			}
196 		}
197 	}
198 };
199 
200 static const imc_t imc_invalid_sad_target = {
201 	.imc_gen = IMC_GEN_SANDY,
202 	.imc_nsockets = 1,
203 	.imc_sockets[0] = {
204 		.isock_valid = 0,
205 		.isock_sad = {
206 			.isad_flags = 0,
207 			.isad_valid = IMC_SAD_V_VALID,
208 			.isad_tolm = 0x80000000,	/* 2 GiB */
209 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
210 			.isad_nrules = 10,
211 			.isad_rules[0] = {
212 				.isr_enable = B_TRUE,
213 				.isr_limit = 0x80000000,
214 				.isr_imode = IMC_SAD_IMODE_8t6,
215 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
216 				.isr_targets = { 9, 9, 9, 9, 9, 9, 9, 9 }
217 			},
218 			.isad_rules[1] = {
219 				.isr_enable = B_TRUE,
220 				.isr_limit = 0x280000000ULL,
221 				.isr_imode = IMC_SAD_IMODE_8t6,
222 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
223 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
224 			}
225 		}
226 	}
227 };
228 
229 static const imc_t imc_bad_tad_rule = {
230 	.imc_gen = IMC_GEN_SANDY,
231 	.imc_nsockets = 1,
232 	.imc_sockets[0] = {
233 		.isock_valid = IMC_SOCKET_V_VALID,
234 		.isock_sad = {
235 			.isad_flags = 0,
236 			.isad_valid = IMC_SAD_V_VALID,
237 			.isad_tolm = 0x80000000,	/* 2 GiB */
238 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
239 			.isad_nrules = 10,
240 			.isad_rules[0] = {
241 				.isr_enable = B_TRUE,
242 				.isr_limit = 0x80000000,
243 				.isr_imode = IMC_SAD_IMODE_8t6,
244 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
245 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
246 			},
247 			.isad_rules[1] = {
248 				.isr_enable = B_TRUE,
249 				.isr_limit = 0x280000000ULL,
250 				.isr_imode = IMC_SAD_IMODE_8t6,
251 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
252 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
253 			}
254 		},
255 		.isock_ntad = 1,
256 		.isock_tad[0] = {
257 			.itad_flags = 0,
258 			.itad_nrules = 12,
259 			.itad_rules[0] = {
260 				.itr_base = 0x0,
261 				.itr_limit = 0x2,
262 				.itr_sock_way = 1,
263 				.itr_chan_way = 1,
264 				.itr_sock_gran = IMC_TAD_GRAN_64B,
265 				.itr_chan_gran = IMC_TAD_GRAN_64B,
266 				.itr_ntargets = 4,
267 				.itr_targets = { 0, 0, 0, 0 }
268 			},
269 			.itad_rules[1] = {
270 				.itr_base = 0x277777777ULL,
271 				.itr_limit = 0x280000000ULL,
272 				.itr_sock_way = 1,
273 				.itr_chan_way = 1,
274 				.itr_sock_gran = IMC_TAD_GRAN_64B,
275 				.itr_chan_gran = IMC_TAD_GRAN_64B,
276 				.itr_ntargets = 4,
277 				.itr_targets = { 0, 0, 0, 0 }
278 			}
279 		}
280 	}
281 };
282 
283 static const imc_t imc_bad_tad_3way = {
284 	.imc_gen = IMC_GEN_SANDY,
285 	.imc_nsockets = 1,
286 	.imc_sockets[0] = {
287 		.isock_valid = IMC_SOCKET_V_VALID,
288 		.isock_sad = {
289 			.isad_flags = 0,
290 			.isad_valid = IMC_SAD_V_VALID,
291 			.isad_tolm = 0x80000000,	/* 2 GiB */
292 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
293 			.isad_nrules = 10,
294 			.isad_rules[0] = {
295 				.isr_enable = B_TRUE,
296 				.isr_limit = 0x80000000,
297 				.isr_imode = IMC_SAD_IMODE_8t6,
298 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
299 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
300 			},
301 			.isad_rules[1] = {
302 				.isr_enable = B_TRUE,
303 				.isr_limit = 0x280000000ULL,
304 				.isr_imode = IMC_SAD_IMODE_8t6,
305 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
306 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
307 			}
308 		},
309 		.isock_ntad = 1,
310 		.isock_tad[0] = {
311 			.itad_flags = 0,
312 			.itad_nrules = 12,
313 			.itad_rules[0] = {
314 				.itr_base = 0x0,
315 				.itr_limit = 0x80000000,
316 				.itr_sock_way = 1,
317 				.itr_chan_way = 3,
318 				.itr_sock_gran = IMC_TAD_GRAN_64B,
319 				.itr_chan_gran = IMC_TAD_GRAN_64B,
320 				.itr_ntargets = 4,
321 				.itr_targets = { 0, 0, 0, 0 }
322 			},
323 			.itad_rules[1] = {
324 				.itr_base = 0x80000000,
325 				.itr_limit = 0x280000000ULL,
326 				.itr_sock_way = 1,
327 				.itr_chan_way = 3,
328 				.itr_sock_gran = IMC_TAD_GRAN_64B,
329 				.itr_chan_gran = IMC_TAD_GRAN_64B,
330 				.itr_ntargets = 4,
331 				.itr_targets = { 0, 0, 0, 0 }
332 			}
333 		}
334 	}
335 };
336 
337 static const imc_t imc_bad_tad_target = {
338 	.imc_gen = IMC_GEN_SANDY,
339 	.imc_nsockets = 1,
340 	.imc_sockets[0] = {
341 		.isock_valid = IMC_SOCKET_V_VALID,
342 		.isock_sad = {
343 			.isad_flags = 0,
344 			.isad_valid = IMC_SAD_V_VALID,
345 			.isad_tolm = 0x80000000,	/* 2 GiB */
346 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
347 			.isad_nrules = 10,
348 			.isad_rules[0] = {
349 				.isr_enable = B_TRUE,
350 				.isr_limit = 0x80000000,
351 				.isr_imode = IMC_SAD_IMODE_8t6,
352 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
353 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
354 			},
355 			.isad_rules[1] = {
356 				.isr_enable = B_TRUE,
357 				.isr_limit = 0x280000000ULL,
358 				.isr_imode = IMC_SAD_IMODE_8t6,
359 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
360 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
361 			}
362 		},
363 		.isock_ntad = 1,
364 		.isock_tad[0] = {
365 			.itad_flags = 0,
366 			.itad_nrules = 12,
367 			.itad_rules[0] = {
368 				.itr_base = 0x0,
369 				.itr_limit = 0x80000000,
370 				.itr_sock_way = 1,
371 				.itr_chan_way = 1,
372 				.itr_sock_gran = IMC_TAD_GRAN_64B,
373 				.itr_chan_gran = IMC_TAD_GRAN_64B,
374 				.itr_ntargets = 0,
375 				.itr_targets = { 0, 0, 0, 0 }
376 			},
377 			.itad_rules[1] = {
378 				.itr_base = 0x80000000,
379 				.itr_limit = 0x280000000ULL,
380 				.itr_sock_way = 1,
381 				.itr_chan_way = 1,
382 				.itr_sock_gran = IMC_TAD_GRAN_64B,
383 				.itr_chan_gran = IMC_TAD_GRAN_64B,
384 				.itr_ntargets = 0,
385 				.itr_targets = { 0, 0, 0, 0 }
386 			}
387 		}
388 	}
389 };
390 
391 static const imc_t imc_bad_tad_channelid = {
392 	.imc_gen = IMC_GEN_SANDY,
393 	.imc_nsockets = 1,
394 	.imc_sockets[0] = {
395 		.isock_valid = IMC_SOCKET_V_VALID,
396 		.isock_sad = {
397 			.isad_flags = 0,
398 			.isad_valid = IMC_SAD_V_VALID,
399 			.isad_tolm = 0x80000000,	/* 2 GiB */
400 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
401 			.isad_nrules = 10,
402 			.isad_rules[0] = {
403 				.isr_enable = B_TRUE,
404 				.isr_limit = 0x80000000,
405 				.isr_imode = IMC_SAD_IMODE_8t6,
406 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
407 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
408 			},
409 			.isad_rules[1] = {
410 				.isr_enable = B_TRUE,
411 				.isr_limit = 0x280000000ULL,
412 				.isr_imode = IMC_SAD_IMODE_8t6,
413 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
414 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
415 			}
416 		},
417 		.isock_ntad = 1,
418 		.isock_tad[0] = {
419 			.itad_flags = 0,
420 			.itad_nrules = 12,
421 			.itad_rules[0] = {
422 				.itr_base = 0x0,
423 				.itr_limit = 0x80000000,
424 				.itr_sock_way = 1,
425 				.itr_chan_way = 1,
426 				.itr_sock_gran = IMC_TAD_GRAN_64B,
427 				.itr_chan_gran = IMC_TAD_GRAN_64B,
428 				.itr_ntargets = 4,
429 				.itr_targets = { 17, 23, 42, 167 }
430 			},
431 			.itad_rules[1] = {
432 				.itr_base = 0x80000000,
433 				.itr_limit = 0x280000000ULL,
434 				.itr_sock_way = 1,
435 				.itr_chan_way = 1,
436 				.itr_sock_gran = IMC_TAD_GRAN_64B,
437 				.itr_chan_gran = IMC_TAD_GRAN_64B,
438 				.itr_ntargets = 4,
439 				.itr_targets = { 17, 23, 42, 167 }
440 			}
441 		},
442 		.isock_nimc = 1,
443 		.isock_imcs[0] = {
444 			.icn_nchannels = 1,
445 			.icn_dimm_type = IMC_DIMM_DDR3,
446 			.icn_ecc = B_TRUE,
447 			.icn_lockstep = B_FALSE,
448 			.icn_closed = B_FALSE,
449 			.icn_channels[0] = {
450 				.ich_ndimms = 1,
451 				.ich_dimms[0] = {
452 					.idimm_present = B_TRUE,
453 					.idimm_nbanks = 3,
454 					.idimm_width = 8,
455 					.idimm_density = 2,
456 					.idimm_nranks = 2,
457 					.idimm_nrows = 14,
458 					.idimm_ncolumns = 10,
459 					.idimm_size = 0x80000000
460 				},
461 				.ich_ntad_offsets = 12,
462 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
463 				    0, 0, 0, 0, 0 },
464 				.ich_nrankileaves = 8,
465 				.ich_rankileaves[0] = {
466 					.irle_enabled = B_TRUE,
467 					.irle_nways = 2,
468 					.irle_nwaysbits = 1,
469 					.irle_limit = 0x200000000ULL,
470 					.irle_nentries = 5,
471 					.irle_entries[0] = { 0x0, 0x0 },
472 					.irle_entries[1] = { 0x1, 0x0 }
473 				}
474 			}
475 		}
476 	}
477 };
478 
479 static const imc_t imc_bad_channel_offset = {
480 	.imc_gen = IMC_GEN_SANDY,
481 	.imc_nsockets = 1,
482 	.imc_sockets[0] = {
483 		.isock_valid = IMC_SOCKET_V_VALID,
484 		.isock_sad = {
485 			.isad_flags = 0,
486 			.isad_valid = IMC_SAD_V_VALID,
487 			.isad_tolm = 0x80000000,	/* 2 GiB */
488 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
489 			.isad_nrules = 10,
490 			.isad_rules[0] = {
491 				.isr_enable = B_TRUE,
492 				.isr_limit = 0x80000000,
493 				.isr_imode = IMC_SAD_IMODE_8t6,
494 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
495 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
496 			},
497 			.isad_rules[1] = {
498 				.isr_enable = B_TRUE,
499 				.isr_limit = 0x280000000ULL,
500 				.isr_imode = IMC_SAD_IMODE_8t6,
501 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
502 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
503 			}
504 		},
505 		.isock_ntad = 1,
506 		.isock_tad[0] = {
507 			.itad_flags = 0,
508 			.itad_nrules = 12,
509 			.itad_rules[0] = {
510 				.itr_base = 0x0,
511 				.itr_limit = 0x80000000,
512 				.itr_sock_way = 1,
513 				.itr_chan_way = 1,
514 				.itr_sock_gran = IMC_TAD_GRAN_64B,
515 				.itr_chan_gran = IMC_TAD_GRAN_64B,
516 				.itr_ntargets = 4,
517 				.itr_targets = { 0, 0, 0, 0 }
518 			},
519 			.itad_rules[1] = {
520 				.itr_base = 0x80000000,
521 				.itr_limit = 0x280000000ULL,
522 				.itr_sock_way = 1,
523 				.itr_chan_way = 1,
524 				.itr_sock_gran = IMC_TAD_GRAN_64B,
525 				.itr_chan_gran = IMC_TAD_GRAN_64B,
526 				.itr_ntargets = 4,
527 				.itr_targets = { 0, 0, 0, 0 }
528 			}
529 		},
530 		.isock_nimc = 1,
531 		.isock_imcs[0] = {
532 			.icn_nchannels = 1,
533 			.icn_dimm_type = IMC_DIMM_DDR3,
534 			.icn_ecc = B_TRUE,
535 			.icn_lockstep = B_FALSE,
536 			.icn_closed = B_FALSE,
537 			.icn_channels[0] = {
538 				.ich_ndimms = 1,
539 				.ich_dimms[0] = {
540 					.idimm_present = B_TRUE,
541 					.idimm_nbanks = 3,
542 					.idimm_width = 8,
543 					.idimm_density = 2,
544 					.idimm_nranks = 2,
545 					.idimm_nrows = 14,
546 					.idimm_ncolumns = 10,
547 					.idimm_size = 0x80000000
548 				},
549 				.ich_ntad_offsets = 0,
550 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
551 				    0, 0, 0, 0, 0 },
552 				.ich_nrankileaves = 8,
553 				.ich_rankileaves[0] = {
554 					.irle_enabled = B_TRUE,
555 					.irle_nways = 2,
556 					.irle_nwaysbits = 1,
557 					.irle_limit = 0x200000000ULL,
558 					.irle_nentries = 5,
559 					.irle_entries[0] = { 0x0, 0x0 },
560 					.irle_entries[1] = { 0x1, 0x0 }
561 				}
562 			}
563 		}
564 	}
565 };
566 
567 static const imc_t imc_bad_rir_rule = {
568 	.imc_gen = IMC_GEN_SANDY,
569 	.imc_nsockets = 1,
570 	.imc_sockets[0] = {
571 		.isock_valid = IMC_SOCKET_V_VALID,
572 		.isock_sad = {
573 			.isad_flags = 0,
574 			.isad_valid = IMC_SAD_V_VALID,
575 			.isad_tolm = 0x80000000,	/* 2 GiB */
576 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
577 			.isad_nrules = 10,
578 			.isad_rules[0] = {
579 				.isr_enable = B_TRUE,
580 				.isr_limit = 0x80000000,
581 				.isr_imode = IMC_SAD_IMODE_8t6,
582 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
583 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
584 			},
585 			.isad_rules[1] = {
586 				.isr_enable = B_TRUE,
587 				.isr_limit = 0x280000000ULL,
588 				.isr_imode = IMC_SAD_IMODE_8t6,
589 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
590 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
591 			}
592 		},
593 		.isock_ntad = 1,
594 		.isock_tad[0] = {
595 			.itad_flags = 0,
596 			.itad_nrules = 12,
597 			.itad_rules[0] = {
598 				.itr_base = 0x0,
599 				.itr_limit = 0x80000000,
600 				.itr_sock_way = 1,
601 				.itr_chan_way = 1,
602 				.itr_sock_gran = IMC_TAD_GRAN_64B,
603 				.itr_chan_gran = IMC_TAD_GRAN_64B,
604 				.itr_ntargets = 4,
605 				.itr_targets = { 0, 0, 0, 0 }
606 			},
607 			.itad_rules[1] = {
608 				.itr_base = 0x80000000,
609 				.itr_limit = 0x280000000ULL,
610 				.itr_sock_way = 1,
611 				.itr_chan_way = 1,
612 				.itr_sock_gran = IMC_TAD_GRAN_64B,
613 				.itr_chan_gran = IMC_TAD_GRAN_64B,
614 				.itr_ntargets = 4,
615 				.itr_targets = { 0, 0, 0, 0 }
616 			}
617 		},
618 		.isock_nimc = 1,
619 		.isock_imcs[0] = {
620 			.icn_nchannels = 1,
621 			.icn_dimm_type = IMC_DIMM_DDR3,
622 			.icn_ecc = B_TRUE,
623 			.icn_lockstep = B_FALSE,
624 			.icn_closed = B_FALSE,
625 			.icn_channels[0] = {
626 				.ich_ndimms = 1,
627 				.ich_dimms[0] = {
628 					.idimm_present = B_TRUE,
629 					.idimm_nbanks = 3,
630 					.idimm_width = 8,
631 					.idimm_density = 2,
632 					.idimm_nranks = 2,
633 					.idimm_nrows = 14,
634 					.idimm_ncolumns = 10,
635 					.idimm_size = 0x80000000
636 				},
637 				.ich_ntad_offsets = 12,
638 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
639 				    0, 0, 0, 0, 0 },
640 				.ich_nrankileaves = 8,
641 				.ich_rankileaves[0] = {
642 					.irle_enabled = B_TRUE,
643 					.irle_nways = 2,
644 					.irle_nwaysbits = 1,
645 					.irle_limit = 0x1,
646 					.irle_nentries = 5,
647 					.irle_entries[0] = { 0x0, 0x0 },
648 					.irle_entries[1] = { 0x1, 0x0 }
649 				}
650 			}
651 		}
652 	}
653 };
654 
655 static const imc_t imc_bad_rir_ileave = {
656 	.imc_gen = IMC_GEN_SANDY,
657 	.imc_nsockets = 1,
658 	.imc_sockets[0] = {
659 		.isock_valid = IMC_SOCKET_V_VALID,
660 		.isock_sad = {
661 			.isad_flags = 0,
662 			.isad_valid = IMC_SAD_V_VALID,
663 			.isad_tolm = 0x80000000,	/* 2 GiB */
664 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
665 			.isad_nrules = 10,
666 			.isad_rules[0] = {
667 				.isr_enable = B_TRUE,
668 				.isr_limit = 0x80000000,
669 				.isr_imode = IMC_SAD_IMODE_8t6,
670 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
671 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
672 			},
673 			.isad_rules[1] = {
674 				.isr_enable = B_TRUE,
675 				.isr_limit = 0x280000000ULL,
676 				.isr_imode = IMC_SAD_IMODE_8t6,
677 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
678 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
679 			}
680 		},
681 		.isock_ntad = 1,
682 		.isock_tad[0] = {
683 			.itad_flags = 0,
684 			.itad_nrules = 12,
685 			.itad_rules[0] = {
686 				.itr_base = 0x0,
687 				.itr_limit = 0x80000000,
688 				.itr_sock_way = 1,
689 				.itr_chan_way = 1,
690 				.itr_sock_gran = IMC_TAD_GRAN_64B,
691 				.itr_chan_gran = IMC_TAD_GRAN_64B,
692 				.itr_ntargets = 4,
693 				.itr_targets = { 0, 0, 0, 0 }
694 			},
695 			.itad_rules[1] = {
696 				.itr_base = 0x80000000,
697 				.itr_limit = 0x280000000ULL,
698 				.itr_sock_way = 1,
699 				.itr_chan_way = 1,
700 				.itr_sock_gran = IMC_TAD_GRAN_64B,
701 				.itr_chan_gran = IMC_TAD_GRAN_64B,
702 				.itr_ntargets = 4,
703 				.itr_targets = { 0, 0, 0, 0 }
704 			}
705 		},
706 		.isock_nimc = 1,
707 		.isock_imcs[0] = {
708 			.icn_nchannels = 1,
709 			.icn_dimm_type = IMC_DIMM_DDR3,
710 			.icn_ecc = B_TRUE,
711 			.icn_lockstep = B_FALSE,
712 			.icn_closed = B_FALSE,
713 			.icn_channels[0] = {
714 				.ich_ndimms = 1,
715 				.ich_dimms[0] = {
716 					.idimm_present = B_TRUE,
717 					.idimm_nbanks = 3,
718 					.idimm_width = 8,
719 					.idimm_density = 2,
720 					.idimm_nranks = 2,
721 					.idimm_nrows = 14,
722 					.idimm_ncolumns = 10,
723 					.idimm_size = 0x80000000
724 				},
725 				.ich_ntad_offsets = 12,
726 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
727 				    0, 0, 0, 0, 0 },
728 				.ich_nrankileaves = 8,
729 				.ich_rankileaves[0] = {
730 					.irle_enabled = B_TRUE,
731 					.irle_nways = 2,
732 					.irle_nwaysbits = 1,
733 					.irle_limit = 0x200000000ULL,
734 					.irle_nentries = 0
735 				}
736 			}
737 		}
738 	}
739 };
740 
741 static const imc_t imc_bad_dimm_index = {
742 	.imc_gen = IMC_GEN_SANDY,
743 	.imc_nsockets = 1,
744 	.imc_sockets[0] = {
745 		.isock_valid = IMC_SOCKET_V_VALID,
746 		.isock_sad = {
747 			.isad_flags = 0,
748 			.isad_valid = IMC_SAD_V_VALID,
749 			.isad_tolm = 0x80000000,	/* 2 GiB */
750 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
751 			.isad_nrules = 10,
752 			.isad_rules[0] = {
753 				.isr_enable = B_TRUE,
754 				.isr_limit = 0x80000000,
755 				.isr_imode = IMC_SAD_IMODE_8t6,
756 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
757 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
758 			},
759 			.isad_rules[1] = {
760 				.isr_enable = B_TRUE,
761 				.isr_limit = 0x280000000ULL,
762 				.isr_imode = IMC_SAD_IMODE_8t6,
763 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
764 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
765 			}
766 		},
767 		.isock_ntad = 1,
768 		.isock_tad[0] = {
769 			.itad_flags = 0,
770 			.itad_nrules = 12,
771 			.itad_rules[0] = {
772 				.itr_base = 0x0,
773 				.itr_limit = 0x80000000,
774 				.itr_sock_way = 1,
775 				.itr_chan_way = 1,
776 				.itr_sock_gran = IMC_TAD_GRAN_64B,
777 				.itr_chan_gran = IMC_TAD_GRAN_64B,
778 				.itr_ntargets = 4,
779 				.itr_targets = { 0, 0, 0, 0 }
780 			},
781 			.itad_rules[1] = {
782 				.itr_base = 0x80000000,
783 				.itr_limit = 0x280000000ULL,
784 				.itr_sock_way = 1,
785 				.itr_chan_way = 1,
786 				.itr_sock_gran = IMC_TAD_GRAN_64B,
787 				.itr_chan_gran = IMC_TAD_GRAN_64B,
788 				.itr_ntargets = 4,
789 				.itr_targets = { 0, 0, 0, 0 }
790 			}
791 		},
792 		.isock_nimc = 1,
793 		.isock_imcs[0] = {
794 			.icn_nchannels = 1,
795 			.icn_dimm_type = IMC_DIMM_DDR3,
796 			.icn_ecc = B_TRUE,
797 			.icn_lockstep = B_FALSE,
798 			.icn_closed = B_FALSE,
799 			.icn_channels[0] = {
800 				.ich_ndimms = 1,
801 				.ich_dimms[0] = {
802 					.idimm_present = B_TRUE,
803 					.idimm_nbanks = 3,
804 					.idimm_width = 8,
805 					.idimm_density = 2,
806 					.idimm_nranks = 2,
807 					.idimm_nrows = 14,
808 					.idimm_ncolumns = 10,
809 					.idimm_size = 0x80000000
810 				},
811 				.ich_ntad_offsets = 12,
812 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
813 				    0, 0, 0, 0, 0 },
814 				.ich_nrankileaves = 8,
815 				.ich_rankileaves[0] = {
816 					.irle_enabled = B_TRUE,
817 					.irle_nways = 2,
818 					.irle_nwaysbits = 1,
819 					.irle_limit = 0x200000000ULL,
820 					.irle_nentries = 5,
821 					.irle_entries[0] = { 0x23, 0x0 },
822 					.irle_entries[1] = { 0x42, 0x0 }
823 				}
824 			}
825 		}
826 	}
827 };
828 
829 static const imc_t imc_missing_dimm = {
830 	.imc_gen = IMC_GEN_SANDY,
831 	.imc_nsockets = 1,
832 	.imc_sockets[0] = {
833 		.isock_valid = IMC_SOCKET_V_VALID,
834 		.isock_sad = {
835 			.isad_flags = 0,
836 			.isad_valid = IMC_SAD_V_VALID,
837 			.isad_tolm = 0x80000000,	/* 2 GiB */
838 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
839 			.isad_nrules = 10,
840 			.isad_rules[0] = {
841 				.isr_enable = B_TRUE,
842 				.isr_limit = 0x80000000,
843 				.isr_imode = IMC_SAD_IMODE_8t6,
844 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
845 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
846 			},
847 			.isad_rules[1] = {
848 				.isr_enable = B_TRUE,
849 				.isr_limit = 0x280000000ULL,
850 				.isr_imode = IMC_SAD_IMODE_8t6,
851 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
852 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
853 			}
854 		},
855 		.isock_ntad = 1,
856 		.isock_tad[0] = {
857 			.itad_flags = 0,
858 			.itad_nrules = 12,
859 			.itad_rules[0] = {
860 				.itr_base = 0x0,
861 				.itr_limit = 0x80000000,
862 				.itr_sock_way = 1,
863 				.itr_chan_way = 1,
864 				.itr_sock_gran = IMC_TAD_GRAN_64B,
865 				.itr_chan_gran = IMC_TAD_GRAN_64B,
866 				.itr_ntargets = 4,
867 				.itr_targets = { 0, 0, 0, 0 }
868 			},
869 			.itad_rules[1] = {
870 				.itr_base = 0x80000000,
871 				.itr_limit = 0x280000000ULL,
872 				.itr_sock_way = 1,
873 				.itr_chan_way = 1,
874 				.itr_sock_gran = IMC_TAD_GRAN_64B,
875 				.itr_chan_gran = IMC_TAD_GRAN_64B,
876 				.itr_ntargets = 4,
877 				.itr_targets = { 0, 0, 0, 0 }
878 			}
879 		},
880 		.isock_nimc = 1,
881 		.isock_imcs[0] = {
882 			.icn_nchannels = 1,
883 			.icn_dimm_type = IMC_DIMM_DDR3,
884 			.icn_ecc = B_TRUE,
885 			.icn_lockstep = B_FALSE,
886 			.icn_closed = B_FALSE,
887 			.icn_channels[0] = {
888 				.ich_ndimms = 1,
889 				.ich_dimms[0] = {
890 					.idimm_present = B_FALSE
891 				},
892 				.ich_ntad_offsets = 12,
893 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
894 				    0, 0, 0, 0, 0 },
895 				.ich_nrankileaves = 8,
896 				.ich_rankileaves[0] = {
897 					.irle_enabled = B_TRUE,
898 					.irle_nways = 2,
899 					.irle_nwaysbits = 1,
900 					.irle_limit = 0x200000000ULL,
901 					.irle_nentries = 5,
902 					.irle_entries[0] = { 0x0, 0x0 },
903 					.irle_entries[1] = { 0x1, 0x0 }
904 				}
905 			}
906 		}
907 	}
908 };
909 
910 static const imc_t imc_bad_rank_index = {
911 	.imc_gen = IMC_GEN_SANDY,
912 	.imc_nsockets = 1,
913 	.imc_sockets[0] = {
914 		.isock_valid = IMC_SOCKET_V_VALID,
915 		.isock_sad = {
916 			.isad_flags = 0,
917 			.isad_valid = IMC_SAD_V_VALID,
918 			.isad_tolm = 0x80000000,	/* 2 GiB */
919 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
920 			.isad_nrules = 10,
921 			.isad_rules[0] = {
922 				.isr_enable = B_TRUE,
923 				.isr_limit = 0x80000000,
924 				.isr_imode = IMC_SAD_IMODE_8t6,
925 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
926 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
927 			},
928 			.isad_rules[1] = {
929 				.isr_enable = B_TRUE,
930 				.isr_limit = 0x280000000ULL,
931 				.isr_imode = IMC_SAD_IMODE_8t6,
932 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
933 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
934 			}
935 		},
936 		.isock_ntad = 1,
937 		.isock_tad[0] = {
938 			.itad_flags = 0,
939 			.itad_nrules = 12,
940 			.itad_rules[0] = {
941 				.itr_base = 0x0,
942 				.itr_limit = 0x80000000,
943 				.itr_sock_way = 1,
944 				.itr_chan_way = 1,
945 				.itr_sock_gran = IMC_TAD_GRAN_64B,
946 				.itr_chan_gran = IMC_TAD_GRAN_64B,
947 				.itr_ntargets = 4,
948 				.itr_targets = { 0, 0, 0, 0 }
949 			},
950 			.itad_rules[1] = {
951 				.itr_base = 0x80000000,
952 				.itr_limit = 0x280000000ULL,
953 				.itr_sock_way = 1,
954 				.itr_chan_way = 1,
955 				.itr_sock_gran = IMC_TAD_GRAN_64B,
956 				.itr_chan_gran = IMC_TAD_GRAN_64B,
957 				.itr_ntargets = 4,
958 				.itr_targets = { 0, 0, 0, 0 }
959 			}
960 		},
961 		.isock_nimc = 1,
962 		.isock_imcs[0] = {
963 			.icn_nchannels = 1,
964 			.icn_dimm_type = IMC_DIMM_DDR3,
965 			.icn_ecc = B_TRUE,
966 			.icn_lockstep = B_FALSE,
967 			.icn_closed = B_FALSE,
968 			.icn_channels[0] = {
969 				.ich_ndimms = 1,
970 				.ich_dimms[0] = {
971 					.idimm_present = B_TRUE,
972 					.idimm_nbanks = 3,
973 					.idimm_width = 8,
974 					.idimm_density = 2,
975 					.idimm_nranks = 2,
976 					.idimm_nrows = 14,
977 					.idimm_ncolumns = 10,
978 					.idimm_size = 0x80000000
979 				},
980 				.ich_ntad_offsets = 12,
981 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
982 				    0, 0, 0, 0, 0 },
983 				.ich_nrankileaves = 8,
984 				.ich_rankileaves[0] = {
985 					.irle_enabled = B_TRUE,
986 					.irle_nways = 2,
987 					.irle_nwaysbits = 1,
988 					.irle_limit = 0x200000000ULL,
989 					.irle_nentries = 5,
990 					.irle_entries[0] = { 0x2, 0x0 },
991 					.irle_entries[1] = { 0x3, 0x0 }
992 				}
993 			}
994 		}
995 	}
996 };
997 
998 static const imc_t imc_chanoff_underflow = {
999 	.imc_gen = IMC_GEN_SANDY,
1000 	.imc_nsockets = 1,
1001 	.imc_sockets[0] = {
1002 		.isock_valid = IMC_SOCKET_V_VALID,
1003 		.isock_sad = {
1004 			.isad_flags = 0,
1005 			.isad_valid = IMC_SAD_V_VALID,
1006 			.isad_tolm = 0x80000000,	/* 2 GiB */
1007 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
1008 			.isad_nrules = 10,
1009 			.isad_rules[0] = {
1010 				.isr_enable = B_TRUE,
1011 				.isr_limit = 0x80000000,
1012 				.isr_imode = IMC_SAD_IMODE_8t6,
1013 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
1014 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
1015 			},
1016 			.isad_rules[1] = {
1017 				.isr_enable = B_TRUE,
1018 				.isr_limit = 0x280000000ULL,
1019 				.isr_imode = IMC_SAD_IMODE_8t6,
1020 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
1021 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
1022 			}
1023 		},
1024 		.isock_ntad = 1,
1025 		.isock_tad[0] = {
1026 			.itad_flags = 0,
1027 			.itad_nrules = 12,
1028 			.itad_rules[0] = {
1029 				.itr_base = 0x0,
1030 				.itr_limit = 0x80000000,
1031 				.itr_sock_way = 1,
1032 				.itr_chan_way = 1,
1033 				.itr_sock_gran = IMC_TAD_GRAN_64B,
1034 				.itr_chan_gran = IMC_TAD_GRAN_64B,
1035 				.itr_ntargets = 4,
1036 				.itr_targets = { 0, 0, 0, 0 }
1037 			},
1038 			.itad_rules[1] = {
1039 				.itr_base = 0x80000000,
1040 				.itr_limit = 0x280000000ULL,
1041 				.itr_sock_way = 1,
1042 				.itr_chan_way = 1,
1043 				.itr_sock_gran = IMC_TAD_GRAN_64B,
1044 				.itr_chan_gran = IMC_TAD_GRAN_64B,
1045 				.itr_ntargets = 4,
1046 				.itr_targets = { 0, 0, 0, 0 }
1047 			}
1048 		},
1049 		.isock_nimc = 1,
1050 		.isock_imcs[0] = {
1051 			.icn_nchannels = 1,
1052 			.icn_dimm_type = IMC_DIMM_DDR3,
1053 			.icn_ecc = B_TRUE,
1054 			.icn_lockstep = B_FALSE,
1055 			.icn_closed = B_FALSE,
1056 			.icn_channels[0] = {
1057 				.ich_ndimms = 1,
1058 				.ich_dimms[0] = {
1059 					.idimm_present = B_TRUE,
1060 					.idimm_nbanks = 3,
1061 					.idimm_width = 8,
1062 					.idimm_density = 2,
1063 					.idimm_nranks = 2,
1064 					.idimm_nrows = 14,
1065 					.idimm_ncolumns = 10,
1066 					.idimm_size = 0x80000000
1067 				},
1068 				.ich_ntad_offsets = 12,
1069 				.ich_tad_offsets = { 0x1000000000ULL,
1070 					0x1000000000ULL,
1071 					0x1000000000ULL,
1072 					0x1000000000ULL,
1073 					0x1000000000ULL,
1074 					0x1000000000ULL,
1075 					0x1000000000ULL,
1076 					0x1000000000ULL,
1077 					0x1000000000ULL,
1078 					0x1000000000ULL,
1079 					0x1000000000ULL,
1080 					0x1000000000ULL
1081 				},
1082 				.ich_nrankileaves = 8,
1083 				.ich_rankileaves[0] = {
1084 					.irle_enabled = B_TRUE,
1085 					.irle_nways = 2,
1086 					.irle_nwaysbits = 1,
1087 					.irle_limit = 0x200000000ULL,
1088 					.irle_nentries = 5,
1089 					.irle_entries[0] = { 0x0, 0x0 },
1090 					.irle_entries[1] = { 0x1, 0x0 }
1091 				}
1092 			}
1093 		}
1094 	}
1095 };
1096 
1097 static const imc_t imc_riroff_underflow = {
1098 	.imc_gen = IMC_GEN_SANDY,
1099 	.imc_nsockets = 1,
1100 	.imc_sockets[0] = {
1101 		.isock_valid = IMC_SOCKET_V_VALID,
1102 		.isock_sad = {
1103 			.isad_flags = 0,
1104 			.isad_valid = IMC_SAD_V_VALID,
1105 			.isad_tolm = 0x80000000,	/* 2 GiB */
1106 			.isad_tohm = 0x280000000ULL,	/* 10 GiB */
1107 			.isad_nrules = 10,
1108 			.isad_rules[0] = {
1109 				.isr_enable = B_TRUE,
1110 				.isr_limit = 0x80000000,
1111 				.isr_imode = IMC_SAD_IMODE_8t6,
1112 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
1113 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
1114 			},
1115 			.isad_rules[1] = {
1116 				.isr_enable = B_TRUE,
1117 				.isr_limit = 0x280000000ULL,
1118 				.isr_imode = IMC_SAD_IMODE_8t6,
1119 				.isr_ntargets = IMC_MAX_SAD_INTERLEAVE,
1120 				.isr_targets = { 0, 0, 0, 0, 0, 0, 0, 0 }
1121 			}
1122 		},
1123 		.isock_ntad = 1,
1124 		.isock_tad[0] = {
1125 			.itad_flags = 0,
1126 			.itad_nrules = 12,
1127 			.itad_rules[0] = {
1128 				.itr_base = 0x0,
1129 				.itr_limit = 0x80000000,
1130 				.itr_sock_way = 1,
1131 				.itr_chan_way = 1,
1132 				.itr_sock_gran = IMC_TAD_GRAN_64B,
1133 				.itr_chan_gran = IMC_TAD_GRAN_64B,
1134 				.itr_ntargets = 4,
1135 				.itr_targets = { 0, 0, 0, 0 }
1136 			},
1137 			.itad_rules[1] = {
1138 				.itr_base = 0x80000000,
1139 				.itr_limit = 0x280000000ULL,
1140 				.itr_sock_way = 1,
1141 				.itr_chan_way = 1,
1142 				.itr_sock_gran = IMC_TAD_GRAN_64B,
1143 				.itr_chan_gran = IMC_TAD_GRAN_64B,
1144 				.itr_ntargets = 4,
1145 				.itr_targets = { 0, 0, 0, 0 }
1146 			}
1147 		},
1148 		.isock_nimc = 1,
1149 		.isock_imcs[0] = {
1150 			.icn_nchannels = 1,
1151 			.icn_dimm_type = IMC_DIMM_DDR3,
1152 			.icn_ecc = B_TRUE,
1153 			.icn_lockstep = B_FALSE,
1154 			.icn_closed = B_FALSE,
1155 			.icn_channels[0] = {
1156 				.ich_ndimms = 1,
1157 				.ich_dimms[0] = {
1158 					.idimm_present = B_TRUE,
1159 					.idimm_nbanks = 3,
1160 					.idimm_width = 8,
1161 					.idimm_density = 2,
1162 					.idimm_nranks = 2,
1163 					.idimm_nrows = 14,
1164 					.idimm_ncolumns = 10,
1165 					.idimm_size = 0x80000000
1166 				},
1167 				.ich_ntad_offsets = 12,
1168 				.ich_tad_offsets = { 0, 0x80000000, 0, 0, 0, 0,
1169 				    0, 0, 0, 0, 0 },
1170 				.ich_nrankileaves = 8,
1171 				.ich_rankileaves[0] = {
1172 					.irle_enabled = B_TRUE,
1173 					.irle_nways = 2,
1174 					.irle_nwaysbits = 1,
1175 					.irle_limit = 0x200000000ULL,
1176 					.irle_nentries = 5,
1177 					.irle_entries[0] = { 0x0,
1178 					    0x100000000000ULL },
1179 					.irle_entries[1] = { 0x1,
1180 					    0x100000000000ULL }
1181 				}
1182 			}
1183 		}
1184 	}
1185 };
1186 
1187 const imc_test_case_t imc_test_fail[] = { {
1188 	.itc_desc = "Bad Socket data (1)",
1189 	.itc_imc = &imc_badsock,
1190 	.itc_pa = 0x34,
1191 	.itc_pass = B_FALSE,
1192 	.itc_fail = IMC_DECODE_F_BAD_SOCKET
1193 }, {
1194 	.itc_desc = "Bad Socket data (2)",
1195 	.itc_imc = &imc_badsock,
1196 	.itc_pa = 0x7fffff,
1197 	.itc_pass = B_FALSE,
1198 	.itc_fail = IMC_DECODE_F_BAD_SOCKET
1199 }, {
1200 	.itc_desc = "Bad Socket data (3)",
1201 	.itc_imc = &imc_badsock,
1202 	.itc_pa = 0x123456789ULL,
1203 	.itc_pass = B_FALSE,
1204 	.itc_fail = IMC_DECODE_F_BAD_SOCKET
1205 }, {
1206 	.itc_desc = "Bad SAD data (1)",
1207 	.itc_imc = &imc_invalid_sad,
1208 	.itc_pa = 0x34,
1209 	.itc_pass = B_FALSE,
1210 	.itc_fail = IMC_DECODE_F_BAD_SAD
1211 }, {
1212 	.itc_desc = "Bad SAD data (2)",
1213 	.itc_imc = &imc_invalid_sad,
1214 	.itc_pa = 0x7fffff,
1215 	.itc_pass = B_FALSE,
1216 	.itc_fail = IMC_DECODE_F_BAD_SAD
1217 }, {
1218 	.itc_desc = "Bad SAD data (3)",
1219 	.itc_imc = &imc_invalid_sad,
1220 	.itc_pa = 0x123456789ULL,
1221 	.itc_pass = B_FALSE,
1222 	.itc_fail = IMC_DECODE_F_BAD_SAD
1223 }, {
1224 	.itc_desc = "Bad SAD rule (1)",
1225 	.itc_imc = &imc_invalid_sad_rule,
1226 	.itc_pa = 0x45,
1227 	.itc_pass = B_FALSE,
1228 	.itc_fail = IMC_DECODE_F_NO_SAD_RULE
1229 }, {
1230 	.itc_desc = "Bad SAD rule (2)",
1231 	.itc_imc = &imc_invalid_sad_rule,
1232 	.itc_pa = 0x7fffff,
1233 	.itc_pass = B_FALSE,
1234 	.itc_fail = IMC_DECODE_F_NO_SAD_RULE
1235 }, {
1236 	.itc_desc = "Bad SAD rule (3)",
1237 	.itc_imc = &imc_invalid_sad_rule,
1238 	.itc_pa = 0x123456789ULL,
1239 	.itc_pass = B_FALSE,
1240 	.itc_fail = IMC_DECODE_F_NO_SAD_RULE
1241 }, {
1242 	.itc_desc = "Bad SAD interleave (1)",
1243 	.itc_imc = &imc_invalid_sad_interleave,
1244 	.itc_pa = 0x45,
1245 	.itc_pass = B_FALSE,
1246 	.itc_fail = IMC_DECODE_F_BAD_SAD_INTERLEAVE
1247 }, {
1248 	.itc_desc = "Bad SAD interleave (2)",
1249 	.itc_imc = &imc_invalid_sad_interleave,
1250 	.itc_pa = 0x7fffff,
1251 	.itc_pass = B_FALSE,
1252 	.itc_fail = IMC_DECODE_F_BAD_SAD_INTERLEAVE
1253 }, {
1254 	.itc_desc = "Bad SAD interleave (3)",
1255 	.itc_imc = &imc_invalid_sad_interleave,
1256 	.itc_pa = 0x123456789ULL,
1257 	.itc_pass = B_FALSE,
1258 	.itc_fail = IMC_DECODE_F_BAD_SAD_INTERLEAVE
1259 }, {
1260 	.itc_desc = "Bad SAD TAD target (1)",
1261 	.itc_imc = &imc_invalid_sad_target,
1262 	.itc_pa = 0x45,
1263 	.itc_pass = B_FALSE,
1264 	.itc_fail = IMC_DECODE_F_SAD_BAD_SOCKET
1265 }, {
1266 	.itc_desc = "Bad SAD TAD target (2)",
1267 	.itc_imc = &imc_invalid_sad_target,
1268 	.itc_pa = 0x7fffff,
1269 	.itc_pass = B_FALSE,
1270 	.itc_fail = IMC_DECODE_F_SAD_BAD_SOCKET
1271 }, {
1272 	.itc_desc = "Bad SAD TAD target (3)",
1273 	.itc_imc = &imc_invalid_sad_target,
1274 	.itc_pa = 0x123456789ULL,
1275 	.itc_pass = B_FALSE,
1276 	.itc_fail = IMC_DECODE_F_SAD_BAD_TAD
1277 }, {
1278 	.itc_desc = "Bad TAD rule (1)",
1279 	.itc_imc = &imc_bad_tad_rule,
1280 	.itc_pa = 0x45,
1281 	.itc_pass = B_FALSE,
1282 	.itc_fail = IMC_DECODE_F_NO_TAD_RULE
1283 }, {
1284 	.itc_desc = "Bad TAD rule (2)",
1285 	.itc_imc = &imc_bad_tad_rule,
1286 	.itc_pa = 0x7fffff,
1287 	.itc_pass = B_FALSE,
1288 	.itc_fail = IMC_DECODE_F_NO_TAD_RULE
1289 }, {
1290 	.itc_desc = "Bad TAD rule (3)",
1291 	.itc_imc = &imc_bad_tad_rule,
1292 	.itc_pa = 0x123456789ULL,
1293 	.itc_pass = B_FALSE,
1294 	.itc_fail = IMC_DECODE_F_NO_TAD_RULE
1295 }, {
1296 	.itc_desc = "Unsupported 3 way interleave (1)",
1297 	.itc_imc = &imc_bad_tad_3way,
1298 	.itc_pa = 0x45,
1299 	.itc_pass = B_FALSE,
1300 	.itc_fail = IMC_DECODE_F_TAD_3_ILEAVE
1301 }, {
1302 	.itc_desc = "Unsupported 3 way interleave (2)",
1303 	.itc_imc = &imc_bad_tad_3way,
1304 	.itc_pa = 0x7fffff,
1305 	.itc_pass = B_FALSE,
1306 	.itc_fail = IMC_DECODE_F_TAD_3_ILEAVE
1307 }, {
1308 	.itc_desc = "Unsupported 3 way interleave (3)",
1309 	.itc_imc = &imc_bad_tad_3way,
1310 	.itc_pa = 0x123456789ULL,
1311 	.itc_pass = B_FALSE,
1312 	.itc_fail = IMC_DECODE_F_TAD_3_ILEAVE
1313 }, {
1314 	.itc_desc = "Bad TAD target index (1)",
1315 	.itc_imc = &imc_bad_tad_target,
1316 	.itc_pa = 0x45,
1317 	.itc_pass = B_FALSE,
1318 	.itc_fail = IMC_DECODE_F_TAD_BAD_TARGET_INDEX
1319 }, {
1320 	.itc_desc = "Bad TAD target index (2)",
1321 	.itc_imc = &imc_bad_tad_target,
1322 	.itc_pa = 0x7fffff,
1323 	.itc_pass = B_FALSE,
1324 	.itc_fail = IMC_DECODE_F_TAD_BAD_TARGET_INDEX
1325 }, {
1326 	.itc_desc = "Bad TAD target index (3)",
1327 	.itc_imc = &imc_bad_tad_target,
1328 	.itc_pa = 0x123456789ULL,
1329 	.itc_pass = B_FALSE,
1330 	.itc_fail = IMC_DECODE_F_TAD_BAD_TARGET_INDEX
1331 }, {
1332 	.itc_desc = "Bad TAD target channel (1)",
1333 	.itc_imc = &imc_bad_tad_channelid,
1334 	.itc_pa = 0x45,
1335 	.itc_pass = B_FALSE,
1336 	.itc_fail = IMC_DECODE_F_BAD_CHANNEL_ID
1337 }, {
1338 	.itc_desc = "Bad TAD target channel (2)",
1339 	.itc_imc = &imc_bad_tad_channelid,
1340 	.itc_pa = 0x7fffff,
1341 	.itc_pass = B_FALSE,
1342 	.itc_fail = IMC_DECODE_F_BAD_CHANNEL_ID
1343 }, {
1344 	.itc_desc = "Bad TAD target channel (3)",
1345 	.itc_imc = &imc_bad_tad_channelid,
1346 	.itc_pa = 0x123456789ULL,
1347 	.itc_pass = B_FALSE,
1348 	.itc_fail = IMC_DECODE_F_BAD_CHANNEL_ID
1349 }, {
1350 	.itc_desc = "Bad channel offset target (1)",
1351 	.itc_imc = &imc_bad_channel_offset,
1352 	.itc_pa = 0x45,
1353 	.itc_pass = B_FALSE,
1354 	.itc_fail = IMC_DECODE_F_BAD_CHANNEL_TAD_OFFSET
1355 }, {
1356 	.itc_desc = "Bad channel offset target (2)",
1357 	.itc_imc = &imc_bad_channel_offset,
1358 	.itc_pa = 0x7fffff,
1359 	.itc_pass = B_FALSE,
1360 	.itc_fail = IMC_DECODE_F_BAD_CHANNEL_TAD_OFFSET
1361 }, {
1362 	.itc_desc = "Bad channel offset target (3)",
1363 	.itc_imc = &imc_bad_channel_offset,
1364 	.itc_pa = 0x123456789ULL,
1365 	.itc_pass = B_FALSE,
1366 	.itc_fail = IMC_DECODE_F_BAD_CHANNEL_TAD_OFFSET
1367 }, {
1368 	.itc_desc = "Bad RIR rule (1)",
1369 	.itc_imc = &imc_bad_rir_rule,
1370 	.itc_pa = 0x45,
1371 	.itc_pass = B_FALSE,
1372 	.itc_fail = IMC_DECODE_F_NO_RIR_RULE
1373 }, {
1374 	.itc_desc = "Bad RIR rule (2)",
1375 	.itc_imc = &imc_bad_rir_rule,
1376 	.itc_pa = 0x7fffff,
1377 	.itc_pass = B_FALSE,
1378 	.itc_fail = IMC_DECODE_F_NO_RIR_RULE
1379 }, {
1380 	.itc_desc = "Bad RIR rule (3)",
1381 	.itc_pa = 0x123456789ULL,
1382 	.itc_imc = &imc_bad_rir_rule,
1383 	.itc_fail = IMC_DECODE_F_NO_RIR_RULE
1384 }, {
1385 	.itc_desc = "Bad RIR interleave target (1)",
1386 	.itc_imc = &imc_bad_rir_ileave,
1387 	.itc_pa = 0x45,
1388 	.itc_pass = B_FALSE,
1389 	.itc_fail = IMC_DECODE_F_BAD_RIR_ILEAVE_TARGET
1390 }, {
1391 	.itc_desc = "Bad RIR interleave target (2)",
1392 	.itc_imc = &imc_bad_rir_ileave,
1393 	.itc_pa = 0x7fffff,
1394 	.itc_pass = B_FALSE,
1395 	.itc_fail = IMC_DECODE_F_BAD_RIR_ILEAVE_TARGET
1396 }, {
1397 	.itc_desc = "Bad RIR interleave target (3)",
1398 	.itc_imc = &imc_bad_rir_ileave,
1399 	.itc_pa = 0x123456789ULL,
1400 	.itc_pass = B_FALSE,
1401 	.itc_fail = IMC_DECODE_F_BAD_RIR_ILEAVE_TARGET
1402 }, {
1403 	.itc_desc = "Bad RIR DIMM target (1)",
1404 	.itc_imc = &imc_bad_dimm_index,
1405 	.itc_pa = 0x45,
1406 	.itc_pass = B_FALSE,
1407 	.itc_fail = IMC_DECODE_F_BAD_DIMM_INDEX
1408 }, {
1409 	.itc_desc = "Bad RIR DIMM target (2)",
1410 	.itc_imc = &imc_bad_dimm_index,
1411 	.itc_pa = 0x7fffff,
1412 	.itc_pass = B_FALSE,
1413 	.itc_fail = IMC_DECODE_F_BAD_DIMM_INDEX
1414 }, {
1415 	.itc_desc = "Bad RIR DIMM target (3)",
1416 	.itc_imc = &imc_bad_dimm_index,
1417 	.itc_pa = 0x123456789ULL,
1418 	.itc_pass = B_FALSE,
1419 	.itc_fail = IMC_DECODE_F_BAD_DIMM_INDEX
1420 }, {
1421 	.itc_desc = "Bad RIR DIMM target (1)",
1422 	.itc_imc = &imc_missing_dimm,
1423 	.itc_pa = 0x45,
1424 	.itc_pass = B_FALSE,
1425 	.itc_fail = IMC_DECODE_F_DIMM_NOT_PRESENT
1426 }, {
1427 	.itc_desc = "Bad RIR DIMM target (2)",
1428 	.itc_imc = &imc_missing_dimm,
1429 	.itc_pa = 0x7fffff,
1430 	.itc_pass = B_FALSE,
1431 	.itc_fail = IMC_DECODE_F_DIMM_NOT_PRESENT
1432 }, {
1433 	.itc_desc = "Bad RIR DIMM target (3)",
1434 	.itc_imc = &imc_missing_dimm,
1435 	.itc_pa = 0x123456789ULL,
1436 	.itc_pass = B_FALSE,
1437 	.itc_fail = IMC_DECODE_F_DIMM_NOT_PRESENT
1438 }, {
1439 	.itc_desc = "Bad RIR rank target (1)",
1440 	.itc_imc = &imc_bad_rank_index,
1441 	.itc_pa = 0x45,
1442 	.itc_pass = B_FALSE,
1443 	.itc_fail = IMC_DECODE_F_BAD_DIMM_RANK
1444 }, {
1445 	.itc_desc = "Bad RIR rank target (2)",
1446 	.itc_imc = &imc_bad_rank_index,
1447 	.itc_pa = 0x7fffff,
1448 	.itc_pass = B_FALSE,
1449 	.itc_fail = IMC_DECODE_F_BAD_DIMM_RANK
1450 }, {
1451 	.itc_desc = "Bad RIR rank target (3)",
1452 	.itc_imc = &imc_bad_rank_index,
1453 	.itc_pa = 0x123456789ULL,
1454 	.itc_pass = B_FALSE,
1455 	.itc_fail = IMC_DECODE_F_BAD_DIMM_RANK
1456 }, {
1457 	.itc_desc = "Bad channel offset underflow (1)",
1458 	.itc_imc = &imc_chanoff_underflow,
1459 	.itc_pa = 0x45,
1460 	.itc_pass = B_FALSE,
1461 	.itc_fail = IMC_DECODE_F_CHANOFF_UNDERFLOW
1462 }, {
1463 	.itc_desc = "Bad channel offset underflow (2)",
1464 	.itc_imc = &imc_chanoff_underflow,
1465 	.itc_pa = 0x7fffff,
1466 	.itc_pass = B_FALSE,
1467 	.itc_fail = IMC_DECODE_F_CHANOFF_UNDERFLOW
1468 }, {
1469 	.itc_desc = "Bad channel offset underflow (3)",
1470 	.itc_imc = &imc_chanoff_underflow,
1471 	.itc_pa = 0x123456789ULL,
1472 	.itc_pass = B_FALSE,
1473 	.itc_fail = IMC_DECODE_F_CHANOFF_UNDERFLOW
1474 }, {
1475 	.itc_desc = "Bad rank offset underflow (1)",
1476 	.itc_imc = &imc_riroff_underflow,
1477 	.itc_pa = 0x45,
1478 	.itc_pass = B_FALSE,
1479 	.itc_fail = IMC_DECODE_F_RANKOFF_UNDERFLOW
1480 }, {
1481 	.itc_desc = "Bad rank offset underflow (2)",
1482 	.itc_imc = &imc_riroff_underflow,
1483 	.itc_pa = 0x7fffff,
1484 	.itc_pass = B_FALSE,
1485 	.itc_fail = IMC_DECODE_F_RANKOFF_UNDERFLOW
1486 }, {
1487 	.itc_desc = "Bad rank offset underflow (3)",
1488 	.itc_imc = &imc_riroff_underflow,
1489 	.itc_pa = 0x123456789ULL,
1490 	.itc_pass = B_FALSE,
1491 	.itc_fail = IMC_DECODE_F_RANKOFF_UNDERFLOW
1492 }, {
1493 	.itc_desc = NULL
1494 } };
1495