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/*
* UCW Library -- Table printer types
*
* (c) 2014 Robert Kessl <robert.kessl@economia.cz>
*/
#include <ucw/lib.h>
#include <ucw/fastbuf.h>
#include <ucw/strtonum.h>
#include <ucw/table.h>
#include <time.h>
#include <stdio.h>
#include <inttypes.h>
#include <errno.h>
#include <ucw/xtypes-extra.h>
/** xt_size **/
static const struct unit_definition xt_size_units[] = {
[XT_SIZE_UNIT_BYTE] = { "", 1LLU, 1 },
[XT_SIZE_UNIT_KILOBYTE] = { "KB", 1024LLU, 1 },
[XT_SIZE_UNIT_MEGABYTE] = { "MB", 1024LLU * 1024LLU, 1 },
[XT_SIZE_UNIT_GIGABYTE] = { "GB", 1024LLU * 1024LLU * 1024LLU, 1 },
[XT_SIZE_UNIT_TERABYTE] = { "TB", 1024LLU * 1024LLU * 1024LLU * 1024LLU, 1 },
{ 0, 0, 0 }
};
static enum size_units xt_size_auto_units(u64 sz)
{
if(sz >= xt_size_units[XT_SIZE_UNIT_TERABYTE].num) {
return XT_SIZE_UNIT_TERABYTE;
} else if(sz >= xt_size_units[XT_SIZE_UNIT_GIGABYTE].num) {
return XT_SIZE_UNIT_GIGABYTE;
} else if(sz >= xt_size_units[XT_SIZE_UNIT_MEGABYTE].num) {
return XT_SIZE_UNIT_MEGABYTE;
} else if(sz >= xt_size_units[XT_SIZE_UNIT_KILOBYTE].num) {
return XT_SIZE_UNIT_KILOBYTE;
}
return XT_SIZE_UNIT_BYTE;
}
static const char *xt_size_format(void *src, u32 fmt, struct mempool *pool)
{
u64 curr_val = *(u64*) src;
uint out_units;
if(fmt & XT_SIZE_FMT_FIXED_UNIT) {
out_units = fmt & ~XT_SIZE_FMT_FIXED_UNIT;
} else {
switch(fmt) {
case XTYPE_FMT_RAW:
return mp_printf(pool, "%"PRIu64, curr_val);
case XTYPE_FMT_PRETTY:
out_units = XT_SIZE_UNIT_AUTO;
break;
case XTYPE_FMT_DEFAULT:
default:
out_units = XT_SIZE_UNIT_BYTE;
break;
}
}
if(out_units == XT_SIZE_UNIT_AUTO) {
out_units = xt_size_auto_units(curr_val);
}
ASSERT(out_units < ARRAY_SIZE(xt_size_units));
curr_val = curr_val / xt_size_units[out_units].num;
return mp_printf(pool, "%"PRIu64"%s", curr_val, xt_size_units[out_units].unit);
}
static const char *xt_size_fmt_parse(const char *opt_str, u32 *dest, struct mempool *pool)
{
if(strlen(opt_str) == 0 || strcmp(opt_str, "B") == 0 || strcmp(opt_str, "Bytes") == 0) {
*dest = XT_SIZE_FMT_UNIT(XT_SIZE_UNIT_BYTE);
return NULL;
}
if(strcmp(opt_str, "auto") == 0) {
*dest = XT_SIZE_FMT_UNIT(XT_SIZE_UNIT_AUTO);
return NULL;
}
int unit_idx = xtype_unit_parser(opt_str, xt_size_units);
if(unit_idx == -1) {
return mp_printf(pool, "Unknown option '%s'", opt_str);
}
*dest = XT_SIZE_FMT_UNIT(unit_idx);
return NULL;
}
static const char *xt_size_parse(const char *str, void *dest, struct mempool *pool)
{
errno = 0;
const char *units_start = NULL;
u64 parsed;
const char *err = str_to_u64(&parsed, str, &units_start, 10 | STN_FLAGS);
if(err != NULL) {
return mp_printf(pool, "Invalid value of size: '%s'; number parser error: %s.", str, err);
}
if(*units_start == 0) {
*(u64*) dest = (u64) parsed;
return NULL;
}
int unit_idx = xtype_unit_parser(units_start, xt_size_units);
if(unit_idx == -1) {
return mp_printf(pool, "Invalid units: '%s'.", str);
}
// Overflow detection
u64 num = xt_size_units[unit_idx].num;
if(parsed && UINT64_MAX / parsed < num) {
return mp_printf(pool, "Size too large: '%s'.", str);
}
*(u64*) dest = parsed * xt_size_units[unit_idx].num;
return NULL;
}
TABLE_COL_BODY(size, u64)
const struct xtype xt_size = {
.size = sizeof(u64),
.name = "size",
.parse = xt_size_parse,
.format = xt_size_format,
.parse_fmt = xt_size_fmt_parse
};
/** xt_timestamp **/
#define FORMAT_TIME_SIZE 20 // Minimum buffer size
static const char *xt_timestamp_format(void *src, u32 fmt, struct mempool *pool)
{
char formatted_time_buf[FORMAT_TIME_SIZE] = { 0 };
u64 tmp_time_u64 = *(u64*)src;
time_t tmp_time = (time_t) tmp_time_u64;
struct tm t = *gmtime(&tmp_time);
switch (fmt) {
case XTYPE_FMT_DEFAULT:
case XTYPE_FMT_RAW:
sprintf(formatted_time_buf, "%"PRIu64, tmp_time_u64);
break;
case XTYPE_FMT_PRETTY:
strftime(formatted_time_buf, FORMAT_TIME_SIZE, "%F %T", &t);
break;
default:
ASSERT(0);
break;
}
return mp_strdup(pool, formatted_time_buf);
}
static const char *xt_timestamp_fmt_parse(const char *opt_str, u32 *dest, struct mempool *pool)
{
if(strcasecmp(opt_str, "timestamp") == 0 || strcasecmp(opt_str, "epoch") == 0) {
*dest = XT_TIMESTAMP_FMT_EPOCH;
return NULL;
} else if(strcasecmp(opt_str, "datetime") == 0) {
*dest = XT_TIMESTAMP_FMT_DATETIME;
return NULL;
}
return mp_printf(pool, "Invalid column format option: '%s'.", opt_str);
}
static const char *xt_timestamp_parse(const char *str, void *dest, struct mempool *pool)
{
errno = 0;
const char *parse_end = NULL;
u64 parsed;
const char *err = str_to_u64(&parsed, str, &parse_end, 10 | STN_FLAGS);
if(str == parse_end) {
return mp_printf(pool, "Invalid value of timestamp: '%s'; number parser error: %s.", str, err);
}
if(*parse_end == 0) {
*(u64*) dest = (u64) parsed;
return NULL;
}
struct tm parsed_time;
parse_end = strptime(str, "%F %T", &parsed_time);
if(parse_end == NULL) {
return mp_printf(pool, "Invalid value of timestamp: '%s'.", str);
}
if(*parse_end != 0) {
return mp_printf(pool, "Invalid value of timestamp: '%s'.", str);
}
time_t tmp_time = mktime(&parsed_time);
*(u64*)dest = (u64) tmp_time;
return NULL;
}
TABLE_COL_BODY(timestamp, u64)
const struct xtype xt_timestamp = {
.size = sizeof(u64),
.name = "timestamp",
.parse = xt_timestamp_parse,
.format = xt_timestamp_format,
.parse_fmt = xt_timestamp_fmt_parse
};