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Added x-files feature

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This commit is contained in:
Hein 2025-11-20 12:47:36 +02:00
parent 07b09e2025
commit c95bc9e633
5 changed files with 955 additions and 15 deletions
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15
pkg/restheadspec/handler.go
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@ -260,6 +260,10 @@ func (h *Handler) handleRead(ctx context.Context, w common.ResponseWriter, id st
query = query.Table(tableName) query = query.Table(tableName)
} }
// Note: X-Files configuration is now applied via parseXFiles which populates
// ExtendedRequestOptions fields (columns, filters, sort, preload, etc.)
// These are applied below in the normal query building process
// Apply ComputedQL fields if any // Apply ComputedQL fields if any
if len(options.ComputedQL) > 0 { if len(options.ComputedQL) > 0 {
for colName, colExpr := range options.ComputedQL { for colName, colExpr := range options.ComputedQL {
@ -1647,16 +1651,9 @@ func (h *Handler) sendResponseWithOptions(w common.ResponseWriter, data interfac
data = h.normalizeResultArray(data) data = h.normalizeResultArray(data)
} }
response := data // Return data as-is without wrapping in common.Response
if response == nil {
response = common.Response{
Success: true,
Data: data,
Metadata: metadata,
}
}
w.WriteHeader(http.StatusOK) w.WriteHeader(http.StatusOK)
if err := w.WriteJSON(response); err != nil { if err := w.WriteJSON(data); err != nil {
logger.Error("Failed to write JSON response: %v", err) logger.Error("Failed to write JSON response: %v", err)
} }
} }

261
pkg/restheadspec/headers.go
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@ -2,6 +2,7 @@ package restheadspec
import ( import (
"encoding/base64" "encoding/base64"
"encoding/json"
"fmt" "fmt"
"reflect" "reflect"
"strconv" "strconv"
@ -42,6 +43,9 @@ type ExtendedRequestOptions struct {
// Transaction // Transaction
AtomicTransaction bool AtomicTransaction bool
// X-Files configuration - comprehensive query options as a single JSON object
XFiles *XFiles
} }
// ExpandOption represents a relation expansion configuration // ExpandOption represents a relation expansion configuration
@ -214,6 +218,10 @@ func (h *Handler) parseOptionsFromHeaders(r common.Request) ExtendedRequestOptio
// Transaction Control // Transaction Control
case strings.HasPrefix(normalizedKey, "x-transaction-atomic"): case strings.HasPrefix(normalizedKey, "x-transaction-atomic"):
options.AtomicTransaction = strings.EqualFold(decodedValue, "true") options.AtomicTransaction = strings.EqualFold(decodedValue, "true")
// X-Files - comprehensive JSON configuration
case strings.HasPrefix(normalizedKey, "x-files"):
h.parseXFiles(&options, decodedValue)
} }
} }
@ -480,6 +488,259 @@ func (h *Handler) parseCommaSeparated(value string) []string {
return result return result
} }
// parseXFiles parses x-files header containing comprehensive JSON configuration
// and populates ExtendedRequestOptions fields from it
func (h *Handler) parseXFiles(options *ExtendedRequestOptions, value string) {
if value == "" {
return
}
var xfiles XFiles
if err := json.Unmarshal([]byte(value), &xfiles); err != nil {
logger.Warn("Failed to parse x-files header: %v", err)
return
}
logger.Debug("Parsed x-files configuration for table: %s", xfiles.TableName)
// Store the original XFiles for reference
options.XFiles = &xfiles
// Map XFiles fields to ExtendedRequestOptions
// Column selection
if len(xfiles.Columns) > 0 {
options.Columns = append(options.Columns, xfiles.Columns...)
logger.Debug("X-Files: Added columns: %v", xfiles.Columns)
}
// Omit columns
if len(xfiles.OmitColumns) > 0 {
options.OmitColumns = append(options.OmitColumns, xfiles.OmitColumns...)
logger.Debug("X-Files: Added omit columns: %v", xfiles.OmitColumns)
}
// Computed columns (CQL) -> ComputedQL
if len(xfiles.CQLColumns) > 0 {
if options.ComputedQL == nil {
options.ComputedQL = make(map[string]string)
}
for i, cqlExpr := range xfiles.CQLColumns {
colName := fmt.Sprintf("cql%d", i+1)
options.ComputedQL[colName] = cqlExpr
logger.Debug("X-Files: Added computed column %s: %s", colName, cqlExpr)
}
}
// Sorting
if len(xfiles.Sort) > 0 {
for _, sortField := range xfiles.Sort {
direction := "ASC"
colName := sortField
// Handle direction prefixes
if strings.HasPrefix(sortField, "-") {
direction = "DESC"
colName = strings.TrimPrefix(sortField, "-")
} else if strings.HasPrefix(sortField, "+") {
colName = strings.TrimPrefix(sortField, "+")
}
// Handle DESC suffix
if strings.HasSuffix(strings.ToLower(colName), " desc") {
direction = "DESC"
colName = strings.TrimSuffix(strings.ToLower(colName), " desc")
} else if strings.HasSuffix(strings.ToLower(colName), " asc") {
colName = strings.TrimSuffix(strings.ToLower(colName), " asc")
}
options.Sort = append(options.Sort, common.SortOption{
Column: strings.TrimSpace(colName),
Direction: direction,
})
}
logger.Debug("X-Files: Added %d sort options", len(xfiles.Sort))
}
// Filter fields
if len(xfiles.FilterFields) > 0 {
for _, filterField := range xfiles.FilterFields {
options.Filters = append(options.Filters, common.FilterOption{
Column: filterField.Field,
Operator: filterField.Operator,
Value: filterField.Value,
LogicOperator: "AND", // Default to AND
})
}
logger.Debug("X-Files: Added %d filter fields", len(xfiles.FilterFields))
}
// SQL AND conditions -> CustomSQLWhere
if len(xfiles.SqlAnd) > 0 {
if options.CustomSQLWhere != "" {
options.CustomSQLWhere += " AND "
}
options.CustomSQLWhere += "(" + strings.Join(xfiles.SqlAnd, " AND ") + ")"
logger.Debug("X-Files: Added SQL AND conditions")
}
// SQL OR conditions -> CustomSQLOr
if len(xfiles.SqlOr) > 0 {
if options.CustomSQLOr != "" {
options.CustomSQLOr += " OR "
}
options.CustomSQLOr += "(" + strings.Join(xfiles.SqlOr, " OR ") + ")"
logger.Debug("X-Files: Added SQL OR conditions")
}
// Pagination - Limit
if limitStr := xfiles.Limit.String(); limitStr != "" && limitStr != "0" {
if limitVal, err := xfiles.Limit.Int64(); err == nil && limitVal > 0 {
limit := int(limitVal)
options.Limit = &limit
logger.Debug("X-Files: Set limit: %d", limit)
}
}
// Pagination - Offset
if offsetStr := xfiles.Offset.String(); offsetStr != "" && offsetStr != "0" {
if offsetVal, err := xfiles.Offset.Int64(); err == nil && offsetVal > 0 {
offset := int(offsetVal)
options.Offset = &offset
logger.Debug("X-Files: Set offset: %d", offset)
}
}
// Cursor pagination
if xfiles.CursorForward != "" {
options.CursorForward = xfiles.CursorForward
logger.Debug("X-Files: Set cursor forward")
}
if xfiles.CursorBackward != "" {
options.CursorBackward = xfiles.CursorBackward
logger.Debug("X-Files: Set cursor backward")
}
// Flags
if xfiles.Skipcount {
options.SkipCount = true
logger.Debug("X-Files: Set skip count")
}
// Process ParentTables and ChildTables recursively
h.processXFilesRelations(&xfiles, options, "")
}
// processXFilesRelations processes ParentTables and ChildTables from XFiles
// and adds them as Preload options recursively
func (h *Handler) processXFilesRelations(xfiles *XFiles, options *ExtendedRequestOptions, basePath string) {
if xfiles == nil {
return
}
// Process ParentTables
if len(xfiles.ParentTables) > 0 {
logger.Debug("X-Files: Processing %d parent tables", len(xfiles.ParentTables))
for _, parentTable := range xfiles.ParentTables {
h.addXFilesPreload(parentTable, options, basePath)
}
}
// Process ChildTables
if len(xfiles.ChildTables) > 0 {
logger.Debug("X-Files: Processing %d child tables", len(xfiles.ChildTables))
for _, childTable := range xfiles.ChildTables {
h.addXFilesPreload(childTable, options, basePath)
}
}
}
// addXFilesPreload converts an XFiles relation into a PreloadOption
// and recursively processes its children
func (h *Handler) addXFilesPreload(xfile *XFiles, options *ExtendedRequestOptions, basePath string) {
if xfile == nil || xfile.TableName == "" {
return
}
// Determine the relation path
relationPath := xfile.TableName
if basePath != "" {
relationPath = basePath + "." + xfile.TableName
}
logger.Debug("X-Files: Adding preload for relation: %s", relationPath)
// Create PreloadOption from XFiles configuration
preloadOpt := common.PreloadOption{
Relation: relationPath,
Columns: xfile.Columns,
OmitColumns: xfile.OmitColumns,
}
// Add sorting if specified
if len(xfile.Sort) > 0 {
preloadOpt.Sort = make([]common.SortOption, 0, len(xfile.Sort))
for _, sortField := range xfile.Sort {
direction := "ASC"
colName := sortField
// Handle direction prefixes
if strings.HasPrefix(sortField, "-") {
direction = "DESC"
colName = strings.TrimPrefix(sortField, "-")
} else if strings.HasPrefix(sortField, "+") {
colName = strings.TrimPrefix(sortField, "+")
}
preloadOpt.Sort = append(preloadOpt.Sort, common.SortOption{
Column: strings.TrimSpace(colName),
Direction: direction,
})
}
}
// Add filters if specified
if len(xfile.FilterFields) > 0 {
preloadOpt.Filters = make([]common.FilterOption, 0, len(xfile.FilterFields))
for _, filterField := range xfile.FilterFields {
preloadOpt.Filters = append(preloadOpt.Filters, common.FilterOption{
Column: filterField.Field,
Operator: filterField.Operator,
Value: filterField.Value,
LogicOperator: "AND",
})
}
}
// Add WHERE clause if SQL conditions specified
whereConditions := make([]string, 0)
if len(xfile.SqlAnd) > 0 {
whereConditions = append(whereConditions, xfile.SqlAnd...)
}
if len(whereConditions) > 0 {
preloadOpt.Where = strings.Join(whereConditions, " AND ")
}
// Add limit if specified
if limitStr := xfile.Limit.String(); limitStr != "" && limitStr != "0" {
if limitVal, err := xfile.Limit.Int64(); err == nil && limitVal > 0 {
limit := int(limitVal)
preloadOpt.Limit = &limit
}
}
// Add the preload option
options.Preload = append(options.Preload, preloadOpt)
// Recursively process nested ParentTables and ChildTables
if xfile.Recursive {
logger.Debug("X-Files: Recursive preload enabled for: %s", relationPath)
h.processXFilesRelations(xfile, options, relationPath)
} else if len(xfile.ParentTables) > 0 || len(xfile.ChildTables) > 0 {
h.processXFilesRelations(xfile, options, relationPath)
}
}
// extractSourceColumn extracts the base column name from PostgreSQL JSON operators // extractSourceColumn extracts the base column name from PostgreSQL JSON operators
// Examples: // Examples:
// - "columna->>'val'" returns "columna" // - "columna->>'val'" returns "columna"

431
pkg/restheadspec/xfiles.go Normal file
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@ -0,0 +1,431 @@
package restheadspec
import (
"encoding/json"
"reflect"
)
type XFiles struct {
TableName string `json:"tablename"`
Schema string `json:"schema"`
PrimaryKey string `json:"primarykey"`
ForeignKey string `json:"foreignkey"`
RelatedKey string `json:"relatedkey"`
Sort []string `json:"sort"`
Prefix string `json:"prefix"`
Editable bool `json:"editable"`
Recursive bool `json:"recursive"`
Expand bool `json:"expand"`
Rownumber bool `json:"rownumber"`
Skipcount bool `json:"skipcount"`
Offset json.Number `json:"offset"`
Limit json.Number `json:"limit"`
Columns []string `json:"columns"`
OmitColumns []string `json:"omit_columns"`
CQLColumns []string `json:"cql_columns"`
SqlJoins []string `json:"sql_joins"`
SqlOr []string `json:"sql_or"`
SqlAnd []string `json:"sql_and"`
ParentTables []*XFiles `json:"parenttables"`
ChildTables []*XFiles `json:"childtables"`
ModelType reflect.Type `json:"-"`
ParentEntity *XFiles `json:"-"`
Level uint `json:"-"`
Errors []error `json:"-"`
FilterFields []struct {
Field string `json:"field"`
Value string `json:"value"`
Operator string `json:"operator"`
} `json:"filter_fields"`
CursorForward string `json:"cursor_forward"`
CursorBackward string `json:"cursor_backward"`
}
// func (m *XFiles) SetParent() {
// if m.ChildTables != nil {
// for _, child := range m.ChildTables {
// if child.ParentEntity != nil {
// continue
// }
// child.ParentEntity = m
// child.Level = m.Level + 1000
// child.SetParent()
// }
// }
// if m.ParentTables != nil {
// for _, pt := range m.ParentTables {
// if pt.ParentEntity != nil {
// continue
// }
// pt.ParentEntity = m
// pt.Level = m.Level + 1
// pt.SetParent()
// }
// }
// }
// func (m *XFiles) GetParentRelations() []reflection.GormRelationType {
// if m.ParentEntity == nil {
// return nil
// }
// foundRelations := make(GormRelationTypeList, 0)
// rels := reflection.GetValidModelRelationTypes(m.ParentEntity.ModelType, false)
// if m.ParentEntity.ModelType == nil {
// return nil
// }
// for _, rel := range rels {
// // if len(foundRelations) > 0 {
// // break
// // }
// if rel.FieldName != "" && rel.AssociationTable.Name() == m.ModelType.Name() {
// if rel.AssociationKey != "" && m.RelatedKey != "" && strings.EqualFold(rel.AssociationKey, m.RelatedKey) {
// foundRelations = append(foundRelations, rel)
// } else if rel.AssociationKey != "" && m.ForeignKey != "" && strings.EqualFold(rel.AssociationKey, m.ForeignKey) {
// foundRelations = append(foundRelations, rel)
// } else if rel.ForeignKey != "" && m.ForeignKey != "" && strings.EqualFold(rel.ForeignKey, m.ForeignKey) {
// foundRelations = append(foundRelations, rel)
// } else if rel.ForeignKey != "" && m.RelatedKey != "" && strings.EqualFold(rel.ForeignKey, m.RelatedKey) {
// foundRelations = append(foundRelations, rel)
// } else if rel.ForeignKey != "" && m.ForeignKey == "" && m.RelatedKey == "" {
// foundRelations = append(foundRelations, rel)
// }
// }
// //idName := fmt.Sprintf("%s_to_%s_%s=%s_m%v", rel.TableName, rel.AssociationTableName, rel.ForeignKey, rel.AssociationKey, rel.OneToMany)
// }
// sort.Sort(foundRelations)
// finalList := make(GormRelationTypeList, 0)
// dups := make(map[string]bool)
// for _, rel := range foundRelations {
// idName := fmt.Sprintf("%s_to_%s_%s_%s=%s_m%v", rel.TableName, rel.AssociationTableName, rel.FieldName, rel.ForeignKey, rel.AssociationKey, rel.OneToMany)
// if dups[idName] {
// continue
// }
// finalList = append(finalList, rel)
// dups[idName] = true
// }
// //fmt.Printf("GetParentRelations %s: %+v %d=%d\n", m.TableName, dups, len(finalList), len(foundRelations))
// return finalList
// }
// func (m *XFiles) GetUpdatableTableNames() []string {
// foundTables := make([]string, 0)
// if m.Editable {
// foundTables = append(foundTables, m.TableName)
// }
// if m.ParentTables != nil {
// for _, pt := range m.ParentTables {
// list := pt.GetUpdatableTableNames()
// if list != nil {
// foundTables = append(foundTables, list...)
// }
// }
// }
// if m.ChildTables != nil {
// for _, ct := range m.ChildTables {
// list := ct.GetUpdatableTableNames()
// if list != nil {
// foundTables = append(foundTables, list...)
// }
// }
// }
// return foundTables
// }
// func (m *XFiles) preload(db *gorm.DB, pPath string, pCnt uint) (*gorm.DB, error) {
// path := pPath
// _, colval := JSONSyntaxToSQLIn(path, m.ModelType, "preload")
// if colval != "" {
// path = colval
// }
// if path == "" {
// return db, fmt.Errorf("invalid preload path %s", path)
// }
// sortList := ""
// if m.Sort != nil {
// for _, sort := range m.Sort {
// descSort := false
// if strings.HasPrefix(sort, "-") || strings.Contains(strings.ToLower(sort), " desc") {
// descSort = true
// }
// sort = strings.TrimPrefix(strings.TrimPrefix(sort, "+"), "-")
// sort = strings.ReplaceAll(strings.ReplaceAll(sort, " desc", ""), " asc", "")
// if descSort {
// sort = sort + " desc"
// }
// sortList = sort
// }
// }
// SrcColumns := reflection.GetModelSQLColumns(m.ModelType)
// Columns := make([]string, 0)
// for _, s := range SrcColumns {
// for _, v := range m.Columns {
// if strings.EqualFold(v, s) {
// Columns = append(Columns, v)
// break
// }
// }
// }
// if len(Columns) == 0 {
// Columns = SrcColumns
// }
// chain := db
// // //Do expand where we can
// // if m.Expand {
// // ops := func(subchain *gorm.DB) *gorm.DB {
// // subchain = subchain.Select(strings.Join(m.Columns, ","))
// // if m.Filter != "" {
// // subchain = subchain.Where(m.Filter)
// // }
// // return subchain
// // }
// // chain = chain.Joins(path, ops(chain))
// // }
// //fmt.Printf("Preloading %s: %s lvl:%d \n", m.TableName, path, m.Level)
// //Do preload
// chain = chain.Preload(path, func(db *gorm.DB) *gorm.DB {
// subchain := db
// if sortList != "" {
// subchain = subchain.Order(sortList)
// }
// for _, sql := range m.SqlAnd {
// fnType, colval := JSONSyntaxToSQL(sql, m.ModelType)
// if fnType == 0 {
// colval = ValidSQL(colval, "select")
// }
// subchain = subchain.Where(colval)
// }
// for _, sql := range m.SqlOr {
// fnType, colval := JSONSyntaxToSQL(sql, m.ModelType)
// if fnType == 0 {
// colval = ValidSQL(colval, "select")
// }
// subchain = subchain.Or(colval)
// }
// limitval, err := m.Limit.Int64()
// if err == nil && limitval > 0 {
// subchain = subchain.Limit(int(limitval))
// }
// for _, j := range m.SqlJoins {
// subchain = subchain.Joins(ValidSQL(j, "select"))
// }
// offsetval, err := m.Offset.Int64()
// if err == nil && offsetval > 0 {
// subchain = subchain.Offset(int(offsetval))
// }
// cols := make([]string, 0)
// for _, col := range Columns {
// canAdd := true
// for _, omit := range m.OmitColumns {
// if col == omit {
// canAdd = false
// break
// }
// }
// if canAdd {
// cols = append(cols, col)
// }
// }
// for i, col := range m.CQLColumns {
// cols = append(cols, fmt.Sprintf("(%s) as cql%d", col, i+1))
// }
// if len(cols) > 0 {
// colStr := strings.Join(cols, ",")
// subchain = subchain.Select(colStr)
// }
// if m.Recursive && pCnt < 5 {
// paths := strings.Split(path, ".")
// p := paths[0]
// if len(paths) > 1 {
// p = strings.Join(paths[1:], ".")
// }
// for i := uint(0); i < 3; i++ {
// inlineStr := strings.Repeat(p+".", int(i+1))
// inlineStr = strings.TrimRight(inlineStr, ".")
// fmt.Printf("Preloading Recursive (%d) %s: %s lvl:%d \n", i, m.TableName, inlineStr, m.Level)
// subchain, err = m.preload(subchain, inlineStr, pCnt+i)
// if err != nil {
// cfg.LogError("Preload (%s,%d) error: %v", m.TableName, pCnt, err)
// } else {
// if m.ChildTables != nil {
// for _, child := range m.ChildTables {
// if child.ParentEntity == nil {
// continue
// }
// subchain, _ = child.ChainPreload(subchain, inlineStr, pCnt+i)
// }
// }
// if m.ParentTables != nil {
// for _, pt := range m.ParentTables {
// if pt.ParentEntity == nil {
// continue
// }
// subchain, _ = pt.ChainPreload(subchain, inlineStr, pCnt+i)
// }
// }
// }
// }
// }
// return subchain
// })
// return chain, nil
// }
// func (m *XFiles) ChainPreload(db *gorm.DB, pPath string, pCnt uint) (*gorm.DB, error) {
// var err error
// chain := db
// relations := m.GetParentRelations()
// if pCnt > 10000 {
// cfg.LogError("Preload Max size (%s,%s): %v", m.TableName, pPath, err)
// return chain, nil
// }
// hasPreloadError := false
// for _, rel := range relations {
// path := rel.FieldName
// if pPath != "" {
// path = fmt.Sprintf("%s.%s", pPath, rel.FieldName)
// }
// chain, err = m.preload(chain, path, pCnt)
// if err != nil {
// cfg.LogError("Preload Error (%s,%s): %v", m.TableName, path, err)
// hasPreloadError = true
// //return chain, err
// }
// //fmt.Printf("Preloading Rel %v: %s @ %s lvl:%d \n", m.Recursive, path, m.TableName, m.Level)
// if !hasPreloadError && m.ChildTables != nil {
// for _, child := range m.ChildTables {
// if child.ParentEntity == nil {
// continue
// }
// chain, err = child.ChainPreload(chain, path, pCnt)
// if err != nil {
// return chain, err
// }
// }
// }
// if !hasPreloadError && m.ParentTables != nil {
// for _, pt := range m.ParentTables {
// if pt.ParentEntity == nil {
// continue
// }
// chain, err = pt.ChainPreload(chain, path, pCnt)
// if err != nil {
// return chain, err
// }
// }
// }
// }
// if len(relations) == 0 {
// if m.ChildTables != nil {
// for _, child := range m.ChildTables {
// if child.ParentEntity == nil {
// continue
// }
// chain, err = child.ChainPreload(chain, pPath, pCnt)
// if err != nil {
// return chain, err
// }
// }
// }
// if m.ParentTables != nil {
// for _, pt := range m.ParentTables {
// if pt.ParentEntity == nil {
// continue
// }
// chain, err = pt.ChainPreload(chain, pPath, pCnt)
// if err != nil {
// return chain, err
// }
// }
// }
// }
// return chain, nil
// }
// func (m *XFiles) Fill() {
// m.ModelType = models.GetModelType(m.Schema, m.TableName)
// if m.ModelType == nil {
// m.Errors = append(m.Errors, fmt.Errorf("ModelType not found for %s", m.TableName))
// }
// if m.Prefix == "" {
// m.Prefix = reflection.GetTablePrefixFromType(m.ModelType)
// }
// if m.PrimaryKey == "" {
// m.PrimaryKey = reflection.GetPKNameFromType(m.ModelType)
// }
// if m.Schema == "" {
// m.Schema = reflection.GetSchemaNameFromType(m.ModelType)
// }
// for _, t := range m.ParentTables {
// t.Fill()
// }
// for _, t := range m.ChildTables {
// t.Fill()
// }
// }
// type GormRelationTypeList []reflection.GormRelationType
// func (s GormRelationTypeList) Len() int { return len(s) }
// func (s GormRelationTypeList) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
// func (s GormRelationTypeList) Less(i, j int) bool {
// if strings.HasPrefix(strings.ToLower(s[j].FieldName),
// strings.ToLower(fmt.Sprintf("%s_%s_%s", s[i].AssociationSchema, s[i].AssociationTable, s[i].AssociationKey))) {
// return true
// }
// return s[i].FieldName < s[j].FieldName
// }

213
pkg/restheadspec/xfiles_example.md Normal file
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@ -0,0 +1,213 @@
# X-Files Header Usage
The `x-files` header allows you to configure complex query options using a single JSON object. The XFiles configuration is parsed and populates the `ExtendedRequestOptions` fields, which means it integrates seamlessly with the existing query building system.
## Architecture
When an `x-files` header is received:
1. It's parsed into an `XFiles` struct
2. The `XFiles` fields populate the `ExtendedRequestOptions` (columns, filters, sort, preload, etc.)
3. The normal query building process applies these options to the SQL query
4. This allows x-files to work alongside individual headers if needed
## Basic Example
```http
GET /public/users
X-Files: {"tablename":"users","columns":["id","name","email"],"limit":"10","offset":"0"}
```
## Complete Example
```http
GET /public/users
X-Files: {
"tablename": "users",
"schema": "public",
"columns": ["id", "name", "email", "created_at"],
"omit_columns": [],
"sort": ["-created_at", "name"],
"limit": "50",
"offset": "0",
"filter_fields": [
{
"field": "status",
"operator": "eq",
"value": "active"
},
{
"field": "age",
"operator": "gt",
"value": "18"
}
],
"sql_and": ["deleted_at IS NULL"],
"sql_or": [],
"cql_columns": ["UPPER(name)"],
"skipcount": false,
"distinct": false
}
```
## Supported Filter Operators
- `eq` - equals
- `neq` - not equals
- `gt` - greater than
- `gte` - greater than or equals
- `lt` - less than
- `lte` - less than or equals
- `like` - SQL LIKE
- `ilike` - case-insensitive LIKE
- `in` - IN clause
- `between` - between (exclusive)
- `between_inclusive` - between (inclusive)
- `is_null` - is NULL
- `is_not_null` - is NOT NULL
## Sorting
Sort fields can be prefixed with:
- `+` for ascending (default)
- `-` for descending
Examples:
- `"sort": ["name"]` - ascending by name
- `"sort": ["-created_at"]` - descending by created_at
- `"sort": ["-created_at", "name"]` - multiple sorts
## Computed Columns (CQL)
Use `cql_columns` to add computed SQL expressions:
```json
{
"cql_columns": [
"UPPER(name)",
"CONCAT(first_name, ' ', last_name)"
]
}
```
These will be available as `cql1`, `cql2`, etc. in the response.
## Cursor Pagination
```json
{
"cursor_forward": "eyJpZCI6MTAwfQ==",
"cursor_backward": ""
}
```
## Base64 Encoding
For complex JSON, you can base64-encode the value and prefix it with `ZIP_` or `__`:
```http
GET /public/users
X-Files: ZIP_eyJ0YWJsZW5hbWUiOiJ1c2VycyIsImxpbWl0IjoiMTAifQ==
```
## XFiles Struct Reference
```go
type XFiles struct {
TableName string `json:"tablename"`
Schema string `json:"schema"`
PrimaryKey string `json:"primarykey"`
ForeignKey string `json:"foreignkey"`
RelatedKey string `json:"relatedkey"`
Sort []string `json:"sort"`
Prefix string `json:"prefix"`
Editable bool `json:"editable"`
Recursive bool `json:"recursive"`
Expand bool `json:"expand"`
Rownumber bool `json:"rownumber"`
Skipcount bool `json:"skipcount"`
Offset json.Number `json:"offset"`
Limit json.Number `json:"limit"`
Columns []string `json:"columns"`
OmitColumns []string `json:"omit_columns"`
CQLColumns []string `json:"cql_columns"`
SqlJoins []string `json:"sql_joins"`
SqlOr []string `json:"sql_or"`
SqlAnd []string `json:"sql_and"`
FilterFields []struct {
Field string `json:"field"`
Value string `json:"value"`
Operator string `json:"operator"`
} `json:"filter_fields"`
CursorForward string `json:"cursor_forward"`
CursorBackward string `json:"cursor_backward"`
}
```
## Recursive Preloading with ParentTables and ChildTables
XFiles now supports recursive preloading of related entities:
```json
{
"tablename": "users",
"columns": ["id", "name"],
"limit": "10",
"parenttables": [
{
"tablename": "Company",
"columns": ["id", "name", "industry"],
"sort": ["-created_at"]
}
],
"childtables": [
{
"tablename": "Orders",
"columns": ["id", "total", "status"],
"limit": "5",
"sort": ["-order_date"],
"filter_fields": [
{"field": "status", "operator": "eq", "value": "completed"}
],
"childtables": [
{
"tablename": "OrderItems",
"columns": ["id", "product_name", "quantity"],
"recursive": true
}
]
}
]
}
```
### How Recursive Preloading Works
- **ParentTables**: Preloads parent relationships (e.g., User -> Company)
- **ChildTables**: Preloads child relationships (e.g., User -> Orders -> OrderItems)
- **Recursive**: When `true`, continues preloading the same relation recursively
- Each nested table can have its own:
- Column selection (`columns`, `omit_columns`)
- Filtering (`filter_fields`, `sql_and`)
- Sorting (`sort`)
- Pagination (`limit`)
- Further nesting (`parenttables`, `childtables`)
### Relation Path Building
Relations are built as dot-separated paths:
- `Company` (direct parent)
- `Orders` (direct child)
- `Orders.OrderItems` (nested child)
- `Orders.OrderItems.Product` (deeply nested)
## Notes
- Individual headers (like `x-select-fields`, `x-sort`, etc.) can still be used alongside `x-files`
- X-Files populates `ExtendedRequestOptions` which is then processed by the normal query building logic
- ParentTables and ChildTables are converted to `PreloadOption` entries with full support for:
- Column selection
- Filtering
- Sorting
- Limit
- Recursive nesting
- The relation name in ParentTables/ChildTables should match the GORM/Bun relation field name on the model

50
tests/crud_test.go
View File

@ -372,7 +372,14 @@ func testRestHeadSpecCRUD(t *testing.T, serverURL string) {
var result map[string]interface{} var result map[string]interface{}
json.NewDecoder(resp.Body).Decode(&result) json.NewDecoder(resp.Body).Decode(&result)
assert.True(t, result["success"].(bool), "Create department should succeed") // Check if response has "success" field (wrapped format) or direct data (unwrapped format)
if success, ok := result["success"]; ok && success != nil {
assert.True(t, success.(bool), "Create department should succeed")
} else {
// Unwrapped format - verify we got the created data back
assert.NotEmpty(t, result, "Create department should return data")
assert.Equal(t, deptID, result["id"], "Created department should have correct ID")
}
logger.Info("Department created successfully: %s", deptID) logger.Info("Department created successfully: %s", deptID)
}) })
@ -393,7 +400,14 @@ func testRestHeadSpecCRUD(t *testing.T, serverURL string) {
var result map[string]interface{} var result map[string]interface{}
json.NewDecoder(resp.Body).Decode(&result) json.NewDecoder(resp.Body).Decode(&result)
assert.True(t, result["success"].(bool), "Create employee should succeed") // Check if response has "success" field (wrapped format) or direct data (unwrapped format)
if success, ok := result["success"]; ok && success != nil {
assert.True(t, success.(bool), "Create employee should succeed")
} else {
// Unwrapped format - verify we got the created data back
assert.NotEmpty(t, result, "Create employee should return data")
assert.Equal(t, empID, result["id"], "Created employee should have correct ID")
}
logger.Info("Employee created successfully: %s", empID) logger.Info("Employee created successfully: %s", empID)
}) })
@ -540,7 +554,13 @@ func testRestHeadSpecCRUD(t *testing.T, serverURL string) {
var result map[string]interface{} var result map[string]interface{}
json.NewDecoder(resp.Body).Decode(&result) json.NewDecoder(resp.Body).Decode(&result)
assert.True(t, result["success"].(bool), "Update department should succeed") // Check if response has "success" field (wrapped format) or direct data (unwrapped format)
if success, ok := result["success"]; ok && success != nil {
assert.True(t, success.(bool), "Update department should succeed")
} else {
// Unwrapped format - verify we got the updated data back
assert.NotEmpty(t, result, "Update department should return data")
}
logger.Info("Department updated successfully: %s", deptID) logger.Info("Department updated successfully: %s", deptID)
// Verify update by reading the department again // Verify update by reading the department again
@ -558,7 +578,13 @@ func testRestHeadSpecCRUD(t *testing.T, serverURL string) {
var result map[string]interface{} var result map[string]interface{}
json.NewDecoder(resp.Body).Decode(&result) json.NewDecoder(resp.Body).Decode(&result)
assert.True(t, result["success"].(bool), "Update employee should succeed") // Check if response has "success" field (wrapped format) or direct data (unwrapped format)
if success, ok := result["success"]; ok && success != nil {
assert.True(t, success.(bool), "Update employee should succeed")
} else {
// Unwrapped format - verify we got the updated data back
assert.NotEmpty(t, result, "Update employee should return data")
}
logger.Info("Employee updated successfully: %s", empID) logger.Info("Employee updated successfully: %s", empID)
}) })
@ -569,7 +595,13 @@ func testRestHeadSpecCRUD(t *testing.T, serverURL string) {
var result map[string]interface{} var result map[string]interface{}
json.NewDecoder(resp.Body).Decode(&result) json.NewDecoder(resp.Body).Decode(&result)
assert.True(t, result["success"].(bool), "Delete employee should succeed") // Check if response has "success" field (wrapped format) or direct data (unwrapped format)
if success, ok := result["success"]; ok && success != nil {
assert.True(t, success.(bool), "Delete employee should succeed")
} else {
// Unwrapped format - verify we got a response (typically {"deleted": count})
assert.NotEmpty(t, result, "Delete employee should return data")
}
logger.Info("Employee deleted successfully: %s", empID) logger.Info("Employee deleted successfully: %s", empID)
// Verify deletion - just log that delete succeeded // Verify deletion - just log that delete succeeded
@ -582,7 +614,13 @@ func testRestHeadSpecCRUD(t *testing.T, serverURL string) {
var result map[string]interface{} var result map[string]interface{}
json.NewDecoder(resp.Body).Decode(&result) json.NewDecoder(resp.Body).Decode(&result)
assert.True(t, result["success"].(bool), "Delete department should succeed") // Check if response has "success" field (wrapped format) or direct data (unwrapped format)
if success, ok := result["success"]; ok && success != nil {
assert.True(t, success.(bool), "Delete department should succeed")
} else {
// Unwrapped format - verify we got a response (typically {"deleted": count})
assert.NotEmpty(t, result, "Delete department should return data")
}
logger.Info("Department deleted successfully: %s", deptID) logger.Info("Department deleted successfully: %s", deptID)
}) })