package echoswagger import ( "reflect" "strconv" "strings" ) // getTag reports is a tag exists and it's content // search tagName in all tags when index = -1 func getTag(field reflect.StructField, tagName string, index int) (bool, string) { t := field.Tag.Get(tagName) s := strings.Split(t, ",") if len(s) < index+1 { return false, "" } return true, strings.TrimSpace(s[index]) } func getSwaggerTags(field reflect.StructField) map[string]string { t := field.Tag.Get("swagger") r := make(map[string]string) for _, v := range strings.Split(t, ",") { leftIndex := strings.Index(v, "(") rightIndex := strings.LastIndex(v, ")") if leftIndex > 0 && rightIndex > leftIndex { r[v[:leftIndex]] = v[leftIndex+1 : rightIndex] } else { r[v] = "" } } return r } func getFieldName(f reflect.StructField, in ParamInType) string { var name string switch in { case ParamInQuery: name = f.Tag.Get("query") case ParamInFormData: name = f.Tag.Get("form") case ParamInBody, ParamInHeader, ParamInPath: _, name = getTag(f, "json", 0) } if name != "" { return name } else { return f.Name } } func (p *Parameter) handleSwaggerTags(field reflect.StructField, name string, in ParamInType) { tags := getSwaggerTags(field) if t, ok := tags["desc"]; ok { p.Description = t } if t, ok := tags["min"]; ok { if m, err := strconv.ParseFloat(t, 64); err == nil { p.Minimum = &m } } if t, ok := tags["max"]; ok { if m, err := strconv.ParseFloat(t, 64); err == nil { p.Maximum = &m } } if t, ok := tags["minLen"]; ok { if m, err := strconv.Atoi(t); err == nil { p.MinLength = &m } } if t, ok := tags["maxLen"]; ok { if m, err := strconv.Atoi(t); err == nil { p.MaxLength = &m } } if _, ok := tags["allowEmpty"]; ok { p.AllowEmptyValue = true } if _, ok := tags["required"]; ok || in == ParamInPath { p.Required = true } convert := converter(field.Type) if t, ok := tags["enum"]; ok { enums := strings.Split(t, "|") var es []interface{} for _, s := range enums { v, err := convert(s) if err != nil { continue } es = append(es, v) } p.Enum = es } if t, ok := tags["default"]; ok { v, err := convert(t) if err == nil { p.Default = v } } // Move part of tags in Parameter to Items if p.Type == "array" { items := p.Items.latest() items.Minimum = p.Minimum items.Maximum = p.Maximum items.MinLength = p.MinLength items.MaxLength = p.MaxLength items.Enum = p.Enum items.Default = p.Default p.Minimum = nil p.Maximum = nil p.MinLength = nil p.MaxLength = nil p.Enum = nil p.Default = nil } } func (s *JSONSchema) handleSwaggerTags(f reflect.StructField, name string) { propSchema := s.Properties[name] tags := getSwaggerTags(f) if t, ok := tags["desc"]; ok { propSchema.Description = t } if t, ok := tags["min"]; ok { if m, err := strconv.ParseFloat(t, 64); err == nil { propSchema.Minimum = &m } } if t, ok := tags["max"]; ok { if m, err := strconv.ParseFloat(t, 64); err == nil { propSchema.Maximum = &m } } if t, ok := tags["minLen"]; ok { if m, err := strconv.Atoi(t); err == nil { propSchema.MinLength = &m } } if t, ok := tags["maxLen"]; ok { if m, err := strconv.Atoi(t); err == nil { propSchema.MaxLength = &m } } if _, ok := tags["required"]; ok { s.Required = append(s.Required, name) } if _, ok := tags["readOnly"]; ok { propSchema.ReadOnly = true } convert := converter(f.Type) if t, ok := tags["enum"]; ok { enums := strings.Split(t, "|") var es []interface{} for _, s := range enums { v, err := convert(s) if err != nil { continue } es = append(es, v) } propSchema.Enum = es } if t, ok := tags["default"]; ok { v, err := convert(t) if err == nil { propSchema.DefaultValue = v } } // Move part of tags in Schema to Items if propSchema.Type == "array" { items := propSchema.Items.latest() items.Minimum = propSchema.Minimum items.Maximum = propSchema.Maximum items.MinLength = propSchema.MinLength items.MaxLength = propSchema.MaxLength items.Enum = propSchema.Enum items.DefaultValue = propSchema.DefaultValue propSchema.Minimum = nil propSchema.Maximum = nil propSchema.MinLength = nil propSchema.MaxLength = nil propSchema.Enum = nil propSchema.DefaultValue = nil } } func (h *Header) handleSwaggerTags(f reflect.StructField, name string) { tags := getSwaggerTags(f) if t, ok := tags["desc"]; ok { h.Description = t } if t, ok := tags["min"]; ok { if m, err := strconv.ParseFloat(t, 64); err == nil { h.Minimum = &m } } if t, ok := tags["max"]; ok { if m, err := strconv.ParseFloat(t, 64); err == nil { h.Maximum = &m } } if t, ok := tags["minLen"]; ok { if m, err := strconv.Atoi(t); err == nil { h.MinLength = &m } } if t, ok := tags["maxLen"]; ok { if m, err := strconv.Atoi(t); err == nil { h.MaxLength = &m } } convert := converter(f.Type) if t, ok := tags["enum"]; ok { enums := strings.Split(t, "|") var es []interface{} for _, s := range enums { v, err := convert(s) if err != nil { continue } es = append(es, v) } h.Enum = es } if t, ok := tags["default"]; ok { v, err := convert(t) if err == nil { h.Default = v } } // Move part of tags in Header to Items if h.Type == "array" { items := h.Items.latest() items.Minimum = h.Minimum items.Maximum = h.Maximum items.MinLength = h.MinLength items.MaxLength = h.MaxLength items.Enum = h.Enum items.Default = h.Default h.Minimum = nil h.Maximum = nil h.MinLength = nil h.MaxLength = nil h.Enum = nil h.Default = nil } } func (t *Items) latest() *Items { if t.Items != nil { return t.Items.latest() } return t } func (s *JSONSchema) latest() *JSONSchema { if s.Items != nil { return s.Items.latest() } return s } // Not support nested elements tag eg:"a>b>c" // Not support tags: ",chardata", ",cdata", ",comment" // Not support embedded structure with tag ",innerxml" // Only support nested elements tag in array type eg:"Name []string `xml:"names>name"`" func (s *JSONSchema) handleXMLTags(f reflect.StructField) { b, a := getTag(f, "xml", 1) if b && contains([]string{"chardata", "cdata", "comment"}, a) { return } if b, t := getTag(f, "xml", 0); b { if t == "-" || s.Ref != "" { return } else if t == "" { t = f.Name } if s.XML == nil { s.XML = &XMLSchema{} } if a == "attr" { s.XML.Attribute = t } else { s.XML.Name = t } } } func (s *JSONSchema) handleChildXMLTags(rest string, r *RawDefineDic) { if rest == "" { return } if s.Items == nil && s.Ref == "" { if s.XML == nil { s.XML = &XMLSchema{} } s.XML.Name = rest } else if s.Ref != "" { key := s.Ref[len(DefPrefix):] if sc, ok := (*r)[key]; ok && sc.Schema != nil { if sc.Schema.XML == nil { sc.Schema.XML = &XMLSchema{} } sc.Schema.XML.Name = rest } } else { if s.XML == nil { s.XML = &XMLSchema{} } s.XML.Wrapped = true i := strings.Index(rest, ">") if i <= 0 { s.XML.Name = rest } else { s.XML.Name = rest[:i] rest = rest[i+1:] s.Items.handleChildXMLTags(rest, r) } } }