package validator import ( "fmt" "reflect" "strconv" ) // per validate contruct type validate struct { v *Validate top reflect.Value ns []byte actualNs []byte errs ValidationErrors isPartial bool hasExcludes bool includeExclude map[string]struct{} // reset only if StructPartial or StructExcept are called, no need otherwise ffn FilterFunc // StructLevel & FieldLevel fields slflParent reflect.Value slCurrent reflect.Value flField reflect.Value flParam string // misc reusable values misc []byte str1 string str2 string } // parent and current will be the same the first run of validateStruct func (v *validate) validateStruct(parent reflect.Value, current reflect.Value, typ reflect.Type, ns []byte, structNs []byte, ct *cTag) { cs, ok := v.v.structCache.Get(typ) if !ok { cs = v.v.extractStructCache(current, typ.Name()) } if len(ns) == 0 && len(cs.name) != 0 { ns = append(ns, cs.name...) ns = append(ns, '.') structNs = append(structNs, cs.name...) structNs = append(structNs, '.') } // ct is nil on top level struct, and structs as fields that have no tag info // so if nil or if not nil and the structonly tag isn't present if ct == nil || ct.typeof != typeStructOnly { for _, f := range cs.fields { if v.isPartial { if v.ffn != nil { // used with StructFiltered if v.ffn(append(structNs, f.name...)) { continue } } else { // used with StructPartial & StructExcept _, ok = v.includeExclude[string(append(structNs, f.name...))] if (ok && v.hasExcludes) || (!ok && !v.hasExcludes) { continue } } } v.traverseField(parent, current.Field(f.idx), ns, structNs, f, f.cTags) } } // check if any struct level validations, after all field validations already checked. // first iteration will have no info about nostructlevel tag, and is checked prior to // calling the next iteration of validateStruct called from traverseField. if cs.fn != nil { v.slflParent = parent v.slCurrent = current v.ns = ns v.actualNs = structNs cs.fn(v) } } // traverseField validates any field, be it a struct or single field, ensures it's validity and passes it along to be validated via it's tag options func (v *validate) traverseField(parent reflect.Value, current reflect.Value, ns []byte, structNs []byte, cf *cField, ct *cTag) { var typ reflect.Type var kind reflect.Kind var nullable bool current, kind, nullable = v.extractTypeInternal(current, nullable) switch kind { case reflect.Ptr, reflect.Interface, reflect.Invalid: if ct == nil { return } if ct.typeof == typeOmitEmpty { return } if ct.hasTag { v.str1 = string(append(ns, cf.altName...)) if v.v.hasTagNameFunc { v.str2 = string(append(structNs, cf.name...)) } else { v.str2 = v.str1 } if kind == reflect.Invalid { v.errs = append(v.errs, &fieldError{ v: v.v, tag: ct.aliasTag, actualTag: ct.tag, ns: v.str1, structNs: v.str2, fieldLen: uint8(len(cf.altName)), structfieldLen: uint8(len(cf.name)), param: ct.param, kind: kind, }, ) return } v.errs = append(v.errs, &fieldError{ v: v.v, tag: ct.aliasTag, actualTag: ct.tag, ns: v.str1, structNs: v.str2, fieldLen: uint8(len(cf.altName)), structfieldLen: uint8(len(cf.name)), value: current.Interface(), param: ct.param, kind: kind, typ: current.Type(), }, ) return } case reflect.Struct: typ = current.Type() if typ != timeType { if ct != nil { ct = ct.next } if ct != nil && ct.typeof == typeNoStructLevel { return } // if len == 0 then validating using 'Var' or 'VarWithValue' // Var - doesn't make much sense to do it that way, should call 'Struct', but no harm... // VarWithField - this allows for validating against each field withing the struct against a specific value // pretty handly in certain situations if len(ns) > 0 { ns = append(append(ns, cf.altName...), '.') structNs = append(append(structNs, cf.name...), '.') } v.validateStruct(current, current, typ, ns, structNs, ct) return } } if !ct.hasTag { return } typ = current.Type() OUTER: for { if ct == nil { return } switch ct.typeof { case typeOmitEmpty: // set Field Level fields v.slflParent = parent v.flField = current v.flParam = "" if !nullable && !hasValue(v) { return } ct = ct.next continue case typeDive: ct = ct.next // traverse slice or map here // or panic ;) switch kind { case reflect.Slice, reflect.Array: var i64 int64 reusableCF := &cField{} for i := 0; i < current.Len(); i++ { i64 = int64(i) v.misc = append(v.misc[0:0], cf.name...) v.misc = append(v.misc, '[') v.misc = strconv.AppendInt(v.misc, i64, 10) v.misc = append(v.misc, ']') reusableCF.name = string(v.misc) if cf.namesEqual { reusableCF.altName = reusableCF.name } else { v.misc = append(v.misc[0:0], cf.altName...) v.misc = append(v.misc, '[') v.misc = strconv.AppendInt(v.misc, i64, 10) v.misc = append(v.misc, ']') reusableCF.altName = string(v.misc) } v.traverseField(parent, current.Index(i), ns, structNs, reusableCF, ct) } case reflect.Map: var pv string reusableCF := &cField{} for _, key := range current.MapKeys() { pv = fmt.Sprintf("%v", key.Interface()) v.misc = append(v.misc[0:0], cf.name...) v.misc = append(v.misc, '[') v.misc = append(v.misc, pv...) v.misc = append(v.misc, ']') reusableCF.name = string(v.misc) if cf.namesEqual { reusableCF.altName = reusableCF.name } else { v.misc = append(v.misc[0:0], cf.altName...) v.misc = append(v.misc, '[') v.misc = append(v.misc, pv...) v.misc = append(v.misc, ']') reusableCF.altName = string(v.misc) } v.traverseField(parent, current.MapIndex(key), ns, structNs, reusableCF, ct) } default: // throw error, if not a slice or map then should not have gotten here // bad dive tag panic("dive error! can't dive on a non slice or map") } return case typeOr: v.misc = v.misc[0:0] for { // set Field Level fields v.slflParent = parent v.flField = current v.flParam = ct.param if ct.fn(v) { // drain rest of the 'or' values, then continue or leave for { ct = ct.next if ct == nil { return } if ct.typeof != typeOr { continue OUTER } } } v.misc = append(v.misc, '|') v.misc = append(v.misc, ct.tag...) if len(ct.param) > 0 { v.misc = append(v.misc, '=') v.misc = append(v.misc, ct.param...) } if ct.next == nil || ct.next.typeof != typeOr { // ct.typeof != typeOr // if we get here, no valid 'or' value and no more tags v.str1 = string(append(ns, cf.altName...)) if v.v.hasTagNameFunc { v.str2 = string(append(structNs, cf.name...)) } else { v.str2 = v.str1 } if ct.hasAlias { v.errs = append(v.errs, &fieldError{ v: v.v, tag: ct.aliasTag, actualTag: ct.actualAliasTag, ns: v.str1, structNs: v.str2, fieldLen: uint8(len(cf.altName)), structfieldLen: uint8(len(cf.name)), value: current.Interface(), param: ct.param, kind: kind, typ: typ, }, ) } else { tVal := string(v.misc)[1:] v.errs = append(v.errs, &fieldError{ v: v.v, tag: tVal, actualTag: tVal, ns: v.str1, structNs: v.str2, fieldLen: uint8(len(cf.altName)), structfieldLen: uint8(len(cf.name)), value: current.Interface(), param: ct.param, kind: kind, typ: typ, }, ) } return } ct = ct.next } default: // set Field Level fields v.slflParent = parent v.flField = current v.flParam = ct.param // // report error interface functions need these // v.ns = ns // v.actualNs = structNs if !ct.fn(v) { v.str1 = string(append(ns, cf.altName...)) if v.v.hasTagNameFunc { v.str2 = string(append(structNs, cf.name...)) } else { v.str2 = v.str1 } v.errs = append(v.errs, &fieldError{ v: v.v, tag: ct.aliasTag, actualTag: ct.tag, ns: v.str1, structNs: v.str2, fieldLen: uint8(len(cf.altName)), structfieldLen: uint8(len(cf.name)), value: current.Interface(), param: ct.param, kind: kind, typ: typ, }, ) return } ct = ct.next } } }