vikunja-api/vendor/github.com/swaggo/swag/operation.go

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package swag
import (
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"encoding/json"
"fmt"
"go/ast"
goparser "go/parser"
"go/token"
"net/http"
"os"
"regexp"
"strconv"
"strings"
"github.com/go-openapi/jsonreference"
"github.com/go-openapi/spec"
"golang.org/x/tools/go/loader"
)
// Operation describes a single API operation on a path.
// For more information: https://github.com/swaggo/swag#api-operation
type Operation struct {
HTTPMethod string
Path string
spec.Operation
parser *Parser
}
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var mimeTypeAliases = map[string]string{
"json": "application/json",
"xml": "text/xml",
"plain": "text/plain",
"html": "text/html",
"mpfd": "multipart/form-data",
"x-www-form-urlencoded": "application/x-www-form-urlencoded",
"json-api": "application/vnd.api+json",
"json-stream": "application/x-json-stream",
"octet-stream": "application/octet-stream",
"png": "image/png",
"jpeg": "image/jpeg",
"gif": "image/gif",
}
var mimeTypePattern = regexp.MustCompile("^[^/]+/[^/]+$")
// NewOperation creates a new Operation with default properties.
// map[int]Response
func NewOperation() *Operation {
return &Operation{
HTTPMethod: "get",
Operation: spec.Operation{
OperationProps: spec.OperationProps{},
},
}
}
// ParseComment parses comment for given comment string and returns error if error occurs.
func (operation *Operation) ParseComment(comment string, astFile *ast.File) error {
commentLine := strings.TrimSpace(strings.TrimLeft(comment, "//"))
if len(commentLine) == 0 {
return nil
}
attribute := strings.Fields(commentLine)[0]
lineRemainder := strings.TrimSpace(commentLine[len(attribute):])
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lowerAttribute := strings.ToLower(attribute)
var err error
switch lowerAttribute {
case "@description":
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operation.ParseDescriptionComment(lineRemainder)
case "@summary":
operation.Summary = lineRemainder
case "@id":
operation.ID = lineRemainder
case "@tags":
operation.ParseTagsComment(lineRemainder)
case "@accept":
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err = operation.ParseAcceptComment(lineRemainder)
case "@produce":
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err = operation.ParseProduceComment(lineRemainder)
case "@param":
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err = operation.ParseParamComment(lineRemainder, astFile)
case "@success", "@failure":
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err = operation.ParseResponseComment(lineRemainder, astFile)
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case "@header":
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err = operation.ParseResponseHeaderComment(lineRemainder, astFile)
case "@router":
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err = operation.ParseRouterComment(lineRemainder)
case "@security":
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err = operation.ParseSecurityComment(lineRemainder)
case "@deprecated":
operation.Deprecate()
default:
err = operation.ParseMetadata(attribute, lowerAttribute, lineRemainder)
}
return err
}
// ParseDescriptionComment godoc
func (operation *Operation) ParseDescriptionComment(lineRemainder string) {
if operation.Description == "" {
operation.Description = lineRemainder
return
}
operation.Description += "\n" + lineRemainder
}
// ParseMetadata godoc
func (operation *Operation) ParseMetadata(attribute, lowerAttribute, lineRemainder string) error {
// parsing specific meta data extensions
if strings.HasPrefix(lowerAttribute, "@x-") {
if len(lineRemainder) == 0 {
return fmt.Errorf("annotation %s need a value", attribute)
}
var valueJSON interface{}
if err := json.Unmarshal([]byte(lineRemainder), &valueJSON); err != nil {
return fmt.Errorf("annotation %s need a valid json value", attribute)
}
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operation.Operation.AddExtension(attribute[1:], valueJSON) // Trim "@" at head
}
return nil
}
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var paramPattern = regexp.MustCompile(`(\S+)[\s]+([\w]+)[\s]+([\S.]+)[\s]+([\w]+)[\s]+"([^"]+)"`)
// ParseParamComment parses params return []string of param properties
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// E.g. @Param queryText formData string true "The email for login"
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// [param name] [paramType] [data type] [is mandatory?] [Comment]
// E.g. @Param some_id path int true "Some ID"
func (operation *Operation) ParseParamComment(commentLine string, astFile *ast.File) error {
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matches := paramPattern.FindStringSubmatch(commentLine)
if len(matches) != 6 {
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return fmt.Errorf("missing required param comment parameters \"%s\"", commentLine)
}
name := matches[1]
paramType := matches[2]
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refType := TransToValidSchemeType(matches[3])
// Detect refType
objectType := "object"
if strings.HasPrefix(refType, "[]") == true {
objectType = "array"
refType = strings.TrimPrefix(refType, "[]")
} else if IsPrimitiveType(refType) ||
paramType == "formData" && refType == "file" {
objectType = "primitive"
}
requiredText := strings.ToLower(matches[4])
required := requiredText == "true" || requiredText == "required"
description := matches[5]
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param := createParameter(paramType, description, name, refType, required)
switch paramType {
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case "path", "header", "formData":
switch objectType {
case "array", "object":
return fmt.Errorf("%s is not supported type for %s", refType, paramType)
}
case "query":
switch objectType {
case "array":
if !IsPrimitiveType(refType) {
return fmt.Errorf("%s is not supported array type for %s", refType, paramType)
}
param.SimpleSchema.Type = "array"
param.SimpleSchema.Items = &spec.Items{
SimpleSchema: spec.SimpleSchema{
Type: refType,
},
}
case "object":
return fmt.Errorf("%s is not supported type for %s", refType, paramType)
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}
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case "body":
switch objectType {
case "primitive":
param.Schema.Type = spec.StringOrArray{refType}
case "array":
param.Schema.Items = &spec.SchemaOrArray{
Schema: &spec.Schema{
SchemaProps: spec.SchemaProps{},
},
}
// Arrau of Primitive or Object
if IsPrimitiveType(refType) {
param.Schema.Items.Schema.Type = spec.StringOrArray{refType}
} else {
if err := operation.registerSchemaType(refType, astFile); err != nil {
return err
}
param.Schema.Items.Schema.Ref = spec.Ref{Ref: jsonreference.MustCreateRef("#/definitions/" + refType)}
}
case "object":
if err := operation.registerSchemaType(refType, astFile); err != nil {
return err
}
param.Schema.Type = spec.StringOrArray{objectType}
param.Schema.Ref = spec.Ref{
Ref: jsonreference.MustCreateRef("#/definitions/" + refType),
}
}
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default:
return fmt.Errorf("%s is not supported paramType", paramType)
}
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if err := operation.parseAndExtractionParamAttribute(commentLine, refType, &param); err != nil {
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return err
}
operation.Operation.Parameters = append(operation.Operation.Parameters, param)
return nil
}
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func (operation *Operation) registerSchemaType(schemaType string, astFile *ast.File) error {
refSplit := strings.Split(schemaType, ".")
if len(refSplit) != 2 {
return nil
}
pkgName := refSplit[0]
typeName := refSplit[1]
if typeSpec, ok := operation.parser.TypeDefinitions[pkgName][typeName]; ok {
operation.parser.registerTypes[schemaType] = typeSpec
return nil
}
var typeSpec *ast.TypeSpec
if astFile == nil {
return fmt.Errorf("can not register schema type: %q reason: astFile == nil", schemaType)
}
for _, imp := range astFile.Imports {
if imp.Name != nil && imp.Name.Name == pkgName { // the import had an alias that matched
break
}
impPath := strings.Replace(imp.Path.Value, `"`, ``, -1)
if strings.HasSuffix(impPath, "/"+pkgName) {
var err error
typeSpec, err = findTypeDef(impPath, typeName)
if err != nil {
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return fmt.Errorf("can not find type def: %q error: %s", schemaType, err)
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}
break
}
}
if typeSpec == nil {
return fmt.Errorf("can not find schema type: %q", schemaType)
}
if _, ok := operation.parser.TypeDefinitions[pkgName]; !ok {
operation.parser.TypeDefinitions[pkgName] = make(map[string]*ast.TypeSpec)
}
operation.parser.TypeDefinitions[pkgName][typeName] = typeSpec
operation.parser.registerTypes[schemaType] = typeSpec
return nil
}
var regexAttributes = map[string]*regexp.Regexp{
// for Enums(A, B)
"enums": regexp.MustCompile(`(?i)enums\(.*\)`),
// for Minimum(0)
"maxinum": regexp.MustCompile(`(?i)maxinum\(.*\)`),
// for Maximum(0)
"mininum": regexp.MustCompile(`(?i)mininum\(.*\)`),
// for Maximum(0)
"default": regexp.MustCompile(`(?i)default\(.*\)`),
// for minlength(0)
"minlength": regexp.MustCompile(`(?i)minlength\(.*\)`),
// for maxlength(0)
"maxlength": regexp.MustCompile(`(?i)maxlength\(.*\)`),
// for format(email)
"format": regexp.MustCompile(`(?i)format\(.*\)`),
}
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func (operation *Operation) parseAndExtractionParamAttribute(commentLine, schemaType string, param *spec.Parameter) error {
schemaType = TransToValidSchemeType(schemaType)
for attrKey, re := range regexAttributes {
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attr, err := findAttr(re, commentLine)
if err != nil {
continue
}
switch attrKey {
case "enums":
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err := setEnumParam(attr, schemaType, param)
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if err != nil {
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return err
}
case "maxinum":
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n, err := setNumberParam(attrKey, schemaType, attr, commentLine)
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if err != nil {
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return err
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}
param.Maximum = &n
case "mininum":
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n, err := setNumberParam(attrKey, schemaType, attr, commentLine)
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if err != nil {
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return err
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}
param.Minimum = &n
case "default":
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value, err := defineType(schemaType, attr)
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if err != nil {
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return nil
}
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param.Default = value
case "maxlength":
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n, err := setStringParam(attrKey, schemaType, attr, commentLine)
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if err != nil {
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return err
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}
param.MaxLength = &n
case "minlength":
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n, err := setStringParam(attrKey, schemaType, attr, commentLine)
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if err != nil {
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return err
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}
param.MinLength = &n
case "format":
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param.Format = attr
}
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}
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return nil
}
func findAttr(re *regexp.Regexp, commentLine string) (string, error) {
attr := re.FindString(commentLine)
l := strings.Index(attr, "(")
r := strings.Index(attr, ")")
if l == -1 || r == -1 {
return "", fmt.Errorf("can not find regex=%s, comment=%s", re.String(), commentLine)
}
return strings.TrimSpace(attr[l+1 : r]), nil
}
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func setStringParam(name, schemaType, attr, commentLine string) (int64, error) {
if schemaType != "string" {
return 0, fmt.Errorf("%s is attribute to set to a number. comment=%s got=%s", name, commentLine, schemaType)
}
n, err := strconv.ParseInt(attr, 10, 64)
if err != nil {
return 0, fmt.Errorf("%s is allow only a number got=%s", name, attr)
}
return n, nil
}
func setNumberParam(name, schemaType, attr, commentLine string) (float64, error) {
if schemaType != "integer" && schemaType != "number" {
return 0, fmt.Errorf("%s is attribute to set to a number. comment=%s got=%s", name, commentLine, schemaType)
}
n, err := strconv.ParseFloat(attr, 64)
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if err != nil {
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return 0, fmt.Errorf("maximum is allow only a number. comment=%s got=%s", commentLine, attr)
}
return n, nil
}
func setEnumParam(attr, schemaType string, param *spec.Parameter) error {
for _, e := range strings.Split(attr, ",") {
e = strings.TrimSpace(e)
value, err := defineType(schemaType, e)
if err != nil {
return err
}
param.Enum = append(param.Enum, value)
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}
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return nil
}
// defineType enum value define the type (object and array unsupported)
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func defineType(schemaType string, value string) (interface{}, error) {
schemaType = TransToValidSchemeType(schemaType)
switch schemaType {
case "string":
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return value, nil
case "number":
v, err := strconv.ParseFloat(value, 64)
if err != nil {
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return nil, fmt.Errorf("enum value %s can't convert to %s err: %s", value, schemaType, err)
}
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return v, nil
case "integer":
v, err := strconv.Atoi(value)
if err != nil {
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return nil, fmt.Errorf("enum value %s can't convert to %s err: %s", value, schemaType, err)
}
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return v, nil
case "boolean":
v, err := strconv.ParseBool(value)
if err != nil {
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return nil, fmt.Errorf("enum value %s can't convert to %s err: %s", value, schemaType, err)
}
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return v, nil
default:
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return nil, fmt.Errorf("%s is unsupported type in enum value", schemaType)
}
}
// ParseTagsComment parses comment for given `tag` comment string.
func (operation *Operation) ParseTagsComment(commentLine string) {
tags := strings.Split(commentLine, ",")
for _, tag := range tags {
operation.Tags = append(operation.Tags, strings.TrimSpace(tag))
}
}
// ParseAcceptComment parses comment for given `accept` comment string.
func (operation *Operation) ParseAcceptComment(commentLine string) error {
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return parseMimeTypeList(commentLine, &operation.Consumes, "%v accept type can't be accepted")
}
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// ParseProduceComment parses comment for given `produce` comment string.
func (operation *Operation) ParseProduceComment(commentLine string) error {
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return parseMimeTypeList(commentLine, &operation.Produces, "%v produce type can't be accepted")
}
// parseMimeTypeList parses a list of MIME Types for a comment like
// `produce` (`Content-Type:` response header) or
// `accept` (`Accept:` request header)
func parseMimeTypeList(mimeTypeList string, typeList *[]string, format string) error {
mimeTypes := strings.Split(mimeTypeList, ",")
for _, typeName := range mimeTypes {
if mimeTypePattern.MatchString(typeName) {
*typeList = append(*typeList, typeName)
continue
}
if aliasMimeType, ok := mimeTypeAliases[typeName]; ok {
*typeList = append(*typeList, aliasMimeType)
continue
}
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return fmt.Errorf(format, typeName)
}
return nil
}
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var routerPattern = regexp.MustCompile(`([\w\.\/\-{}\+]+)[^\[]+\[([^\]]+)`)
// ParseRouterComment parses comment for gived `router` comment string.
func (operation *Operation) ParseRouterComment(commentLine string) error {
var matches []string
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if matches = routerPattern.FindStringSubmatch(commentLine); len(matches) != 3 {
return fmt.Errorf("can not parse router comment \"%s\"", commentLine)
}
path := matches[1]
httpMethod := matches[2]
operation.Path = path
operation.HTTPMethod = strings.ToUpper(httpMethod)
return nil
}
// ParseSecurityComment parses comment for gived `security` comment string.
func (operation *Operation) ParseSecurityComment(commentLine string) error {
securitySource := commentLine[strings.Index(commentLine, "@Security")+1:]
l := strings.Index(securitySource, "[")
r := strings.Index(securitySource, "]")
// exists scope
if !(l == -1 && r == -1) {
scopes := securitySource[l+1 : r]
s := []string{}
for _, scope := range strings.Split(scopes, ",") {
scope = strings.TrimSpace(scope)
s = append(s, scope)
}
securityKey := securitySource[0:l]
securityMap := map[string][]string{}
securityMap[securityKey] = append(securityMap[securityKey], s...)
operation.Security = append(operation.Security, securityMap)
} else {
securityKey := strings.TrimSpace(securitySource)
securityMap := map[string][]string{}
securityMap[securityKey] = []string{}
operation.Security = append(operation.Security, securityMap)
}
return nil
}
// findTypeDef attempts to find the *ast.TypeSpec for a specific type given the
// type's name and the package's import path
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// TODO: improve finding external pkg
func findTypeDef(importPath, typeName string) (*ast.TypeSpec, error) {
cwd, err := os.Getwd()
if err != nil {
return nil, err
}
conf := loader.Config{
ParserMode: goparser.SpuriousErrors,
Cwd: cwd,
}
conf.Import(importPath)
lprog, err := conf.Load()
if err != nil {
return nil, err
}
// If the pkg is vendored, the actual pkg path is going to resemble
// something like "{importPath}/vendor/{importPath}"
for k := range lprog.AllPackages {
realPkgPath := k.Path()
if strings.Contains(realPkgPath, "vendor/"+importPath) {
importPath = realPkgPath
}
}
pkgInfo := lprog.Package(importPath)
if pkgInfo == nil {
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return nil, fmt.Errorf("package was nil")
}
// TODO: possibly cache pkgInfo since it's an expensive operation
for i := range pkgInfo.Files {
for _, astDeclaration := range pkgInfo.Files[i].Decls {
if generalDeclaration, ok := astDeclaration.(*ast.GenDecl); ok && generalDeclaration.Tok == token.TYPE {
for _, astSpec := range generalDeclaration.Specs {
if typeSpec, ok := astSpec.(*ast.TypeSpec); ok {
if typeSpec.Name.String() == typeName {
return typeSpec, nil
}
}
}
}
}
}
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return nil, fmt.Errorf("type spec not found")
}
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var responsePattern = regexp.MustCompile(`([\d]+)[\s]+([\w\{\}]+)[\s]+([\w\-\.\/]+)[^"]*(.*)?`)
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// ParseResponseComment parses comment for given `response` comment string.
func (operation *Operation) ParseResponseComment(commentLine string, astFile *ast.File) error {
var matches []string
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if matches = responsePattern.FindStringSubmatch(commentLine); len(matches) != 5 {
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err := operation.ParseEmptyResponseComment(commentLine)
if err != nil {
return operation.ParseEmptyResponseOnly(commentLine)
}
return err
}
response := spec.Response{}
code, _ := strconv.Atoi(matches[1])
responseDescription := strings.Trim(matches[4], "\"")
if responseDescription == "" {
responseDescription = http.StatusText(code)
}
response.Description = responseDescription
schemaType := strings.Trim(matches[2], "{}")
refType := matches[3]
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if !IsGolangPrimitiveType(refType) && !strings.Contains(refType, ".") {
currentPkgName := astFile.Name.String()
refType = currentPkgName + "." + refType
}
if operation.parser != nil { // checking refType has existing in 'TypeDefinitions'
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if err := operation.registerSchemaType(refType, astFile); err != nil {
return err
}
}
// so we have to know all type in app
response.Schema = &spec.Schema{SchemaProps: spec.SchemaProps{Type: []string{schemaType}}}
if schemaType == "object" {
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response.Schema.SchemaProps = spec.SchemaProps{}
response.Schema.Ref = spec.Ref{
Ref: jsonreference.MustCreateRef("#/definitions/" + refType),
}
}
if schemaType == "array" {
refType = TransToValidSchemeType(refType)
if IsPrimitiveType(refType) {
response.Schema.Items = &spec.SchemaOrArray{
Schema: &spec.Schema{
SchemaProps: spec.SchemaProps{
Type: spec.StringOrArray{refType},
},
},
}
} else {
response.Schema.Items = &spec.SchemaOrArray{
Schema: &spec.Schema{
SchemaProps: spec.SchemaProps{
Ref: spec.Ref{Ref: jsonreference.MustCreateRef("#/definitions/" + refType)},
},
},
}
}
}
if operation.Responses == nil {
operation.Responses = &spec.Responses{
ResponsesProps: spec.ResponsesProps{
StatusCodeResponses: make(map[int]spec.Response),
},
}
}
operation.Responses.StatusCodeResponses[code] = response
return nil
}
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// ParseResponseHeaderComment parses comment for gived `response header` comment string.
func (operation *Operation) ParseResponseHeaderComment(commentLine string, astFile *ast.File) error {
var matches []string
if matches = responsePattern.FindStringSubmatch(commentLine); len(matches) != 5 {
return fmt.Errorf("can not parse response comment \"%s\"", commentLine)
}
response := spec.Response{}
code, _ := strconv.Atoi(matches[1])
responseDescription := strings.Trim(matches[4], "\"")
if responseDescription == "" {
responseDescription = http.StatusText(code)
}
response.Description = responseDescription
schemaType := strings.Trim(matches[2], "{}")
refType := matches[3]
if operation.Responses == nil {
operation.Responses = &spec.Responses{
ResponsesProps: spec.ResponsesProps{
StatusCodeResponses: make(map[int]spec.Response),
},
}
}
response, responseExist := operation.Responses.StatusCodeResponses[code]
if responseExist {
header := spec.Header{}
header.Description = responseDescription
header.Type = schemaType
if response.Headers == nil {
response.Headers = make(map[string]spec.Header)
}
response.Headers[refType] = header
operation.Responses.StatusCodeResponses[code] = response
}
return nil
}
var emptyResponsePattern = regexp.MustCompile(`([\d]+)[\s]+"(.*)"`)
// ParseEmptyResponseComment parse only comment out status code and description,eg: @Success 200 "it's ok"
func (operation *Operation) ParseEmptyResponseComment(commentLine string) error {
var matches []string
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if matches = emptyResponsePattern.FindStringSubmatch(commentLine); len(matches) != 3 {
return fmt.Errorf("can not parse response comment \"%s\"", commentLine)
}
response := spec.Response{}
code, _ := strconv.Atoi(matches[1])
response.Description = strings.Trim(matches[2], "")
if operation.Responses == nil {
operation.Responses = &spec.Responses{
ResponsesProps: spec.ResponsesProps{
StatusCodeResponses: make(map[int]spec.Response),
},
}
}
operation.Responses.StatusCodeResponses[code] = response
return nil
}
//ParseEmptyResponseOnly parse only comment out status code ,eg: @Success 200
func (operation *Operation) ParseEmptyResponseOnly(commentLine string) error {
response := spec.Response{}
code, err := strconv.Atoi(commentLine)
if err != nil {
return fmt.Errorf("can not parse response comment \"%s\"", commentLine)
}
if operation.Responses == nil {
operation.Responses = &spec.Responses{
ResponsesProps: spec.ResponsesProps{
StatusCodeResponses: make(map[int]spec.Response),
},
}
}
operation.Responses.StatusCodeResponses[code] = response
return nil
}
// createParameter returns swagger spec.Parameter for gived paramType, description, paramName, schemaType, required
func createParameter(paramType, description, paramName, schemaType string, required bool) spec.Parameter {
// //five possible parameter types. query, path, body, header, form
paramProps := spec.ParamProps{
Name: paramName,
Description: description,
Required: required,
In: paramType,
}
if paramType == "body" {
paramProps.Schema = &spec.Schema{
SchemaProps: spec.SchemaProps{
Type: []string{schemaType},
},
}
parameter := spec.Parameter{
ParamProps: paramProps,
}
return parameter
}
parameter := spec.Parameter{
ParamProps: paramProps,
SimpleSchema: spec.SimpleSchema{
Type: schemaType,
},
}
return parameter
}