Commit 3a52278a authored by Lev Walkin's avatar Lev Walkin

new decimal point paradigm

parent ca5876ae
......@@ -168,7 +168,7 @@ GeneralizedTime_encode_der(asn_TYPE_descriptor_t *td, void *sptr,
asn_app_consume_bytes_f *cb, void *app_key) {
GeneralizedTime_t *st = (GeneralizedTime_t *)sptr;
asn_enc_rval_t erval;
long fv, fb; /* seconds fraction value and base */
int fv, fd; /* seconds fraction value and number of digits */
struct tm tm;
time_t tloc;
......@@ -176,12 +176,12 @@ GeneralizedTime_encode_der(asn_TYPE_descriptor_t *td, void *sptr,
* Encode as a canonical DER.
*/
errno = EPERM;
tloc = asn_GT2time_frac(st, &fv, &fb, &tm, 1); /* Recognize time */
tloc = asn_GT2time_frac(st, &fv, &fd, &tm, 1); /* Recognize time */
if(tloc == -1 && errno != EPERM)
/* Failed to recognize time. Fail completely. */
_ASN_ENCODE_FAILED;
st = asn_time2GT_frac(0, &tm, fv, fb, 1); /* Save time canonically */
st = asn_time2GT_frac(0, &tm, fv, fd, 1); /* Save time canonically */
if(!st) _ASN_ENCODE_FAILED; /* Memory allocation failure. */
erval = OCTET_STRING_encode_der(td, st, tag_mode, tag, cb, app_key);
......@@ -202,16 +202,16 @@ GeneralizedTime_encode_xer(asn_TYPE_descriptor_t *td, void *sptr,
if(flags & XER_F_CANONICAL) {
GeneralizedTime_t *gt;
asn_enc_rval_t rv;
long fv, fb; /* fractional parts */
int fv, fd; /* fractional parts */
struct tm tm;
errno = EPERM;
if(asn_GT2time_frac((GeneralizedTime_t *)sptr,
&fv, &fb, &tm, 1) == -1
&fv, &fd, &tm, 1) == -1
&& errno != EPERM)
_ASN_ENCODE_FAILED;
gt = asn_time2GT_frac(0, &tm, fv, fb, 1);
gt = asn_time2GT_frac(0, &tm, fv, fd, 1);
if(!gt) _ASN_ENCODE_FAILED;
rv = OCTET_STRING_encode_xer_utf8(td, sptr, ilevel, flags,
......@@ -261,7 +261,37 @@ asn_GT2time(const GeneralizedTime_t *st, struct tm *ret_tm, int as_gmt) {
}
time_t
asn_GT2time_frac(const GeneralizedTime_t *st, long *frac_value, long *frac_base, struct tm *ret_tm, int as_gmt) {
asn_GT2time_prec(const GeneralizedTime_t *st, int *frac_value, int frac_digits, struct tm *ret_tm, int as_gmt) {
time_t tloc;
int fv, fd = 0;
if(frac_value)
tloc = asn_GT2time_frac(st, &fv, &fd, ret_tm, as_gmt);
else
return asn_GT2time_frac(st, 0, 0, ret_tm, as_gmt);
if(fd == 0 || frac_digits <= 0) {
*frac_value = 0;
} else {
while(fd > frac_digits)
fv /= 10, fd--;
while(fd < frac_digits) {
int new_fv = fv * 10;
if(new_fv / 10 != fv) {
/* Too long precision request */
fv = 0;
break;
}
fv = new_fv, fd++;
}
*frac_value = fv;
}
return tloc;
}
time_t
asn_GT2time_frac(const GeneralizedTime_t *st, int *frac_value, int *frac_digits, struct tm *ret_tm, int as_gmt) {
struct tm tm_s;
uint8_t *buf;
uint8_t *end;
......@@ -269,8 +299,8 @@ asn_GT2time_frac(const GeneralizedTime_t *st, long *frac_value, long *frac_base,
int gmtoff_m = 0;
int gmtoff = 0; /* h + m */
int offset_specified = 0;
long fvalue = 0;
long fbase = 1;
int fvalue = 0;
int fdigits = 0;
time_t tloc;
if(!st || !st->buf) {
......@@ -372,14 +402,16 @@ asn_GT2time_frac(const GeneralizedTime_t *st, long *frac_value, long *frac_base,
*/
for(buf++; buf < end; buf++) {
int v = *buf;
int new_fvalue;
switch(v) {
case 0x30: case 0x31: case 0x32: case 0x33: case 0x34:
case 0x35: case 0x36: case 0x37: case 0x38: case 0x39:
if((fbase * 10 / fbase) != 10) {
new_fvalue = fvalue * 10 + (v - 0x30);
if(new_fvalue / 10 != fvalue) {
/* Not enough precision, ignore */
} else {
fbase *= 10;
fvalue = fvalue * 10 + (v - 0x30);
fvalue = new_fvalue;
fdigits++;
}
continue;
default:
......@@ -490,7 +522,7 @@ local_finish:
/* Fractions of seconds */
if(frac_value) *frac_value = fvalue;
if(frac_base) *frac_base = fbase;
if(frac_digits) *frac_digits = fdigits;
return tloc;
}
......@@ -501,7 +533,7 @@ asn_time2GT(GeneralizedTime_t *opt_gt, const struct tm *tm, int force_gmt) {
}
GeneralizedTime_t *
asn_time2GT_frac(GeneralizedTime_t *opt_gt, const struct tm *tm, long frac_value, long frac_base, int force_gmt) {
asn_time2GT_frac(GeneralizedTime_t *opt_gt, const struct tm *tm, int frac_value, int frac_digits, int force_gmt) {
struct tm tm_s;
long gmtoff;
const unsigned int buf_size =
......@@ -559,23 +591,28 @@ asn_time2GT_frac(GeneralizedTime_t *opt_gt, const struct tm *tm, long frac_value
/*
* Deal with fractions.
*/
if(frac_base >= 10
&& frac_value > 0
&& (frac_value/frac_base) == 0
) {
if(frac_value > 0 && frac_digits > 0) {
char *end = p + 1 + 6; /* '.' + maximum 6 digits */
char *z = p;
long fbase;
*z++ = '.';
frac_value %= frac_base;
/* Place bounds on precision */
while(frac_digits-- > 6)
frac_value /= 10;
/* emulate fbase = pow(10, frac_digits) */
for(fbase = 1; frac_digits--;)
fbase *= 10;
do {
int digit;
frac_base /= 10;
digit = frac_value / frac_base;
int digit = frac_value / fbase;
if(digit > 9) { z = 0; break; }
frac_value %= frac_base;
*z++ = digit + 0x30;
} while(frac_base >= 10 && frac_value > 0 && z < end);
if(z && (frac_base == 1 || frac_base >= 10)) {
frac_value %= fbase;
fbase /= 10;
} while(fbase > 0 && frac_value > 0 && z < end);
if(z) {
for(--z; *z == 0x30; --z); /* Strip zeroes */
p = z + (*z != '.');
size = p - buf;
......
......@@ -34,7 +34,16 @@ time_t asn_GT2time(const GeneralizedTime_t *, struct tm *_optional_tm4fill,
/* A version of the above function also returning the fractions of seconds */
time_t asn_GT2time_frac(const GeneralizedTime_t *,
long *frac_value, long *frac_base, /* (value/base) */
int *frac_value, int *frac_digits, /* (value / (10 ^ digits)) */
struct tm *_optional_tm4fill, int as_gmt);
/*
* Another version returning fractions with defined precision
* For example, parsing of the time ending with ".1" seconds
* with frac_digits=3 (msec) would yield frac_value = 100.
*/
time_t asn_GT2time_prec(const GeneralizedTime_t *,
int *frac_value, int frac_digits,
struct tm *_optional_tm4fill, int as_gmt);
/*
......@@ -47,6 +56,6 @@ time_t asn_GT2time_frac(const GeneralizedTime_t *,
GeneralizedTime_t *asn_time2GT(GeneralizedTime_t *_optional_gt,
const struct tm *, int force_gmt);
GeneralizedTime_t *asn_time2GT_frac(GeneralizedTime_t *_optional_gt,
const struct tm *, long frac_value, long frac_base, int force_gmt);
const struct tm *, int frac_value, int frac_digits, int force_gmt);
#endif /* _GeneralizedTime_H_ */
#define __ASN_INTERNAL_TEST_MODE__
#include <GeneralizedTime.c>
#include <constraints.c>
#include <math.h> /* for pow(3) */
static void
recognize(char *time_str, time_t expect, int as_gmt) {
GeneralizedTime_t gt;
struct tm tm;
time_t tloc;
long fv, fb;
int fv, fp;
gt.buf = (uint8_t *)time_str;
gt.size = strlen(time_str);
tloc = asn_GT2time_frac(&gt, &fv, &fb, &tm, as_gmt);
tloc = asn_GT2time_frac(&gt, &fv, &fp, &tm, as_gmt);
printf("%s: [%s] -> %ld == %ld\n",
as_gmt?"GMT":"ofs", time_str, (long)tloc, (long)expect);
if(tloc != -1) {
printf("\t%04d-%02d-%02dT%02d:%02d:%02d(.%ld/%ld)%+03ld%02ld\n",
printf("\t%04d-%02d-%02dT%02d:%02d:%02d.%f(%d/%d)%+03ld%02ld\n",
tm.tm_year + 1900,
tm.tm_mon + 1,
tm.tm_mday,
tm.tm_hour,
tm.tm_min,
tm.tm_sec,
fv, fb,
(double)fv * pow(0.1, fp), fv, fp,
(GMTOFF(tm) / 3600),
labs(GMTOFF(tm) % 3600)
);
assert(fb < 100 || (fb % 100) == 0);
}
assert(tloc == expect);
......@@ -62,7 +62,7 @@ encode(time_t tloc, const char *expect, int force_gmt) {
static void
recode(char *time_str, const char *expect) {
long frac_value, frac_base;
int frac_value, frac_digits;
GeneralizedTime_t gt;
struct tm tm;
time_t tloc;
......@@ -70,14 +70,15 @@ recode(char *time_str, const char *expect) {
gt.buf = (uint8_t *)time_str;
gt.size = strlen(time_str);
tloc = asn_GT2time_frac(&gt, &frac_value, &frac_base, &tm, 1);
tloc = asn_GT2time_frac(&gt, &frac_value, &frac_digits, &tm, 1);
assert(tloc != -1);
gt.buf = 0;
asn_time2GT_frac(&gt, &tm, frac_value, frac_base, 1);
asn_time2GT_frac(&gt, &tm, frac_value, frac_digits, 1);
assert(gt.buf);
printf("[%s] => [%s] == [%s]\n", time_str, gt.buf, expect);
printf("[%s] => [%s] == [%s] (%d, %d)\n",
time_str, gt.buf, expect, frac_value, frac_digits);
assert(strcmp((char *)gt.buf, expect) == 0);
FREEMEM(gt.buf);
......@@ -87,6 +88,8 @@ static void
check_fractions() {
GeneralizedTime_t *gt = 0;
struct tm tm;
int fv, fd;
time_t tloc;
memset(&tm, 0, sizeof tm);
tm.tm_year = 70;
......@@ -117,51 +120,61 @@ check_fractions() {
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
/* Normalization should happen prior calling the _frac() */
gt = asn_time2GT_frac(gt, &tm, 55, 10, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
gt = asn_time2GT_frac(gt, &tm, 10, 20, 1);
/* Normalization should happen prior to calling the _frac() */
gt = asn_time2GT_frac(gt, &tm, 55, 2, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
assert(strcmp((char *)gt->buf, "19700101000000.55Z") == 0);
gt = asn_time2GT_frac(gt, &tm, 10000000, 20000000, 1);
gt = asn_time2GT_frac(gt, &tm, 5, 2, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000.5Z") == 0);
assert(strcmp((char *)gt->buf, "19700101000000.05Z") == 0);
gt = asn_time2GT_frac(gt, &tm, -10, 20, 1);
/* Normalization should happen prior calling the _frac() */
gt = asn_time2GT_frac(gt, &tm, 900, 2, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
gt = asn_time2GT_frac(gt, &tm, 98, 99, 1);
gt = asn_time2GT_frac(gt, &tm, 90, 2, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
assert(strcmp((char *)gt->buf, "19700101000000.9Z") == 0);
gt = asn_time2GT_frac(gt, &tm, 988, 999, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
tloc = asn_GT2time_prec(gt, &fv, 0, 0, 1);
assert(tloc == 0);
assert(fv == 0);
gt = asn_time2GT_frac(gt, &tm, 90, 91, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
tloc = asn_GT2time_prec(gt, &fv, 1, 0, 1);
assert(tloc == 0);
assert(fv == 9);
gt = asn_time2GT_frac(gt, &tm, 89, 91, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000Z") == 0);
tloc = asn_GT2time_prec(gt, &fv, 2, 0, 1);
assert(tloc == 0);
assert(fv == 90);
gt = asn_time2GT_frac(gt, &tm, 89000000, 91000000, 1);
assert(gt);
printf("[%s]\n", gt->buf);
assert(strcmp((char *)gt->buf, "19700101000000.978021Z") == 0);
tloc = asn_GT2time_frac(gt, &fv, &fd, 0, 1);
assert(tloc == 0);
assert(fv == 9);
assert(fd == 1);
gt->buf[gt->size-1] = '0';
gt->buf[gt->size++] = 'Z';
gt->buf[gt->size] = '\0';
tloc = asn_GT2time_frac(gt, &fv, &fd, 0, 1);
assert(tloc == 0);
assert(fd == 2);
assert(fv == 90);
tloc = asn_GT2time_prec(gt, &fv, 1, 0, 1);
assert(tloc == 0);
assert(fv == 9);
tloc = asn_GT2time_prec(gt, &fv, 100, 0, 1);
assert(tloc == 0);
assert(fv == 0);
FREEMEM(gt->buf);
FREEMEM(gt);
......@@ -225,6 +238,13 @@ main(int ac, char **av) {
recode("20050702123312.1234567+01", "20050702113312.123456Z");
recode("20050702123312.12345678+01", "20050702113312.123456Z");
recode("20050702123312.123456789+01", "20050702113312.123456Z");
recode("20050702123312.2000000000+01", "20050702113312.2Z");
recode("20050702123312.3000000000+01", "20050702113312.3Z");
recode("20050702123312.4000000000+01", "20050702113312.4Z");
recode("20050702123312.5000000000+01", "20050702113312.5Z");
recode("20050702123312.5000000001+01", "20050702113312.5Z");
recode("20050702123312.5000010001+01", "20050702113312.500001Z");
recode("20050702123312.5000001001+01", "20050702113312.5Z");
recode("20050702123312.000001+01", "20050702113312.000001Z");
recode("20050702123312.0000001Z", "20050702123312Z");
recode("20050702123312.0080010+1056", "20050702013712.008001Z");
......
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