var RESOURCES_DIR = "../resources/"; function dirname(path) { return path.replace(/\/[^\/]*$/, '/') } function checkRequest(request, ExpectedValuesDict) { for (var attribute in ExpectedValuesDict) { switch(attribute) { case "headers": for (var key in ExpectedValuesDict["headers"].keys()) { assert_equals(request["headers"].get(key), ExpectedValuesDict["headers"].get(key), "Check headers attribute has " + key + ":" + ExpectedValuesDict["headers"].get(key)); } break; case "body": //for checking body's content, a dedicated asyncronous/promise test should be used assert_true(request["headers"].has("Content-Type") , "Check request has body using Content-Type header") break; case "method": case "referrer": case "referrerPolicy": case "credentials": case "cache": case "redirect": case "integrity": case "url": case "destination": assert_equals(request[attribute], ExpectedValuesDict[attribute], "Check " + attribute + " attribute") break; default: break; } } } function stringToArray(str) { var array = new Uint8Array(str.length); for (var i=0, strLen = str.length; i < strLen; i++) array[i] = str.charCodeAt(i); return array; } function encode_utf8(str) { if (self.TextEncoder) return (new TextEncoder).encode(str); return stringToArray(unescape(encodeURIComponent(str))); } function validateBufferFromString(buffer, expectedValue, message) { return assert_array_equals(new Uint8Array(buffer !== undefined ? buffer : []), stringToArray(expectedValue), message); } function validateStreamFromString(reader, expectedValue, retrievedArrayBuffer) { // Passing Uint8Array for byte streams; non-byte streams will simply ignore it return reader.read(new Uint8Array(64)).then(function(data) { if (!data.done) { assert_true(data.value instanceof Uint8Array, "Fetch ReadableStream chunks should be Uint8Array"); var newBuffer; if (retrievedArrayBuffer) { newBuffer = new Uint8Array(data.value.length + retrievedArrayBuffer.length); newBuffer.set(retrievedArrayBuffer, 0); newBuffer.set(data.value, retrievedArrayBuffer.length); } else { newBuffer = data.value; } return validateStreamFromString(reader, expectedValue, newBuffer); } validateBufferFromString(retrievedArrayBuffer, expectedValue, "Retrieve and verify stream"); }); } function validateStreamFromPartialString(reader, expectedValue, retrievedArrayBuffer) { // Passing Uint8Array for byte streams; non-byte streams will simply ignore it return reader.read(new Uint8Array(64)).then(function(data) { if (!data.done) { assert_true(data.value instanceof Uint8Array, "Fetch ReadableStream chunks should be Uint8Array"); var newBuffer; if (retrievedArrayBuffer) { newBuffer = new Uint8Array(data.value.length + retrievedArrayBuffer.length); newBuffer.set(retrievedArrayBuffer, 0); newBuffer.set(data.value, retrievedArrayBuffer.length); } else { newBuffer = data.value; } return validateStreamFromPartialString(reader, expectedValue, newBuffer); } var string = new TextDecoder("utf-8").decode(retrievedArrayBuffer); return assert_true(string.search(expectedValue) != -1, "Retrieve and verify stream"); }); } // From streams tests function delay(milliseconds) { return new Promise(function(resolve) { step_timeout(resolve, milliseconds); }); } function requestForbiddenHeaders(desc, forbiddenHeaders) { var url = RESOURCES_DIR + "inspect-headers.py"; var requestInit = {"headers": forbiddenHeaders} var urlParameters = "?headers=" + Object.keys(forbiddenHeaders).join("|"); promise_test(function(test){ return fetch(url + urlParameters, requestInit).then(function(resp) { assert_equals(resp.status, 200, "HTTP status is 200"); assert_equals(resp.type , "basic", "Response's type is basic"); for (var header in forbiddenHeaders) assert_not_equals(resp.headers.get("x-request-" + header), forbiddenHeaders[header], header + " does not have the value we defined"); }); }, desc); }