diff options
Diffstat (limited to 'blkparse.c')
-rw-r--r-- | blkparse.c | 2877 |
1 files changed, 2877 insertions, 0 deletions
diff --git a/blkparse.c b/blkparse.c new file mode 100644 index 0000000..eec4952 --- /dev/null +++ b/blkparse.c @@ -0,0 +1,2877 @@ +/* + * block queue tracing parse application + * + * Copyright (C) 2005 Jens Axboe <axboe@suse.de> + * Copyright (C) 2006 Jens Axboe <axboe@kernel.dk> + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + * + */ +#include <sys/types.h> +#include <sys/stat.h> +#include <unistd.h> +#include <stdio.h> +#include <fcntl.h> +#include <stdlib.h> +#include <string.h> +#include <getopt.h> +#include <errno.h> +#include <signal.h> +#include <locale.h> +#include <libgen.h> + +#include "blktrace.h" +#include "rbtree.h" +#include "jhash.h" + +static char blkparse_version[] = "1.0.1"; + +struct skip_info { + unsigned long start, end; + struct skip_info *prev, *next; +}; + +struct per_dev_info { + dev_t dev; + char *name; + + int backwards; + unsigned long long events; + unsigned long long first_reported_time; + unsigned long long last_reported_time; + unsigned long long last_read_time; + struct io_stats io_stats; + unsigned long skips; + unsigned long long seq_skips; + unsigned int max_depth[2]; + unsigned int cur_depth[2]; + + struct rb_root rb_track; + + int nfiles; + int ncpus; + + unsigned long *cpu_map; + unsigned int cpu_map_max; + + struct per_cpu_info *cpus; +}; + +/* + * some duplicated effort here, we can unify this hash and the ppi hash later + */ +struct process_pid_map { + pid_t pid; + char comm[16]; + struct process_pid_map *hash_next, *list_next; +}; + +#define PPM_HASH_SHIFT (8) +#define PPM_HASH_SIZE (1 << PPM_HASH_SHIFT) +#define PPM_HASH_MASK (PPM_HASH_SIZE - 1) +static struct process_pid_map *ppm_hash_table[PPM_HASH_SIZE]; + +struct per_process_info { + struct process_pid_map *ppm; + struct io_stats io_stats; + struct per_process_info *hash_next, *list_next; + int more_than_one; + + /* + * individual io stats + */ + unsigned long long longest_allocation_wait[2]; + unsigned long long longest_dispatch_wait[2]; + unsigned long long longest_completion_wait[2]; +}; + +#define PPI_HASH_SHIFT (8) +#define PPI_HASH_SIZE (1 << PPI_HASH_SHIFT) +#define PPI_HASH_MASK (PPI_HASH_SIZE - 1) +static struct per_process_info *ppi_hash_table[PPI_HASH_SIZE]; +static struct per_process_info *ppi_list; +static int ppi_list_entries; + +static struct option l_opts[] = { + { + .name = "act-mask", + .has_arg = required_argument, + .flag = NULL, + .val = 'a' + }, + { + .name = "set-mask", + .has_arg = required_argument, + .flag = NULL, + .val = 'A' + }, + { + .name = "batch", + .has_arg = required_argument, + .flag = NULL, + .val = 'b' + }, + { + .name = "input-directory", + .has_arg = required_argument, + .flag = NULL, + .val = 'D' + }, + { + .name = "dump-binary", + .has_arg = required_argument, + .flag = NULL, + .val = 'd' + }, + { + .name = "format", + .has_arg = required_argument, + .flag = NULL, + .val = 'f' + }, + { + .name = "format-spec", + .has_arg = required_argument, + .flag = NULL, + .val = 'F' + }, + { + .name = "hash-by-name", + .has_arg = no_argument, + .flag = NULL, + .val = 'h' + }, + { + .name = "input", + .has_arg = required_argument, + .flag = NULL, + .val = 'i' + }, + { + .name = "no-msgs", + .has_arg = no_argument, + .flag = NULL, + .val = 'M' + }, + { + .name = "output", + .has_arg = required_argument, + .flag = NULL, + .val = 'o' + }, + { + .name = "no-text-output", + .has_arg = no_argument, + .flag = NULL, + .val = 'O' + }, + { + .name = "quiet", + .has_arg = no_argument, + .flag = NULL, + .val = 'q' + }, + { + .name = "per-program-stats", + .has_arg = no_argument, + .flag = NULL, + .val = 's' + }, + { + .name = "track-ios", + .has_arg = no_argument, + .flag = NULL, + .val = 't' + }, + { + .name = "stopwatch", + .has_arg = required_argument, + .flag = NULL, + .val = 'w' + }, + { + .name = "verbose", + .has_arg = no_argument, + .flag = NULL, + .val = 'v' + }, + { + .name = "version", + .has_arg = no_argument, + .flag = NULL, + .val = 'V' + }, + { + .name = NULL, + } +}; + +/* + * for sorting the displayed output + */ +struct trace { + struct blk_io_trace *bit; + struct rb_node rb_node; + struct trace *next; + unsigned long read_sequence; +}; + +static struct rb_root rb_sort_root; +static unsigned long rb_sort_entries; + +static struct trace *trace_list; + +/* + * allocation cache + */ +static struct blk_io_trace *bit_alloc_list; +static struct trace *t_alloc_list; + +/* + * for tracking individual ios + */ +struct io_track { + struct rb_node rb_node; + + struct process_pid_map *ppm; + __u64 sector; + unsigned long long allocation_time; + unsigned long long queue_time; + unsigned long long dispatch_time; + unsigned long long completion_time; +}; + +static int ndevices; +static struct per_dev_info *devices; +static char *get_dev_name(struct per_dev_info *, char *, int); +static int trace_rb_insert_last(struct per_dev_info *, struct trace *); + +FILE *ofp = NULL; +static char *output_name; +static char *input_dir; + +static unsigned long long genesis_time; +static unsigned long long last_allowed_time; +static unsigned long long stopwatch_start; /* start from zero by default */ +static unsigned long long stopwatch_end = -1ULL; /* "infinity" */ +static unsigned long read_sequence; + +static int per_process_stats; +static int per_device_and_cpu_stats = 1; +static int track_ios; +static int ppi_hash_by_pid = 1; +static int verbose; +static unsigned int act_mask = -1U; +static int stats_printed; +static int bin_output_msgs = 1; +int data_is_native = -1; + +static FILE *dump_fp; +static char *dump_binary; + +static unsigned int t_alloc_cache; +static unsigned int bit_alloc_cache; + +#define RB_BATCH_DEFAULT (512) +static unsigned int rb_batch = RB_BATCH_DEFAULT; + +static int pipeline; +static char *pipename; + +static int text_output = 1; + +#define is_done() (*(volatile int *)(&done)) +static volatile int done; + +struct timespec abs_start_time; +static unsigned long long start_timestamp; + +static int have_drv_data = 0; + +#define JHASH_RANDOM (0x3af5f2ee) + +#define CPUS_PER_LONG (8 * sizeof(unsigned long)) +#define CPU_IDX(cpu) ((cpu) / CPUS_PER_LONG) +#define CPU_BIT(cpu) ((cpu) & (CPUS_PER_LONG - 1)) + +static void output_binary(void *buf, int len) +{ + if (dump_binary) { + size_t n = fwrite(buf, len, 1, dump_fp); + if (n != 1) { + perror(dump_binary); + fclose(dump_fp); + dump_binary = NULL; + } + } +} + +static void resize_cpu_info(struct per_dev_info *pdi, int cpu) +{ + struct per_cpu_info *cpus = pdi->cpus; + int ncpus = pdi->ncpus; + int new_count = cpu + 1; + int new_space, size; + char *new_start; + + size = new_count * sizeof(struct per_cpu_info); + cpus = realloc(cpus, size); + if (!cpus) { + char name[20]; + fprintf(stderr, "Out of memory, CPU info for device %s (%d)\n", + get_dev_name(pdi, name, sizeof(name)), size); + exit(1); + } + + new_start = (char *)cpus + (ncpus * sizeof(struct per_cpu_info)); + new_space = (new_count - ncpus) * sizeof(struct per_cpu_info); + memset(new_start, 0, new_space); + + pdi->ncpus = new_count; + pdi->cpus = cpus; + + for (new_count = 0; new_count < pdi->ncpus; new_count++) { + struct per_cpu_info *pci = &pdi->cpus[new_count]; + + if (!pci->fd) { + pci->fd = -1; + memset(&pci->rb_last, 0, sizeof(pci->rb_last)); + pci->rb_last_entries = 0; + pci->last_sequence = -1; + } + } +} + +static struct per_cpu_info *get_cpu_info(struct per_dev_info *pdi, int cpu) +{ + struct per_cpu_info *pci; + + if (cpu >= pdi->ncpus) + resize_cpu_info(pdi, cpu); + + pci = &pdi->cpus[cpu]; + pci->cpu = cpu; + return pci; +} + + +static int resize_devices(char *name) +{ + int size = (ndevices + 1) * sizeof(struct per_dev_info); + + devices = realloc(devices, size); + if (!devices) { + fprintf(stderr, "Out of memory, device %s (%d)\n", name, size); + return 1; + } + memset(&devices[ndevices], 0, sizeof(struct per_dev_info)); + devices[ndevices].name = name; + ndevices++; + return 0; +} + +static struct per_dev_info *get_dev_info(dev_t dev) +{ + struct per_dev_info *pdi; + int i; + + for (i = 0; i < ndevices; i++) { + if (!devices[i].dev) + devices[i].dev = dev; + if (devices[i].dev == dev) + return &devices[i]; + } + + if (resize_devices(NULL)) + return NULL; + + pdi = &devices[ndevices - 1]; + pdi->dev = dev; + pdi->first_reported_time = 0; + pdi->last_read_time = 0; + + return pdi; +} + +static void insert_skip(struct per_cpu_info *pci, unsigned long start, + unsigned long end) +{ + struct skip_info *sip; + + for (sip = pci->skips_tail; sip != NULL; sip = sip->prev) { + if (end == (sip->start - 1)) { + sip->start = start; + return; + } else if (start == (sip->end + 1)) { + sip->end = end; + return; + } + } + + sip = malloc(sizeof(struct skip_info)); + sip->start = start; + sip->end = end; + sip->prev = sip->next = NULL; + if (pci->skips_tail == NULL) + pci->skips_head = pci->skips_tail = sip; + else { + sip->prev = pci->skips_tail; + pci->skips_tail->next = sip; + pci->skips_tail = sip; + } +} + +static void remove_sip(struct per_cpu_info *pci, struct skip_info *sip) +{ + if (sip->prev == NULL) { + if (sip->next == NULL) + pci->skips_head = pci->skips_tail = NULL; + else { + pci->skips_head = sip->next; + sip->next->prev = NULL; + } + } else if (sip->next == NULL) { + pci->skips_tail = sip->prev; + sip->prev->next = NULL; + } else { + sip->prev->next = sip->next; + sip->next->prev = sip->prev; + } + + sip->prev = sip->next = NULL; + free(sip); +} + +#define IN_SKIP(sip,seq) (((sip)->start <= (seq)) && ((seq) <= sip->end)) +static int check_current_skips(struct per_cpu_info *pci, unsigned long seq) +{ + struct skip_info *sip; + + for (sip = pci->skips_tail; sip != NULL; sip = sip->prev) { + if (IN_SKIP(sip, seq)) { + if (sip->start == seq) { + if (sip->end == seq) + remove_sip(pci, sip); + else + sip->start += 1; + } else if (sip->end == seq) + sip->end -= 1; + else { + sip->end = seq - 1; + insert_skip(pci, seq + 1, sip->end); + } + return 1; + } + } + + return 0; +} + +static void collect_pdi_skips(struct per_dev_info *pdi) +{ + struct skip_info *sip; + int cpu; + + pdi->skips = 0; + pdi->seq_skips = 0; + + for (cpu = 0; cpu < pdi->ncpus; cpu++) { + struct per_cpu_info *pci = &pdi->cpus[cpu]; + + for (sip = pci->skips_head; sip != NULL; sip = sip->next) { + pdi->skips++; + pdi->seq_skips += (sip->end - sip->start + 1); + if (verbose) + fprintf(stderr,"(%d,%d): skipping %lu -> %lu\n", + MAJOR(pdi->dev), MINOR(pdi->dev), + sip->start, sip->end); + } + } +} + +static void cpu_mark_online(struct per_dev_info *pdi, unsigned int cpu) +{ + if (cpu >= pdi->cpu_map_max || !pdi->cpu_map) { + int new_max = (cpu + CPUS_PER_LONG) & ~(CPUS_PER_LONG - 1); + unsigned long *map = malloc(new_max / sizeof(long)); + + memset(map, 0, new_max / sizeof(long)); + + if (pdi->cpu_map) { + memcpy(map, pdi->cpu_map, pdi->cpu_map_max / sizeof(long)); + free(pdi->cpu_map); + } + + pdi->cpu_map = map; + pdi->cpu_map_max = new_max; + } + + pdi->cpu_map[CPU_IDX(cpu)] |= (1UL << CPU_BIT(cpu)); +} + +static inline void cpu_mark_offline(struct per_dev_info *pdi, int cpu) +{ + pdi->cpu_map[CPU_IDX(cpu)] &= ~(1UL << CPU_BIT(cpu)); +} + +static inline int cpu_is_online(struct per_dev_info *pdi, int cpu) +{ + return (pdi->cpu_map[CPU_IDX(cpu)] & (1UL << CPU_BIT(cpu))) != 0; +} + +static inline int ppm_hash_pid(pid_t pid) +{ + return jhash_1word(pid, JHASH_RANDOM) & PPM_HASH_MASK; +} + +static struct process_pid_map *find_ppm(pid_t pid) +{ + const int hash_idx = ppm_hash_pid(pid); + struct process_pid_map *ppm; + + ppm = ppm_hash_table[hash_idx]; + while (ppm) { + if (ppm->pid == pid) + return ppm; + + ppm = ppm->hash_next; + } + + return NULL; +} + +static struct process_pid_map *add_ppm_hash(pid_t pid, const char *name) +{ + const int hash_idx = ppm_hash_pid(pid); + struct process_pid_map *ppm; + + ppm = find_ppm(pid); + if (!ppm) { + ppm = malloc(sizeof(*ppm)); + memset(ppm, 0, sizeof(*ppm)); + ppm->pid = pid; + strcpy(ppm->comm, name); + ppm->hash_next = ppm_hash_table[hash_idx]; + ppm_hash_table[hash_idx] = ppm; + } + + return ppm; +} + +static void handle_notify(struct blk_io_trace *bit) +{ + void *payload = (caddr_t) bit + sizeof(*bit); + __u32 two32[2]; + + switch (bit->action) { + case BLK_TN_PROCESS: + add_ppm_hash(bit->pid, payload); + break; + + case BLK_TN_TIMESTAMP: + if (bit->pdu_len != sizeof(two32)) + return; + memcpy(two32, payload, sizeof(two32)); + if (!data_is_native) { + two32[0] = be32_to_cpu(two32[0]); + two32[1] = be32_to_cpu(two32[1]); + } + start_timestamp = bit->time; + abs_start_time.tv_sec = two32[0]; + abs_start_time.tv_nsec = two32[1]; + if (abs_start_time.tv_nsec < 0) { + abs_start_time.tv_sec--; + abs_start_time.tv_nsec += 1000000000; + } + + break; + + case BLK_TN_MESSAGE: + if (bit->pdu_len > 0) { + char msg[bit->pdu_len+1]; + + memcpy(msg, (char *)payload, bit->pdu_len); + msg[bit->pdu_len] = '\0'; + + fprintf(ofp, + "%3d,%-3d %2d %8s %5d.%09lu %5u %2s %3s %s\n", + MAJOR(bit->device), MINOR(bit->device), + bit->cpu, "0", (int) SECONDS(bit->time), + (unsigned long) NANO_SECONDS(bit->time), + 0, "m", "N", msg); + } + break; + + default: + /* Ignore unknown notify events */ + ; + } +} + +char *find_process_name(pid_t pid) +{ + struct process_pid_map *ppm = find_ppm(pid); + + if (ppm) + return ppm->comm; + + return NULL; +} + +static inline int ppi_hash_pid(pid_t pid) +{ + return jhash_1word(pid, JHASH_RANDOM) & PPI_HASH_MASK; +} + +static inline int ppi_hash_name(const char *name) +{ + return jhash(name, 16, JHASH_RANDOM) & PPI_HASH_MASK; +} + +static inline int ppi_hash(struct per_process_info *ppi) +{ + struct process_pid_map *ppm = ppi->ppm; + + if (ppi_hash_by_pid) + return ppi_hash_pid(ppm->pid); + + return ppi_hash_name(ppm->comm); +} + +static inline void add_ppi_to_hash(struct per_process_info *ppi) +{ + const int hash_idx = ppi_hash(ppi); + + ppi->hash_next = ppi_hash_table[hash_idx]; + ppi_hash_table[hash_idx] = ppi; +} + +static inline void add_ppi_to_list(struct per_process_info *ppi) +{ + ppi->list_next = ppi_list; + ppi_list = ppi; + ppi_list_entries++; +} + +static struct per_process_info *find_ppi_by_name(char *name) +{ + const int hash_idx = ppi_hash_name(name); + struct per_process_info *ppi; + + ppi = ppi_hash_table[hash_idx]; + while (ppi) { + struct process_pid_map *ppm = ppi->ppm; + + if (!strcmp(ppm->comm, name)) + return ppi; + + ppi = ppi->hash_next; + } + + return NULL; +} + +static struct per_process_info *find_ppi_by_pid(pid_t pid) +{ + const int hash_idx = ppi_hash_pid(pid); + struct per_process_info *ppi; + + ppi = ppi_hash_table[hash_idx]; + while (ppi) { + struct process_pid_map *ppm = ppi->ppm; + + if (ppm->pid == pid) + return ppi; + + ppi = ppi->hash_next; + } + + return NULL; +} + +static struct per_process_info *find_ppi(pid_t pid) +{ + struct per_process_info *ppi; + char *name; + + if (ppi_hash_by_pid) + return find_ppi_by_pid(pid); + + name = find_process_name(pid); + if (!name) + return NULL; + + ppi = find_ppi_by_name(name); + if (ppi && ppi->ppm->pid != pid) + ppi->more_than_one = 1; + + return ppi; +} + +/* + * struct trace and blktrace allocation cache, we do potentially + * millions of mallocs for these structures while only using at most + * a few thousand at the time + */ +static inline void t_free(struct trace *t) +{ + if (t_alloc_cache < 1024) { + t->next = t_alloc_list; + t_alloc_list = t; + t_alloc_cache++; + } else + free(t); +} + +static inline struct trace *t_alloc(void) +{ + struct trace *t = t_alloc_list; + + if (t) { + t_alloc_list = t->next; + t_alloc_cache--; + return t; + } + + return malloc(sizeof(*t)); +} + +static inline void bit_free(struct blk_io_trace *bit) +{ + if (bit_alloc_cache < 1024 && !bit->pdu_len) { + /* + * abuse a 64-bit field for a next pointer for the free item + */ + bit->time = (__u64) (unsigned long) bit_alloc_list; + bit_alloc_list = (struct blk_io_trace *) bit; + bit_alloc_cache++; + } else + free(bit); +} + +static inline struct blk_io_trace *bit_alloc(void) +{ + struct blk_io_trace *bit = bit_alloc_list; + + if (bit) { + bit_alloc_list = (struct blk_io_trace *) (unsigned long) \ + bit->time; + bit_alloc_cache--; + return bit; + } + + return malloc(sizeof(*bit)); +} + +static inline void __put_trace_last(struct per_dev_info *pdi, struct trace *t) +{ + struct per_cpu_info *pci = get_cpu_info(pdi, t->bit->cpu); + + rb_erase(&t->rb_node, &pci->rb_last); + pci->rb_last_entries--; + + bit_free(t->bit); + t_free(t); +} + +static void put_trace(struct per_dev_info *pdi, struct trace *t) +{ + rb_erase(&t->rb_node, &rb_sort_root); + rb_sort_entries--; + + trace_rb_insert_last(pdi, t); +} + +static inline int trace_rb_insert(struct trace *t, struct rb_root *root) +{ + struct rb_node **p = &root->rb_node; + struct rb_node *parent = NULL; + struct trace *__t; + + while (*p) { + parent = *p; + + __t = rb_entry(parent, struct trace, rb_node); + + if (t->bit->time < __t->bit->time) + p = &(*p)->rb_left; + else if (t->bit->time > __t->bit->time) + p = &(*p)->rb_right; + else if (t->bit->device < __t->bit->device) + p = &(*p)->rb_left; + else if (t->bit->device > __t->bit->device) + p = &(*p)->rb_right; + else if (t->bit->sequence < __t->bit->sequence) + p = &(*p)->rb_left; + else /* >= sequence */ + p = &(*p)->rb_right; + } + + rb_link_node(&t->rb_node, parent, p); + rb_insert_color(&t->rb_node, root); + return 0; +} + +static inline int trace_rb_insert_sort(struct trace *t) +{ + if (!trace_rb_insert(t, &rb_sort_root)) { + rb_sort_entries++; + return 0; + } + + return 1; +} + +static int trace_rb_insert_last(struct per_dev_info *pdi, struct trace *t) +{ + struct per_cpu_info *pci = get_cpu_info(pdi, t->bit->cpu); + + if (trace_rb_insert(t, &pci->rb_last)) + return 1; + + pci->rb_last_entries++; + + if (pci->rb_last_entries > rb_batch * pdi->nfiles) { + struct rb_node *n = rb_first(&pci->rb_last); + + t = rb_entry(n, struct trace, rb_node); + __put_trace_last(pdi, t); + } + + return 0; +} + +static struct trace *trace_rb_find(dev_t device, unsigned long sequence, + struct rb_root *root, int order) +{ + struct rb_node *n = root->rb_node; + struct rb_node *prev = NULL; + struct trace *__t; + + while (n) { + __t = rb_entry(n, struct trace, rb_node); + prev = n; + + if (device < __t->bit->device) + n = n->rb_left; + else if (device > __t->bit->device) + n = n->rb_right; + else if (sequence < __t->bit->sequence) + n = n->rb_left; + else if (sequence > __t->bit->sequence) + n = n->rb_right; + else + return __t; + } + + /* + * hack - the list may not be sequence ordered because some + * events don't have sequence and time matched. so we end up + * being a little off in the rb lookup here, because we don't + * know the time we are looking for. compensate by browsing + * a little ahead from the last entry to find the match + */ + if (order && prev) { + int max = 5; + + while (((n = rb_next(prev)) != NULL) && max--) { + __t = rb_entry(n, struct trace, rb_node); + + if (__t->bit->device == device && + __t->bit->sequence == sequence) + return __t; + + prev = n; + } + } + + return NULL; +} + +static inline struct trace *trace_rb_find_last(struct per_dev_info *pdi, + struct per_cpu_info *pci, + unsigned long seq) +{ + return trace_rb_find(pdi->dev, seq, &pci->rb_last, 0); +} + +static inline int track_rb_insert(struct per_dev_info *pdi,struct io_track *iot) +{ + struct rb_node **p = &pdi->rb_track.rb_node; + struct rb_node *parent = NULL; + struct io_track *__iot; + + while (*p) { + parent = *p; + __iot = rb_entry(parent, struct io_track, rb_node); + + if (iot->sector < __iot->sector) + p = &(*p)->rb_left; + else if (iot->sector > __iot->sector) + p = &(*p)->rb_right; + else { + fprintf(stderr, + "sector alias (%Lu) on device %d,%d!\n", + (unsigned long long) iot->sector, + MAJOR(pdi->dev), MINOR(pdi->dev)); + return 1; + } + } + + rb_link_node(&iot->rb_node, parent, p); + rb_insert_color(&iot->rb_node, &pdi->rb_track); + return 0; +} + +static struct io_track *__find_track(struct per_dev_info *pdi, __u64 sector) +{ + struct rb_node *n = pdi->rb_track.rb_node; + struct io_track *__iot; + + while (n) { + __iot = rb_entry(n, struct io_track, rb_node); + + if (sector < __iot->sector) + n = n->rb_left; + else if (sector > __iot->sector) + n = n->rb_right; + else + return __iot; + } + + return NULL; +} + +static struct io_track *find_track(struct per_dev_info *pdi, pid_t pid, + __u64 sector) +{ + struct io_track *iot; + + iot = __find_track(pdi, sector); + if (!iot) { + iot = malloc(sizeof(*iot)); + iot->ppm = find_ppm(pid); + if (!iot->ppm) + iot->ppm = add_ppm_hash(pid, "unknown"); + iot->sector = sector; + track_rb_insert(pdi, iot); + } + + return iot; +} + +static void log_track_frontmerge(struct per_dev_info *pdi, + struct blk_io_trace *t) +{ + struct io_track *iot; + + if (!track_ios) + return; + + iot = __find_track(pdi, t->sector + t_sec(t)); + if (!iot) { + if (verbose) + fprintf(stderr, "merge not found for (%d,%d): %llu\n", + MAJOR(pdi->dev), MINOR(pdi->dev), + (unsigned long long) t->sector + t_sec(t)); + return; + } + + rb_erase(&iot->rb_node, &pdi->rb_track); + iot->sector -= t_sec(t); + track_rb_insert(pdi, iot); +} + +static void log_track_getrq(struct per_dev_info *pdi, struct blk_io_trace *t) +{ + struct io_track *iot; + + if (!track_ios) + return; + + iot = find_track(pdi, t->pid, t->sector); + iot->allocation_time = t->time; +} + +static inline int is_remapper(struct per_dev_info *pdi) +{ + int major = MAJOR(pdi->dev); + + return (major == 253 || major == 9); +} + +/* + * for md/dm setups, the interesting cycle is Q -> C. So track queueing + * time here, as dispatch time + */ +static void log_track_queue(struct per_dev_info *pdi, struct blk_io_trace *t) +{ + struct io_track *iot; + + if (!track_ios) + return; + if (!is_remapper(pdi)) + return; + + iot = find_track(pdi, t->pid, t->sector); + iot->dispatch_time = t->time; +} + +/* + * return time between rq allocation and insertion + */ +static unsigned long long log_track_insert(struct per_dev_info *pdi, + struct blk_io_trace *t) +{ + unsigned long long elapsed; + struct io_track *iot; + + if (!track_ios) + return -1; + + iot = find_track(pdi, t->pid, t->sector); + iot->queue_time = t->time; + + if (!iot->allocation_time) + return -1; + + elapsed = iot->queue_time - iot->allocation_time; + + if (per_process_stats) { + struct per_process_info *ppi = find_ppi(iot->ppm->pid); + int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0; + + if (ppi && elapsed > ppi->longest_allocation_wait[w]) + ppi->longest_allocation_wait[w] = elapsed; + } + + return elapsed; +} + +/* + * return time between queue and issue + */ +static unsigned long long log_track_issue(struct per_dev_info *pdi, + struct blk_io_trace *t) +{ + unsigned long long elapsed; + struct io_track *iot; + + if (!track_ios) + return -1; + if ((t->action & BLK_TC_ACT(BLK_TC_FS)) == 0) + return -1; + + iot = __find_track(pdi, t->sector); + if (!iot) { + if (verbose) + fprintf(stderr, "issue not found for (%d,%d): %llu\n", + MAJOR(pdi->dev), MINOR(pdi->dev), + (unsigned long long) t->sector); + return -1; + } + + iot->dispatch_time = t->time; + elapsed = iot->dispatch_time - iot->queue_time; + + if (per_process_stats) { + struct per_process_info *ppi = find_ppi(iot->ppm->pid); + int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0; + + if (ppi && elapsed > ppi->longest_dispatch_wait[w]) + ppi->longest_dispatch_wait[w] = elapsed; + } + + return elapsed; +} + +/* + * return time between dispatch and complete + */ +static unsigned long long log_track_complete(struct per_dev_info *pdi, + struct blk_io_trace *t) +{ + unsigned long long elapsed; + struct io_track *iot; + + if (!track_ios) + return -1; + + iot = __find_track(pdi, t->sector); + if (!iot) { + if (verbose) + fprintf(stderr,"complete not found for (%d,%d): %llu\n", + MAJOR(pdi->dev), MINOR(pdi->dev), + (unsigned long long) t->sector); + return -1; + } + + iot->completion_time = t->time; + elapsed = iot->completion_time - iot->dispatch_time; + + if (per_process_stats) { + struct per_process_info *ppi = find_ppi(iot->ppm->pid); + int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0; + + if (ppi && elapsed > ppi->longest_completion_wait[w]) + ppi->longest_completion_wait[w] = elapsed; + } + + /* + * kill the trace, we don't need it after completion + */ + rb_erase(&iot->rb_node, &pdi->rb_track); + free(iot); + + return elapsed; +} + + +static struct io_stats *find_process_io_stats(pid_t pid) +{ + struct per_process_info *ppi = find_ppi(pid); + + if (!ppi) { + ppi = malloc(sizeof(*ppi)); + memset(ppi, 0, sizeof(*ppi)); + ppi->ppm = find_ppm(pid); + if (!ppi->ppm) + ppi->ppm = add_ppm_hash(pid, "unknown"); + add_ppi_to_hash(ppi); + add_ppi_to_list(ppi); + } + + return &ppi->io_stats; +} + +static char *get_dev_name(struct per_dev_info *pdi, char *buffer, int size) +{ + if (pdi->name) + snprintf(buffer, size, "%s", pdi->name); + else + snprintf(buffer, size, "%d,%d",MAJOR(pdi->dev),MINOR(pdi->dev)); + return buffer; +} + +static void check_time(struct per_dev_info *pdi, struct blk_io_trace *bit) +{ + unsigned long long this = bit->time; + unsigned long long last = pdi->last_reported_time; + + pdi->backwards = (this < last) ? 'B' : ' '; + pdi->last_reported_time = this; +} + +static inline void __account_m(struct io_stats *ios, struct blk_io_trace *t, + int rw) +{ + if (rw) { + ios->mwrites++; + ios->mwrite_kb += t_kb(t); + } else { + ios->mreads++; + ios->mread_kb += t_kb(t); + } +} + +static inline void account_m(struct blk_io_trace *t, struct per_cpu_info *pci, + int rw) +{ + __account_m(&pci->io_stats, t, rw); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_m(ios, t, rw); + } +} + +static inline void __account_pc_queue(struct io_stats *ios, + struct blk_io_trace *t, int rw) +{ + if (rw) { + ios->qwrites_pc++; + ios->qwrite_kb_pc += t_kb(t); + } else { + ios->qreads_pc++; + ios->qread_kb += t_kb(t); + } +} + +static inline void account_pc_queue(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_pc_queue(&pci->io_stats, t, rw); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_pc_queue(ios, t, rw); + } +} + +static inline void __account_pc_issue(struct io_stats *ios, int rw, + unsigned int bytes) +{ + if (rw) { + ios->iwrites_pc++; + ios->iwrite_kb_pc += bytes >> 10; + } else { + ios->ireads_pc++; + ios->iread_kb_pc += bytes >> 10; + } +} + +static inline void account_pc_issue(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_pc_issue(&pci->io_stats, rw, t->bytes); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_pc_issue(ios, rw, t->bytes); + } +} + +static inline void __account_pc_requeue(struct io_stats *ios, + struct blk_io_trace *t, int rw) +{ + if (rw) { + ios->wrqueue_pc++; + ios->iwrite_kb_pc -= t_kb(t); + } else { + ios->rrqueue_pc++; + ios->iread_kb_pc -= t_kb(t); + } +} + +static inline void account_pc_requeue(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_pc_requeue(&pci->io_stats, t, rw); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_pc_requeue(ios, t, rw); + } +} + +static inline void __account_pc_c(struct io_stats *ios, int rw) +{ + if (rw) + ios->cwrites_pc++; + else + ios->creads_pc++; +} + +static inline void account_pc_c(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_pc_c(&pci->io_stats, rw); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_pc_c(ios, rw); + } +} + +static inline void __account_queue(struct io_stats *ios, struct blk_io_trace *t, + int rw) +{ + if (rw) { + ios->qwrites++; + ios->qwrite_kb += t_kb(t); + } else { + ios->qreads++; + ios->qread_kb += t_kb(t); + } +} + +static inline void account_queue(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_queue(&pci->io_stats, t, rw); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_queue(ios, t, rw); + } +} + +static inline void __account_c(struct io_stats *ios, int rw, int bytes) +{ + if (rw) { + ios->cwrites++; + ios->cwrite_kb += bytes >> 10; + } else { + ios->creads++; + ios->cread_kb += bytes >> 10; + } +} + +static inline void account_c(struct blk_io_trace *t, struct per_cpu_info *pci, + int rw, int bytes) +{ + __account_c(&pci->io_stats, rw, bytes); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_c(ios, rw, bytes); + } +} + +static inline void __account_issue(struct io_stats *ios, int rw, + unsigned int bytes) +{ + if (rw) { + ios->iwrites++; + ios->iwrite_kb += bytes >> 10; + } else { + ios->ireads++; + ios->iread_kb += bytes >> 10; + } +} + +static inline void account_issue(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_issue(&pci->io_stats, rw, t->bytes); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_issue(ios, rw, t->bytes); + } +} + +static inline void __account_unplug(struct io_stats *ios, int timer) +{ + if (timer) + ios->timer_unplugs++; + else + ios->io_unplugs++; +} + +static inline void account_unplug(struct blk_io_trace *t, + struct per_cpu_info *pci, int timer) +{ + __account_unplug(&pci->io_stats, timer); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_unplug(ios, timer); + } +} + +static inline void __account_requeue(struct io_stats *ios, + struct blk_io_trace *t, int rw) +{ + if (rw) { + ios->wrqueue++; + ios->iwrite_kb -= t_kb(t); + } else { + ios->rrqueue++; + ios->iread_kb -= t_kb(t); + } +} + +static inline void account_requeue(struct blk_io_trace *t, + struct per_cpu_info *pci, int rw) +{ + __account_requeue(&pci->io_stats, t, rw); + + if (per_process_stats) { + struct io_stats *ios = find_process_io_stats(t->pid); + + __account_requeue(ios, t, rw); + } +} + +static void log_complete(struct per_dev_info *pdi, struct per_cpu_info *pci, + struct blk_io_trace *t, char *act) +{ + process_fmt(act, pci, t, log_track_complete(pdi, t), 0, NULL); +} + +static void log_insert(struct per_dev_info *pdi, struct per_cpu_info *pci, + struct blk_io_trace *t, char *act) +{ + process_fmt(act, pci, t, log_track_insert(pdi, t), 0, NULL); +} + +static void log_queue(struct per_cpu_info *pci, struct blk_io_trace *t, + char *act) +{ + process_fmt(act, pci, t, -1, 0, NULL); +} + +static void log_issue(struct per_dev_info *pdi, struct per_cpu_info *pci, + struct blk_io_trace *t, char *act) +{ + process_fmt(act, pci, t, log_track_issue(pdi, t), 0, NULL); +} + +static void log_merge(struct per_dev_info *pdi, struct per_cpu_info *pci, + struct blk_io_trace *t, char *act) +{ + if (act[0] == 'F') + log_track_frontmerge(pdi, t); + + process_fmt(act, pci, t, -1ULL, 0, NULL); +} + +static void log_action(struct per_cpu_info *pci, struct blk_io_trace *t, + char *act) +{ + process_fmt(act, pci, t, -1ULL, 0, NULL); +} + +static void log_generic(struct per_cpu_info *pci, struct blk_io_trace *t, + char *act) +{ + process_fmt(act, pci, t, -1ULL, 0, NULL); +} + +static void log_unplug(struct per_cpu_info *pci, struct blk_io_trace *t, + char *act) +{ + process_fmt(act, pci, t, -1ULL, 0, NULL); +} + +static void log_split(struct per_cpu_info *pci, struct blk_io_trace *t, + char *act) +{ + process_fmt(act, pci, t, -1ULL, 0, NULL); +} + +static void log_pc(struct per_cpu_info *pci, struct blk_io_trace *t, char *act) +{ + unsigned char *buf = (unsigned char *) t + sizeof(*t); + + process_fmt(act, pci, t, -1ULL, t->pdu_len, buf); +} + +static void dump_trace_pc(struct blk_io_trace *t, struct per_dev_info *pdi, + struct per_cpu_info *pci) +{ + int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0; + int act = t->action & 0xffff; + + switch (act) { + case __BLK_TA_QUEUE: + log_generic(pci, t, "Q"); + account_pc_queue(t, pci, w); + break; + case __BLK_TA_GETRQ: + log_generic(pci, t, "G"); + break; + case __BLK_TA_SLEEPRQ: + log_generic(pci, t, "S"); + break; + case __BLK_TA_REQUEUE: + /* + * can happen if we miss traces, don't let it go + * below zero + */ + if (pdi->cur_depth[w]) + pdi->cur_depth[w]--; + account_pc_requeue(t, pci, w); + log_generic(pci, t, "R"); + break; + case __BLK_TA_ISSUE: + account_pc_issue(t, pci, w); + pdi->cur_depth[w]++; + if (pdi->cur_depth[w] > pdi->max_depth[w]) + pdi->max_depth[w] = pdi->cur_depth[w]; + log_pc(pci, t, "D"); + break; + case __BLK_TA_COMPLETE: + if (pdi->cur_depth[w]) + pdi->cur_depth[w]--; + log_pc(pci, t, "C"); + account_pc_c(t, pci, w); + break; + case __BLK_TA_INSERT: + log_pc(pci, t, "I"); + break; + default: + fprintf(stderr, "Bad pc action %x\n", act); + break; + } +} + +static void dump_trace_fs(struct blk_io_trace *t, struct per_dev_info *pdi, + struct per_cpu_info *pci) +{ + int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0; + int act = t->action & 0xffff; + + switch (act) { + case __BLK_TA_QUEUE: + log_track_queue(pdi, t); + account_queue(t, pci, w); + log_queue(pci, t, "Q"); + break; + case __BLK_TA_INSERT: + log_insert(pdi, pci, t, "I"); + break; + case __BLK_TA_BACKMERGE: + account_m(t, pci, w); + log_merge(pdi, pci, t, "M"); + break; + case __BLK_TA_FRONTMERGE: + account_m(t, pci, w); + log_merge(pdi, pci, t, "F"); + break; + case __BLK_TA_GETRQ: + log_track_getrq(pdi, t); + log_generic(pci, t, "G"); + break; + case __BLK_TA_SLEEPRQ: + log_generic(pci, t, "S"); + break; + case __BLK_TA_REQUEUE: + /* + * can happen if we miss traces, don't let it go + * below zero + */ + if (pdi->cur_depth[w]) + pdi->cur_depth[w]--; + account_requeue(t, pci, w); + log_queue(pci, t, "R"); + break; + case __BLK_TA_ISSUE: + account_issue(t, pci, w); + pdi->cur_depth[w]++; + if (pdi->cur_depth[w] > pdi->max_depth[w]) + pdi->max_depth[w] = pdi->cur_depth[w]; + log_issue(pdi, pci, t, "D"); + break; + case __BLK_TA_COMPLETE: + if (pdi->cur_depth[w]) + pdi->cur_depth[w]--; + account_c(t, pci, w, t->bytes); + log_complete(pdi, pci, t, "C"); + break; + case __BLK_TA_PLUG: + log_action(pci, t, "P"); + break; + case __BLK_TA_UNPLUG_IO: + account_unplug(t, pci, 0); + log_unplug(pci, t, "U"); + break; + case __BLK_TA_UNPLUG_TIMER: + account_unplug(t, pci, 1); + log_unplug(pci, t, "UT"); + break; + case __BLK_TA_SPLIT: + log_split(pci, t, "X"); + break; + case __BLK_TA_BOUNCE: + log_generic(pci, t, "B"); + break; + case __BLK_TA_REMAP: + log_generic(pci, t, "A"); + break; + case __BLK_TA_DRV_DATA: + have_drv_data = 1; + /* dump to binary file only */ + break; + default: + fprintf(stderr, "Bad fs action %x\n", t->action); + break; + } +} + +static void dump_trace(struct blk_io_trace *t, struct per_cpu_info *pci, + struct per_dev_info *pdi) +{ + if (text_output) { + if (t->action == BLK_TN_MESSAGE) + handle_notify(t); + else if (t->action & BLK_TC_ACT(BLK_TC_PC)) + dump_trace_pc(t, pdi, pci); + else + dump_trace_fs(t, pdi, pci); + } + + if (!pdi->events) + pdi->first_reported_time = t->time; + + pdi->events++; + + if (bin_output_msgs || + !(t->action & BLK_TC_ACT(BLK_TC_NOTIFY) && + t->action == BLK_TN_MESSAGE)) + output_binary(t, sizeof(*t) + t->pdu_len); +} + +/* + * print in a proper way, not too small and not too big. if more than + * 1000,000K, turn into M and so on + */ +static char *size_cnv(char *dst, unsigned long long num, int in_kb) +{ + char suff[] = { '\0', 'K', 'M', 'G', 'P' }; + unsigned int i = 0; + + if (in_kb) + i++; + + while (num > 1000 * 1000ULL && (i < sizeof(suff) - 1)) { + i++; + num /= 1000; + } + + sprintf(dst, "%'8Lu%c", num, suff[i]); + return dst; +} + +static void dump_io_stats(struct per_dev_info *pdi, struct io_stats *ios, + char *msg) +{ + static char x[256], y[256]; + + fprintf(ofp, "%s\n", msg); + + fprintf(ofp, " Reads Queued: %s, %siB\t", size_cnv(x, ios->qreads, 0), size_cnv(y, ios->qread_kb, 1)); + fprintf(ofp, " Writes Queued: %s, %siB\n", size_cnv(x, ios->qwrites, 0), size_cnv(y, ios->qwrite_kb, 1)); + fprintf(ofp, " Read Dispatches: %s, %siB\t", size_cnv(x, ios->ireads, 0), size_cnv(y, ios->iread_kb, 1)); + fprintf(ofp, " Write Dispatches: %s, %siB\n", size_cnv(x, ios->iwrites, 0), size_cnv(y, ios->iwrite_kb, 1)); + fprintf(ofp, " Reads Requeued: %s\t\t", size_cnv(x, ios->rrqueue, 0)); + fprintf(ofp, " Writes Requeued: %s\n", size_cnv(x, ios->wrqueue, 0)); + fprintf(ofp, " Reads Completed: %s, %siB\t", size_cnv(x, ios->creads, 0), size_cnv(y, ios->cread_kb, 1)); + fprintf(ofp, " Writes Completed: %s, %siB\n", size_cnv(x, ios->cwrites, 0), size_cnv(y, ios->cwrite_kb, 1)); + fprintf(ofp, " Read Merges: %s, %siB\t", size_cnv(x, ios->mreads, 0), size_cnv(y, ios->mread_kb, 1)); + fprintf(ofp, " Write Merges: %s, %siB\n", size_cnv(x, ios->mwrites, 0), size_cnv(y, ios->mwrite_kb, 1)); + if (pdi) { + fprintf(ofp, " Read depth: %'8u%8c\t", pdi->max_depth[0], ' '); + fprintf(ofp, " Write depth: %'8u\n", pdi->max_depth[1]); + } + if (ios->qreads_pc || ios->qwrites_pc || ios->ireads_pc || ios->iwrites_pc || + ios->rrqueue_pc || ios->wrqueue_pc || ios->creads_pc || ios->cwrites_pc) { + fprintf(ofp, " PC Reads Queued: %s, %siB\t", size_cnv(x, ios->qreads_pc, 0), size_cnv(y, ios->qread_kb_pc, 1)); + fprintf(ofp, " PC Writes Queued: %s, %siB\n", size_cnv(x, ios->qwrites_pc, 0), size_cnv(y, ios->qwrite_kb_pc, 1)); + fprintf(ofp, " PC Read Disp.: %s, %siB\t", size_cnv(x, ios->ireads_pc, 0), size_cnv(y, ios->iread_kb_pc, 1)); + fprintf(ofp, " PC Write Disp.: %s, %siB\n", size_cnv(x, ios->iwrites_pc, 0), size_cnv(y, ios->iwrite_kb_pc, 1)); + fprintf(ofp, " PC Reads Req.: %s\t\t", size_cnv(x, ios->rrqueue_pc, 0)); + fprintf(ofp, " PC Writes Req.: %s\n", size_cnv(x, ios->wrqueue_pc, 0)); + fprintf(ofp, " PC Reads Compl.: %s\t\t", size_cnv(x, ios->creads_pc, 0)); + fprintf(ofp, " PC Writes Compl.: %s\n", size_cnv(x, ios->cwrites, 0)); + } + fprintf(ofp, " IO unplugs: %'8lu%8c\t", ios->io_unplugs, ' '); + fprintf(ofp, " Timer unplugs: %'8lu\n", ios->timer_unplugs); +} + +static void dump_wait_stats(struct per_process_info *ppi) +{ + unsigned long rawait = ppi->longest_allocation_wait[0] / 1000; + unsigned long rdwait = ppi->longest_dispatch_wait[0] / 1000; + unsigned long rcwait = ppi->longest_completion_wait[0] / 1000; + unsigned long wawait = ppi->longest_allocation_wait[1] / 1000; + unsigned long wdwait = ppi->longest_dispatch_wait[1] / 1000; + unsigned long wcwait = ppi->longest_completion_wait[1] / 1000; + + fprintf(ofp, " Allocation wait: %'8lu%8c\t", rawait, ' '); + fprintf(ofp, " Allocation wait: %'8lu\n", wawait); + fprintf(ofp, " Dispatch wait: %'8lu%8c\t", rdwait, ' '); + fprintf(ofp, " Dispatch wait: %'8lu\n", wdwait); + fprintf(ofp, " Completion wait: %'8lu%8c\t", rcwait, ' '); + fprintf(ofp, " Completion wait: %'8lu\n", wcwait); +} + +static int ppi_name_compare(const void *p1, const void *p2) +{ + struct per_process_info *ppi1 = *((struct per_process_info **) p1); + struct per_process_info *ppi2 = *((struct per_process_info **) p2); + int res; + + res = strverscmp(ppi1->ppm->comm, ppi2->ppm->comm); + if (!res) + res = ppi1->ppm->pid > ppi2->ppm->pid; + + return res; +} + +static void sort_process_list(void) +{ + struct per_process_info **ppis; + struct per_process_info *ppi; + int i = 0; + + ppis = malloc(ppi_list_entries * sizeof(struct per_process_info *)); + + ppi = ppi_list; + while (ppi) { + ppis[i++] = ppi; + ppi = ppi->list_next; + } + + qsort(ppis, ppi_list_entries, sizeof(ppi), ppi_name_compare); + + i = ppi_list_entries - 1; + ppi_list = NULL; + while (i >= 0) { + ppi = ppis[i]; + + ppi->list_next = ppi_list; + ppi_list = ppi; + i--; + } + + free(ppis); +} + +static void show_process_stats(void) +{ + struct per_process_info *ppi; + + sort_process_list(); + + ppi = ppi_list; + while (ppi) { + struct process_pid_map *ppm = ppi->ppm; + char name[64]; + + if (ppi->more_than_one) + sprintf(name, "%s (%u, ...)", ppm->comm, ppm->pid); + else + sprintf(name, "%s (%u)", ppm->comm, ppm->pid); + + dump_io_stats(NULL, &ppi->io_stats, name); + dump_wait_stats(ppi); + ppi = ppi->list_next; + } + + fprintf(ofp, "\n"); +} + +static void show_device_and_cpu_stats(void) +{ + struct per_dev_info *pdi; + struct per_cpu_info *pci; + struct io_stats total, *ios; + unsigned long long rrate, wrate, msec; + int i, j, pci_events; + char line[3 + 8/*cpu*/ + 2 + 32/*dev*/ + 3]; + char name[32]; + double ratio; + + for (pdi = devices, i = 0; i < ndevices; i++, pdi++) { + + memset(&total, 0, sizeof(total)); + pci_events = 0; + + if (i > 0) + fprintf(ofp, "\n"); + + for (pci = pdi->cpus, j = 0; j < pdi->ncpus; j++, pci++) { + if (!pci->nelems) + continue; + + ios = &pci->io_stats; + total.qreads += ios->qreads; + total.qwrites += ios->qwrites; + total.creads += ios->creads; + total.cwrites += ios->cwrites; + total.mreads += ios->mreads; + total.mwrites += ios->mwrites; + total.ireads += ios->ireads; + total.iwrites += ios->iwrites; + total.rrqueue += ios->rrqueue; + total.wrqueue += ios->wrqueue; + total.qread_kb += ios->qread_kb; + total.qwrite_kb += ios->qwrite_kb; + total.cread_kb += ios->cread_kb; + total.cwrite_kb += ios->cwrite_kb; + total.iread_kb += ios->iread_kb; + total.iwrite_kb += ios->iwrite_kb; + total.mread_kb += ios->mread_kb; + total.mwrite_kb += ios->mwrite_kb; + + total.qreads_pc += ios->qreads_pc; + total.qwrites_pc += ios->qwrites_pc; + total.creads_pc += ios->creads_pc; + total.cwrites_pc += ios->cwrites_pc; + total.ireads_pc += ios->ireads_pc; + total.iwrites_pc += ios->iwrites_pc; + total.rrqueue_pc += ios->rrqueue_pc; + total.wrqueue_pc += ios->wrqueue_pc; + total.qread_kb_pc += ios->qread_kb_pc; + total.qwrite_kb_pc += ios->qwrite_kb_pc; + total.iread_kb_pc += ios->iread_kb_pc; + total.iwrite_kb_pc += ios->iwrite_kb_pc; + + total.timer_unplugs += ios->timer_unplugs; + total.io_unplugs += ios->io_unplugs; + + snprintf(line, sizeof(line) - 1, "CPU%d (%s):", + j, get_dev_name(pdi, name, sizeof(name))); + dump_io_stats(pdi, ios, line); + pci_events++; + } + + if (pci_events > 1) { + fprintf(ofp, "\n"); + snprintf(line, sizeof(line) - 1, "Total (%s):", + get_dev_name(pdi, name, sizeof(name))); + dump_io_stats(NULL, &total, line); + } + + wrate = rrate = 0; + msec = (pdi->last_reported_time - pdi->first_reported_time) / 1000000; + if (msec) { + rrate = 1000 * total.cread_kb / msec; + wrate = 1000 * total.cwrite_kb / msec; + } + + fprintf(ofp, "\nThroughput (R/W): %'LuKiB/s / %'LuKiB/s\n", + rrate, wrate); + fprintf(ofp, "Events (%s): %'Lu entries\n", + get_dev_name(pdi, line, sizeof(line)), pdi->events); + + collect_pdi_skips(pdi); + if (!pdi->skips && !pdi->events) + ratio = 0.0; + else + ratio = 100.0 * ((double)pdi->seq_skips / + (double)(pdi->events + pdi->seq_skips)); + fprintf(ofp, "Skips: %'lu forward (%'llu - %5.1lf%%)\n", + pdi->skips, pdi->seq_skips, ratio); + } +} + +static void find_genesis(void) +{ + struct trace *t = trace_list; + + genesis_time = -1ULL; + while (t != NULL) { + if (t->bit->time < genesis_time) + genesis_time = t->bit->time; + + t = t->next; + } + + /* The time stamp record will usually be the first + * record in the trace, but not always. + */ + if (start_timestamp + && start_timestamp != genesis_time) { + long delta = genesis_time - start_timestamp; + + abs_start_time.tv_sec += SECONDS(delta); + abs_start_time.tv_nsec += NANO_SECONDS(delta); + if (abs_start_time.tv_nsec < 0) { + abs_start_time.tv_nsec += 1000000000; + abs_start_time.tv_sec -= 1; + } else + if (abs_start_time.tv_nsec > 1000000000) { + abs_start_time.tv_nsec -= 1000000000; + abs_start_time.tv_sec += 1; + } + } +} + +static inline int check_stopwatch(struct blk_io_trace *bit) +{ + if (bit->time < stopwatch_end && + bit->time >= stopwatch_start) + return 0; + + return 1; +} + +/* + * return youngest entry read + */ +static int sort_entries(unsigned long long *youngest) +{ + struct per_dev_info *pdi = NULL; + struct per_cpu_info *pci = NULL; + struct trace *t; + + if (!genesis_time) + find_genesis(); + + *youngest = 0; + while ((t = trace_list) != NULL) { + struct blk_io_trace *bit = t->bit; + + trace_list = t->next; + + bit->time -= genesis_time; + + if (bit->time < *youngest || !*youngest) + *youngest = bit->time; + + if (!pdi || pdi->dev != bit->device) { + pdi = get_dev_info(bit->device); + pci = NULL; + } + + if (!pci || pci->cpu != bit->cpu) + pci = get_cpu_info(pdi, bit->cpu); + + if (bit->sequence < pci->smallest_seq_read) + pci->smallest_seq_read = bit->sequence; + + if (check_stopwatch(bit)) { + bit_free(bit); + t_free(t); + continue; + } + + if (trace_rb_insert_sort(t)) + return -1; + } + + return 0; +} + +/* + * to continue, we must have traces from all online cpus in the tree + */ +static int check_cpu_map(struct per_dev_info *pdi) +{ + unsigned long *cpu_map; + struct rb_node *n; + struct trace *__t; + unsigned int i; + int ret, cpu; + + /* + * create a map of the cpus we have traces for + */ + cpu_map = malloc(pdi->cpu_map_max / sizeof(long)); + n = rb_first(&rb_sort_root); + while (n) { + __t = rb_entry(n, struct trace, rb_node); + cpu = __t->bit->cpu; + + cpu_map[CPU_IDX(cpu)] |= (1UL << CPU_BIT(cpu)); + n = rb_next(n); + } + + /* + * we can't continue if pdi->cpu_map has entries set that we don't + * have in the sort rbtree. the opposite is not a problem, though + */ + ret = 0; + for (i = 0; i < pdi->cpu_map_max / CPUS_PER_LONG; i++) { + if (pdi->cpu_map[i] & ~(cpu_map[i])) { + ret = 1; + break; + } + } + + free(cpu_map); + return ret; +} + +static int check_sequence(struct per_dev_info *pdi, struct trace *t, int force) +{ + struct blk_io_trace *bit = t->bit; + unsigned long expected_sequence; + struct per_cpu_info *pci; + struct trace *__t; + + pci = get_cpu_info(pdi, bit->cpu); + expected_sequence = pci->last_sequence + 1; + + if (!expected_sequence) { + /* + * 1 should be the first entry, just allow it + */ + if (bit->sequence == 1) + return 0; + if (bit->sequence == pci->smallest_seq_read) + return 0; + + return check_cpu_map(pdi); + } + + if (bit->sequence == expected_sequence) + return 0; + + /* + * we may not have seen that sequence yet. if we are not doing + * the final run, break and wait for more entries. + */ + if (expected_sequence < pci->smallest_seq_read) { + __t = trace_rb_find_last(pdi, pci, expected_sequence); + if (!__t) + goto skip; + + __put_trace_last(pdi, __t); + return 0; + } else if (!force) { + return 1; + } else { +skip: + if (check_current_skips(pci, bit->sequence)) + return 0; + + if (expected_sequence < bit->sequence) + insert_skip(pci, expected_sequence, bit->sequence - 1); + return 0; + } +} + +static void show_entries_rb(int force) +{ + struct per_dev_info *pdi = NULL; + struct per_cpu_info *pci = NULL; + struct blk_io_trace *bit; + struct rb_node *n; + struct trace *t; + + while ((n = rb_first(&rb_sort_root)) != NULL) { + if (is_done() && !force && !pipeline) + break; + + t = rb_entry(n, struct trace, rb_node); + bit = t->bit; + + if (read_sequence - t->read_sequence < 1 && !force) + break; + + if (!pdi || pdi->dev != bit->device) { + pdi = get_dev_info(bit->device); + pci = NULL; + } + + if (!pdi) { + fprintf(stderr, "Unknown device ID? (%d,%d)\n", + MAJOR(bit->device), MINOR(bit->device)); + break; + } + + if (check_sequence(pdi, t, force)) + break; + + if (!force && bit->time > last_allowed_time) + break; + + check_time(pdi, bit); + + if (!pci || pci->cpu != bit->cpu) + pci = get_cpu_info(pdi, bit->cpu); + + pci->last_sequence = bit->sequence; + + pci->nelems++; + + if (bit->action & (act_mask << BLK_TC_SHIFT)) + dump_trace(bit, pci, pdi); + + put_trace(pdi, t); + } +} + +static int read_data(int fd, void *buffer, int bytes, int block, int *fdblock) +{ + int ret, bytes_left, fl; + void *p; + + if (block != *fdblock) { + fl = fcntl(fd, F_GETFL); + + if (!block) { + *fdblock = 0; + fcntl(fd, F_SETFL, fl | O_NONBLOCK); + } else { + *fdblock = 1; + fcntl(fd, F_SETFL, fl & ~O_NONBLOCK); + } + } + + bytes_left = bytes; + p = buffer; + while (bytes_left > 0) { + ret = read(fd, p, bytes_left); + if (!ret) + return 1; + else if (ret < 0) { + if (errno != EAGAIN) { + perror("read"); + return -1; + } + + /* + * never do partial reads. we can return if we + * didn't read anything and we should not block, + * otherwise wait for data + */ + if ((bytes_left == bytes) && !block) + return 1; + + usleep(10); + continue; + } else { + p += ret; + bytes_left -= ret; + } + } + + return 0; +} + +static inline __u16 get_pdulen(struct blk_io_trace *bit) +{ + if (data_is_native) + return bit->pdu_len; + + return __bswap_16(bit->pdu_len); +} + +static inline __u32 get_magic(struct blk_io_trace *bit) +{ + if (data_is_native) + return bit->magic; + + return __bswap_32(bit->magic); +} + +static int read_events(int fd, int always_block, int *fdblock) +{ + struct per_dev_info *pdi = NULL; + unsigned int events = 0; + + while (!is_done() && events < rb_batch) { + struct blk_io_trace *bit; + struct trace *t; + int pdu_len, should_block, ret; + __u32 magic; + + bit = bit_alloc(); + + should_block = !events || always_block; + + ret = read_data(fd, bit, sizeof(*bit), should_block, fdblock); + if (ret) { + bit_free(bit); + if (!events && ret < 0) + events = ret; + break; + } + + /* + * look at first trace to check whether we need to convert + * data in the future + */ + if (data_is_native == -1 && check_data_endianness(bit->magic)) + break; + + magic = get_magic(bit); + if ((magic & 0xffffff00) != BLK_IO_TRACE_MAGIC) { + fprintf(stderr, "Bad magic %x\n", magic); + break; + } + + pdu_len = get_pdulen(bit); + if (pdu_len) { + void *ptr = realloc(bit, sizeof(*bit) + pdu_len); + + if (read_data(fd, ptr + sizeof(*bit), pdu_len, 1, fdblock)) { + bit_free(ptr); + break; + } + + bit = ptr; + } + + trace_to_cpu(bit); + + if (verify_trace(bit)) { + bit_free(bit); + continue; + } + + /* + * not a real trace, so grab and handle it here + */ + if (bit->action & BLK_TC_ACT(BLK_TC_NOTIFY) && bit->action != BLK_TN_MESSAGE) { + handle_notify(bit); + output_binary(bit, sizeof(*bit) + bit->pdu_len); + continue; + } + + t = t_alloc(); + memset(t, 0, sizeof(*t)); + t->bit = bit; + t->read_sequence = read_sequence; + + t->next = trace_list; + trace_list = t; + + if (!pdi || pdi->dev != bit->device) + pdi = get_dev_info(bit->device); + + if (bit->time > pdi->last_read_time) + pdi->last_read_time = bit->time; + + events++; + } + + return events; +} + +/* + * Managing input streams + */ + +struct ms_stream { + struct ms_stream *next; + struct trace *first, *last; + struct per_dev_info *pdi; + unsigned int cpu; +}; + +#define MS_HASH(d, c) ((MAJOR(d) & 0xff) ^ (MINOR(d) & 0xff) ^ (cpu & 0xff)) + +struct ms_stream *ms_head; +struct ms_stream *ms_hash[256]; + +static void ms_sort(struct ms_stream *msp); +static int ms_prime(struct ms_stream *msp); + +static inline struct trace *ms_peek(struct ms_stream *msp) +{ + return (msp == NULL) ? NULL : msp->first; +} + +static inline __u64 ms_peek_time(struct ms_stream *msp) +{ + return ms_peek(msp)->bit->time; +} + +static inline void ms_resort(struct ms_stream *msp) +{ + if (msp->next && ms_peek_time(msp) > ms_peek_time(msp->next)) { + ms_head = msp->next; + msp->next = NULL; + ms_sort(msp); + } +} + +static inline void ms_deq(struct ms_stream *msp) +{ + msp->first = msp->first->next; + if (!msp->first) { + msp->last = NULL; + if (!ms_prime(msp)) { + ms_head = msp->next; + msp->next = NULL; + return; + } + } + + ms_resort(msp); +} + +static void ms_sort(struct ms_stream *msp) +{ + __u64 msp_t = ms_peek_time(msp); + struct ms_stream *this_msp = ms_head; + + if (this_msp == NULL) + ms_head = msp; + else if (msp_t < ms_peek_time(this_msp)) { + msp->next = this_msp; + ms_head = msp; + } + else { + while (this_msp->next && ms_peek_time(this_msp->next) < msp_t) + this_msp = this_msp->next; + + msp->next = this_msp->next; + this_msp->next = msp; + } +} + +static int ms_prime(struct ms_stream *msp) +{ + __u32 magic; + unsigned int i; + struct trace *t; + struct per_dev_info *pdi = msp->pdi; + struct per_cpu_info *pci = get_cpu_info(pdi, msp->cpu); + struct blk_io_trace *bit = NULL; + int ret, pdu_len, ndone = 0; + + for (i = 0; !is_done() && pci->fd >= 0 && i < rb_batch; i++) { + bit = bit_alloc(); + ret = read_data(pci->fd, bit, sizeof(*bit), 1, &pci->fdblock); + if (ret) + goto err; + + if (data_is_native == -1 && check_data_endianness(bit->magic)) + goto err; + + magic = get_magic(bit); + if ((magic & 0xffffff00) != BLK_IO_TRACE_MAGIC) { + fprintf(stderr, "Bad magic %x\n", magic); + goto err; + + } + + pdu_len = get_pdulen(bit); + if (pdu_len) { + void *ptr = realloc(bit, sizeof(*bit) + pdu_len); + ret = read_data(pci->fd, ptr + sizeof(*bit), pdu_len, + 1, &pci->fdblock); + if (ret) { + free(ptr); + bit = NULL; + goto err; + } + + bit = ptr; + } + + trace_to_cpu(bit); + if (verify_trace(bit)) + goto err; + + if (bit->action & BLK_TC_ACT(BLK_TC_NOTIFY) && bit->action != BLK_TN_MESSAGE) { + handle_notify(bit); + output_binary(bit, sizeof(*bit) + bit->pdu_len); + bit_free(bit); + + i -= 1; + continue; + } + + if (bit->time > pdi->last_read_time) + pdi->last_read_time = bit->time; + + t = t_alloc(); + memset(t, 0, sizeof(*t)); + t->bit = bit; + + if (msp->first == NULL) + msp->first = msp->last = t; + else { + msp->last->next = t; + msp->last = t; + } + + ndone++; + } + + return ndone; + +err: + if (bit) bit_free(bit); + + cpu_mark_offline(pdi, pci->cpu); + close(pci->fd); + pci->fd = -1; + + return ndone; +} + +static struct ms_stream *ms_alloc(struct per_dev_info *pdi, int cpu) +{ + struct ms_stream *msp = malloc(sizeof(*msp)); + + msp->next = NULL; + msp->first = msp->last = NULL; + msp->pdi = pdi; + msp->cpu = cpu; + + if (ms_prime(msp)) + ms_sort(msp); + + return msp; +} + +static int setup_file(struct per_dev_info *pdi, int cpu) +{ + int len = 0; + struct stat st; + char *p, *dname; + struct per_cpu_info *pci = get_cpu_info(pdi, cpu); + + pci->cpu = cpu; + pci->fdblock = -1; + + p = strdup(pdi->name); + dname = dirname(p); + if (strcmp(dname, ".")) { + input_dir = dname; + p = strdup(pdi->name); + strcpy(pdi->name, basename(p)); + } + free(p); + + if (input_dir) + len = sprintf(pci->fname, "%s/", input_dir); + + snprintf(pci->fname + len, sizeof(pci->fname)-1-len, + "%s.blktrace.%d", pdi->name, pci->cpu); + if (stat(pci->fname, &st) < 0) + return 0; + if (!st.st_size) + return 1; + + pci->fd = open(pci->fname, O_RDONLY); + if (pci->fd < 0) { + perror(pci->fname); + return 0; + } + + printf("Input file %s added\n", pci->fname); + cpu_mark_online(pdi, pci->cpu); + + pdi->nfiles++; + ms_alloc(pdi, pci->cpu); + + return 1; +} + +static int handle(struct ms_stream *msp) +{ + struct trace *t; + struct per_dev_info *pdi; + struct per_cpu_info *pci; + struct blk_io_trace *bit; + + t = ms_peek(msp); + + bit = t->bit; + pdi = msp->pdi; + pci = get_cpu_info(pdi, msp->cpu); + pci->nelems++; + bit->time -= genesis_time; + + if (t->bit->time > stopwatch_end) + return 0; + + pdi->last_reported_time = bit->time; + if ((bit->action & (act_mask << BLK_TC_SHIFT))&& + t->bit->time >= stopwatch_start) + dump_trace(bit, pci, pdi); + + ms_deq(msp); + + if (text_output) + trace_rb_insert_last(pdi, t); + else { + bit_free(t->bit); + t_free(t); + } + + return 1; +} + +/* + * Check if we need to sanitize the name. We allow 'foo', or if foo.blktrace.X + * is given, then strip back down to 'foo' to avoid missing files. + */ +static int name_fixup(char *name) +{ + char *b; + + if (!name) + return 1; + + b = strstr(name, ".blktrace."); + if (b) + *b = '\0'; + + return 0; +} + +static int do_file(void) +{ + int i, cpu, ret; + struct per_dev_info *pdi; + + /* + * first prepare all files for reading + */ + for (i = 0; i < ndevices; i++) { + pdi = &devices[i]; + ret = name_fixup(pdi->name); + if (ret) + return ret; + + for (cpu = 0; setup_file(pdi, cpu); cpu++) + ; + } + + /* + * Get the initial time stamp + */ + if (ms_head) + genesis_time = ms_peek_time(ms_head); + + /* + * Keep processing traces while any are left + */ + while (!is_done() && ms_head && handle(ms_head)) + ; + + return 0; +} + +static void do_pipe(int fd) +{ + unsigned long long youngest; + int events, fdblock; + + last_allowed_time = -1ULL; + fdblock = -1; + while ((events = read_events(fd, 0, &fdblock)) > 0) { + read_sequence++; + +#if 0 + smallest_seq_read = -1U; +#endif + + if (sort_entries(&youngest)) + break; + + if (youngest > stopwatch_end) + break; + + show_entries_rb(0); + } + + if (rb_sort_entries) + show_entries_rb(1); +} + +static int do_fifo(void) +{ + int fd; + + if (!strcmp(pipename, "-")) + fd = dup(STDIN_FILENO); + else + fd = open(pipename, O_RDONLY); + + if (fd == -1) { + perror("dup stdin"); + return -1; + } + + do_pipe(fd); + close(fd); + return 0; +} + +static void show_stats(void) +{ + if (!ofp) + return; + if (stats_printed) + return; + + stats_printed = 1; + + if (per_process_stats) + show_process_stats(); + + if (per_device_and_cpu_stats) + show_device_and_cpu_stats(); + + fflush(ofp); +} + +static void handle_sigint(__attribute__((__unused__)) int sig) +{ + done = 1; +} + +/* + * Extract start and duration times from a string, allowing + * us to specify a time interval of interest within a trace. + * Format: "duration" (start is zero) or "start:duration". + */ +static int find_stopwatch_interval(char *string) +{ + double value; + char *sp; + + value = strtod(string, &sp); + if (sp == string) { + fprintf(stderr,"Invalid stopwatch timer: %s\n", string); + return 1; + } + if (*sp == ':') { + stopwatch_start = DOUBLE_TO_NANO_ULL(value); + string = sp + 1; + value = strtod(string, &sp); + if (sp == string || *sp != '\0') { + fprintf(stderr,"Invalid stopwatch duration time: %s\n", + string); + return 1; + } + } else if (*sp != '\0') { + fprintf(stderr,"Invalid stopwatch start timer: %s\n", string); + return 1; + } + stopwatch_end = DOUBLE_TO_NANO_ULL(value); + if (stopwatch_end <= stopwatch_start) { + fprintf(stderr, "Invalid stopwatch interval: %Lu -> %Lu\n", + stopwatch_start, stopwatch_end); + return 1; + } + + return 0; +} + +static int is_pipe(const char *str) +{ + struct stat st; + + if (!strcmp(str, "-")) + return 1; + if (!stat(str, &st) && S_ISFIFO(st.st_mode)) + return 1; + + return 0; +} + +#define S_OPTS "a:A:b:D:d:f:F:hi:o:Oqstw:vVM" +static char usage_str[] = "\n\n" \ + "-i <file> | --input=<file>\n" \ + "[ -a <action field> | --act-mask=<action field> ]\n" \ + "[ -A <action mask> | --set-mask=<action mask> ]\n" \ + "[ -b <traces> | --batch=<traces> ]\n" \ + "[ -d <file> | --dump-binary=<file> ]\n" \ + "[ -D <dir> | --input-directory=<dir> ]\n" \ + "[ -f <format> | --format=<format> ]\n" \ + "[ -F <spec> | --format-spec=<spec> ]\n" \ + "[ -h | --hash-by-name ]\n" \ + "[ -o <file> | --output=<file> ]\n" \ + "[ -O | --no-text-output ]\n" \ + "[ -q | --quiet ]\n" \ + "[ -s | --per-program-stats ]\n" \ + "[ -t | --track-ios ]\n" \ + "[ -w <time> | --stopwatch=<time> ]\n" \ + "[ -M | --no-msgs\n" \ + "[ -v | --verbose ]\n" \ + "[ -V | --version ]\n\n" \ + "\t-b stdin read batching\n" \ + "\t-d Output file. If specified, binary data is written to file\n" \ + "\t-D Directory to prepend to input file names\n" \ + "\t-f Output format. Customize the output format. The format field\n" \ + "\t identifies can be found in the documentation\n" \ + "\t-F Format specification. Can be found in the documentation\n" \ + "\t-h Hash processes by name, not pid\n" \ + "\t-i Input file containing trace data, or '-' for stdin\n" \ + "\t-o Output file. If not given, output is stdout\n" \ + "\t-O Do NOT output text data\n" \ + "\t-q Quiet. Don't display any stats at the end of the trace\n" \ + "\t-s Show per-program io statistics\n" \ + "\t-t Track individual ios. Will tell you the time a request took\n" \ + "\t to get queued, to get dispatched, and to get completed\n" \ + "\t-w Only parse data between the given time interval in seconds.\n" \ + "\t If 'start' isn't given, blkparse defaults the start time to 0\n" \ + "\t-M Do not output messages to binary file\n" \ + "\t-v More verbose for marginal errors\n" \ + "\t-V Print program version info\n\n"; + +static void usage(char *prog) +{ + fprintf(stderr, "Usage: %s %s %s", prog, blkparse_version, usage_str); +} + +int main(int argc, char *argv[]) +{ + int i, c, ret, mode; + int act_mask_tmp = 0; + char *ofp_buffer = NULL; + char *bin_ofp_buffer = NULL; + + while ((c = getopt_long(argc, argv, S_OPTS, l_opts, NULL)) != -1) { + switch (c) { + case 'a': + i = find_mask_map(optarg); + if (i < 0) { + fprintf(stderr,"Invalid action mask %s\n", + optarg); + return 1; + } + act_mask_tmp |= i; + break; + + case 'A': + if ((sscanf(optarg, "%x", &i) != 1) || + !valid_act_opt(i)) { + fprintf(stderr, + "Invalid set action mask %s/0x%x\n", + optarg, i); + return 1; + } + act_mask_tmp = i; + break; + case 'i': + if (is_pipe(optarg) && !pipeline) { + pipeline = 1; + pipename = strdup(optarg); + } else if (resize_devices(optarg) != 0) + return 1; + break; + case 'D': + input_dir = optarg; + break; + case 'o': + output_name = optarg; + break; + case 'O': + text_output = 0; + break; + case 'b': + rb_batch = atoi(optarg); + if (rb_batch <= 0) + rb_batch = RB_BATCH_DEFAULT; + break; + case 's': + per_process_stats = 1; + break; + case 't': + track_ios = 1; + break; + case 'q': + per_device_and_cpu_stats = 0; + break; + case 'w': + if (find_stopwatch_interval(optarg) != 0) + return 1; + break; + case 'f': + set_all_format_specs(optarg); + break; + case 'F': + if (add_format_spec(optarg) != 0) + return 1; + break; + case 'h': + ppi_hash_by_pid = 0; + break; + case 'v': + verbose++; + break; + case 'V': + printf("%s version %s\n", argv[0], blkparse_version); + return 0; + case 'd': + dump_binary = optarg; + break; + case 'M': + bin_output_msgs = 0; + break; + default: + usage(argv[0]); + return 1; + } + } + + while (optind < argc) { + if (is_pipe(argv[optind]) && !pipeline) { + pipeline = 1; + pipename = strdup(argv[optind]); + } else if (resize_devices(argv[optind]) != 0) + return 1; + optind++; + } + + if (!pipeline && !ndevices) { + usage(argv[0]); + return 1; + } + + if (act_mask_tmp != 0) + act_mask = act_mask_tmp; + + memset(&rb_sort_root, 0, sizeof(rb_sort_root)); + + signal(SIGINT, handle_sigint); + signal(SIGHUP, handle_sigint); + signal(SIGTERM, handle_sigint); + + setlocale(LC_NUMERIC, "en_US"); + + if (text_output) { + if (!output_name) { + ofp = fdopen(STDOUT_FILENO, "w"); + mode = _IOLBF; + } else { + char ofname[128]; + + snprintf(ofname, sizeof(ofname) - 1, "%s", output_name); + ofp = fopen(ofname, "w"); + mode = _IOFBF; + } + + if (!ofp) { + perror("fopen"); + return 1; + } + + ofp_buffer = malloc(4096); + if (setvbuf(ofp, ofp_buffer, mode, 4096)) { + perror("setvbuf"); + return 1; + } + } + + if (dump_binary) { + dump_fp = fopen(dump_binary, "w"); + if (!dump_fp) { + perror(dump_binary); + dump_binary = NULL; + return 1; + } + bin_ofp_buffer = malloc(128 * 1024); + if (setvbuf(dump_fp, bin_ofp_buffer, _IOFBF, 128 * 1024)) { + perror("setvbuf binary"); + return 1; + } + } + + if (pipeline) + ret = do_fifo(); + else + ret = do_file(); + + if (!ret) + show_stats(); + + if (have_drv_data && !dump_binary) + printf("\ndiscarded traces containing low-level device driver " + "specific data (only available in binary output)\n"); + + if (ofp_buffer) { + fflush(ofp); + free(ofp_buffer); + } + if (bin_ofp_buffer) { + fflush(dump_fp); + free(bin_ofp_buffer); + } + return ret; +} |