/* * This file contains format parsing code for blkparse, allowing you to * customize the individual action format and generel output format. */ #include <stdio.h> #include <string.h> #include <stdlib.h> #include <unistd.h> #include <ctype.h> #include <time.h> #include "blktrace.h" #define VALID_SPECS "ABCDFGIMPQRSTUWX" #define HEADER "%D %2c %8s %5T.%9t %5p %2a %3d " static char *override_format[256]; static inline int valid_spec(int spec) { return strchr(VALID_SPECS, spec) != NULL; } void set_all_format_specs(char *option) { char *p; for (p = VALID_SPECS; *p; p++) if (override_format[(int)(*p)] == NULL) override_format[(int)(*p)] = strdup(option); } int add_format_spec(char *option) { int spec = optarg[0]; if (!valid_spec(spec)) { fprintf(stderr,"Bad format specifier %c\n", spec); return 1; } if (optarg[1] != ',') { fprintf(stderr,"Bad format specifier - need ',' %s\n", option); return 1; } option += 2; override_format[spec] = strdup(option); return 0; } static inline void fill_rwbs(char *rwbs, struct blk_io_trace *t) { int w = t->action & BLK_TC_ACT(BLK_TC_WRITE); int a = t->action & BLK_TC_ACT(BLK_TC_AHEAD); int s = t->action & BLK_TC_ACT(BLK_TC_SYNC); int m = t->action & BLK_TC_ACT(BLK_TC_META); int d = t->action & BLK_TC_ACT(BLK_TC_DISCARD); int f = t->action & BLK_TC_ACT(BLK_TC_FLUSH); int u = t->action & BLK_TC_ACT(BLK_TC_FUA); int i = 0; if (f) rwbs[i++] = 'F'; /* flush */ if (d) rwbs[i++] = 'D'; else if (w) rwbs[i++] = 'W'; else if (t->bytes) rwbs[i++] = 'R'; else rwbs[i++] = 'N'; if (u) rwbs[i++] = 'F'; /* fua */ if (a) rwbs[i++] = 'A'; if (s) rwbs[i++] = 'S'; if (m) rwbs[i++] = 'M'; rwbs[i] = '\0'; } static const char * print_time(unsigned long long timestamp) { static char timebuf[128]; struct tm *tm; time_t sec; unsigned long nsec; sec = abs_start_time.tv_sec + SECONDS(timestamp); nsec = abs_start_time.tv_nsec + NANO_SECONDS(timestamp); if (nsec >= 1000000000) { nsec -= 1000000000; sec += 1; } tm = localtime(&sec); snprintf(timebuf, sizeof(timebuf), "%02u:%02u:%02u.%06lu", tm->tm_hour, tm->tm_min, tm->tm_sec, nsec / 1000); return timebuf; } static inline int pdu_rest_is_zero(unsigned char *pdu, int len) { static char zero[4096]; return !memcmp(pdu, zero, len); } static char *dump_pdu(unsigned char *pdu_buf, int pdu_len) { static char p[4096]; int i, len; if (!pdu_buf || !pdu_len) return NULL; for (len = 0, i = 0; i < pdu_len; i++) { if (i) len += sprintf(p + len, " "); len += sprintf(p + len, "%02x", pdu_buf[i]); /* * usually dump for cdb dumps where we can see lots of * zeroes, stop when the rest is just zeroes and indicate * so with a .. appended */ if (!pdu_buf[i] && pdu_rest_is_zero(pdu_buf + i, pdu_len - i)) { sprintf(p + len, " .."); break; } } return p; } #define pdu_start(t) (((void *) (t) + sizeof(struct blk_io_trace))) static unsigned int get_pdu_int(struct blk_io_trace *t) { __u64 *val = pdu_start(t); return be64_to_cpu(*val); } static void get_pdu_remap(struct blk_io_trace *t, struct blk_io_trace_remap *r) { struct blk_io_trace_remap *__r = pdu_start(t); __u64 sector_from = __r->sector_from; r->device_from = be32_to_cpu(__r->device_from); r->device_to = be32_to_cpu(__r->device_to); r->sector_from = be64_to_cpu(sector_from); } static void print_field(char *act, struct per_cpu_info *pci, struct blk_io_trace *t, unsigned long long elapsed, int pdu_len, unsigned char *pdu_buf, char field, int minus, int has_w, int width) { char format[64]; if (has_w) { if (minus) sprintf(format, "%%-%d", width); else sprintf(format, "%%%d", width); } else sprintf(format, "%%"); switch (field) { case 'a': fprintf(ofp, strcat(format, "s"), act); break; case 'c': fprintf(ofp, strcat(format, "d"), pci->cpu); break; case 'C': { char *name = find_process_name(t->pid); fprintf(ofp, strcat(format, "s"), name); break; } case 'd': { char rwbs[8]; fill_rwbs(rwbs, t); fprintf(ofp, strcat(format, "s"), rwbs); break; } case 'D': /* format width ignored */ fprintf(ofp,"%3d,%-3d", MAJOR(t->device), MINOR(t->device)); break; case 'e': fprintf(ofp, strcat(format, "d"), t->error); break; case 'M': fprintf(ofp, strcat(format, "d"), MAJOR(t->device)); break; case 'm': fprintf(ofp, strcat(format, "d"), MINOR(t->device)); break; case 'n': fprintf(ofp, strcat(format, "u"), t_sec(t)); break; case 'N': fprintf(ofp, strcat(format, "u"), t->bytes); break; case 'p': fprintf(ofp, strcat(format, "u"), t->pid); break; case 'P': { /* format width ignored */ char *p = dump_pdu(pdu_buf, pdu_len); if (p) fprintf(ofp, "%s", p); break; } case 's': fprintf(ofp, strcat(format, "ld"), t->sequence); break; case 'S': fprintf(ofp, strcat(format, "lu"), t->sector); break; case 't': sprintf(format, "%%0%dlu", has_w ? width : 9); fprintf(ofp, format, NANO_SECONDS(t->time)); break; case 'T': fprintf(ofp, strcat(format, "d"), SECONDS(t->time)); break; case 'u': if (elapsed == -1ULL) { fprintf(stderr, "Expecting elapsed value\n"); exit(1); } fprintf(ofp, strcat(format, "llu"), elapsed / 1000); break; case 'U': fprintf(ofp, strcat(format, "u"), get_pdu_int(t)); break; case 'z': fprintf(ofp, strcat(format, "s"), print_time(t->time)); break; default: fprintf(ofp,strcat(format, "c"), field); break; } } static char *parse_field(char *act, struct per_cpu_info *pci, struct blk_io_trace *t, unsigned long long elapsed, int pdu_len, unsigned char *pdu_buf, char *master_format) { int minus = 0; int has_w = 0; int width = 0; char *p = master_format; if (*p == '-') { minus = 1; p++; } if (isdigit(*p)) { has_w = 1; do { width = (width * 10) + (*p++ - '0'); } while ((*p) && (isdigit(*p))); } if (*p) { print_field(act, pci, t, elapsed, pdu_len, pdu_buf, *p++, minus, has_w, width); } return p; } static void process_default(char *act, struct per_cpu_info *pci, struct blk_io_trace *t, unsigned long long elapsed, int pdu_len, unsigned char *pdu_buf) { struct blk_io_trace_remap r = { .device_from = 0, }; char rwbs[8]; char *name; fill_rwbs(rwbs, t); /* * For remaps we have to modify the device using the remap structure * passed up. */ if (act[0] == 'A') { get_pdu_remap(t, &r); t->device = r.device_to; } /* * The header is always the same */ fprintf(ofp, "%3d,%-3d %2d %8d %5d.%09lu %5u %2s %3s ", MAJOR(t->device), MINOR(t->device), pci->cpu, t->sequence, (int) SECONDS(t->time), (unsigned long) NANO_SECONDS(t->time), t->pid, act, rwbs); name = find_process_name(t->pid); switch (act[0]) { case 'R': /* Requeue */ case 'C': /* Complete */ if (t->action & BLK_TC_ACT(BLK_TC_PC)) { char *p = dump_pdu(pdu_buf, pdu_len); if (p) fprintf(ofp, "(%s) ", p); fprintf(ofp, "[%d]\n", t->error); } else { if (elapsed != -1ULL) { if (t_sec(t)) fprintf(ofp, "%llu + %u (%8llu) [%d]\n", (unsigned long long) t->sector, t_sec(t), elapsed, t->error); else fprintf(ofp, "%llu (%8llu) [%d]\n", (unsigned long long) t->sector, elapsed, t->error); } else { if (t_sec(t)) fprintf(ofp, "%llu + %u [%d]\n", (unsigned long long) t->sector, t_sec(t), t->error); else fprintf(ofp, "%llu [%d]\n", (unsigned long long) t->sector, t->error); } } break; case 'D': /* Issue */ case 'I': /* Insert */ case 'Q': /* Queue */ case 'B': /* Bounce */ if (t->action & BLK_TC_ACT(BLK_TC_PC)) { char *p; fprintf(ofp, "%u ", t->bytes); p = dump_pdu(pdu_buf, pdu_len); if (p) fprintf(ofp, "(%s) ", p); fprintf(ofp, "[%s]\n", name); } else { if (elapsed != -1ULL) { if (t_sec(t)) fprintf(ofp, "%llu + %u (%8llu) [%s]\n", (unsigned long long) t->sector, t_sec(t), elapsed, name); else fprintf(ofp, "(%8llu) [%s]\n", elapsed, name); } else { if (t_sec(t)) fprintf(ofp, "%llu + %u [%s]\n", (unsigned long long) t->sector, t_sec(t), name); else fprintf(ofp, "[%s]\n", name); } } break; case 'M': /* Back merge */ case 'F': /* Front merge */ case 'G': /* Get request */ case 'S': /* Sleep request */ if (t_sec(t)) fprintf(ofp, "%llu + %u [%s]\n", (unsigned long long) t->sector, t_sec(t), name); else fprintf(ofp, "[%s]\n", name); break; case 'P': /* Plug */ fprintf(ofp, "[%s]\n", name); break; case 'U': /* Unplug IO */ case 'T': /* Unplug timer */ fprintf(ofp, "[%s] %u\n", name, get_pdu_int(t)); break; case 'A': /* remap */ get_pdu_remap(t, &r); fprintf(ofp, "%llu + %u <- (%d,%d) %llu\n", (unsigned long long) t->sector, t_sec(t), MAJOR(r.device_from), MINOR(r.device_from), (unsigned long long) r.sector_from); break; case 'X': /* Split */ fprintf(ofp, "%llu / %u [%s]\n", (unsigned long long) t->sector, get_pdu_int(t), name); break; case 'm': /* Message */ fprintf(ofp, "%*s\n", pdu_len, pdu_buf); break; default: fprintf(stderr, "Unknown action %c\n", act[0]); break; } } void process_fmt(char *act, struct per_cpu_info *pci, struct blk_io_trace *t, unsigned long long elapsed, int pdu_len, unsigned char *pdu_buf) { char *p = override_format[(int) *act]; if (!p) { process_default(act, pci, t, elapsed, pdu_len, pdu_buf); return; } while (*p) { switch (*p) { case '%': /* Field specifier */ p++; if (*p == '%') fprintf(ofp, "%c", *p++); else if (!*p) fprintf(ofp, "%c", '%'); else p = parse_field(act, pci, t, elapsed, pdu_len, pdu_buf, p); break; case '\\': { /* escape */ switch (p[1]) { case 'b': fprintf(ofp, "\b"); break; case 'n': fprintf(ofp, "\n"); break; case 'r': fprintf(ofp, "\r"); break; case 't': fprintf(ofp, "\t"); break; default: fprintf(stderr, "Invalid escape char in format %c\n", p[1]); exit(1); /*NOTREACHED*/ } p += 2; break; } default: fprintf(ofp, "%c", *p++); break; } } }