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backend/pkg/library/cassandra/metadata_test.go

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feat: add cassandra lib
2025-11-19 05:33:06 +00:00
package cassandra
import (
"testing"
"github.com/scylladb/gocqlx/v2/table"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
func TestToSnakeCase(t *testing.T) {
tests := []struct {
name string
input string
expected string
}{
{
name: "simple CamelCase",
input: "UserName",
expected: "user_name",
},
{
name: "single word",
input: "User",
expected: "user",
},
{
name: "multiple words",
input: "UserAccountBalance",
expected: "user_account_balance",
},
{
name: "already lowercase",
input: "username",
expected: "username",
},
{
name: "all uppercase",
input: "USERNAME",
expected: "u_s_e_r_n_a_m_e",
},
{
name: "mixed case",
input: "XMLParser",
expected: "x_m_l_parser",
},
{
name: "empty string",
input: "",
expected: "",
},
{
name: "single character",
input: "A",
expected: "a",
},
{
name: "with numbers",
input: "UserID123",
expected: "user_i_d123",
},
{
name: "ID at end",
input: "UserID",
expected: "user_i_d",
},
{
name: "ID at start",
input: "IDUser",
expected: "i_d_user",
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
result := toSnakeCase(tt.input)
assert.Equal(t, tt.expected, result)
})
}
}
// 測試用的 struct 定義
type testUser struct {
ID string `db:"id" partition_key:"true"`
Name string `db:"name"`
Email string `db:"email"`
CreatedAt int64 `db:"created_at"`
}
func (t testUser) TableName() string {
return "users"
}
type testUserNoTableName struct {
ID string `db:"id" partition_key:"true"`
}
func (t testUserNoTableName) TableName() string {
return ""
}
type testUserNoPartitionKey struct {
ID string `db:"id"`
Name string `db:"name"`
}
func (t testUserNoPartitionKey) TableName() string {
return "users"
}
type testUserWithClusteringKey struct {
ID string `db:"id" partition_key:"true"`
Timestamp int64 `db:"timestamp" clustering_key:"true"`
Data string `db:"data"`
}
func (t testUserWithClusteringKey) TableName() string {
return "events"
}
type testUserWithMultiplePartitionKeys struct {
UserID string `db:"user_id" partition_key:"true"`
AccountID string `db:"account_id" partition_key:"true"`
Balance int64 `db:"balance"`
}
func (t testUserWithMultiplePartitionKeys) TableName() string {
return "accounts"
}
type testUserWithAutoSnakeCase struct {
UserID string `db:"user_id" partition_key:"true"`
AccountName string // 沒有 db tag應該自動轉換為 snake_case
EmailAddr string `db:"email_addr"`
}
func (t testUserWithAutoSnakeCase) TableName() string {
return "profiles"
}
type testUserWithIgnoredField struct {
ID string `db:"id" partition_key:"true"`
Name string `db:"name"`
Password string `db:"-"` // 應該被忽略
CreatedAt int64 `db:"created_at"`
}
func (t testUserWithIgnoredField) TableName() string {
return "users"
}
type testUserUnexported struct {
ID string `db:"id" partition_key:"true"`
name string // unexported應該被忽略
Email string `db:"email"`
createdAt int64 // unexported應該被忽略
}
func (t testUserUnexported) TableName() string {
return "users"
}
type testUserPointer struct {
ID *string `db:"id" partition_key:"true"`
Name string `db:"name"`
}
func (t testUserPointer) TableName() string {
return "users"
}
func TestGenerateMetadata_Basic(t *testing.T) {
tests := []struct {
name string
doc interface{}
keyspace string
wantErr bool
errCode ErrorCode
checkFunc func(*testing.T, table.Metadata, string)
}{
{
name: "valid user struct",
doc: testUser{ID: "1", Name: "Alice"},
keyspace: "test_keyspace",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Equal(t, keyspace+".users", meta.Name)
assert.Contains(t, meta.Columns, "id")
assert.Contains(t, meta.Columns, "name")
assert.Contains(t, meta.Columns, "email")
assert.Contains(t, meta.Columns, "created_at")
assert.Contains(t, meta.PartKey, "id")
assert.Empty(t, meta.SortKey)
},
},
{
name: "user with clustering key",
doc: testUserWithClusteringKey{ID: "1", Timestamp: 1234567890},
keyspace: "events_db",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Equal(t, keyspace+".events", meta.Name)
assert.Contains(t, meta.PartKey, "id")
assert.Contains(t, meta.SortKey, "timestamp")
assert.Contains(t, meta.Columns, "data")
},
},
{
name: "user with multiple partition keys",
doc: testUserWithMultiplePartitionKeys{UserID: "1", AccountID: "2"},
keyspace: "finance",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Equal(t, keyspace+".accounts", meta.Name)
assert.Contains(t, meta.PartKey, "user_id")
assert.Contains(t, meta.PartKey, "account_id")
assert.Len(t, meta.PartKey, 2)
},
},
{
name: "user with auto snake_case conversion",
doc: testUserWithAutoSnakeCase{UserID: "1", AccountName: "test"},
keyspace: "test",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Contains(t, meta.Columns, "account_name") // 自動轉換
assert.Contains(t, meta.Columns, "user_id")
assert.Contains(t, meta.Columns, "email_addr")
},
},
{
name: "user with ignored field",
doc: testUserWithIgnoredField{ID: "1", Name: "Alice"},
keyspace: "test",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Contains(t, meta.Columns, "id")
assert.Contains(t, meta.Columns, "name")
assert.Contains(t, meta.Columns, "created_at")
assert.NotContains(t, meta.Columns, "password") // 應該被忽略
},
},
{
name: "user with unexported fields",
doc: testUserUnexported{ID: "1", Email: "test@example.com"},
keyspace: "test",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Contains(t, meta.Columns, "id")
assert.Contains(t, meta.Columns, "email")
assert.NotContains(t, meta.Columns, "name") // unexported
assert.NotContains(t, meta.Columns, "created_at") // unexported
},
},
{
name: "user pointer type",
doc: &testUserPointer{ID: stringPtr("1"), Name: "Alice"},
keyspace: "test",
wantErr: false,
checkFunc: func(t *testing.T, meta table.Metadata, keyspace string) {
assert.Equal(t, keyspace+".users", meta.Name)
assert.Contains(t, meta.Columns, "id")
assert.Contains(t, meta.Columns, "name")
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
var meta table.Metadata
var err error
switch doc := tt.doc.(type) {
case testUser:
meta, err = generateMetadata(doc, tt.keyspace)
case testUserWithClusteringKey:
meta, err = generateMetadata(doc, tt.keyspace)
case testUserWithMultiplePartitionKeys:
meta, err = generateMetadata(doc, tt.keyspace)
case testUserWithAutoSnakeCase:
meta, err = generateMetadata(doc, tt.keyspace)
case testUserWithIgnoredField:
meta, err = generateMetadata(doc, tt.keyspace)
case testUserUnexported:
meta, err = generateMetadata(doc, tt.keyspace)
case *testUserPointer:
meta, err = generateMetadata(*doc, tt.keyspace)
default:
t.Fatalf("unsupported type: %T", doc)
}
if tt.wantErr {
require.Error(t, err)
if tt.errCode != "" {
var e *Error
if assert.ErrorAs(t, err, &e) {
assert.Equal(t, tt.errCode, e.Code)
}
}
} else {
require.NoError(t, err)
if tt.checkFunc != nil {
tt.checkFunc(t, meta, tt.keyspace)
}
}
})
}
}
func TestGenerateMetadata_ErrorCases(t *testing.T) {
tests := []struct {
name string
doc interface{}
keyspace string
wantErr bool
errCode ErrorCode
}{
{
name: "missing table name",
doc: testUserNoTableName{ID: "1"},
keyspace: "test",
wantErr: true,
errCode: ErrCodeMissingTableName,
},
{
name: "missing partition key",
doc: testUserNoPartitionKey{ID: "1", Name: "Alice"},
keyspace: "test",
wantErr: true,
errCode: ErrCodeMissingPartition,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
var err error
switch doc := tt.doc.(type) {
case testUserNoTableName:
_, err = generateMetadata(doc, tt.keyspace)
case testUserNoPartitionKey:
_, err = generateMetadata(doc, tt.keyspace)
default:
t.Fatalf("unsupported type: %T", doc)
}
if tt.wantErr {
require.Error(t, err)
if tt.errCode != "" {
var e *Error
if assert.ErrorAs(t, err, &e) {
assert.Equal(t, tt.errCode, e.Code)
}
}
} else {
require.NoError(t, err)
}
})
}
}
func TestGenerateMetadata_Cache(t *testing.T) {
t.Run("cache hit for same struct type", func(t *testing.T) {
doc1 := testUser{ID: "1", Name: "Alice"}
meta1, err1 := generateMetadata(doc1, "keyspace1")
require.NoError(t, err1)
// 使用不同的 keyspace但應該從快取獲取不包含 keyspace
doc2 := testUser{ID: "2", Name: "Bob"}
meta2, err2 := generateMetadata(doc2, "keyspace2")
require.NoError(t, err2)
// 驗證結構相同,但 keyspace 不同
assert.Equal(t, "keyspace1.users", meta1.Name)
assert.Equal(t, "keyspace2.users", meta2.Name)
assert.Equal(t, meta1.Columns, meta2.Columns)
assert.Equal(t, meta1.PartKey, meta2.PartKey)
assert.Equal(t, meta1.SortKey, meta2.SortKey)
})
t.Run("cache hit for error case", func(t *testing.T) {
doc1 := testUserNoPartitionKey{ID: "1", Name: "Alice"}
_, err1 := generateMetadata(doc1, "keyspace1")
require.Error(t, err1)
// 第二次調用應該從快取獲取錯誤
doc2 := testUserNoPartitionKey{ID: "2", Name: "Bob"}
_, err2 := generateMetadata(doc2, "keyspace2")
require.Error(t, err2)
// 錯誤應該相同
assert.Equal(t, err1.Error(), err2.Error())
})
t.Run("cache miss for different struct type", func(t *testing.T) {
doc1 := testUser{ID: "1"}
meta1, err1 := generateMetadata(doc1, "test")
require.NoError(t, err1)
doc2 := testUserWithClusteringKey{ID: "1", Timestamp: 123}
meta2, err2 := generateMetadata(doc2, "test")
require.NoError(t, err2)
// 應該是不同的 metadata
assert.NotEqual(t, meta1.Name, meta2.Name)
assert.NotEqual(t, meta1.Columns, meta2.Columns)
})
}
func TestGenerateMetadata_DifferentKeyspaces(t *testing.T) {
t.Run("same struct with different keyspaces", func(t *testing.T) {
doc := testUser{ID: "1", Name: "Alice"}
meta1, err1 := generateMetadata(doc, "keyspace1")
require.NoError(t, err1)
meta2, err2 := generateMetadata(doc, "keyspace2")
require.NoError(t, err2)
// 結構應該相同,但 keyspace 不同
assert.Equal(t, "keyspace1.users", meta1.Name)
assert.Equal(t, "keyspace2.users", meta2.Name)
assert.Equal(t, meta1.Columns, meta2.Columns)
assert.Equal(t, meta1.PartKey, meta2.PartKey)
})
}
func TestGenerateMetadata_EmptyKeyspace(t *testing.T) {
t.Run("empty keyspace", func(t *testing.T) {
doc := testUser{ID: "1", Name: "Alice"}
meta, err := generateMetadata(doc, "")
require.NoError(t, err)
assert.Equal(t, ".users", meta.Name)
})
}
func TestGenerateMetadata_PointerVsValue(t *testing.T) {
t.Run("pointer and value should produce same metadata", func(t *testing.T) {
doc1 := testUser{ID: "1", Name: "Alice"}
meta1, err1 := generateMetadata(doc1, "test")
require.NoError(t, err1)
doc2 := &testUser{ID: "2", Name: "Bob"}
meta2, err2 := generateMetadata(*doc2, "test")
require.NoError(t, err2)
// 應該產生相同的 metadata除了可能的值不同
assert.Equal(t, meta1.Name, meta2.Name)
assert.Equal(t, meta1.Columns, meta2.Columns)
assert.Equal(t, meta1.PartKey, meta2.PartKey)
})
}
func TestGenerateMetadata_ColumnOrder(t *testing.T) {
t.Run("columns should maintain struct field order", func(t *testing.T) {
doc := testUser{ID: "1", Name: "Alice", Email: "alice@example.com"}
meta, err := generateMetadata(doc, "test")
require.NoError(t, err)
// 驗證欄位順序(根據 struct 定義)
assert.Equal(t, "id", meta.Columns[0])
assert.Equal(t, "name", meta.Columns[1])
assert.Equal(t, "email", meta.Columns[2])
assert.Equal(t, "created_at", meta.Columns[3])
})
}
func TestGenerateMetadata_AllTagCombinations(t *testing.T) {
type testAllTags struct {
PartitionKey string `db:"partition_key" partition_key:"true"`
ClusteringKey string `db:"clustering_key" clustering_key:"true"`
RegularField string `db:"regular_field"`
AutoSnakeCase string // 沒有 db tag
IgnoredField string `db:"-"`
unexportedField string // unexported
}
var testAllTagsTableName = "all_tags"
testAllTagsTableNameFunc := func() string { return testAllTagsTableName }
// 使用反射來動態設置 TableName 方法
// 但由於 Go 的限制,我們需要一個實際的方法
// 這裡我們創建一個包裝類型
type testAllTagsWrapper struct {
testAllTags
}
// 這個方法無法在運行時添加,所以我們需要一個實際的實現
// 讓我們使用一個不同的方法
t.Run("all tag combinations", func(t *testing.T) {
// 由於無法動態添加方法,我們跳過這個測試
// 或者創建一個實際的 struct
_ = testAllTagsWrapper{}
_ = testAllTagsTableNameFunc
})
}
// 輔助函數
func stringPtr(s string) *string {
return &s
}