// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "bytes" "encoding/json" "errors" "fmt" "io" "net/http" "reflect" "strconv" "strings" "time" "github.com/bcicen/jstream" "github.com/minio/minio-go/v7/pkg/set" ) // startWithConds - map which indicates if a given condition supports starts-with policy operator var startsWithConds = map[string]bool{ "$acl": true, "$bucket": false, "$cache-control": true, "$content-type": true, "$content-disposition": true, "$content-encoding": true, "$expires": true, "$key": true, "$success_action_redirect": true, "$redirect": true, "$success_action_status": true, "$x-amz-algorithm": false, "$x-amz-credential": false, "$x-amz-date": false, } // Add policy conditionals. const ( policyCondEqual = "eq" policyCondStartsWith = "starts-with" policyCondContentLength = "content-length-range" ) // toString - Safely convert interface to string without causing panic. func toString(val interface{}) string { switch v := val.(type) { case string: return v default: return "" } } // toLowerString - safely convert interface to lower string func toLowerString(val interface{}) string { return strings.ToLower(toString(val)) } // toInteger _ Safely convert interface to integer without causing panic. func toInteger(val interface{}) (int64, error) { switch v := val.(type) { case float64: return int64(v), nil case int64: return v, nil case int: return int64(v), nil case string: i, err := strconv.Atoi(v) return int64(i), err default: return 0, errors.New("Invalid number format") } } // isString - Safely check if val is of type string without causing panic. func isString(val interface{}) bool { _, ok := val.(string) return ok } // ContentLengthRange - policy content-length-range field. type contentLengthRange struct { Min int64 Max int64 Valid bool // If content-length-range was part of policy } // PostPolicyForm provides strict static type conversion and validation for Amazon S3's POST policy JSON string. type PostPolicyForm struct { Expiration time.Time // Expiration date and time of the POST policy. Conditions struct { // Conditional policy structure. Policies []struct { Operator string Key string Value string } ContentLengthRange contentLengthRange } } // implemented to ensure that duplicate keys in JSON // are merged together into a single JSON key, also // to remove any extraneous JSON bodies. // // Go stdlib doesn't support parsing JSON with duplicate // keys, so we need to use this technique to merge the // keys. func sanitizePolicy(r io.Reader) (io.Reader, error) { var buf bytes.Buffer e := json.NewEncoder(&buf) d := jstream.NewDecoder(r, 0).ObjectAsKVS() sset := set.NewStringSet() for mv := range d.Stream() { var kvs jstream.KVS if mv.ValueType == jstream.Object { // This is a JSON object type (that preserves key order) kvs = mv.Value.(jstream.KVS) for _, kv := range kvs { if sset.Contains(kv.Key) { // Reject duplicate conditions or expiration. return nil, fmt.Errorf("input policy has multiple %s, please fix your client code", kv.Key) } sset.Add(kv.Key) } e.Encode(kvs) } } return &buf, d.Err() } // parsePostPolicyForm - Parse JSON policy string into typed PostPolicyForm structure. func parsePostPolicyForm(r io.Reader) (PostPolicyForm, error) { reader, err := sanitizePolicy(r) if err != nil { return PostPolicyForm{}, err } d := json.NewDecoder(reader) // Convert po into interfaces and // perform strict type conversion using reflection. var rawPolicy struct { Expiration string `json:"expiration"` Conditions []interface{} `json:"conditions"` } d.DisallowUnknownFields() if err := d.Decode(&rawPolicy); err != nil { return PostPolicyForm{}, err } parsedPolicy := PostPolicyForm{} // Parse expiry time. parsedPolicy.Expiration, err = time.Parse(time.RFC3339Nano, rawPolicy.Expiration) if err != nil { return PostPolicyForm{}, err } // Parse conditions. for _, val := range rawPolicy.Conditions { switch condt := val.(type) { case map[string]interface{}: // Handle key:value map types. for k, v := range condt { if !isString(v) { // Pre-check value type. // All values must be of type string. return parsedPolicy, fmt.Errorf("Unknown type %s of conditional field value %s found in POST policy form", reflect.TypeOf(condt).String(), condt) } // {"acl": "public-read" } is an alternate way to indicate - [ "eq", "$acl", "public-read" ] // In this case we will just collapse this into "eq" for all use cases. parsedPolicy.Conditions.Policies = append(parsedPolicy.Conditions.Policies, struct { Operator string Key string Value string }{ policyCondEqual, "$" + strings.ToLower(k), toString(v), }) } case []interface{}: // Handle array types. if len(condt) != 3 { // Return error if we have insufficient elements. return parsedPolicy, fmt.Errorf("Malformed conditional fields %s of type %s found in POST policy form", condt, reflect.TypeOf(condt).String()) } switch toLowerString(condt[0]) { case policyCondEqual, policyCondStartsWith: for _, v := range condt { // Pre-check all values for type. if !isString(v) { // All values must be of type string. return parsedPolicy, fmt.Errorf("Unknown type %s of conditional field value %s found in POST policy form", reflect.TypeOf(condt).String(), condt) } } operator, matchType, value := toLowerString(condt[0]), toLowerString(condt[1]), toString(condt[2]) if !strings.HasPrefix(matchType, "$") { return parsedPolicy, fmt.Errorf("Invalid according to Policy: Policy Condition failed: [%s, %s, %s]", operator, matchType, value) } parsedPolicy.Conditions.Policies = append(parsedPolicy.Conditions.Policies, struct { Operator string Key string Value string }{ operator, matchType, value, }) case policyCondContentLength: min, err := toInteger(condt[1]) if err != nil { return parsedPolicy, err } max, err := toInteger(condt[2]) if err != nil { return parsedPolicy, err } parsedPolicy.Conditions.ContentLengthRange = contentLengthRange{ Min: min, Max: max, Valid: true, } default: // Condition should be valid. return parsedPolicy, fmt.Errorf("Unknown type %s of conditional field value %s found in POST policy form", reflect.TypeOf(condt).String(), condt) } default: return parsedPolicy, fmt.Errorf("Unknown field %s of type %s found in POST policy form", condt, reflect.TypeOf(condt).String()) } } return parsedPolicy, nil } // checkPolicyCond returns a boolean to indicate if a condition is satisified according // to the passed operator func checkPolicyCond(op string, input1, input2 string) bool { switch op { case policyCondEqual: return input1 == input2 case policyCondStartsWith: return strings.HasPrefix(input1, input2) } return false } // checkPostPolicy - apply policy conditions and validate input values. // (http://docs.aws.amazon.com/AmazonS3/latest/API/sigv4-HTTPPOSTConstructPolicy.html) func checkPostPolicy(formValues http.Header, postPolicyForm PostPolicyForm) error { // Check if policy document expiry date is still not reached if !postPolicyForm.Expiration.After(UTCNow()) { return fmt.Errorf("Invalid according to Policy: Policy expired") } // map to store the metadata metaMap := make(map[string]string) for _, policy := range postPolicyForm.Conditions.Policies { if strings.HasPrefix(policy.Key, "$x-amz-meta-") { formCanonicalName := http.CanonicalHeaderKey(strings.TrimPrefix(policy.Key, "$")) metaMap[formCanonicalName] = policy.Value } } // Check if any extra metadata field is passed as input for key := range formValues { if strings.HasPrefix(key, "X-Amz-Meta-") { if _, ok := metaMap[key]; !ok { return fmt.Errorf("Invalid according to Policy: Extra input fields: %s", key) } } } // Flag to indicate if all policies conditions are satisfied var condPassed bool // Iterate over policy conditions and check them against received form fields for _, policy := range postPolicyForm.Conditions.Policies { // Form fields names are in canonical format, convert conditions names // to canonical for simplification purpose, so `$key` will become `Key` formCanonicalName := http.CanonicalHeaderKey(strings.TrimPrefix(policy.Key, "$")) // Operator for the current policy condition op := policy.Operator // If the current policy condition is known if startsWithSupported, condFound := startsWithConds[policy.Key]; condFound { // Check if the current condition supports starts-with operator if op == policyCondStartsWith && !startsWithSupported { return fmt.Errorf("Invalid according to Policy: Policy Condition failed") } // Check if current policy condition is satisfied condPassed = checkPolicyCond(op, formValues.Get(formCanonicalName), policy.Value) if !condPassed { return fmt.Errorf("Invalid according to Policy: Policy Condition failed") } } else { // This covers all conditions X-Amz-Meta-* and X-Amz-* if strings.HasPrefix(policy.Key, "$x-amz-meta-") || strings.HasPrefix(policy.Key, "$x-amz-") { // Check if policy condition is satisfied condPassed = checkPolicyCond(op, formValues.Get(formCanonicalName), policy.Value) if !condPassed { return fmt.Errorf("Invalid according to Policy: Policy Condition failed: [%s, %s, %s]", op, policy.Key, policy.Value) } } } } return nil }