Hi Xose, Thanks for your work. ACK -Yang On 2017/6/23 0:46, Xose Vazquez Perez wrote: > Mainly running scripts/Lindent, from kernel dir, to replace indent spaces > by tabs. > > Cc: Yang Feng <philip.yang@xxxxxxxxxx> > Cc: Christophe Varoqui <christophe.varoqui@xxxxxxxxxxx> > Cc: device-mapper development <dm-devel@xxxxxxxxxx> > Signed-off-by: Xose Vazquez Perez <xose.vazquez@xxxxxxxxx> > --- > libmultipath/prioritizers/path_latency.c | 354 +++++++++++++++---------------- > 1 file changed, 177 insertions(+), 177 deletions(-) > > diff --git a/libmultipath/prioritizers/path_latency.c b/libmultipath/prioritizers/path_latency.c > index 34b734b..9fc2dfc 100644 > --- a/libmultipath/prioritizers/path_latency.c > +++ b/libmultipath/prioritizers/path_latency.c > @@ -17,8 +17,8 @@ > * Author(s): Yang Feng <philip.yang@xxxxxxxxxx> > * > * This file is released under the GPL version 2, or any later version. > - * > */ > + > #include <stdio.h> > #include <math.h> > #include <ctype.h> > @@ -31,27 +31,28 @@ > > #define pp_pl_log(prio, fmt, args...) condlog(prio, "path_latency prio: " fmt, ##args) > > -#define MAX_IO_NUM 200 > -#define MIN_IO_NUM 2 > +#define MAX_IO_NUM 200 > +#define MIN_IO_NUM 2 > > -#define MAX_BASE_NUM 10 > -#define MIN_BASE_NUM 2 > +#define MAX_BASE_NUM 10 > +#define MIN_BASE_NUM 2 > > -#define MAX_AVG_LATENCY 100000000. /*Unit: us*/ > -#define MIN_AVG_LATENCY 1. /*Unit: us*/ > +#define MAX_AVG_LATENCY 100000000. /* Unit: us */ > +#define MIN_AVG_LATENCY 1. /* Unit: us */ > > -#define DEFAULT_PRIORITY 0 > +#define DEFAULT_PRIORITY 0 > > -#define MAX_CHAR_SIZE 30 > +#define MAX_CHAR_SIZE 30 > > -#define USEC_PER_SEC 1000000LL > -#define NSEC_PER_USEC 1000LL > +#define USEC_PER_SEC 1000000LL > +#define NSEC_PER_USEC 1000LL > > static long long path_latency[MAX_IO_NUM]; > > static inline long long timeval_to_us(const struct timespec *tv) > { > - return ((long long) tv->tv_sec * USEC_PER_SEC) + (tv->tv_nsec / NSEC_PER_USEC); > + return ((long long)tv->tv_sec * USEC_PER_SEC) + > + (tv->tv_nsec / NSEC_PER_USEC); > } > > static int do_readsector0(int fd, unsigned int timeout) > @@ -60,198 +61,197 @@ static int do_readsector0(int fd, unsigned int timeout) > unsigned char sbuf[SENSE_BUFF_LEN]; > int ret; > > - ret = sg_read(fd, &buf[0], 4096, &sbuf[0], > - SENSE_BUFF_LEN, timeout); > + ret = sg_read(fd, &buf[0], 4096, &sbuf[0], SENSE_BUFF_LEN, timeout); > > return ret; > } > > int check_args_valid(int io_num, int base_num) > { > - if ((io_num < MIN_IO_NUM) || (io_num > MAX_IO_NUM)) > - { > - pp_pl_log(0, "args io_num is outside the valid range"); > - return 0; > - } > - > - if ((base_num < MIN_BASE_NUM) || (base_num > MAX_BASE_NUM)) > - { > - pp_pl_log(0, "args base_num is outside the valid range"); > - return 0; > - } > - > - return 1; > + if ((io_num < MIN_IO_NUM) || (io_num > MAX_IO_NUM)) { > + pp_pl_log(0, "args io_num is outside the valid range"); > + return 0; > + } > + > + if ((base_num < MIN_BASE_NUM) || (base_num > MAX_BASE_NUM)) { > + pp_pl_log(0, "args base_num is outside the valid range"); > + return 0; > + } > + > + return 1; > } > > -/* In multipath.conf, args form: io_num|base_num. For example, > -* args is "20|10", this function can get io_num value 20, and > - base_num value 10. > -*/ > -static int get_ionum_and_basenum(char *args, > - int *ionum, > - int *basenum) > +/* > + * In multipath.conf, args form: io_num|base_num. For example, > + * args is "20|10", this function can get io_num value 20, and > + * base_num value 10. > + */ > +static int get_ionum_and_basenum(char *args, int *ionum, int *basenum) > { > - char source[MAX_CHAR_SIZE]; > - char vertica = '|'; > - char *endstrbefore = NULL; > - char *endstrafter = NULL; > - unsigned int size = strlen(args); > - > - if ((args == NULL) || (ionum == NULL) || (basenum == NULL)) > - { > - pp_pl_log(0, "args string is NULL"); > - return 0; > - } > - > - if ((size < 1) || (size > MAX_CHAR_SIZE-1)) > - { > - pp_pl_log(0, "args string's size is too long"); > - return 0; > - } > - > - memcpy(source, args, size+1); > - > - if (!isdigit(source[0])) > - { > - pp_pl_log(0, "invalid prio_args format: %s", source); > - return 0; > - } > - > - *ionum = (int)strtoul(source, &endstrbefore, 10); > - if (endstrbefore[0] != vertica) > - { > - pp_pl_log(0, "invalid prio_args format: %s", source); > - return 0; > - } > - > - if (!isdigit(endstrbefore[1])) > - { > - pp_pl_log(0, "invalid prio_args format: %s", source); > - return 0; > - } > - > - *basenum = (long long)strtol(&endstrbefore[1], &endstrafter, 10); > - if (check_args_valid(*ionum, *basenum) == 0) > - { > - return 0; > - } > - > - return 1; > + char source[MAX_CHAR_SIZE]; > + char vertica = '|'; > + char *endstrbefore = NULL; > + char *endstrafter = NULL; > + unsigned int size = strlen(args); > + > + if ((args == NULL) || (ionum == NULL) || (basenum == NULL)) { > + pp_pl_log(0, "args string is NULL"); > + return 0; > + } > + > + if ((size < 1) || (size > MAX_CHAR_SIZE - 1)) { > + pp_pl_log(0, "args string's size is too long"); > + return 0; > + } > + > + memcpy(source, args, size + 1); > + > + if (!isdigit(source[0])) { > + pp_pl_log(0, "invalid prio_args format: %s", source); > + return 0; > + } > + > + *ionum = (int)strtoul(source, &endstrbefore, 10); > + if (endstrbefore[0] != vertica) { > + pp_pl_log(0, "invalid prio_args format: %s", source); > + return 0; > + } > + > + if (!isdigit(endstrbefore[1])) { > + pp_pl_log(0, "invalid prio_args format: %s", source); > + return 0; > + } > + > + *basenum = (long long)strtol(&endstrbefore[1], &endstrafter, 10); > + if (check_args_valid(*ionum, *basenum) == 0) { > + return 0; > + } > + > + return 1; > } > > -long long calc_standard_deviation(long long *path_latency, int size, long long avglatency) > +long long calc_standard_deviation(long long *path_latency, int size, > + long long avglatency) > { > - int index; > - long long total = 0; > + int index; > + long long total = 0; > > - for (index = 0; index < size; index++) > - { > - total += (path_latency[index] - avglatency) * (path_latency[index] - avglatency); > - } > + for (index = 0; index < size; index++) { > + total += > + (path_latency[index] - avglatency) * (path_latency[index] - > + avglatency); > + } > > - total /= (size-1); > + total /= (size - 1); > > - return (long long)sqrt((double)total); > + return (long long)sqrt((double)total); > } > > -int calcPrio(double avglatency, double max_avglatency, double min_avglatency, double base_num) > +int calcPrio(double avglatency, double max_avglatency, double min_avglatency, > + double base_num) > { > - double lavglatency = log(avglatency)/log(base_num); > - double lmax_avglatency = log(max_avglatency)/log(base_num); > - double lmin_avglatency = log(min_avglatency)/log(base_num); > + double lavglatency = log(avglatency) / log(base_num); > + double lmax_avglatency = log(max_avglatency) / log(base_num); > + double lmin_avglatency = log(min_avglatency) / log(base_num); > > - if (lavglatency <= lmin_avglatency) > - return (int)(lmax_avglatency + 1.); > + if (lavglatency <= lmin_avglatency) > + return (int)(lmax_avglatency + 1.); > > - if (lavglatency > lmax_avglatency) > - return 0; > + if (lavglatency > lmax_avglatency) > + return 0; > > - return (int)(lmax_avglatency - lavglatency + 1.); > + return (int)(lmax_avglatency - lavglatency + 1.); > } > > /* Calc the latency interval corresponding to the average latency */ > long long calc_latency_interval(double avglatency, double max_avglatency, > - double min_avglatency, double base_num) > + double min_avglatency, double base_num) > { > - double lavglatency = log(avglatency)/log(base_num); > - double lmax_avglatency = log(max_avglatency)/log(base_num); > - double lmin_avglatency = log(min_avglatency)/log(base_num); > - > - if ((lavglatency <= lmin_avglatency) > - || (lavglatency > lmax_avglatency)) > - return 0;/* Invalid value */ > - > - if ((double)((int)lavglatency) == lavglatency) > - return (long long)(avglatency - (avglatency / base_num)); > - else > - return (long long)(pow(base_num, (double)((int)lavglatency + 1)) > - - pow(base_num, (double)((int)lavglatency))); > + double lavglatency = log(avglatency) / log(base_num); > + double lmax_avglatency = log(max_avglatency) / log(base_num); > + double lmin_avglatency = log(min_avglatency) / log(base_num); > + > + if ((lavglatency <= lmin_avglatency) > + || (lavglatency > lmax_avglatency)) > + return 0; /* Invalid value */ > + > + if ((double)((int)lavglatency) == lavglatency) > + return (long long)(avglatency - (avglatency / base_num)); > + else > + return (long long)(pow(base_num, (double)((int)lavglatency + 1)) > + - pow(base_num, (double)((int)lavglatency))); > } > > -int getprio (struct path *pp, char *args, unsigned int timeout) > +int getprio(struct path *pp, char *args, unsigned int timeout) > { > - int rc, temp; > - int index = 0; > - int io_num; > - int base_num; > - long long avglatency; > - long long latency_interval; > - long long standard_deviation; > - long long toldelay = 0; > - long long before, after; > - struct timespec tv; > - > - if (pp->fd < 0) > - return -1; > - > - if (get_ionum_and_basenum(args, &io_num, &base_num) == 0) > - { > - pp_pl_log(0, "%s: get path_latency args fail", pp->dev); > - return DEFAULT_PRIORITY; > - } > - > - memset(path_latency, 0, sizeof(path_latency)); > - > - temp = io_num; > - while (temp-- > 0) > - { > - (void)clock_gettime(CLOCK_MONOTONIC, &tv); > - before = timeval_to_us(&tv); > - > - if (do_readsector0(pp->fd, timeout) == 2) > - { > - pp_pl_log(0, "%s: path down", pp->dev); > - return -1; > - } > - > - (void)clock_gettime(CLOCK_MONOTONIC, &tv); > - after = timeval_to_us(&tv); > - > - path_latency[index] = after - before; > - toldelay += path_latency[index++]; > - } > - > - avglatency = toldelay/(long long)io_num; > - pp_pl_log(4, "%s: average latency is (%lld us)", pp->dev, avglatency); > - > - if (avglatency > MAX_AVG_LATENCY) > - { > - pp_pl_log(0, "%s: average latency (%lld us) is outside the thresold (%lld us)", > - pp->dev, avglatency, (long long)MAX_AVG_LATENCY); > - return DEFAULT_PRIORITY; > - } > - > - /* Min average latency and max average latency are constant, the args base_num > - set can change latency_interval value corresponding to avglatency and is not constant. > - Warn the user if latency_interval is smaller than (2 * standard_deviation), or equal */ > - standard_deviation = calc_standard_deviation(path_latency, index, avglatency); > - latency_interval = calc_latency_interval(avglatency, MAX_AVG_LATENCY, MIN_AVG_LATENCY, base_num); > - if ((latency_interval!= 0) > - && (latency_interval <= (2 * standard_deviation))) > - pp_pl_log(3, "%s: latency interval (%lld) according to average latency (%lld us) is smaller than " > - "2 * standard deviation (%lld us), or equal, args base_num (%d) needs to be set bigger value", > - pp->dev, latency_interval, avglatency, standard_deviation, base_num); > - > - rc = calcPrio(avglatency, MAX_AVG_LATENCY, MIN_AVG_LATENCY, base_num); > - return rc; > + int rc, temp; > + int index = 0; > + int io_num; > + int base_num; > + long long avglatency; > + long long latency_interval; > + long long standard_deviation; > + long long toldelay = 0; > + long long before, after; > + struct timespec tv; > + > + if (pp->fd < 0) > + return -1; > + > + if (get_ionum_and_basenum(args, &io_num, &base_num) == 0) { > + pp_pl_log(0, "%s: get path_latency args fail", pp->dev); > + return DEFAULT_PRIORITY; > + } > + > + memset(path_latency, 0, sizeof(path_latency)); > + > + temp = io_num; > + while (temp-- > 0) { > + (void)clock_gettime(CLOCK_MONOTONIC, &tv); > + before = timeval_to_us(&tv); > + > + if (do_readsector0(pp->fd, timeout) == 2) { > + pp_pl_log(0, "%s: path down", pp->dev); > + return -1; > + } > + > + (void)clock_gettime(CLOCK_MONOTONIC, &tv); > + after = timeval_to_us(&tv); > + > + path_latency[index] = after - before; > + toldelay += path_latency[index++]; > + } > + > + avglatency = toldelay / (long long)io_num; > + pp_pl_log(4, "%s: average latency is (%lld us)", pp->dev, avglatency); > + > + if (avglatency > MAX_AVG_LATENCY) { > + pp_pl_log(0, > + "%s: average latency (%lld us) is outside the thresold (%lld us)", > + pp->dev, avglatency, (long long)MAX_AVG_LATENCY); > + return DEFAULT_PRIORITY; > + } > + > + /* > + * Min average latency and max average latency are constant, the args > + * base_num set can change latency_interval value corresponding to > + * avglatency and is not constant. > + * Warn the user if latency_interval is smaller than (2 * standard_deviation), > + * or equal. > + */ > + standard_deviation = > + calc_standard_deviation(path_latency, index, avglatency); > + latency_interval = > + calc_latency_interval(avglatency, MAX_AVG_LATENCY, MIN_AVG_LATENCY, > + base_num); > + if ((latency_interval != 0) > + && (latency_interval <= (2 * standard_deviation))) > + pp_pl_log(3, > + "%s: latency interval (%lld) according to average latency (%lld us) is smaller than " > + "2 * standard deviation (%lld us), or equal, args base_num (%d) needs to be set bigger value", > + pp->dev, latency_interval, avglatency, > + standard_deviation, base_num); > + > + rc = calcPrio(avglatency, MAX_AVG_LATENCY, MIN_AVG_LATENCY, base_num); > + return rc; > } > -- dm-devel mailing list dm-devel@xxxxxxxxxx https://www.redhat.com/mailman/listinfo/dm-devel