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function run_test() {
// Step 1.
test(function() {
assert_throws("TypeMismatchError", function() {
self.crypto.getRandomValues(new Float32Array(6))
}, "Float32Array")
assert_throws("TypeMismatchError", function() {
self.crypto.getRandomValues(new Float64Array(6))
}, "Float64Array")
assert_throws("TypeMismatchError", function() {
self.crypto.getRandomValues(new Float32Array(65537))
}, "Float32Array (too long)")
assert_throws("TypeMismatchError", function() {
self.crypto.getRandomValues(new Float64Array(65537))
}, "Float64Array (too long)")
}, "Float arrays")
var arrays = {
'Int8Array': Int8Array,
'Int16Array': Int16Array,
'Int32Array': Int32Array,
'Uint8Array': Uint8Array,
'Uint8ClampedArray': Uint8ClampedArray,
'Uint16Array': Uint16Array,
'Uint32Array': Uint32Array,
};
test(function() {
for (var array in arrays) {
assert_equals(self.crypto.getRandomValues(new arrays[array](8)).constructor,
arrays[array], "crypto.getRandomValues(new " + array + "(8))")
}
}, "Integer array")
test(function() {
for (var array in arrays) {
var maxlength = 65536 / (arrays[array].BYTES_PER_ELEMENT);
assert_throws("QuotaExceededError", function() {
self.crypto.getRandomValues(new arrays[array](maxlength + 1))
}, "crypto.getRandomValues length over 65536")
}
}, "Large length")
test(function() {
for (var array in arrays) {
assert_true(self.crypto.getRandomValues(new arrays[array](0)).length == 0)
}
}, "Null arrays")
}
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