Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Michael Ellerman | 1264 | 99.84% | 1 | 50.00% |
Thomas Gleixner | 2 | 0.16% | 1 | 50.00% |
Total | 1266 | 2 |
// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2014, Michael Ellerman, IBM Corp. */ #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/mman.h> #include "trace.h" struct trace_buffer *trace_buffer_allocate(u64 size) { struct trace_buffer *tb; if (size < sizeof(*tb)) { fprintf(stderr, "Error: trace buffer too small\n"); return NULL; } tb = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (tb == MAP_FAILED) { perror("mmap"); return NULL; } tb->size = size; tb->tail = tb->data; tb->overflow = false; return tb; } static bool trace_check_bounds(struct trace_buffer *tb, void *p) { return p < ((void *)tb + tb->size); } static bool trace_check_alloc(struct trace_buffer *tb, void *p) { /* * If we ever overflowed don't allow any more input. This prevents us * from dropping a large item and then later logging a small one. The * buffer should just stop when overflow happened, not be patchy. If * you're overflowing, make your buffer bigger. */ if (tb->overflow) return false; if (!trace_check_bounds(tb, p)) { tb->overflow = true; return false; } return true; } static void *trace_alloc(struct trace_buffer *tb, int bytes) { void *p, *newtail; p = tb->tail; newtail = tb->tail + bytes; if (!trace_check_alloc(tb, newtail)) return NULL; tb->tail = newtail; return p; } static struct trace_entry *trace_alloc_entry(struct trace_buffer *tb, int payload_size) { struct trace_entry *e; e = trace_alloc(tb, sizeof(*e) + payload_size); if (e) e->length = payload_size; return e; } int trace_log_reg(struct trace_buffer *tb, u64 reg, u64 value) { struct trace_entry *e; u64 *p; e = trace_alloc_entry(tb, sizeof(reg) + sizeof(value)); if (!e) return -ENOSPC; e->type = TRACE_TYPE_REG; p = (u64 *)e->data; *p++ = reg; *p++ = value; return 0; } int trace_log_counter(struct trace_buffer *tb, u64 value) { struct trace_entry *e; u64 *p; e = trace_alloc_entry(tb, sizeof(value)); if (!e) return -ENOSPC; e->type = TRACE_TYPE_COUNTER; p = (u64 *)e->data; *p++ = value; return 0; } int trace_log_string(struct trace_buffer *tb, char *str) { struct trace_entry *e; char *p; int len; len = strlen(str); /* We NULL terminate to make printing easier */ e = trace_alloc_entry(tb, len + 1); if (!e) return -ENOSPC; e->type = TRACE_TYPE_STRING; p = (char *)e->data; memcpy(p, str, len); p += len; *p = '\0'; return 0; } int trace_log_indent(struct trace_buffer *tb) { struct trace_entry *e; e = trace_alloc_entry(tb, 0); if (!e) return -ENOSPC; e->type = TRACE_TYPE_INDENT; return 0; } int trace_log_outdent(struct trace_buffer *tb) { struct trace_entry *e; e = trace_alloc_entry(tb, 0); if (!e) return -ENOSPC; e->type = TRACE_TYPE_OUTDENT; return 0; } static void trace_print_header(int seq, int prefix) { printf("%*s[%d]: ", prefix, "", seq); } static char *trace_decode_reg(int reg) { switch (reg) { case 769: return "SPRN_MMCR2"; break; case 770: return "SPRN_MMCRA"; break; case 779: return "SPRN_MMCR0"; break; case 804: return "SPRN_EBBHR"; break; case 805: return "SPRN_EBBRR"; break; case 806: return "SPRN_BESCR"; break; case 800: return "SPRN_BESCRS"; break; case 801: return "SPRN_BESCRSU"; break; case 802: return "SPRN_BESCRR"; break; case 803: return "SPRN_BESCRRU"; break; case 771: return "SPRN_PMC1"; break; case 772: return "SPRN_PMC2"; break; case 773: return "SPRN_PMC3"; break; case 774: return "SPRN_PMC4"; break; case 775: return "SPRN_PMC5"; break; case 776: return "SPRN_PMC6"; break; case 780: return "SPRN_SIAR"; break; case 781: return "SPRN_SDAR"; break; case 768: return "SPRN_SIER"; break; } return NULL; } static void trace_print_reg(struct trace_entry *e) { u64 *p, *reg, *value; char *name; p = (u64 *)e->data; reg = p++; value = p; name = trace_decode_reg(*reg); if (name) printf("register %-10s = 0x%016llx\n", name, *value); else printf("register %lld = 0x%016llx\n", *reg, *value); } static void trace_print_counter(struct trace_entry *e) { u64 *value; value = (u64 *)e->data; printf("counter = %lld\n", *value); } static void trace_print_string(struct trace_entry *e) { char *str; str = (char *)e->data; puts(str); } #define BASE_PREFIX 2 #define PREFIX_DELTA 8 static void trace_print_entry(struct trace_entry *e, int seq, int *prefix) { switch (e->type) { case TRACE_TYPE_REG: trace_print_header(seq, *prefix); trace_print_reg(e); break; case TRACE_TYPE_COUNTER: trace_print_header(seq, *prefix); trace_print_counter(e); break; case TRACE_TYPE_STRING: trace_print_header(seq, *prefix); trace_print_string(e); break; case TRACE_TYPE_INDENT: trace_print_header(seq, *prefix); puts("{"); *prefix += PREFIX_DELTA; break; case TRACE_TYPE_OUTDENT: *prefix -= PREFIX_DELTA; if (*prefix < BASE_PREFIX) *prefix = BASE_PREFIX; trace_print_header(seq, *prefix); puts("}"); break; default: trace_print_header(seq, *prefix); printf("entry @ %p type %d\n", e, e->type); break; } } void trace_buffer_print(struct trace_buffer *tb) { struct trace_entry *e; int i, prefix; void *p; printf("Trace buffer dump:\n"); printf(" address %p \n", tb); printf(" tail %p\n", tb->tail); printf(" size %llu\n", tb->size); printf(" overflow %s\n", tb->overflow ? "TRUE" : "false"); printf(" Content:\n"); p = tb->data; i = 0; prefix = BASE_PREFIX; while (trace_check_bounds(tb, p) && p < tb->tail) { e = p; trace_print_entry(e, i, &prefix); i++; p = (void *)e + sizeof(*e) + e->length; } } void trace_print_location(struct trace_buffer *tb) { printf("Trace buffer 0x%llx bytes @ %p\n", tb->size, tb); }
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