/*
-Copyright (c) 2005-2006, John Hurst
+Copyright (c) 2005-2009, John Hurst
All rights reserved.
Redistribution and use in source and binary forms, with or without
#include <KM_memio.h>
#include <KM_fileio.h>
#include <KM_log.h>
+#include <KM_tai.h>
#include <ctype.h>
#include <list>
#include <map>
#include <string>
+const char*
+Kumu::Version()
+{
+ return PACKAGE_VERSION;
+}
+
+
//------------------------------------------------------------------------------------------
// Result_t Internals
return *s_ResultMap[i].result;
}
- DefaultLogSink().Error("Unknown result code: %ld\n", v);
- return RESULT_FAIL;
+ return RESULT_UNKNOWN;
}
//
return 0;
}
+#ifdef CONFIG_RANDOM_UUID
+
+// convert a memory region to a NULL-terminated hexadecimal string
+//
+static const char*
+bin2hex_rand(const byte_t* bin_buf, ui32_t bin_len, char* str_buf, ui32_t str_len)
+{
+ if ( bin_buf == 0
+ || str_buf == 0
+ || ((bin_len * 2) + 1) > str_len )
+ return 0;
+
+ char* p = str_buf;
+ Kumu::mem_ptr<byte_t> rand_buf = new byte_t[bin_len];
+ Kumu::FortunaRNG RNG;
+ RNG.FillRandom(rand_buf, bin_len);
+
+ for ( ui32_t i = 0; i < bin_len; i++ )
+ {
+ *p = (bin_buf[i] >> 4) & 0x0f;
+ *p += *p < 10 ? 0x30 : (( ((rand_buf[i] & 0x01) == 0) ? 0x61 : 0x41 ) - 10);
+ p++;
+
+ *p = bin_buf[i] & 0x0f;
+ *p += *p < 10 ? 0x30 : (( (((rand_buf[i] >> 1) & 0x01) == 0) ? 0x61 : 0x41 ) - 10);
+ p++;
+ }
+
+ *p = '\0';
+ return str_buf;
+}
+#endif
// convert a memory region to a NULL-terminated hexadecimal string
//
|| ((bin_len * 2) + 1) > str_len )
return 0;
+#ifdef CONFIG_RANDOM_UUID
+ const char* use_random_uuid = getenv("KM_USE_RANDOM_UUID");
+ if ( use_random_uuid != 0 && use_random_uuid[0] != 0 && use_random_uuid[0] != '0' )
+ return bin2hex_rand(bin_buf, bin_len, str_buf, str_len);
+#endif
+
char* p = str_buf;
for ( ui32_t i = 0; i < bin_len; i++ )
TIMESTAMP_TO_SYSTIME(*this, ¤t_st);
SystemTimeToFileTime(¤t_st, ¤t_ft);
memcpy(¤t_ul, ¤t_ft, sizeof(current_ul));
- current_ul.QuadPart += ( seconds_to_ns100(86400) * (ui64_t)days );
+ current_ul.QuadPart += ( seconds_to_ns100(86400) * (i64_t)days );
memcpy(¤t_ft, ¤t_ul, sizeof(current_ft));
FileTimeToSystemTime(¤t_ft, ¤t_st);
SYSTIME_TO_TIMESTAMP(¤t_st, *this);
TIMESTAMP_TO_SYSTIME(*this, ¤t_st);
SystemTimeToFileTime(¤t_st, ¤t_ft);
memcpy(¤t_ul, ¤t_ft, sizeof(current_ul));
- current_ul.QuadPart += ( seconds_to_ns100(3600) * (ui64_t)hours );
+ current_ul.QuadPart += ( seconds_to_ns100(3600) * (i64_t)hours );
+ memcpy(¤t_ft, ¤t_ul, sizeof(current_ft));
+ FileTimeToSystemTime(¤t_ft, ¤t_st);
+ SYSTIME_TO_TIMESTAMP(¤t_st, *this);
+ }
+}
+
+//
+void
+Kumu::Timestamp::AddMinutes(i32_t minutes)
+{
+ SYSTEMTIME current_st;
+ FILETIME current_ft;
+ ULARGE_INTEGER current_ul;
+
+ if ( minutes != 0 )
+ {
+ TIMESTAMP_TO_SYSTIME(*this, ¤t_st);
+ SystemTimeToFileTime(¤t_st, ¤t_ft);
+ memcpy(¤t_ul, ¤t_ft, sizeof(current_ul));
+ current_ul.QuadPart += ( seconds_to_ns100(60) * (i64_t)minutes );
+ memcpy(¤t_ft, ¤t_ul, sizeof(current_ft));
+ FileTimeToSystemTime(¤t_ft, ¤t_st);
+ SYSTIME_TO_TIMESTAMP(¤t_st, *this);
+ }
+}
+
+//
+void
+Kumu::Timestamp::AddSeconds(i32_t seconds)
+{
+ SYSTEMTIME current_st;
+ FILETIME current_ft;
+ ULARGE_INTEGER current_ul;
+
+ if ( minutes != 0 )
+ {
+ TIMESTAMP_TO_SYSTIME(*this, ¤t_st);
+ SystemTimeToFileTime(¤t_st, ¤t_ft);
+ memcpy(¤t_ul, ¤t_ft, sizeof(current_ul));
+ current_ul.QuadPart += ( seconds_to_ns100(1) * (i64_t)seconds );
memcpy(¤t_ft, ¤t_ul, sizeof(current_ft));
FileTimeToSystemTime(¤t_ft, ¤t_st);
SYSTIME_TO_TIMESTAMP(¤t_st, *this);
#include <time.h>
-#define TIMESTAMP_TO_TM(ts, t) \
- (t)->tm_year = (ts).Year - 1900; /* year - 1900 */ \
- (t)->tm_mon = (ts).Month - 1; /* month of year (0 - 11) */ \
- (t)->tm_mday = (ts).Day; /* day of month (1 - 31) */ \
- (t)->tm_hour = (ts).Hour; /* hours (0 - 23) */ \
- (t)->tm_min = (ts).Minute; /* minutes (0 - 59) */ \
- (t)->tm_sec = (ts).Second; /* seconds (0 - 60) */
-
-#define TM_TO_TIMESTAMP(t, ts) \
- (ts).Year = (t)->tm_year + 1900; /* year - 1900 */ \
- (ts).Month = (t)->tm_mon + 1; /* month of year (0 - 11) */ \
- (ts).Day = (t)->tm_mday; /* day of month (1 - 31) */ \
- (ts).Hour = (t)->tm_hour; /* hours (0 - 23) */ \
- (ts).Minute = (t)->tm_min; /* minutes (0 - 59) */ \
- (ts).Second = (t)->tm_sec; /* seconds (0 - 60) */
+#define TIMESTAMP_TO_CALTIME(ts, ct) \
+ (ct)->date.year = (ts).Year; /* year */ \
+ (ct)->date.month = (ts).Month; /* month of year (1 - 12) */ \
+ (ct)->date.day = (ts).Day; /* day of month (1 - 31) */ \
+ (ct)->hour = (ts).Hour; /* hours (0 - 23) */ \
+ (ct)->minute = (ts).Minute; /* minutes (0 - 59) */ \
+ (ct)->second = (ts).Second; /* seconds (0 - 60) */ \
+ (ct)->offset = 0;
+
+#define CALTIME_TO_TIMESTAMP(ct, ts) \
+ assert((ct)->offset == 0); \
+ (ts).Year = (ct)->date.year; /* year */ \
+ (ts).Month = (ct)->date.month; /* month of year (1 - 12) */ \
+ (ts).Day = (ct)->date.day; /* day of month (1 - 31) */ \
+ (ts).Hour = (ct)->hour; /* hours (0 - 23) */ \
+ (ts).Minute = (ct)->minute; /* minutes (0 - 59) */ \
+ (ts).Second = (ct)->second; /* seconds (0 - 60) */
+
//
Kumu::Timestamp::Timestamp() :
- Year(0), Month(0), Day(0), Hour(0), Minute(0), Second(0)
+ Year(0), Month(0), Day(0), Hour(0), Minute(0), Second(0)
{
- time_t t_now = time(0);
- struct tm* now = gmtime(&t_now);
- TM_TO_TIMESTAMP(now, *this);
+ Kumu::TAI::tai now;
+ Kumu::TAI::caltime ct;
+ now.now();
+ ct = now;
+ CALTIME_TO_TIMESTAMP(&ct, *this)
}
//
bool
Kumu::Timestamp::operator<(const Timestamp& rhs) const
{
- struct tm lhtm, rhtm;
- TIMESTAMP_TO_TM(*this, &lhtm);
- TIMESTAMP_TO_TM(rhs, &rhtm);
- return ( timegm(&lhtm) < timegm(&rhtm) );
+ Kumu::TAI::caltime lh_ct, rh_ct;
+ TIMESTAMP_TO_CALTIME(*this, &lh_ct)
+ TIMESTAMP_TO_CALTIME(rhs, &rh_ct)
+
+ Kumu::TAI::tai lh_tai, rh_tai;
+ lh_tai = lh_ct;
+ rh_tai = rh_ct;
+
+ return ( lh_tai.x < rh_tai.x );
}
//
bool
Kumu::Timestamp::operator>(const Timestamp& rhs) const
{
- struct tm lhtm, rhtm;
- TIMESTAMP_TO_TM(*this, &lhtm);
- TIMESTAMP_TO_TM(rhs, &rhtm);
- return ( timegm(&lhtm) > timegm(&rhtm) );
+ Kumu::TAI::caltime lh_ct, rh_ct;
+ TIMESTAMP_TO_CALTIME(*this, &lh_ct)
+ TIMESTAMP_TO_CALTIME(rhs, &rh_ct)
+
+ Kumu::TAI::tai lh_tai, rh_tai;
+ lh_tai = lh_ct;
+ rh_tai = rh_ct;
+
+ return ( lh_tai.x > rh_tai.x );
}
//
void
Kumu::Timestamp::AddDays(i32_t days)
{
- struct tm current;
+ Kumu::TAI::caltime ct;
+ Kumu::TAI::tai t;
if ( days != 0 )
{
- TIMESTAMP_TO_TM(*this, ¤t);
- time_t adj_time = timegm(¤t);
- adj_time += 86400 * days;
- struct tm* now = gmtime(&adj_time);
- TM_TO_TIMESTAMP(now, *this);
+ TIMESTAMP_TO_CALTIME(*this, &ct)
+ t = ct;
+ t.add_days(days);
+ ct = t;
+ CALTIME_TO_TIMESTAMP(&ct, *this)
}
}
void
Kumu::Timestamp::AddHours(i32_t hours)
{
- struct tm current;
+ Kumu::TAI::caltime ct;
+ Kumu::TAI::tai t;
if ( hours != 0 )
{
- TIMESTAMP_TO_TM(*this, ¤t);
- time_t adj_time = timegm(¤t);
- adj_time += 3600 * hours;
- struct tm* now = gmtime(&adj_time);
- TM_TO_TIMESTAMP(now, *this);
+ TIMESTAMP_TO_CALTIME(*this, &ct)
+ t = ct;
+ t.add_hours(hours);
+ ct = t;
+ CALTIME_TO_TIMESTAMP(&ct, *this)
+ }
+}
+
+//
+void
+Kumu::Timestamp::AddMinutes(i32_t minutes)
+{
+ Kumu::TAI::caltime ct;
+ Kumu::TAI::tai t;
+
+ if ( minutes != 0 )
+ {
+ TIMESTAMP_TO_CALTIME(*this, &ct)
+ t = ct;
+ t.add_minutes(minutes);
+ ct = t;
+ CALTIME_TO_TIMESTAMP(&ct, *this)
+ }
+}
+
+//
+void
+Kumu::Timestamp::AddSeconds(i32_t seconds)
+{
+ Kumu::TAI::caltime ct;
+ Kumu::TAI::tai t;
+
+ if ( seconds != 0 )
+ {
+ TIMESTAMP_TO_CALTIME(*this, &ct)
+ t = ct;
+ t.add_seconds(seconds);
+ ct = t;
+ CALTIME_TO_TIMESTAMP(&ct, *this)
}
}
#endif // KM_WIN32
-Kumu::Timestamp::Timestamp(const Timestamp& rhs)
+Kumu::Timestamp::Timestamp(const Timestamp& rhs) : IArchive()
{
Year = rhs.Year;
Month = rhs.Month;
//
const char*
Kumu::Timestamp::EncodeString(char* str_buf, ui32_t buf_len) const
+{
+ return EncodeStringWithOffset(str_buf, buf_len, 0);
+}
+
+//
+const char*
+Kumu::Timestamp::EncodeStringWithOffset(char* str_buf, ui32_t buf_len,
+ i32_t offset_minutes) const
{
if ( buf_len < ( DateTimeLen + 1 ) )
return 0;
- // 2004-05-01T13:20:00-00:00
+ // ensure offset is within +/- 14 hours
+ if ((offset_minutes < -14 * 60) || (offset_minutes > 14 * 60))
+ return 0;
+
+ // set the apparent time
+ Kumu::Timestamp tmp_t(*this);
+ tmp_t.AddMinutes(offset_minutes);
+
+ char direction = '+';
+ if (offset_minutes < 0) {
+ direction = '-';
+ // need absolute offset from zero
+ offset_minutes = -offset_minutes;
+ }
+
+ // 2004-05-01T13:20:00+00:00
snprintf(str_buf, buf_len,
- "%04hu-%02hu-%02huT%02hu:%02hu:%02hu-00:00",
- Year, Month, Day, Hour, Minute, Second);
-
+ "%04hu-%02hu-%02huT%02hu:%02hu:%02hu%c%02hu:%02hu",
+ tmp_t.Year, tmp_t.Month, tmp_t.Day,
+ tmp_t.Hour, tmp_t.Minute, tmp_t.Second,
+ direction,
+ offset_minutes / 60,
+ offset_minutes % 60);
+
return str_buf;
}
return false;
char_count += 6;
+
ui32_t TZ_hh = atoi(datestr + 20);
ui32_t TZ_mm = atoi(datestr + 23);
-
- if ( TZ_mm != 0 )
- DefaultLogSink().Warn("Ignoring minutes in timezone offset: %u\n", TZ_mm);
-
- if ( TZ_hh > 12 )
+ if ((TZ_hh > 14) || (TZ_mm > 59) || ((TZ_hh == 14) && (TZ_mm > 0)))
return false;
- else
- AddHours( (datestr[19] == '-' ? (-TZ_hh) : TZ_hh));
+ i32_t TZ_offset = 60 * TZ_hh + TZ_mm;
+ if (datestr[19] == '-')
+ TZ_offset = -TZ_offset;
+ /* at this point, TZ_offset reflects the contents of the string */
+
+ /* a negative offset is behind UTC and so needs to increment to
+ * convert, while a positive offset must do the reverse */
+ TmpStamp.AddMinutes(-TZ_offset);
+ }
+ else if (datestr[19] == 'Z')
+ {
+ /* act as if the offset were +00:00 */
+ char_count++;
}
}
if ( datestr[char_count] != 0 )
{
- DefaultLogSink().Error("Unexpected extra characters in string: %s (%ld)\n",
- datestr, char_count);
+ Kumu::DefaultLogSink().Error("Unexpected extra characters in string: %s (%ld)\n",
+ datestr, char_count);
return false;
}
return false;
SYSTIME_TO_TIMESTAMP(&st, *this);
#else
- struct tm stm;
- TIMESTAMP_TO_TM(TmpStamp, &stm);
- if ( timegm(&stm) == 0 )
- return false;
- TM_TO_TIMESTAMP(&stm, *this);
+ Kumu::TAI::tai t;
+ Kumu::TAI::caltime ct;
+ TIMESTAMP_TO_CALTIME(TmpStamp, &ct);
+ t = ct; // back and forth to tai to normalize offset
+ ct = t;
+ CALTIME_TO_TIMESTAMP(&ct, *this)
#endif
return true;
return true;
}
+//
+long
+Kumu::Timestamp::GetSecondsSinceEpoch(void) const
+{
+#ifdef KM_WIN32
+ SYSTEMTIME timeST;
+ TIMESTAMP_TO_SYSTIME(*this, &timeST);
+ FILETIME timeFT;
+ SystemTimeToFileTime(&timeST, &timeFT);
+ ULARGE_INTEGER timeUL;
+ timeUL.LowPart = timeFT.dwLowDateTime;
+ timeUL.HighPart = timeFT.dwHighDateTime;
+
+ SYSTEMTIME epochST;
+ epochST.wYear = 1970;
+ epochST.wMonth = 0;
+ epochST.wDayOfWeek = 4;
+ epochST.wDay = 1;
+ epochST.wHour = 0;
+ epochST.wMinute = 0;
+ epochST.wSecond = 0;
+ epochST.wMilliseconds = 0;
+ FILETIME epochFT;
+ SystemTimeToFileTime(&epochST, &epochFT);
+ ULARGE_INTEGER epochUL;
+ epochUL.LowPart = epochFT.dwLowDateTime;
+ epochUL.HighPart = epochFT.dwHighDateTime;
+
+ return (timeUL.QuadPart - epochUL.QuadPart) / 10000000;
+#else
+ Kumu::TAI::caltime ct;
+ Kumu::TAI::tai t;
+ TIMESTAMP_TO_CALTIME(*this, &ct);
+ t = ct;
+
+ return (long) (t.x - ui64_C(4611686018427387914));
+#endif
+}
+
//------------------------------------------------------------------------------------------
Kumu::MemIOWriter::MemIOWriter(ByteString* Buf)