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Erupe/server/channelserver/sys_time_test.go
Houmgaor db3e0bccc7 test: improve test coverage for mhfpacket, channelserver, and server packages 
Add comprehensive tests for:
- Pure time functions in channelserver (sys_time_test.go)
- Stage-related packet parsing (msg_sys_stage_test.go)
- Acquire packet family parsing (msg_mhf_acquire_test.go)
- Extended mhfpacket tests for login, logout, and stage packets
- Entrance server makeHeader structure and checksum tests
- SignV2 server request/response JSON structure tests
2026-02-01 23:28:19 +01:00

168 lines
4.9 KiB
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package channelserver
import (
"testing"
"time"
)
func TestTimeAdjusted(t *testing.T) {
result := TimeAdjusted()
// Should return a time in UTC+9 timezone
_, offset := result.Zone()
expectedOffset := 9 * 60 * 60 // 9 hours in seconds
if offset != expectedOffset {
t.Errorf("TimeAdjusted() zone offset = %d, want %d (UTC+9)", offset, expectedOffset)
}
// The time should be close to current time (within a few seconds)
now := time.Now()
diff := result.Sub(now.In(time.FixedZone("UTC+9", 9*60*60)))
if diff < -time.Second || diff > time.Second {
t.Errorf("TimeAdjusted() time differs from expected by %v", diff)
}
}
func TestTimeMidnight(t *testing.T) {
midnight := TimeMidnight()
// Should be at midnight (hour=0, minute=0, second=0, nanosecond=0)
if midnight.Hour() != 0 {
t.Errorf("TimeMidnight() hour = %d, want 0", midnight.Hour())
}
if midnight.Minute() != 0 {
t.Errorf("TimeMidnight() minute = %d, want 0", midnight.Minute())
}
if midnight.Second() != 0 {
t.Errorf("TimeMidnight() second = %d, want 0", midnight.Second())
}
if midnight.Nanosecond() != 0 {
t.Errorf("TimeMidnight() nanosecond = %d, want 0", midnight.Nanosecond())
}
// Should be in UTC+9 timezone
_, offset := midnight.Zone()
expectedOffset := 9 * 60 * 60
if offset != expectedOffset {
t.Errorf("TimeMidnight() zone offset = %d, want %d (UTC+9)", offset, expectedOffset)
}
}
func TestTimeWeekStart(t *testing.T) {
weekStart := TimeWeekStart()
// Should be on Monday (weekday = 1)
if weekStart.Weekday() != time.Monday {
t.Errorf("TimeWeekStart() weekday = %v, want Monday", weekStart.Weekday())
}
// Should be at midnight
if weekStart.Hour() != 0 || weekStart.Minute() != 0 || weekStart.Second() != 0 {
t.Errorf("TimeWeekStart() should be at midnight, got %02d:%02d:%02d",
weekStart.Hour(), weekStart.Minute(), weekStart.Second())
}
// Should be in UTC+9 timezone
_, offset := weekStart.Zone()
expectedOffset := 9 * 60 * 60
if offset != expectedOffset {
t.Errorf("TimeWeekStart() zone offset = %d, want %d (UTC+9)", offset, expectedOffset)
}
// Week start should be before or equal to current midnight
midnight := TimeMidnight()
if weekStart.After(midnight) {
t.Errorf("TimeWeekStart() %v should be <= current midnight %v", weekStart, midnight)
}
}
func TestTimeWeekNext(t *testing.T) {
weekStart := TimeWeekStart()
weekNext := TimeWeekNext()
// TimeWeekNext should be exactly 7 days after TimeWeekStart
expectedNext := weekStart.Add(time.Hour * 24 * 7)
if !weekNext.Equal(expectedNext) {
t.Errorf("TimeWeekNext() = %v, want %v (7 days after WeekStart)", weekNext, expectedNext)
}
// Should also be on Monday
if weekNext.Weekday() != time.Monday {
t.Errorf("TimeWeekNext() weekday = %v, want Monday", weekNext.Weekday())
}
// Should be at midnight
if weekNext.Hour() != 0 || weekNext.Minute() != 0 || weekNext.Second() != 0 {
t.Errorf("TimeWeekNext() should be at midnight, got %02d:%02d:%02d",
weekNext.Hour(), weekNext.Minute(), weekNext.Second())
}
// Should be in the future relative to week start
if !weekNext.After(weekStart) {
t.Errorf("TimeWeekNext() %v should be after TimeWeekStart() %v", weekNext, weekStart)
}
}
func TestTimeWeekStartSundayEdge(t *testing.T) {
// When today is Sunday, the calculation should go back to last Monday
// This is tested indirectly by verifying the weekday is always Monday
weekStart := TimeWeekStart()
// Regardless of what day it is now, week start should be Monday
if weekStart.Weekday() != time.Monday {
t.Errorf("TimeWeekStart() on any day should return Monday, got %v", weekStart.Weekday())
}
}
func TestTimeMidnightSameDay(t *testing.T) {
adjusted := TimeAdjusted()
midnight := TimeMidnight()
// Midnight should be on the same day (year, month, day)
if midnight.Year() != adjusted.Year() ||
midnight.Month() != adjusted.Month() ||
midnight.Day() != adjusted.Day() {
t.Errorf("TimeMidnight() date = %v, want same day as TimeAdjusted() %v",
midnight.Format("2006-01-02"), adjusted.Format("2006-01-02"))
}
}
func TestTimeWeekDuration(t *testing.T) {
weekStart := TimeWeekStart()
weekNext := TimeWeekNext()
// Duration between week boundaries should be exactly 7 days
duration := weekNext.Sub(weekStart)
expectedDuration := time.Hour * 24 * 7
if duration != expectedDuration {
t.Errorf("Duration between WeekStart and WeekNext = %v, want %v", duration, expectedDuration)
}
}
func TestTimeZoneConsistency(t *testing.T) {
adjusted := TimeAdjusted()
midnight := TimeMidnight()
weekStart := TimeWeekStart()
weekNext := TimeWeekNext()
// All times should be in the same timezone (UTC+9)
times := []struct {
name string
time time.Time
}{
{"TimeAdjusted", adjusted},
{"TimeMidnight", midnight},
{"TimeWeekStart", weekStart},
{"TimeWeekNext", weekNext},
}
expectedOffset := 9 * 60 * 60
for _, tt := range times {
_, offset := tt.time.Zone()
if offset != expectedOffset {
t.Errorf("%s() zone offset = %d, want %d (UTC+9)", tt.name, offset, expectedOffset)
}
}
}
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