api/model/operation_timestamp_test.go

package model_test

import (
	"testing"
	"time"

	"github.com/stretchr/testify/assert"
	"github.com/stretchr/testify/require"

	"go.yandata.net/iod/iod/trustlog-sdk/api/model"
)

// TestOperation_TimestampNanosecondPrecision 验证 Operation 的时间戳在 CBOR 序列化/反序列化后能保留纳秒精度
func TestOperation_TimestampNanosecondPrecision(t *testing.T) {
	t.Parallel()

	// 创建一个包含纳秒精度的时间戳
	timestamp := time.Date(2024, 1, 1, 12, 30, 45, 123456789, time.UTC)

	original := &model.Operation{
		OpID:         "op-nanosecond-test",
		Timestamp:    timestamp,
		OpSource:     model.OpSourceIRP,
		OpType:       model.OpTypeOCCreateHandle,
		DoPrefix:     "test",
		DoRepository: "repo",
		Doid:         "test/repo/123",
		ProducerID:   "producer-1",
		OpActor:      "actor-1",
	}

	err := original.CheckAndInit()
	require.NoError(t, err)

	t.Logf("Original timestamp: %v", original.Timestamp)
	t.Logf("Original nanoseconds: %d", original.Timestamp.Nanosecond())

	// 序列化
	data, err := original.MarshalBinary()
	require.NoError(t, err)
	require.NotNil(t, data)

	// 反序列化
	result := &model.Operation{}
	err = result.UnmarshalBinary(data)
	require.NoError(t, err)

	t.Logf("Decoded timestamp: %v", result.Timestamp)
	t.Logf("Decoded nanoseconds: %d", result.Timestamp.Nanosecond())

	// 验证纳秒精度被完整保留
	assert.Equal(t, original.Timestamp.UnixNano(), result.Timestamp.UnixNano(),
		"时间戳的纳秒精度应该被完整保留")
	assert.Equal(t, original.Timestamp.Nanosecond(), result.Timestamp.Nanosecond(),
		"纳秒部分应该相等")
}
refactor: 重构trustlog-sdk目录结构到trustlog/go-trustlog - 将所有trustlog-sdk文件移动到trustlog/go-trustlog/目录 - 更新README中所有import路径从trustlog-sdk改为go-trustlog - 更新cookiecutter配置文件中的项目名称 - 更新根目录.lefthook.yml以引用新位置的配置 - 添加go.sum文件到版本控制 - 删除过时的示例文件这次重构与trustlog-server保持一致的目录结构，为未来支持多语言SDK（Python、Java等）预留空间。 2025-12-22 13:37:57 +08:00			`package model_test`

			`import (`
			`"testing"`
			`"time"`

			`"github.com/stretchr/testify/assert"`
			`"github.com/stretchr/testify/require"`

			`"go.yandata.net/iod/iod/trustlog-sdk/api/model"`
			`)`

			`// TestOperation_TimestampNanosecondPrecision 验证 Operation 的时间戳在 CBOR 序列化/反序列化后能保留纳秒精度`
			`func TestOperation_TimestampNanosecondPrecision(t *testing.T) {`
			`t.Parallel()`

			`// 创建一个包含纳秒精度的时间戳`
			`timestamp := time.Date(2024, 1, 1, 12, 30, 45, 123456789, time.UTC)`

			`original := &model.Operation{`
			`OpID: "op-nanosecond-test",`
			`Timestamp: timestamp,`
			`OpSource: model.OpSourceIRP,`
			`OpType: model.OpTypeOCCreateHandle,`
			`DoPrefix: "test",`
			`DoRepository: "repo",`
			`Doid: "test/repo/123",`
			`ProducerID: "producer-1",`
			`OpActor: "actor-1",`
			`}`

			`err := original.CheckAndInit()`
			`require.NoError(t, err)`

			`t.Logf("Original timestamp: %v", original.Timestamp)`
			`t.Logf("Original nanoseconds: %d", original.Timestamp.Nanosecond())`

			`// 序列化`
			`data, err := original.MarshalBinary()`
			`require.NoError(t, err)`
			`require.NotNil(t, data)`

			`// 反序列化`
			`result := &model.Operation{}`
			`err = result.UnmarshalBinary(data)`
			`require.NoError(t, err)`

			`t.Logf("Decoded timestamp: %v", result.Timestamp)`
			`t.Logf("Decoded nanoseconds: %d", result.Timestamp.Nanosecond())`

			`// 验证纳秒精度被完整保留`
			`assert.Equal(t, original.Timestamp.UnixNano(), result.Timestamp.UnixNano(),`
			`"时间戳的纳秒精度应该被完整保留")`
			`assert.Equal(t, original.Timestamp.Nanosecond(), result.Timestamp.Nanosecond(),`
			`"纳秒部分应该相等")`
			`}`