Java Example of Meta-Schema v1
Validate payloads with Amazon Product Type Definitions meta-schema instances.
Example Validator Implementation for Java
For Java applications, the networknt/json-schema-validator library supports JSON Schema Draft 2019-09 and custom vocabularies. The following example demonstrates how to utilize the networknt/json-schema-validator library to validate payloads with instances of the Amazon Product Type Definition Meta-Schema. There is no requirement to use this specific library or the example implementation. Amazon does not provide technical support for third-party JSON Schema libraries and this is provided as an example only.
Schema Configuration
When using the networknt/json-schema-validator to validate instances of the Amazon Product Type Definition Meta-Schema with custom vocabulary, the meta-schema is configured as part of the JsonSchemaFactory
.
Constants:
// $id of the Amazon Product Type Definition Meta-Schema.
String schemaId = "https://schemas.amazon.com/selling-partners/definitions/product-types/meta-schema/v1";
// Local copy of the Amazon Product Type Definition Meta-Schema.
String metaSchemaPath = "./amazon-product-type-definition-meta-schema-v1.json";
// Local copy of an instance of the Amazon Product Type Definition Meta-Schema.
String luggageSchemaPath = "./luggage.json";
// Keywords that are informational only and do not require validation.
List<String> nonValidatingKeywords = ImmutableList.of("editable", "enumNames");
Configure Meta-Schema:
// Standard JSON Schema 2019-09 that Amazon Product Type Definition Meta-Schema extends from.
JsonMetaSchema standardMetaSchema = JsonMetaSchema.getV201909();
// Build Amazon Product Type Definition Meta Schema with the standard JSON Schema 2019-09 as the blueprint.
// Register custom keyword validation classes (see below).
JsonMetaSchema metaSchema = JsonMetaSchema.builder(SCHEMA_ID, standardMetaSchema)
.addKeywords(NON_VALIDATING_KEYWORDS.stream().map(NonValidationKeyword::new)
.collect(Collectors.toSet()))
.addKeyword(new MaxUniqueItemsKeyword())
.addKeyword(new MaxUtf8ByteLengthKeyword())
.addKeyword(new MinUtf8ByteLengthKeyword())
.build();
Build JsonSchemaFactory:
// URIFetcher to route meta-schema references to local copy.
URIFetcher uriFetcher = uri -> {
// Use the local copy of the meta-schema instead of retrieving from the web.
if (schemaId.equalsIgnoreCase(uri.toString())) {
return Files.newInputStream(Paths.get(metaSchemaPath));
}
// Default to the existing fetcher for other schemas.
return new URLFetcher().fetch(uri);
};
// Build the JsonSchemaFactory.
JsonSchemaFactory schemaFactory = new JsonSchemaFactory.Builder()
.defaultMetaSchemaURI(schemaId)
.addMetaSchema(standardMetaSchema)
.addMetaSchema(metaSchema)
.uriFetcher(uriFetcher, "https")
.build();
// Create the JsonSchema instance.
JsonSchema luggageSchema = schemaFactory.getSchema(new String(Files.readAllBytes(Paths.get(luggageSchemaPath))));
Payload Validation
With an instance of the Amazon Product Type Definition Meta-Schema loaded as a JsonSchema
instance, payloads can be validated using the instance.
// Create a JsonNode for the payload (this can be constructed in code or read from a file).
JsonNode payload = new ObjectMapper().readValue(new File("./payload.json"), JsonNode.class);
// Validate the payload and get any resulting validation messages.
Set<ValidationMessage> messages = luggageSchema.validate(payload);
If no validation messages are returned, validation passed. Otherwise, inspect the validation messages to identify errors with the payload.
Keyword Validation
The networknt/json-schema-validator supports validating custom vocabulary by using classes that extend the AbstractKeyword
class and provide the validation logic.
Refer to https://github.com/networknt/json-schema-validator/blob/master/doc/validators.md.
The following examples illustrate extensions of the AbstractKeyword
class that validate the custom vocabulary in instances of the Amazon Product Type Definition Meta-Schema.
MaxUniqueItemsKeyword
Class
MaxUniqueItemsKeyword
Classimport com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.node.JsonNodeType;
import com.google.common.collect.Maps;
import com.google.common.collect.Sets;
import com.google.common.collect.Streams;
import com.networknt.schema.AbstractJsonValidator;
import com.networknt.schema.AbstractKeyword;
import com.networknt.schema.CustomErrorMessageType;
import com.networknt.schema.JsonSchema;
import com.networknt.schema.JsonValidator;
import com.networknt.schema.ValidationContext;
import com.networknt.schema.ValidationMessage;
import org.apache.commons.lang3.StringUtils;
import java.text.MessageFormat;
import java.util.Iterator;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import java.util.stream.Collectors;
/**
* Example validator for the "maxUniqueItems" keyword.
*/
public class MaxUniqueItemsKeyword extends AbstractKeyword {
private static final MessageFormat ERROR_MESSAGE_FORMAT = new MessageFormat("Each combination of selector "
+ "values may only occur {1} times. The following selector value combination occurs too many times: {2}");
private static final String KEYWORD = "maxUniqueItems";
private static final String SELECTORS = "selectors";
public MaxUniqueItemsKeyword() {
super(KEYWORD);
}
@Override
public JsonValidator newValidator(String schemaPath, JsonNode schemaNode, JsonSchema parentSchema,
ValidationContext validationContext) {
// Only process if the provided schema value is a number.
if (!JsonNodeType.NUMBER.equals(schemaNode.getNodeType())) {
return null;
}
int maxUniqueItems = schemaNode.asInt();
// Get the selector properties configured on the scheme element, if they exist. Otherwise, this validator
// defaults to using all properties.
Set<String> selectors = getSelectorProperties(parentSchema);
return new AbstractJsonValidator(this.getValue()) {
@Override
public Set<ValidationMessage> validate(JsonNode node, JsonNode rootNode, String at) {
// Only process if the node is an array, as selectors and unique items do not apply to other data
// types.
if (node.isArray()) {
// Create a property-value map of each items properties (selectors) and count the number of
// occurrences for each combination.
Map<Map<String, String>, Integer> uniqueItemCounts = Maps.newHashMap();
node.forEach(instance -> {
// Only process instances that are objects.
if (instance.isObject()) {
Map<String, String> uniqueKeys = Maps.newHashMap();
Iterator<Map.Entry<String, JsonNode>> fieldIterator = instance.fields();
while (fieldIterator.hasNext()) {
Map.Entry<String, JsonNode> entry = fieldIterator.next();
// If no selectors are configured, always add. Otherwise only add if the property is
// a selector.
if (selectors.isEmpty() || selectors.contains(entry.getKey())) {
uniqueKeys.put(entry.getKey(), entry.getValue().asText());
}
}
// Iterate count and put in counts map.
int count = uniqueItemCounts.getOrDefault(uniqueKeys, 0) + 1;
uniqueItemCounts.put(uniqueKeys, count);
}
});
// Find first selector combination with too many instances.
Optional<Map<String, String>> uniqueKeysWithTooManyItems = uniqueItemCounts.entrySet()
.stream().filter(entry -> entry.getValue() > maxUniqueItems).map(Map.Entry::getKey)
.findFirst();
// Return a failed validation if a selector combination has too many instances.
if (uniqueKeysWithTooManyItems.isPresent()) {
return fail(CustomErrorMessageType.of(KEYWORD, ERROR_MESSAGE_FORMAT), at,
Integer.toString(maxUniqueItems), uniqueKeysWithTooManyItems.get().toString());
}
}
return pass();
}
};
}
private Set<String> getSelectorProperties(JsonSchema parentSchema) {
if (parentSchema.getSchemaNode().has(SELECTORS) && parentSchema.getSchemaNode().get(SELECTORS).isArray()) {
return Streams.stream(parentSchema.getSchemaNode().get(SELECTORS)).map(JsonNode::asText)
.filter(StringUtils::isNotBlank).collect(Collectors.toSet());
}
return Sets.newHashSet();
}
}
MaxUtf8ByteLengthKeyword
Class
MaxUtf8ByteLengthKeyword
Classpackage com.amazon.spucs.tests.keywords;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.node.JsonNodeType;
import com.networknt.schema.AbstractJsonValidator;
import com.networknt.schema.AbstractKeyword;
import com.networknt.schema.CustomErrorMessageType;
import com.networknt.schema.JsonSchema;
import com.networknt.schema.JsonValidator;
import com.networknt.schema.ValidationContext;
import com.networknt.schema.ValidationMessage;
import java.nio.charset.StandardCharsets;
import java.text.MessageFormat;
import java.util.Set;
/**
* Example validator for the "maxUtf8ByteLength" keyword.
*/
public class MaxUtf8ByteLengthKeyword extends AbstractKeyword {
private static final MessageFormat ERROR_MESSAGE_FORMAT =
new MessageFormat("Value must be less than or equal {1} bytes in length.");
private static final String KEYWORD = "maxUtf8ByteLength";
public MaxUtf8ByteLengthKeyword() {
super(KEYWORD);
}
@Override
public JsonValidator newValidator(String schemaPath, JsonNode schemaNode, JsonSchema parentSchema,
ValidationContext validationContext) {
// Only process if the provided schema value is a number.
if (!JsonNodeType.NUMBER.equals(schemaNode.getNodeType())) {
return null;
}
int maxUtf8ByteLength = schemaNode.asInt();
return new AbstractJsonValidator(this.getValue()) {
@Override
public Set<ValidationMessage> validate(JsonNode node, JsonNode rootNode, String at) {
// Get the value as a string and evaluate its length in bytes.
String value = node.asText();
if (value.getBytes(StandardCharsets.UTF_8).length > maxUtf8ByteLength) {
return fail(CustomErrorMessageType.of(KEYWORD, ERROR_MESSAGE_FORMAT), at,
Integer.toString(maxUtf8ByteLength));
}
return pass();
}
};
}
}
MinUtf8ByteLengthKeyword
Class
MinUtf8ByteLengthKeyword
Classpackage com.amazon.spucs.tests.keywords;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.node.JsonNodeType;
import com.networknt.schema.AbstractJsonValidator;
import com.networknt.schema.AbstractKeyword;
import com.networknt.schema.CustomErrorMessageType;
import com.networknt.schema.JsonSchema;
import com.networknt.schema.JsonValidator;
import com.networknt.schema.ValidationContext;
import com.networknt.schema.ValidationMessage;
import java.nio.charset.StandardCharsets;
import java.text.MessageFormat;
import java.util.Set;
/**
* Example validator for the "minUtf8ByteLength" keyword.
*/
public class MinUtf8ByteLengthKeyword extends AbstractKeyword {
private static final MessageFormat ERROR_MESSAGE_FORMAT =
new MessageFormat("Value must be greater than or equal {1} bytes in length.");
private static final String KEYWORD = "minUtf8ByteLength";
public MinUtf8ByteLengthKeyword() {
super(KEYWORD);
}
@Override
public JsonValidator newValidator(String schemaPath, JsonNode schemaNode, JsonSchema parentSchema,
ValidationContext validationContext) {
// Only process if the provided schema value is a number.
if (!JsonNodeType.NUMBER.equals(schemaNode.getNodeType())) {
return null;
}
int minUtf8ByteLength = schemaNode.asInt();
return new AbstractJsonValidator(this.getValue()) {
@Override
public Set<ValidationMessage> validate(JsonNode node, JsonNode rootNode, String at) {
// Get the value as a string and evaluate its length in bytes.
String value = node.asText();
if (value.getBytes(StandardCharsets.UTF_8).length < minUtf8ByteLength) {
return fail(CustomErrorMessageType.of(KEYWORD, ERROR_MESSAGE_FORMAT), at,
Integer.toString(minUtf8ByteLength));
}
return pass();
}
};
}
}
Updated 3 months ago