1b2441318SGreg Kroah-Hartman // SPDX-License-Identifier: GPL-2.0 2011d8261SBorislav Petkov #include <linux/mm.h> 3011d8261SBorislav Petkov #include <linux/gfp.h> 4011d8261SBorislav Petkov #include <linux/kernel.h> 50ade0b62SCong Wang #include <linux/workqueue.h> 6011d8261SBorislav Petkov 7011d8261SBorislav Petkov #include <asm/mce.h> 8011d8261SBorislav Petkov 9011d8261SBorislav Petkov #include "debugfs.h" 10011d8261SBorislav Petkov 11011d8261SBorislav Petkov /* 12011d8261SBorislav Petkov * RAS Correctable Errors Collector 13011d8261SBorislav Petkov * 14011d8261SBorislav Petkov * This is a simple gadget which collects correctable errors and counts their 15011d8261SBorislav Petkov * occurrence per physical page address. 16011d8261SBorislav Petkov * 17011d8261SBorislav Petkov * We've opted for possibly the simplest data structure to collect those - an 18011d8261SBorislav Petkov * array of the size of a memory page. It stores 512 u64's with the following 19011d8261SBorislav Petkov * structure: 20011d8261SBorislav Petkov * 21011d8261SBorislav Petkov * [63 ... PFN ... 12 | 11 ... generation ... 10 | 9 ... count ... 0] 22011d8261SBorislav Petkov * 23011d8261SBorislav Petkov * The generation in the two highest order bits is two bits which are set to 11b 24011d8261SBorislav Petkov * on every insertion. During the course of each entry's existence, the 25011d8261SBorislav Petkov * generation field gets decremented during spring cleaning to 10b, then 01b and 26011d8261SBorislav Petkov * then 00b. 27011d8261SBorislav Petkov * 28011d8261SBorislav Petkov * This way we're employing the natural numeric ordering to make sure that newly 29011d8261SBorislav Petkov * inserted/touched elements have higher 12-bit counts (which we've manufactured) 30011d8261SBorislav Petkov * and thus iterating over the array initially won't kick out those elements 31011d8261SBorislav Petkov * which were inserted last. 32011d8261SBorislav Petkov * 33011d8261SBorislav Petkov * Spring cleaning is what we do when we reach a certain number CLEAN_ELEMS of 34011d8261SBorislav Petkov * elements entered into the array, during which, we're decaying all elements. 35011d8261SBorislav Petkov * If, after decay, an element gets inserted again, its generation is set to 11b 36011d8261SBorislav Petkov * to make sure it has higher numerical count than other, older elements and 37011d8261SBorislav Petkov * thus emulate an an LRU-like behavior when deleting elements to free up space 38011d8261SBorislav Petkov * in the page. 39011d8261SBorislav Petkov * 40b8b5ca66SBorislav Petkov * When an element reaches it's max count of action_threshold, we try to poison 41b8b5ca66SBorislav Petkov * it by assuming that errors triggered action_threshold times in a single page 42b8b5ca66SBorislav Petkov * are excessive and that page shouldn't be used anymore. action_threshold is 43011d8261SBorislav Petkov * initialized to COUNT_MASK which is the maximum. 44011d8261SBorislav Petkov * 45011d8261SBorislav Petkov * That error event entry causes cec_add_elem() to return !0 value and thus 46011d8261SBorislav Petkov * signal to its callers to log the error. 47011d8261SBorislav Petkov * 48011d8261SBorislav Petkov * To the question why we've chosen a page and moving elements around with 49011d8261SBorislav Petkov * memmove(), it is because it is a very simple structure to handle and max data 50011d8261SBorislav Petkov * movement is 4K which on highly optimized modern CPUs is almost unnoticeable. 51011d8261SBorislav Petkov * We wanted to avoid the pointer traversal of more complex structures like a 52011d8261SBorislav Petkov * linked list or some sort of a balancing search tree. 53011d8261SBorislav Petkov * 54011d8261SBorislav Petkov * Deleting an element takes O(n) but since it is only a single page, it should 55011d8261SBorislav Petkov * be fast enough and it shouldn't happen all too often depending on error 56011d8261SBorislav Petkov * patterns. 57011d8261SBorislav Petkov */ 58011d8261SBorislav Petkov 59011d8261SBorislav Petkov #undef pr_fmt 60011d8261SBorislav Petkov #define pr_fmt(fmt) "RAS: " fmt 61011d8261SBorislav Petkov 62011d8261SBorislav Petkov /* 63011d8261SBorislav Petkov * We use DECAY_BITS bits of PAGE_SHIFT bits for counting decay, i.e., how long 64011d8261SBorislav Petkov * elements have stayed in the array without having been accessed again. 65011d8261SBorislav Petkov */ 66011d8261SBorislav Petkov #define DECAY_BITS 2 67011d8261SBorislav Petkov #define DECAY_MASK ((1ULL << DECAY_BITS) - 1) 68011d8261SBorislav Petkov #define MAX_ELEMS (PAGE_SIZE / sizeof(u64)) 69011d8261SBorislav Petkov 70011d8261SBorislav Petkov /* 71011d8261SBorislav Petkov * Threshold amount of inserted elements after which we start spring 72011d8261SBorislav Petkov * cleaning. 73011d8261SBorislav Petkov */ 74011d8261SBorislav Petkov #define CLEAN_ELEMS (MAX_ELEMS >> DECAY_BITS) 75011d8261SBorislav Petkov 76011d8261SBorislav Petkov /* Bits which count the number of errors happened in this 4K page. */ 77011d8261SBorislav Petkov #define COUNT_BITS (PAGE_SHIFT - DECAY_BITS) 78011d8261SBorislav Petkov #define COUNT_MASK ((1ULL << COUNT_BITS) - 1) 79011d8261SBorislav Petkov #define FULL_COUNT_MASK (PAGE_SIZE - 1) 80011d8261SBorislav Petkov 81011d8261SBorislav Petkov /* 82011d8261SBorislav Petkov * u64: [ 63 ... 12 | DECAY_BITS | COUNT_BITS ] 83011d8261SBorislav Petkov */ 84011d8261SBorislav Petkov 85011d8261SBorislav Petkov #define PFN(e) ((e) >> PAGE_SHIFT) 86011d8261SBorislav Petkov #define DECAY(e) (((e) >> COUNT_BITS) & DECAY_MASK) 87011d8261SBorislav Petkov #define COUNT(e) ((unsigned int)(e) & COUNT_MASK) 88011d8261SBorislav Petkov #define FULL_COUNT(e) ((e) & (PAGE_SIZE - 1)) 89011d8261SBorislav Petkov 90011d8261SBorislav Petkov static struct ce_array { 91011d8261SBorislav Petkov u64 *array; /* container page */ 92011d8261SBorislav Petkov unsigned int n; /* number of elements in the array */ 93011d8261SBorislav Petkov 94011d8261SBorislav Petkov unsigned int decay_count; /* 95011d8261SBorislav Petkov * number of element insertions/increments 96011d8261SBorislav Petkov * since the last spring cleaning. 97011d8261SBorislav Petkov */ 98011d8261SBorislav Petkov 99011d8261SBorislav Petkov u64 pfns_poisoned; /* 100011d8261SBorislav Petkov * number of PFNs which got poisoned. 101011d8261SBorislav Petkov */ 102011d8261SBorislav Petkov 103011d8261SBorislav Petkov u64 ces_entered; /* 104011d8261SBorislav Petkov * The number of correctable errors 105011d8261SBorislav Petkov * entered into the collector. 106011d8261SBorislav Petkov */ 107011d8261SBorislav Petkov 108011d8261SBorislav Petkov u64 decays_done; /* 109011d8261SBorislav Petkov * Times we did spring cleaning. 110011d8261SBorislav Petkov */ 111011d8261SBorislav Petkov 112011d8261SBorislav Petkov union { 113011d8261SBorislav Petkov struct { 114011d8261SBorislav Petkov __u32 disabled : 1, /* cmdline disabled */ 115011d8261SBorislav Petkov __resv : 31; 116011d8261SBorislav Petkov }; 117011d8261SBorislav Petkov __u32 flags; 118011d8261SBorislav Petkov }; 119011d8261SBorislav Petkov } ce_arr; 120011d8261SBorislav Petkov 121011d8261SBorislav Petkov static DEFINE_MUTEX(ce_mutex); 122011d8261SBorislav Petkov static u64 dfs_pfn; 123011d8261SBorislav Petkov 124011d8261SBorislav Petkov /* Amount of errors after which we offline */ 125b8b5ca66SBorislav Petkov static u64 action_threshold = COUNT_MASK; 126011d8261SBorislav Petkov 1270ade0b62SCong Wang /* Each element "decays" each decay_interval which is 24hrs by default. */ 1280ade0b62SCong Wang #define CEC_DECAY_DEFAULT_INTERVAL 24 * 60 * 60 /* 24 hrs */ 1290ade0b62SCong Wang #define CEC_DECAY_MIN_INTERVAL 1 * 60 * 60 /* 1h */ 1300ade0b62SCong Wang #define CEC_DECAY_MAX_INTERVAL 30 * 24 * 60 * 60 /* one month */ 1310ade0b62SCong Wang static struct delayed_work cec_work; 1320ade0b62SCong Wang static u64 decay_interval = CEC_DECAY_DEFAULT_INTERVAL; 133011d8261SBorislav Petkov 134011d8261SBorislav Petkov /* 135011d8261SBorislav Petkov * Decrement decay value. We're using DECAY_BITS bits to denote decay of an 136011d8261SBorislav Petkov * element in the array. On insertion and any access, it gets reset to max. 137011d8261SBorislav Petkov */ 138011d8261SBorislav Petkov static void do_spring_cleaning(struct ce_array *ca) 139011d8261SBorislav Petkov { 140011d8261SBorislav Petkov int i; 141011d8261SBorislav Petkov 142011d8261SBorislav Petkov for (i = 0; i < ca->n; i++) { 143011d8261SBorislav Petkov u8 decay = DECAY(ca->array[i]); 144011d8261SBorislav Petkov 145011d8261SBorislav Petkov if (!decay) 146011d8261SBorislav Petkov continue; 147011d8261SBorislav Petkov 148011d8261SBorislav Petkov decay--; 149011d8261SBorislav Petkov 150011d8261SBorislav Petkov ca->array[i] &= ~(DECAY_MASK << COUNT_BITS); 151011d8261SBorislav Petkov ca->array[i] |= (decay << COUNT_BITS); 152011d8261SBorislav Petkov } 153011d8261SBorislav Petkov ca->decay_count = 0; 154011d8261SBorislav Petkov ca->decays_done++; 155011d8261SBorislav Petkov } 156011d8261SBorislav Petkov 157011d8261SBorislav Petkov /* 158011d8261SBorislav Petkov * @interval in seconds 159011d8261SBorislav Petkov */ 1600ade0b62SCong Wang static void cec_mod_work(unsigned long interval) 161011d8261SBorislav Petkov { 162011d8261SBorislav Petkov unsigned long iv; 163011d8261SBorislav Petkov 1640ade0b62SCong Wang iv = interval * HZ; 1650ade0b62SCong Wang mod_delayed_work(system_wq, &cec_work, round_jiffies(iv)); 166011d8261SBorislav Petkov } 167011d8261SBorislav Petkov 1680ade0b62SCong Wang static void cec_work_fn(struct work_struct *work) 169011d8261SBorislav Petkov { 1700ade0b62SCong Wang mutex_lock(&ce_mutex); 171254db5bdSKees Cook do_spring_cleaning(&ce_arr); 1720ade0b62SCong Wang mutex_unlock(&ce_mutex); 173011d8261SBorislav Petkov 1740ade0b62SCong Wang cec_mod_work(decay_interval); 175011d8261SBorislav Petkov } 176011d8261SBorislav Petkov 177011d8261SBorislav Petkov /* 178011d8261SBorislav Petkov * @to: index of the smallest element which is >= then @pfn. 179011d8261SBorislav Petkov * 180011d8261SBorislav Petkov * Return the index of the pfn if found, otherwise negative value. 181011d8261SBorislav Petkov */ 182011d8261SBorislav Petkov static int __find_elem(struct ce_array *ca, u64 pfn, unsigned int *to) 183011d8261SBorislav Petkov { 184f3c74b38SBorislav Petkov int min = 0, max = ca->n - 1; 185011d8261SBorislav Petkov u64 this_pfn; 186011d8261SBorislav Petkov 187f3c74b38SBorislav Petkov while (min <= max) { 188f3c74b38SBorislav Petkov int i = (min + max) >> 1; 189011d8261SBorislav Petkov 190f3c74b38SBorislav Petkov this_pfn = PFN(ca->array[i]); 191011d8261SBorislav Petkov 192011d8261SBorislav Petkov if (this_pfn < pfn) 193f3c74b38SBorislav Petkov min = i + 1; 194011d8261SBorislav Petkov else if (this_pfn > pfn) 195f3c74b38SBorislav Petkov max = i - 1; 196f3c74b38SBorislav Petkov else if (this_pfn == pfn) { 197f3c74b38SBorislav Petkov if (to) 198f3c74b38SBorislav Petkov *to = i; 199f3c74b38SBorislav Petkov 200f3c74b38SBorislav Petkov return i; 201011d8261SBorislav Petkov } 202011d8261SBorislav Petkov } 203011d8261SBorislav Petkov 204f3c74b38SBorislav Petkov /* 205f3c74b38SBorislav Petkov * When the loop terminates without finding @pfn, min has the index of 206f3c74b38SBorislav Petkov * the element slot where the new @pfn should be inserted. The loop 207f3c74b38SBorislav Petkov * terminates when min > max, which means the min index points to the 208f3c74b38SBorislav Petkov * bigger element while the max index to the smaller element, in-between 209f3c74b38SBorislav Petkov * which the new @pfn belongs to. 210f3c74b38SBorislav Petkov * 211f3c74b38SBorislav Petkov * For more details, see exercise 1, Section 6.2.1 in TAOCP, vol. 3. 212f3c74b38SBorislav Petkov */ 213011d8261SBorislav Petkov if (to) 214011d8261SBorislav Petkov *to = min; 215011d8261SBorislav Petkov 216011d8261SBorislav Petkov return -ENOKEY; 217011d8261SBorislav Petkov } 218011d8261SBorislav Petkov 219011d8261SBorislav Petkov static int find_elem(struct ce_array *ca, u64 pfn, unsigned int *to) 220011d8261SBorislav Petkov { 221011d8261SBorislav Petkov WARN_ON(!to); 222011d8261SBorislav Petkov 223011d8261SBorislav Petkov if (!ca->n) { 224011d8261SBorislav Petkov *to = 0; 225011d8261SBorislav Petkov return -ENOKEY; 226011d8261SBorislav Petkov } 227011d8261SBorislav Petkov return __find_elem(ca, pfn, to); 228011d8261SBorislav Petkov } 229011d8261SBorislav Petkov 230011d8261SBorislav Petkov static void del_elem(struct ce_array *ca, int idx) 231011d8261SBorislav Petkov { 232011d8261SBorislav Petkov /* Save us a function call when deleting the last element. */ 233011d8261SBorislav Petkov if (ca->n - (idx + 1)) 234011d8261SBorislav Petkov memmove((void *)&ca->array[idx], 235011d8261SBorislav Petkov (void *)&ca->array[idx + 1], 236011d8261SBorislav Petkov (ca->n - (idx + 1)) * sizeof(u64)); 237011d8261SBorislav Petkov 238011d8261SBorislav Petkov ca->n--; 239011d8261SBorislav Petkov } 240011d8261SBorislav Petkov 241011d8261SBorislav Petkov static u64 del_lru_elem_unlocked(struct ce_array *ca) 242011d8261SBorislav Petkov { 243011d8261SBorislav Petkov unsigned int min = FULL_COUNT_MASK; 244011d8261SBorislav Petkov int i, min_idx = 0; 245011d8261SBorislav Petkov 246011d8261SBorislav Petkov for (i = 0; i < ca->n; i++) { 247011d8261SBorislav Petkov unsigned int this = FULL_COUNT(ca->array[i]); 248011d8261SBorislav Petkov 249011d8261SBorislav Petkov if (min > this) { 250011d8261SBorislav Petkov min = this; 251011d8261SBorislav Petkov min_idx = i; 252011d8261SBorislav Petkov } 253011d8261SBorislav Petkov } 254011d8261SBorislav Petkov 255011d8261SBorislav Petkov del_elem(ca, min_idx); 256011d8261SBorislav Petkov 257011d8261SBorislav Petkov return PFN(ca->array[min_idx]); 258011d8261SBorislav Petkov } 259011d8261SBorislav Petkov 260011d8261SBorislav Petkov /* 261011d8261SBorislav Petkov * We return the 0th pfn in the error case under the assumption that it cannot 262011d8261SBorislav Petkov * be poisoned and excessive CEs in there are a serious deal anyway. 263011d8261SBorislav Petkov */ 264011d8261SBorislav Petkov static u64 __maybe_unused del_lru_elem(void) 265011d8261SBorislav Petkov { 266011d8261SBorislav Petkov struct ce_array *ca = &ce_arr; 267011d8261SBorislav Petkov u64 pfn; 268011d8261SBorislav Petkov 269011d8261SBorislav Petkov if (!ca->n) 270011d8261SBorislav Petkov return 0; 271011d8261SBorislav Petkov 272011d8261SBorislav Petkov mutex_lock(&ce_mutex); 273011d8261SBorislav Petkov pfn = del_lru_elem_unlocked(ca); 274011d8261SBorislav Petkov mutex_unlock(&ce_mutex); 275011d8261SBorislav Petkov 276011d8261SBorislav Petkov return pfn; 277011d8261SBorislav Petkov } 278011d8261SBorislav Petkov 2799632a329SBorislav Petkov static bool sanity_check(struct ce_array *ca) 2809632a329SBorislav Petkov { 2819632a329SBorislav Petkov bool ret = false; 2829632a329SBorislav Petkov u64 prev = 0; 2839632a329SBorislav Petkov int i; 2849632a329SBorislav Petkov 2859632a329SBorislav Petkov for (i = 0; i < ca->n; i++) { 2869632a329SBorislav Petkov u64 this = PFN(ca->array[i]); 2879632a329SBorislav Petkov 2889632a329SBorislav Petkov if (WARN(prev > this, "prev: 0x%016llx <-> this: 0x%016llx\n", prev, this)) 2899632a329SBorislav Petkov ret = true; 2909632a329SBorislav Petkov 2919632a329SBorislav Petkov prev = this; 2929632a329SBorislav Petkov } 2939632a329SBorislav Petkov 2949632a329SBorislav Petkov if (!ret) 2959632a329SBorislav Petkov return ret; 2969632a329SBorislav Petkov 2979632a329SBorislav Petkov pr_info("Sanity check dump:\n{ n: %d\n", ca->n); 2989632a329SBorislav Petkov for (i = 0; i < ca->n; i++) { 2999632a329SBorislav Petkov u64 this = PFN(ca->array[i]); 3009632a329SBorislav Petkov 3019632a329SBorislav Petkov pr_info(" %03d: [%016llx|%03llx]\n", i, this, FULL_COUNT(ca->array[i])); 3029632a329SBorislav Petkov } 3039632a329SBorislav Petkov pr_info("}\n"); 3049632a329SBorislav Petkov 3059632a329SBorislav Petkov return ret; 3069632a329SBorislav Petkov } 307011d8261SBorislav Petkov 308011d8261SBorislav Petkov int cec_add_elem(u64 pfn) 309011d8261SBorislav Petkov { 310011d8261SBorislav Petkov struct ce_array *ca = &ce_arr; 3119632a329SBorislav Petkov unsigned int to = 0; 312011d8261SBorislav Petkov int count, ret = 0; 313011d8261SBorislav Petkov 314011d8261SBorislav Petkov /* 315011d8261SBorislav Petkov * We can be called very early on the identify_cpu() path where we are 316011d8261SBorislav Petkov * not initialized yet. We ignore the error for simplicity. 317011d8261SBorislav Petkov */ 318011d8261SBorislav Petkov if (!ce_arr.array || ce_arr.disabled) 319011d8261SBorislav Petkov return -ENODEV; 320011d8261SBorislav Petkov 321011d8261SBorislav Petkov mutex_lock(&ce_mutex); 322011d8261SBorislav Petkov 32309cbd219SWANG Chao ca->ces_entered++; 32409cbd219SWANG Chao 325de0e0624SBorislav Petkov /* Array full, free the LRU slot. */ 326011d8261SBorislav Petkov if (ca->n == MAX_ELEMS) 327011d8261SBorislav Petkov WARN_ON(!del_lru_elem_unlocked(ca)); 328011d8261SBorislav Petkov 329011d8261SBorislav Petkov ret = find_elem(ca, pfn, &to); 330011d8261SBorislav Petkov if (ret < 0) { 331011d8261SBorislav Petkov /* 332011d8261SBorislav Petkov * Shift range [to-end] to make room for one more element. 333011d8261SBorislav Petkov */ 334011d8261SBorislav Petkov memmove((void *)&ca->array[to + 1], 335011d8261SBorislav Petkov (void *)&ca->array[to], 336011d8261SBorislav Petkov (ca->n - to) * sizeof(u64)); 337011d8261SBorislav Petkov 338de0e0624SBorislav Petkov ca->array[to] = pfn << PAGE_SHIFT; 339011d8261SBorislav Petkov ca->n++; 340011d8261SBorislav Petkov } 341011d8261SBorislav Petkov 342de0e0624SBorislav Petkov /* Add/refresh element generation and increment count */ 343de0e0624SBorislav Petkov ca->array[to] |= DECAY_MASK << COUNT_BITS; 344011d8261SBorislav Petkov ca->array[to]++; 345011d8261SBorislav Petkov 346de0e0624SBorislav Petkov /* Check action threshold and soft-offline, if reached. */ 347de0e0624SBorislav Petkov count = COUNT(ca->array[to]); 348b8b5ca66SBorislav Petkov if (count >= action_threshold) { 349011d8261SBorislav Petkov u64 pfn = ca->array[to] >> PAGE_SHIFT; 350011d8261SBorislav Petkov 351011d8261SBorislav Petkov if (!pfn_valid(pfn)) { 352011d8261SBorislav Petkov pr_warn("CEC: Invalid pfn: 0x%llx\n", pfn); 353011d8261SBorislav Petkov } else { 354011d8261SBorislav Petkov /* We have reached max count for this page, soft-offline it. */ 355011d8261SBorislav Petkov pr_err("Soft-offlining pfn: 0x%llx\n", pfn); 35683b57531SEric W. Biederman memory_failure_queue(pfn, MF_SOFT_OFFLINE); 357011d8261SBorislav Petkov ca->pfns_poisoned++; 358011d8261SBorislav Petkov } 359011d8261SBorislav Petkov 360011d8261SBorislav Petkov del_elem(ca, to); 361011d8261SBorislav Petkov 362011d8261SBorislav Petkov /* 363de0e0624SBorislav Petkov * Return a >0 value to callers, to denote that we've reached 364de0e0624SBorislav Petkov * the offlining threshold. 365011d8261SBorislav Petkov */ 366011d8261SBorislav Petkov ret = 1; 367011d8261SBorislav Petkov 368011d8261SBorislav Petkov goto unlock; 369011d8261SBorislav Petkov } 370011d8261SBorislav Petkov 371011d8261SBorislav Petkov ca->decay_count++; 372011d8261SBorislav Petkov 373011d8261SBorislav Petkov if (ca->decay_count >= CLEAN_ELEMS) 374011d8261SBorislav Petkov do_spring_cleaning(ca); 375011d8261SBorislav Petkov 3769632a329SBorislav Petkov WARN_ON_ONCE(sanity_check(ca)); 3779632a329SBorislav Petkov 378011d8261SBorislav Petkov unlock: 379011d8261SBorislav Petkov mutex_unlock(&ce_mutex); 380011d8261SBorislav Petkov 381011d8261SBorislav Petkov return ret; 382011d8261SBorislav Petkov } 383011d8261SBorislav Petkov 384011d8261SBorislav Petkov static int u64_get(void *data, u64 *val) 385011d8261SBorislav Petkov { 386011d8261SBorislav Petkov *val = *(u64 *)data; 387011d8261SBorislav Petkov 388011d8261SBorislav Petkov return 0; 389011d8261SBorislav Petkov } 390011d8261SBorislav Petkov 391011d8261SBorislav Petkov static int pfn_set(void *data, u64 val) 392011d8261SBorislav Petkov { 393011d8261SBorislav Petkov *(u64 *)data = val; 394011d8261SBorislav Petkov 3956d8e294bSBorislav Petkov cec_add_elem(val); 3966d8e294bSBorislav Petkov 3976d8e294bSBorislav Petkov return 0; 398011d8261SBorislav Petkov } 399011d8261SBorislav Petkov 400011d8261SBorislav Petkov DEFINE_DEBUGFS_ATTRIBUTE(pfn_ops, u64_get, pfn_set, "0x%llx\n"); 401011d8261SBorislav Petkov 402011d8261SBorislav Petkov static int decay_interval_set(void *data, u64 val) 403011d8261SBorislav Petkov { 4040ade0b62SCong Wang if (val < CEC_DECAY_MIN_INTERVAL) 405011d8261SBorislav Petkov return -EINVAL; 406011d8261SBorislav Petkov 4070ade0b62SCong Wang if (val > CEC_DECAY_MAX_INTERVAL) 408011d8261SBorislav Petkov return -EINVAL; 409011d8261SBorislav Petkov 4105cc6b16eSBorislav Petkov *(u64 *)data = val; 4110ade0b62SCong Wang decay_interval = val; 412011d8261SBorislav Petkov 4130ade0b62SCong Wang cec_mod_work(decay_interval); 4145cc6b16eSBorislav Petkov 415011d8261SBorislav Petkov return 0; 416011d8261SBorislav Petkov } 417011d8261SBorislav Petkov DEFINE_DEBUGFS_ATTRIBUTE(decay_interval_ops, u64_get, decay_interval_set, "%lld\n"); 418011d8261SBorislav Petkov 419b8b5ca66SBorislav Petkov static int action_threshold_set(void *data, u64 val) 420011d8261SBorislav Petkov { 421011d8261SBorislav Petkov *(u64 *)data = val; 422011d8261SBorislav Petkov 423011d8261SBorislav Petkov if (val > COUNT_MASK) 424011d8261SBorislav Petkov val = COUNT_MASK; 425011d8261SBorislav Petkov 426b8b5ca66SBorislav Petkov action_threshold = val; 427011d8261SBorislav Petkov 428011d8261SBorislav Petkov return 0; 429011d8261SBorislav Petkov } 430b8b5ca66SBorislav Petkov DEFINE_DEBUGFS_ATTRIBUTE(action_threshold_ops, u64_get, action_threshold_set, "%lld\n"); 431011d8261SBorislav Petkov 432f57518cdSBorislav Petkov static const char * const bins[] = { "00", "01", "10", "11" }; 433f57518cdSBorislav Petkov 434011d8261SBorislav Petkov static int array_dump(struct seq_file *m, void *v) 435011d8261SBorislav Petkov { 436011d8261SBorislav Petkov struct ce_array *ca = &ce_arr; 437011d8261SBorislav Petkov int i; 438011d8261SBorislav Petkov 439011d8261SBorislav Petkov mutex_lock(&ce_mutex); 440011d8261SBorislav Petkov 441011d8261SBorislav Petkov seq_printf(m, "{ n: %d\n", ca->n); 442011d8261SBorislav Petkov for (i = 0; i < ca->n; i++) { 443011d8261SBorislav Petkov u64 this = PFN(ca->array[i]); 444011d8261SBorislav Petkov 445f57518cdSBorislav Petkov seq_printf(m, " %3d: [%016llx|%s|%03llx]\n", 446f57518cdSBorislav Petkov i, this, bins[DECAY(ca->array[i])], COUNT(ca->array[i])); 447011d8261SBorislav Petkov } 448011d8261SBorislav Petkov 449011d8261SBorislav Petkov seq_printf(m, "}\n"); 450011d8261SBorislav Petkov 451011d8261SBorislav Petkov seq_printf(m, "Stats:\nCEs: %llu\nofflined pages: %llu\n", 452011d8261SBorislav Petkov ca->ces_entered, ca->pfns_poisoned); 453011d8261SBorislav Petkov 454011d8261SBorislav Petkov seq_printf(m, "Flags: 0x%x\n", ca->flags); 455011d8261SBorislav Petkov 4560ade0b62SCong Wang seq_printf(m, "Decay interval: %lld seconds\n", decay_interval); 457011d8261SBorislav Petkov seq_printf(m, "Decays: %lld\n", ca->decays_done); 458011d8261SBorislav Petkov 459b8b5ca66SBorislav Petkov seq_printf(m, "Action threshold: %lld\n", action_threshold); 460011d8261SBorislav Petkov 461011d8261SBorislav Petkov mutex_unlock(&ce_mutex); 462011d8261SBorislav Petkov 463011d8261SBorislav Petkov return 0; 464011d8261SBorislav Petkov } 465011d8261SBorislav Petkov 466011d8261SBorislav Petkov static int array_open(struct inode *inode, struct file *filp) 467011d8261SBorislav Petkov { 468011d8261SBorislav Petkov return single_open(filp, array_dump, NULL); 469011d8261SBorislav Petkov } 470011d8261SBorislav Petkov 471011d8261SBorislav Petkov static const struct file_operations array_ops = { 472011d8261SBorislav Petkov .owner = THIS_MODULE, 473011d8261SBorislav Petkov .open = array_open, 474011d8261SBorislav Petkov .read = seq_read, 475011d8261SBorislav Petkov .llseek = seq_lseek, 476011d8261SBorislav Petkov .release = single_release, 477011d8261SBorislav Petkov }; 478011d8261SBorislav Petkov 479011d8261SBorislav Petkov static int __init create_debugfs_nodes(void) 480011d8261SBorislav Petkov { 481011d8261SBorislav Petkov struct dentry *d, *pfn, *decay, *count, *array; 482011d8261SBorislav Petkov 483011d8261SBorislav Petkov d = debugfs_create_dir("cec", ras_debugfs_dir); 484011d8261SBorislav Petkov if (!d) { 485011d8261SBorislav Petkov pr_warn("Error creating cec debugfs node!\n"); 486011d8261SBorislav Petkov return -1; 487011d8261SBorislav Petkov } 488011d8261SBorislav Petkov 489011d8261SBorislav Petkov decay = debugfs_create_file("decay_interval", S_IRUSR | S_IWUSR, d, 4900ade0b62SCong Wang &decay_interval, &decay_interval_ops); 491011d8261SBorislav Petkov if (!decay) { 492011d8261SBorislav Petkov pr_warn("Error creating decay_interval debugfs node!\n"); 493011d8261SBorislav Petkov goto err; 494011d8261SBorislav Petkov } 495011d8261SBorislav Petkov 496b8b5ca66SBorislav Petkov count = debugfs_create_file("action_threshold", S_IRUSR | S_IWUSR, d, 497b8b5ca66SBorislav Petkov &action_threshold, &action_threshold_ops); 49832288dafSChristophe JAILLET if (!count) { 499b8b5ca66SBorislav Petkov pr_warn("Error creating action_threshold debugfs node!\n"); 500011d8261SBorislav Petkov goto err; 501011d8261SBorislav Petkov } 502011d8261SBorislav Petkov 503*60fd42d2STony Luck if (!IS_ENABLED(CONFIG_RAS_CEC_DEBUG)) 504*60fd42d2STony Luck return 0; 505*60fd42d2STony Luck 506*60fd42d2STony Luck pfn = debugfs_create_file("pfn", S_IRUSR | S_IWUSR, d, &dfs_pfn, &pfn_ops); 507*60fd42d2STony Luck if (!pfn) { 508*60fd42d2STony Luck pr_warn("Error creating pfn debugfs node!\n"); 509*60fd42d2STony Luck goto err; 510*60fd42d2STony Luck } 511*60fd42d2STony Luck 512*60fd42d2STony Luck array = debugfs_create_file("array", S_IRUSR, d, NULL, &array_ops); 513*60fd42d2STony Luck if (!array) { 514*60fd42d2STony Luck pr_warn("Error creating array debugfs node!\n"); 515*60fd42d2STony Luck goto err; 516*60fd42d2STony Luck } 517011d8261SBorislav Petkov 518011d8261SBorislav Petkov return 0; 519011d8261SBorislav Petkov 520011d8261SBorislav Petkov err: 521011d8261SBorislav Petkov debugfs_remove_recursive(d); 522011d8261SBorislav Petkov 523011d8261SBorislav Petkov return 1; 524011d8261SBorislav Petkov } 525011d8261SBorislav Petkov 526011d8261SBorislav Petkov void __init cec_init(void) 527011d8261SBorislav Petkov { 528011d8261SBorislav Petkov if (ce_arr.disabled) 529011d8261SBorislav Petkov return; 530011d8261SBorislav Petkov 531011d8261SBorislav Petkov ce_arr.array = (void *)get_zeroed_page(GFP_KERNEL); 532011d8261SBorislav Petkov if (!ce_arr.array) { 533011d8261SBorislav Petkov pr_err("Error allocating CE array page!\n"); 534011d8261SBorislav Petkov return; 535011d8261SBorislav Petkov } 536011d8261SBorislav Petkov 537d0e375e8SBorislav Petkov if (create_debugfs_nodes()) { 538d0e375e8SBorislav Petkov free_page((unsigned long)ce_arr.array); 539011d8261SBorislav Petkov return; 540d0e375e8SBorislav Petkov } 541011d8261SBorislav Petkov 5420ade0b62SCong Wang INIT_DELAYED_WORK(&cec_work, cec_work_fn); 5430ade0b62SCong Wang schedule_delayed_work(&cec_work, CEC_DECAY_DEFAULT_INTERVAL); 544011d8261SBorislav Petkov 545011d8261SBorislav Petkov pr_info("Correctable Errors collector initialized.\n"); 546011d8261SBorislav Petkov } 547011d8261SBorislav Petkov 548011d8261SBorislav Petkov int __init parse_cec_param(char *str) 549011d8261SBorislav Petkov { 550011d8261SBorislav Petkov if (!str) 551011d8261SBorislav Petkov return 0; 552011d8261SBorislav Petkov 553011d8261SBorislav Petkov if (*str == '=') 554011d8261SBorislav Petkov str++; 555011d8261SBorislav Petkov 55669a33000SNicolas Iooss if (!strcmp(str, "cec_disable")) 557011d8261SBorislav Petkov ce_arr.disabled = 1; 558011d8261SBorislav Petkov else 559011d8261SBorislav Petkov return 0; 560011d8261SBorislav Petkov 561011d8261SBorislav Petkov return 1; 562011d8261SBorislav Petkov } 563