fix(usage): 统计按客户端本地日聚合 —— 修「29号却显示28号数据」时区 bug
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根因:服务端用量全按 UTC 预切天,UTC+8 用户在中国 0-8 点时 UTC 还是前一天, 「今天」就显示前一天数据。 改法(用户拍板:小时桶+查询带时区偏移): - migration 000017 `usage_hourly`(UTC 纪元小时整数桶,稀疏存储,空小时不落行)。 - ReportUsage 同时累加 usage_hourly(按 windowEnd 的 UTC 小时);usage_daily 保留作配额/今日。 - `UsageCurve(days, offsetMin)`:读 UTC 小时桶,按客户端时区偏移**重新聚合成本地日**曲线。 - `/v1/usage?tz_offset=分钟`;客户端 `usage()` 带 `DateTime.now().timeZoneOffset.inMinutes`。 - 客户端早已「取曲线最后一点当今日」,故只改服务端聚合 + 带偏移即可。 测试:store 时区分桶证明(UTC 18:00 在 UTC vs UTC+8 落不同本地日,锁住 bug 修复)+ migration v17 + usage_hourly 表;集成测试改喂 hourly;全量 go/flutter test 绿。 Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
This commit is contained in:
@@ -64,9 +64,12 @@ class AccountApi {
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await _c.postJson('/v1/me/devices/$uuid/logout');
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}
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/// GET /v1/usage?days=N — 最近 N 天用量(默认 7,后端范围 [1,90])。
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/// GET /v1/usage?days=N&tz_offset=M — 最近 N 天用量(默认 7,后端范围 [1,90])。
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/// 带本机时区偏移(分钟,如 UTC+8=480),服务端按「本地日」聚合 → 「今天」与本地日历一致
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/// (修「29 号却显示 28 号数据」的时区 bug)。
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Future<List<UsagePoint>> usage({int days = 7}) async {
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final body = await _c.getJson('/v1/usage?days=$days');
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final tz = DateTime.now().timeZoneOffset.inMinutes;
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final body = await _c.getJson('/v1/usage?days=$days&tz_offset=$tz');
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final raw = (body['points'] as List<dynamic>?) ?? const [];
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return raw.map((e) => UsagePoint.fromJson(e as Map<String, dynamic>)).toList();
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}
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@@ -36,6 +36,7 @@ type mockNodeStore struct {
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nodeUUID string
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configVer int64
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usageAccum []mockUsageEntry
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hourlyAccum []mockUsageEntry
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usersByDpUUID map[string]int64
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// devicesByDpUUID maps a per-device dp_uuid → {userID, deviceID}.
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devicesByDpUUID map[string][2]int64
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@@ -122,6 +123,15 @@ func (m *mockNodeStore) AccumulateUsage(_ context.Context, userID int64, date ti
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return nil
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}
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func (m *mockNodeStore) AccumulateHourly(_ context.Context, userID int64, hour time.Time,
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bytesUp, bytesDown, minutes int64,
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) error {
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m.mu.Lock()
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defer m.mu.Unlock()
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m.hourlyAccum = append(m.hourlyAccum, mockUsageEntry{userID, hour, bytesUp, bytesDown, minutes})
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return nil
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}
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func (m *mockNodeStore) EnsureDeviceDpUUID(_ context.Context, _ int64, _ string) (string, int64, error) {
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return "", 0, nil
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}
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@@ -302,13 +302,20 @@ func (h *Handler) ReportUsage(ctx context.Context, req *agentv1.UsageReport) (*a
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if !found {
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continue
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}
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// Account-level rollup (always).
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// Account-level rollup (always): daily (quota/today) + hourly (tz-aware
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// display curve, keyed by the window-end's UTC hour).
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if err := h.store.AccumulateUsage(ctx, userID, date,
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entry.BytesUp, entry.BytesDown, entry.SessionMinutes,
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); err != nil {
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slog.Warn("nodes.Handler.ReportUsage: accumulate failed",
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"user_id", userID, "err", err)
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}
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if err := h.store.AccumulateHourly(ctx, userID, windowEnd,
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entry.BytesUp, entry.BytesDown, entry.SessionMinutes,
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); err != nil {
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slog.Warn("nodes.Handler.ReportUsage: hourly accumulate failed",
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"user_id", userID, "err", err)
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}
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// Per-device attribution (only when the dp_uuid maps to a registered device;
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// deviceID==0 means a legacy account-level credential — no device dimension).
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if deviceID > 0 {
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@@ -94,6 +94,11 @@ type NodeStore interface {
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AccumulateUsage(ctx context.Context, userID int64, date time.Time,
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bytesUp, bytesDown int64, minutes int64) error
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// AccumulateHourly adds bytes/minutes to usage_hourly keyed by the UTC epoch
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// hour of `hour` (for timezone-aware local-day bucketing at query time).
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AccumulateHourly(ctx context.Context, userID int64, hour time.Time,
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bytesUp, bytesDown int64, minutes int64) error
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// AccountDayBytes returns the account's total bytes (up+down) for userID on
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// date — the basis for the GB 综合配额 connect gate. 0 when no usage yet.
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AccountDayBytes(ctx context.Context, userID int64, date time.Time) (int64, error)
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@@ -475,3 +480,24 @@ func (s *SQLNodeStore) AccumulateUsage(
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}
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return nil
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}
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// AccumulateHourly adds bytes/minutes to usage_hourly for (userID, UTC epoch
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// hour). Epoch hour = floor(unix_seconds / 3600); the read side re-buckets these
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// into the client's local days. Idempotent within an hour.
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func (s *SQLNodeStore) AccumulateHourly(
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ctx context.Context, userID int64, hour time.Time,
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bytesUp, bytesDown int64, minutes int64,
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) error {
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h := hour.UTC().Unix() / 3600
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q := `
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INSERT INTO usage_hourly (user_id, hour, bytes_up, bytes_down, minutes_used)
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VALUES (?, ?, ?, ?, ?)
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` + s.dialect.Upsert([]string{"user_id", "hour"},
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"bytes_up = bytes_up + EXCLUDED.bytes_up",
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"bytes_down = bytes_down + EXCLUDED.bytes_down",
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"minutes_used = minutes_used + EXCLUDED.minutes_used")
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if _, err := s.db.ExecContext(ctx, q, userID, h, bytesUp, bytesDown, minutes); err != nil {
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return fmt.Errorf("nodes.SQLNodeStore.AccumulateHourly: %w", err)
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}
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return nil
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}
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@@ -29,8 +29,8 @@ func TestSQLiteMigrateUpDown(t *testing.T) {
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if dirty {
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t.Fatalf("schema dirty after MigrateUp")
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}
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if v != 16 {
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t.Errorf("version = %d, want 16", v)
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if v != 17 {
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t.Errorf("version = %d, want 17", v)
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}
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// 2. Core tables exist.
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@@ -38,7 +38,7 @@ func TestSQLiteMigrateUpDown(t *testing.T) {
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"users", "devices", "plans", "subscriptions", "code_batches", "codes",
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"usage_daily", "audit_log", "providers", "nodes", "node_events",
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"directory_version", "provision_idempotency", "replacements", "admins",
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"connect_credentials", "usage_device_daily", "sessions",
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"connect_credentials", "usage_device_daily", "sessions", "usage_hourly",
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} {
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var name string
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err := db.QueryRow(
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@@ -0,0 +1,64 @@
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package store_test
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import (
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"context"
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"testing"
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"time"
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"github.com/wangjia/pangolin/server/internal/usage"
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)
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// The timezone-fix proof: usage stored at UTC 18:00 yesterday must land on a
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// DIFFERENT local calendar day under UTC (offset 0) vs UTC+8 (offset 480) —
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// exactly the "今天却显示昨天数据" bug. UsageCurve re-buckets UTC hourly rows by
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// the client's local day so "today" matches the user's calendar.
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func TestSQLite_UsageCurve_LocalDayBucketing(t *testing.T) {
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ctx := context.Background()
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db := openSQLite(t)
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// Yesterday 18:00 UTC = today 02:00 in UTC+8 → straddles the day boundary.
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now := time.Now().UTC()
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y := now.AddDate(0, 0, -1)
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utc18 := time.Date(y.Year(), y.Month(), y.Day(), 18, 0, 0, 0, time.UTC)
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hourEpoch := utc18.Unix() / 3600
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if _, err := db.Exec(
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`INSERT INTO usage_hourly (user_id, hour, bytes_up, bytes_down, minutes_used) VALUES (1,?,?,?,?)`,
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hourEpoch, 1000, 2000, 5); err != nil {
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t.Fatalf("seed: %v", err)
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}
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cn := time.FixedZone("UTC+8", 8*3600)
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utcDate := utc18.Format("2006-01-02") // yesterday (UTC)
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cnDate := utc18.In(cn).Format("2006-01-02") // today (UTC+8)
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if utcDate == cnDate {
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t.Fatalf("test setup expected different dates, got %s == %s", utcDate, cnDate)
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}
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svc := usage.NewService(usage.NewStore(db), nil, nil, time.Hour)
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find := func(days, offset int, date string) (usage.UsagePoint, bool) {
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pts, e := svc.UsageCurve(ctx, 1, days, offset)
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if e != nil {
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t.Fatalf("UsageCurve(off=%d): %v", offset, e)
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}
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for _, p := range pts {
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if p.Date == date {
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return p, true
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}
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}
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return usage.UsagePoint{}, false
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}
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// Offset 0 (UTC): the data is on yesterday's UTC date.
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if p, ok := find(3, 0, utcDate); !ok || p.BytesDown != 2000 || p.BytesUp != 1000 || p.MinutesUsed != 5 {
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t.Fatalf("UTC bucket: want data on %s, got ok=%v %+v", utcDate, ok, p)
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}
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// Offset +480 (UTC+8): the SAME data is on today's local date instead.
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if p, ok := find(3, 480, cnDate); !ok || p.BytesDown != 2000 {
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t.Fatalf("UTC+8 bucket: want data on %s, got ok=%v %+v", cnDate, ok, p)
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}
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// And under +480 it must NOT appear on the UTC date.
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if p, ok := find(3, 480, utcDate); ok && p.BytesDown != 0 {
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t.Fatalf("UTC+8: data leaked onto UTC date %s: %+v", utcDate, p)
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}
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}
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@@ -58,7 +58,16 @@ func (h *UsageHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) {
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days = n
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}
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points, apiErr := h.svc.UsageCurve(r.Context(), userID, days)
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// tz_offset: client UTC offset in minutes (e.g. 480 for UTC+8), so the curve
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// is bucketed by the user's LOCAL calendar day. Absent/invalid → 0 (UTC).
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offsetMin := 0
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if v := r.URL.Query().Get("tz_offset"); v != "" {
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if n, err := strconv.Atoi(v); err == nil {
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offsetMin = n
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}
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}
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points, apiErr := h.svc.UsageCurve(r.Context(), userID, days, offsetMin)
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if apiErr != nil {
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apierr.WriteJSON(w, http.StatusInternalServerError, apiErr)
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return
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@@ -46,38 +46,59 @@ type UsagePoint struct {
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MinutesUsed int `json:"minutes_used"`
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}
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// UsageCurve returns the last `days` daily points for userID (UTC), with
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// missing days zero-filled, oldest first. days is clamped to [1, 90].
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func (svc *Service) UsageCurve(ctx context.Context, userID int64, days int) ([]UsagePoint, *apierr.Error) {
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// UsageCurve returns the last `days` usage points for userID bucketed in the
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// CLIENT's timezone (offsetMin = client UTC offset in minutes, e.g. 480 for
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// UTC+8), missing days zero-filled, oldest first. days clamped to [1,90].
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//
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// It reads UTC hourly buckets (usage_hourly) and re-aggregates by local calendar
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// day, so "today" matches the user's local date regardless of server timezone
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// (fixes "29号却显示28号数据"). offsetMin out of ±14h falls back to 0 (UTC).
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func (svc *Service) UsageCurve(ctx context.Context, userID int64, days, offsetMin int) ([]UsagePoint, *apierr.Error) {
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if days < 1 {
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days = 7
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}
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if days > 90 {
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days = 90
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}
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if offsetMin < -14*60 || offsetMin > 14*60 {
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offsetMin = 0
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}
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loc := time.FixedZone("client", offsetMin*60)
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today := utcToday()
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from := today.AddDate(0, 0, -(days - 1))
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now := nowFunc().UTC()
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ln := now.In(loc)
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localToday := time.Date(ln.Year(), ln.Month(), ln.Day(), 0, 0, 0, 0, loc)
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fromLocal := localToday.AddDate(0, 0, -(days - 1))
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rows, err := svc.store.GetUsageRange(ctx, userID, from, today)
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fromHour := fromLocal.UTC().Unix() / 3600
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toHour := now.Unix() / 3600
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rows, err := svc.store.HourlyRange(ctx, userID, fromHour, toHour)
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if err != nil {
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return nil, apierr.ErrInternal
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}
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byDate := make(map[string]DailyUsage, len(rows))
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for _, r := range rows {
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byDate[r.Date.UTC().Format(dateLayout)] = r
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type agg struct {
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up, down uint64
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min int
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}
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byDay := make(map[string]*agg)
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for _, b := range rows {
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key := time.Unix(b.Hour*3600, 0).In(loc).Format(dateLayout)
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a := byDay[key]
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if a == nil {
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a = &agg{}
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byDay[key] = a
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}
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a.up += b.BytesUp
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a.down += b.BytesDown
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a.min += b.MinutesUsed
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}
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points := make([]UsagePoint, 0, days)
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for i := 0; i < days; i++ {
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d := from.AddDate(0, 0, i).Format(dateLayout)
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if u, ok := byDate[d]; ok {
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points = append(points, UsagePoint{
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Date: d,
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BytesUp: u.BytesUp,
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BytesDown: u.BytesDown,
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MinutesUsed: u.MinutesUsed,
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})
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d := fromLocal.AddDate(0, 0, i).Format(dateLayout)
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if a, ok := byDay[d]; ok {
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points = append(points, UsagePoint{Date: d, BytesUp: a.up, BytesDown: a.down, MinutesUsed: a.min})
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} else {
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points = append(points, UsagePoint{Date: d})
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}
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@@ -107,6 +107,38 @@ func (s *Store) GetUsageRange(ctx context.Context, userID int64, from, to time.T
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return out, rows.Err()
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}
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// HourBucket is one UTC epoch-hour's account usage (read from usage_hourly).
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type HourBucket struct {
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Hour int64 // unix epoch hour (UTC) = floor(unix_seconds / 3600)
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BytesUp uint64
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BytesDown uint64
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MinutesUsed int
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}
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// HourlyRange returns usage_hourly rows for userID with hour in [fromHour, toHour]
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// (inclusive, epoch hours), oldest first. Empty hours are simply absent.
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func (s *Store) HourlyRange(ctx context.Context, userID, fromHour, toHour int64) ([]HourBucket, error) {
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rows, err := s.db.QueryContext(ctx,
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`SELECT hour, bytes_up, bytes_down, minutes_used
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FROM usage_hourly
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WHERE user_id = ? AND hour BETWEEN ? AND ?
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ORDER BY hour ASC`,
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userID, fromHour, toHour)
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if err != nil {
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return nil, fmt.Errorf("store.HourlyRange: %w", err)
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}
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defer rows.Close()
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var out []HourBucket
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for rows.Next() {
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var b HourBucket
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if err := rows.Scan(&b.Hour, &b.BytesUp, &b.BytesDown, &b.MinutesUsed); err != nil {
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return nil, fmt.Errorf("store.HourlyRange scan: %w", err)
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}
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out = append(out, b)
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}
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return out, rows.Err()
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}
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// DeviceUsageRow is one device's aggregated usage over a date window, joined to
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// the devices table for display metadata. It is the per-device ("下分设备")
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// counterpart of DailyUsage's account rollup.
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@@ -438,11 +438,14 @@ func TestIntUsageCurveZeroFill(t *testing.T) {
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uid := createUser(t, db, "dp-curve")
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today := time.Now().UTC()
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// Only two of the last 7 days have data.
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store.AggregateUsage(context.Background(), uid, today, 1000, 2000, 5)
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store.AggregateUsage(context.Background(), uid, today.AddDate(0, 0, -3), 50, 60, 2)
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epochHour := func(tm time.Time) int64 { return tm.UTC().Unix() / 3600 }
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// Only two of the last 7 days have data (curve reads hourly buckets now).
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db.Exec(`INSERT INTO usage_hourly (user_id, hour, bytes_up, bytes_down, minutes_used) VALUES (?,?,?,?,?)`,
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uid, epochHour(today), 1000, 2000, 5)
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db.Exec(`INSERT INTO usage_hourly (user_id, hour, bytes_up, bytes_down, minutes_used) VALUES (?,?,?,?,?)`,
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uid, epochHour(today.AddDate(0, 0, -3)), 50, 60, 2)
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points, apiErr := svc.UsageCurve(context.Background(), uid, 7)
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points, apiErr := svc.UsageCurve(context.Background(), uid, 7, 0)
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if apiErr != nil {
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||||
t.Fatalf("curve: %v", apiErr)
|
||||
}
|
||||
@@ -479,10 +482,11 @@ func TestIntUsageCurveOnlyCurrentUser(t *testing.T) {
|
||||
|
||||
uA := createUser(t, db, "dp-A")
|
||||
uB := createUser(t, db, "dp-B")
|
||||
store.AggregateUsage(context.Background(), uA, time.Now().UTC(), 111, 0, 1)
|
||||
store.AggregateUsage(context.Background(), uB, time.Now().UTC(), 999, 0, 9)
|
||||
h := time.Now().UTC().Unix() / 3600
|
||||
db.Exec(`INSERT INTO usage_hourly (user_id, hour, bytes_up, bytes_down, minutes_used) VALUES (?,?,?,?,?)`, uA, h, 111, 0, 1)
|
||||
db.Exec(`INSERT INTO usage_hourly (user_id, hour, bytes_up, bytes_down, minutes_used) VALUES (?,?,?,?,?)`, uB, h, 999, 0, 9)
|
||||
|
||||
points, _ := svc.UsageCurve(context.Background(), uA, 1)
|
||||
points, _ := svc.UsageCurve(context.Background(), uA, 1, 0)
|
||||
if len(points) != 1 || points[0].BytesUp != 111 {
|
||||
t.Errorf("user A curve leaked other user data: %+v", points)
|
||||
}
|
||||
|
||||
@@ -0,0 +1 @@
|
||||
DROP TABLE IF EXISTS usage_hourly;
|
||||
@@ -0,0 +1,9 @@
|
||||
-- 见 sqlite/000017 注释。hour = unix 纪元小时(UTC)。
|
||||
CREATE TABLE usage_hourly (
|
||||
user_id BIGINT UNSIGNED NOT NULL,
|
||||
hour BIGINT NOT NULL,
|
||||
bytes_up BIGINT UNSIGNED NOT NULL DEFAULT 0,
|
||||
bytes_down BIGINT UNSIGNED NOT NULL DEFAULT 0,
|
||||
minutes_used INT NOT NULL DEFAULT 0,
|
||||
PRIMARY KEY (user_id, hour)
|
||||
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4;
|
||||
@@ -0,0 +1 @@
|
||||
DROP TABLE IF EXISTS usage_hourly;
|
||||
@@ -0,0 +1,13 @@
|
||||
-- 按 UTC「小时桶」记录账户用量,供 /v1/usage 按客户端时区聚合成「本地日」曲线
|
||||
-- (修「今天显示昨天数据」的时区 bug:不再服务端按 UTC 预切天,而是存小时、查询时带
|
||||
-- 客户端时区偏移按本地日聚合)。usage_daily 仍保留作配额/今日/解锁。
|
||||
-- hour = unix 纪元小时数(floor(unix_seconds/3600),UTC),整数无时区歧义、聚合好算。
|
||||
-- 稀疏:无用量的小时不落行(用户非 24h 在线,实际远少于 24 行/天)。
|
||||
CREATE TABLE usage_hourly (
|
||||
user_id INTEGER NOT NULL,
|
||||
hour INTEGER NOT NULL, -- unix 纪元小时(UTC)
|
||||
bytes_up INTEGER NOT NULL DEFAULT 0,
|
||||
bytes_down INTEGER NOT NULL DEFAULT 0,
|
||||
minutes_used INTEGER NOT NULL DEFAULT 0,
|
||||
PRIMARY KEY (user_id, hour)
|
||||
);
|
||||
Reference in New Issue
Block a user