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com.google.javascript.jscomp.ConformanceRules Maven / Gradle / Ivy
/*
* Copyright 2014 The Closure Compiler Authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.javascript.jscomp;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkState;
import com.google.common.annotations.GwtIncompatible;
import com.google.common.base.Ascii;
import com.google.common.base.Joiner;
import com.google.common.base.Optional;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableCollection;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMultimap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.common.collect.Sets;
import com.google.common.reflect.TypeToken;
import com.google.javascript.jscomp.CheckConformance.InvalidRequirementSpec;
import com.google.javascript.jscomp.CheckConformance.Rule;
import com.google.javascript.jscomp.CodingConvention.AssertionFunctionLookup;
import com.google.javascript.jscomp.Requirement.Severity;
import com.google.javascript.jscomp.Requirement.Type;
import com.google.javascript.jscomp.parsing.JsDocInfoParser;
import com.google.javascript.rhino.JSDocInfo;
import com.google.javascript.rhino.JSDocInfo.Visibility;
import com.google.javascript.rhino.JSTypeExpression;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.Token;
import com.google.javascript.rhino.jstype.FunctionType;
import com.google.javascript.rhino.jstype.JSType;
import com.google.javascript.rhino.jstype.JSTypeNative;
import com.google.javascript.rhino.jstype.JSTypeRegistry;
import com.google.javascript.rhino.jstype.ObjectType;
import com.google.javascript.rhino.jstype.Property;
import java.lang.reflect.Constructor;
import java.lang.reflect.InvocationTargetException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
import java.util.regex.Pattern;
import java.util.regex.PatternSyntaxException;
import javax.annotation.Nullable;
/**
* Standard conformance rules. See
* third_party/java_src/jscomp/java/com/google/javascript/jscomp/conformance.proto
*/
@GwtIncompatible("java.lang.reflect, java.util.regex")
public final class ConformanceRules {
private ConformanceRules() {}
/**
* Classes extending AbstractRule must return ConformanceResult
* from their checkConformance implementation. For simple rules, the
* constants CONFORMANCE, POSSIBLE_VIOLATION, VIOLATION are sufficient.
* However, for some rules additional clarification specific to the
* violation instance is helpful, for that, an instance of this class
* can be created to associate a note with the violation.
*/
public static class ConformanceResult {
ConformanceResult(ConformanceLevel level) {
this(level, "");
}
ConformanceResult(ConformanceLevel level, String note) {
this.level = level;
this.note = note;
}
public final ConformanceLevel level;
public final String note;
// For CONFORMANCE rules that don't generate notes:
public static final ConformanceResult CONFORMANCE = new ConformanceResult(
ConformanceLevel.CONFORMANCE);
public static final ConformanceResult POSSIBLE_VIOLATION = new ConformanceResult(
ConformanceLevel.POSSIBLE_VIOLATION);
private static final ConformanceResult POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES =
new ConformanceResult(
ConformanceLevel.POSSIBLE_VIOLATION,
"The type information available for this expression is too loose "
+ "to ensure conformance.");
public static final ConformanceResult VIOLATION = new ConformanceResult(
ConformanceLevel.VIOLATION);
}
/** Possible check check results */
public static enum ConformanceLevel {
// Nothing interesting detected.
CONFORMANCE,
// In the optionally typed world of the Closure Compiler type system
// it is possible that detect patterns that match with looser types
// that the target pattern.
POSSIBLE_VIOLATION,
// Definitely a violation.
VIOLATION,
}
@Nullable
private static Pattern buildPattern(List reqPatterns) throws InvalidRequirementSpec {
if (reqPatterns == null || reqPatterns.isEmpty()) {
return null;
}
// validate the patterns
for (String reqPattern : reqPatterns) {
try {
Pattern.compile(reqPattern);
} catch (PatternSyntaxException e) {
throw new InvalidRequirementSpec("invalid regex pattern", e);
}
}
Pattern pattern = null;
try {
String jointRegExp = "(" + Joiner.on("|").join(reqPatterns) + ")";
pattern = Pattern.compile(jointRegExp);
} catch (PatternSyntaxException e) {
throw new RuntimeException("bad joined regexp", e);
}
return pattern;
}
private static class Whitelist {
@Nullable final ImmutableList prefixes;
@Nullable final Pattern regexp;
@Nullable final Requirement.WhitelistEntry whitelistEntry;
Whitelist(List prefixes, List regexps) throws InvalidRequirementSpec {
this.prefixes = ImmutableList.copyOf(prefixes);
this.regexp = buildPattern(regexps);
this.whitelistEntry = null;
}
Whitelist(Requirement.WhitelistEntry whitelistEntry) throws InvalidRequirementSpec {
this.prefixes = ImmutableList.copyOf(whitelistEntry.getPrefixList());
this.regexp = buildPattern(whitelistEntry.getRegexpList());
this.whitelistEntry = whitelistEntry;
}
/**
* Returns true if the given path matches one of the prefixes or regexps, and false otherwise
*/
boolean matches(String path) {
if (prefixes != null) {
for (String prefix : prefixes) {
if (!path.isEmpty() && path.startsWith(prefix)) {
return true;
}
}
}
return regexp != null && regexp.matcher(path).find();
}
}
/**
* A conformance rule implementation to support things common to all rules such as whitelisting
* and reporting.
*/
public abstract static class AbstractRule implements Rule {
final AbstractCompiler compiler;
final String message;
final Severity severity;
final ImmutableList whitelists;
@Nullable final Whitelist onlyApplyTo;
final boolean reportLooseTypeViolations;
final TypeMatchingStrategy typeMatchingStrategy;
final Requirement requirement;
public AbstractRule(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
if (!requirement.hasErrorMessage()) {
throw new InvalidRequirementSpec("missing message");
}
this.compiler = compiler;
message = requirement.getErrorMessage();
if (requirement.getSeverity() == Severity.UNSPECIFIED) {
severity = Severity.WARNING;
} else {
severity = requirement.getSeverity();
}
// build whitelists
ImmutableList.Builder whitelistsBuilder = new ImmutableList.Builder<>();
for (Requirement.WhitelistEntry entry : requirement.getWhitelistEntryList()) {
whitelistsBuilder.add(new Whitelist(entry));
}
if (requirement.getWhitelistCount() > 0 || requirement.getWhitelistRegexpCount() > 0) {
Whitelist whitelist =
new Whitelist(requirement.getWhitelistList(), requirement.getWhitelistRegexpList());
whitelistsBuilder.add(whitelist);
}
whitelists = whitelistsBuilder.build();
if (requirement.getOnlyApplyToCount() > 0 || requirement.getOnlyApplyToRegexpCount() > 0) {
onlyApplyTo =
new Whitelist(requirement.getOnlyApplyToList(), requirement.getOnlyApplyToRegexpList());
} else {
onlyApplyTo = null;
}
reportLooseTypeViolations = requirement.getReportLooseTypeViolations();
typeMatchingStrategy = getTypeMatchingStrategy(requirement);
this.requirement = requirement;
}
private static TypeMatchingStrategy getTypeMatchingStrategy(Requirement requirement) {
switch (requirement.getTypeMatchingStrategy()) {
case LOOSE:
return TypeMatchingStrategy.LOOSE;
case STRICT_NULLABILITY:
return TypeMatchingStrategy.STRICT_NULLABILITY;
case SUBTYPES:
return TypeMatchingStrategy.SUBTYPES;
case EXACT:
return TypeMatchingStrategy.EXACT;
default:
throw new IllegalStateException("Unknown TypeMatchingStrategy");
}
}
/**
* @return Whether the code represented by the Node conforms to the
* rule.
*/
protected abstract ConformanceResult checkConformance(
NodeTraversal t, Node n);
/** Returns the first Whitelist entry that matches the given path, and null otherwise. */
@Nullable
private Whitelist findWhitelistForPath(String path) {
Optional pathRegex = compiler.getOptions().getConformanceRemoveRegexFromPath();
if (pathRegex.isPresent()) {
path = pathRegex.get().matcher(path).replaceFirst("");
}
for (Whitelist whitelist : whitelists) {
if (whitelist.matches(path)) {
return whitelist;
}
}
return null;
}
@Override
public final void check(NodeTraversal t, Node n) {
ConformanceResult result = checkConformance(t, n);
if (result.level != ConformanceLevel.CONFORMANCE) {
report(n, result);
}
}
/**
* Report a conformance warning for the given node.
*
* @param n The node representing the violating code.
* @param result The result representing the confidence of the violation.
*/
protected void report(Node n, ConformanceResult result) {
DiagnosticType msg;
if (severity == Severity.ERROR) {
// Always report findings that are errors, even if the types are too loose to be certain.
// TODO(bangert): If this causes problems, add another severity category that only
// errors when certain.
msg = CheckConformance.CONFORMANCE_ERROR;
} else {
if (result.level == ConformanceLevel.VIOLATION) {
msg = CheckConformance.CONFORMANCE_VIOLATION;
} else {
msg = CheckConformance.CONFORMANCE_POSSIBLE_VIOLATION;
}
}
String separator = (result.note.isEmpty())
? ""
: "\n";
JSError err = JSError.make(n, msg, message, separator, result.note);
String path = NodeUtil.getSourceName(n);
Whitelist whitelist = path != null ? findWhitelistForPath(path) : null;
boolean shouldReport =
compiler
.getErrorManager()
.shouldReportConformanceViolation(
requirement,
whitelist != null
? Optional.fromNullable(whitelist.whitelistEntry)
: Optional.absent(),
err);
if (shouldReport && whitelist == null && (onlyApplyTo == null || onlyApplyTo.matches(path))) {
compiler.report(err);
}
}
}
abstract static class AbstractTypeRestrictionRule extends AbstractRule {
private final JSType nativeObjectType;
private final JSType whitelistedTypes;
private final AssertionFunctionLookup assertionFunctions;
public AbstractTypeRestrictionRule(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
nativeObjectType = compiler.getTypeRegistry().getNativeType(JSTypeNative.OBJECT_TYPE);
List whitelistedTypeNames = requirement.getValueList();
whitelistedTypes = union(whitelistedTypeNames);
assertionFunctions =
AssertionFunctionLookup.of(compiler.getCodingConvention().getAssertionFunctions());
}
protected boolean isWhitelistedType(Node n) {
if (whitelistedTypes != null && n.getJSType() != null) {
JSType targetType = n.getJSType().restrictByNotNullOrUndefined();
if (targetType.isSubtypeOf(whitelistedTypes)) {
return true;
}
}
return false;
}
protected static boolean isKnown(Node n) {
return !isUnknown(n)
&& !isBottom(n)
&& !isTypeVariable(n); // TODO(johnlenz): Remove this restriction
}
protected boolean isNativeObjectType(Node n) {
JSType type = n.getJSType().restrictByNotNullOrUndefined();
return type.isEquivalentTo(nativeObjectType);
}
protected static boolean isTop(Node n) {
JSType type = n.getJSType();
return type != null && type.isAllType();
}
protected static boolean isUnknown(Node n) {
JSType type = n.getJSType();
return (type == null || type.isUnknownType());
}
protected static boolean isTypeVariable(Node n) {
JSType type = n.getJSType().restrictByNotNullOrUndefined();
return type.isTypeVariable();
}
private static boolean isBottom(Node n) {
JSType type = n.getJSType().restrictByNotNullOrUndefined();
return type.isEmptyType();
}
protected JSType union(List typeNames) {
JSTypeRegistry registry = compiler.getTypeRegistry();
List types = new ArrayList<>();
for (String typeName : typeNames) {
JSType type = registry.getGlobalType(typeName);
if (type != null) {
types.add(type);
}
}
if (types.isEmpty()) {
return null;
} else {
return registry.createUnionType(types);
}
}
protected boolean isAssertionCall(Node n) {
if (n.isCall() && n.getFirstChild().isQualifiedName()) {
Node target = n.getFirstChild();
return assertionFunctions.lookupByCallee(target) != null;
}
return false;
}
protected boolean isTypeImmediatelyTightened(Node n) {
return isAssertionCall(n.getParent())
|| n.getParent().isTypeOf()
|| /* casted node */ n.getJSTypeBeforeCast() != null;
}
protected boolean isUsed(Node n) {
if (n.getParent().isName() || NodeUtil.isLhsByDestructuring(n)) {
return false;
}
// Consider lvalues in assignment operations to be used iff the actual assignment
// operation's result is used. e.g. for `a.b.c`:
// USED: `alert(x = a.b.c);`
// UNUSED: `x = a.b.c;`
if (NodeUtil.isAssignmentOp(n.getParent())) {
return NodeUtil.isExpressionResultUsed(n.getParent());
}
return NodeUtil.isExpressionResultUsed(n);
}
}
/**
* Check that variables annotated as @const have an inferred type, if there is
* no type given explicitly.
*/
static class InferredConstCheck extends AbstractRule {
public InferredConstCheck(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
JSDocInfo jsDoc = n.getJSDocInfo();
if (jsDoc != null && jsDoc.hasConstAnnotation() && jsDoc.getType() == null) {
if (n.isAssign()) {
n = n.getFirstChild();
}
JSType type = n.getJSType();
if (type != null && type.isUnknownType()
&& !NodeUtil.isNamespaceDecl(n)) {
return ConformanceResult.VIOLATION;
}
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned dependency rule
*/
static class BannedDependency extends AbstractRule {
private final List paths;
BannedDependency(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
paths = requirement.getValueList();
if (paths.isEmpty()) {
throw new InvalidRequirementSpec("missing value");
}
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isScript()) {
String srcFile = n.getSourceFileName();
for (int i = 0; i < paths.size(); i++) {
String path = paths.get(i);
if (srcFile.startsWith(path)) {
return ConformanceResult.VIOLATION;
}
}
}
return ConformanceResult.CONFORMANCE;
}
}
/** Banned dependency via regex rule */
static class BannedDependencyRegex extends AbstractRule {
@Nullable private final Pattern pathRegexp;
BannedDependencyRegex(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
List pathRegexpList = requirement.getValueList();
if (pathRegexpList.isEmpty()) {
throw new InvalidRequirementSpec("missing value (no banned dependency regexps)");
}
pathRegexp = buildPattern(pathRegexpList);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isScript()) {
String srcFile = n.getSourceFileName();
if (pathRegexp != null && pathRegexp.matcher(srcFile).find()) {
return ConformanceResult.VIOLATION;
}
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned name rule
*/
static class BannedName extends AbstractRule {
private final Requirement.Type requirementType;
private final ImmutableList names;
BannedName(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (requirement.getValueCount() == 0) {
throw new InvalidRequirementSpec("missing value");
}
requirementType = requirement.getType();
ImmutableList.Builder builder = ImmutableList.builder();
for (String name : requirement.getValueList()) {
builder.add(NodeUtil.newQName(compiler, name));
}
names = builder.build();
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (isCandidateNode(n)) {
if (requirementType == Type.BANNED_NAME_CALL) {
if (!ConformanceUtil.isCallTarget(n)) {
return ConformanceResult.CONFORMANCE;
}
}
for (int i = 0; i < names.size(); i++) {
Node nameNode = names.get(i);
if (n.matchesQualifiedName(nameNode) && isRootOfQualifiedNameGlobal(t, n)) {
if (NodeUtil.isInSyntheticScript(n)) {
return ConformanceResult.CONFORMANCE;
} else {
return ConformanceResult.VIOLATION;
}
}
}
}
return ConformanceResult.CONFORMANCE;
}
private boolean isCandidateNode(Node n) {
switch(n.getToken()) {
case GETPROP:
return n.getFirstChild().isQualifiedName();
case NAME:
return !n.getString().isEmpty();
default:
return false;
}
}
private static boolean isRootOfQualifiedNameGlobal(NodeTraversal t, Node n) {
String rootName = NodeUtil.getRootOfQualifiedName(n).getQualifiedName();
Var v = t.getScope().getVar(rootName);
return v != null && v.isGlobal();
}
}
/**
* Banned property rule
*/
static class BannedProperty extends AbstractRule {
private static class Property {
final JSType type;
final String property;
Property(JSType type, String property) {
this.type = type;
this.property = property;
}
}
private final ImmutableList props;
private final Requirement.Type requirementType;
BannedProperty(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (requirement.getValueCount() == 0) {
throw new InvalidRequirementSpec("missing value");
}
checkArgument(
requirement.getType() == Type.BANNED_PROPERTY
|| requirement.getType() == Type.BANNED_PROPERTY_READ
|| requirement.getType() == Type.BANNED_PROPERTY_WRITE
|| requirement.getType() == Type.BANNED_PROPERTY_NON_CONSTANT_WRITE
|| requirement.getType() == Type.BANNED_PROPERTY_CALL);
requirementType = requirement.getType();
JSTypeRegistry registry = compiler.getTypeRegistry();
ImmutableList.Builder builder = ImmutableList.builder();
List values = requirement.getValueList();
for (String value : values) {
String type = ConformanceUtil.getClassFromDeclarationName(value);
String property = ConformanceUtil.getPropertyFromDeclarationName(value);
if (type == null || property == null) {
throw new InvalidRequirementSpec("bad prop value");
}
builder.add(new Property(registry.getGlobalType(type), property));
}
props = builder.build();
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (NodeUtil.isGet(n) && n.getLastChild().isString()) {
// TODO(dimvar): Instead of the for-loop, we could make props be a multi-map from
// the property name to Property, and then here just pull the relevant Property instances.
// Won't make much difference to performance, since props usually only has a few elements,
// but it will make the code clearer.
for (int i = 0; i < props.size(); i++) {
Property prop = props.get(i);
ConformanceResult result = checkConformance(t, n, prop);
if (result.level != ConformanceLevel.CONFORMANCE) {
return result;
}
}
}
return ConformanceResult.CONFORMANCE;
}
private ConformanceResult checkConformance(NodeTraversal t, Node propAccess, Property prop) {
if (isCandidatePropUse(propAccess, prop)) {
JSTypeRegistry registry = t.getCompiler().getTypeRegistry();
JSType typeWithBannedProp = prop.type;
Node receiver = propAccess.getFirstChild();
if (typeWithBannedProp != null && receiver.getJSType() != null) {
JSType foundType = receiver.getJSType().restrictByNotNullOrUndefined();
ObjectType foundObj = foundType.toMaybeObjectType();
if (foundObj != null) {
if (foundObj.isFunctionPrototypeType()) {
FunctionType ownerFun = foundObj.getOwnerFunction();
if (ownerFun.isConstructor()) {
foundType = ownerFun.getInstanceType();
}
} else if (foundObj.isTemplatizedType()) {
foundType = foundObj.getRawType();
}
}
if (foundType.isUnknownType()
|| foundType.isTypeVariable()
|| foundType.isEmptyType()
|| foundType.isAllType()
|| foundType.isEquivalentTo(registry.getNativeType(JSTypeNative.OBJECT_TYPE))) {
if (reportLooseTypeViolations) {
return ConformanceResult.POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES;
}
} else if (foundType.isSubtypeOf(typeWithBannedProp)) {
return ConformanceResult.VIOLATION;
} else if (typeWithBannedProp.isSubtypeWithoutStructuralTyping(foundType)) {
if (matchesPrototype(typeWithBannedProp, foundType)) {
return ConformanceResult.VIOLATION;
} else if (reportLooseTypeViolations) {
// Access of a banned property through a super class may be a violation
return ConformanceResult.POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES;
}
}
}
}
return ConformanceResult.CONFORMANCE;
}
private boolean matchesPrototype(JSType type, JSType maybePrototype) {
ObjectType methodClassObjectType = type.toMaybeObjectType();
if (methodClassObjectType != null) {
if (methodClassObjectType.getImplicitPrototype().isEquivalentTo(maybePrototype)) {
return true;
}
}
return false;
}
/**
* Determines if {@code n} is a potentially banned use of {@code prop}.
*
* Specifically this is the case if {@code n} is a use of a property with
* the name specified by {@code prop}. Furthermore, if the conformance
* requirement under consideration only bans assignment to the property,
* {@code n} is only a candidate if it is an l-value.
*/
private boolean isCandidatePropUse(Node propAccess, Property prop) {
Preconditions.checkState(propAccess.isGetProp() || propAccess.isGetElem(),
"Expected property-access node but found %s", propAccess);
if (propAccess.getLastChild().getString().equals(prop.property)) {
if (requirementType == Type.BANNED_PROPERTY_WRITE) {
return NodeUtil.isLValue(propAccess);
} else if (requirementType == Type.BANNED_PROPERTY_NON_CONSTANT_WRITE) {
if (!NodeUtil.isLValue(propAccess)) {
return false;
}
if (NodeUtil.isLhsOfAssign(propAccess)
&& (NodeUtil.isLiteralValue(propAccess.getNext(), false /* includeFunctions */)
|| NodeUtil.isSomeCompileTimeConstStringValue(propAccess.getNext()))) {
return false;
}
return true;
} else if (requirementType == Type.BANNED_PROPERTY_READ) {
return !NodeUtil.isLValue(propAccess) && NodeUtil.isExpressionResultUsed(propAccess);
} else if (requirementType == Type.BANNED_PROPERTY_CALL) {
return ConformanceUtil.isCallTarget(propAccess);
} else {
return true;
}
}
return false;
}
}
private static class ConformanceUtil {
static boolean isCallTarget(Node n) {
Node parent = n.getParent();
return (parent.isCall() || parent.isNew())
&& parent.getFirstChild() == n;
}
static boolean isLooseType(JSType type) {
return type.isUnknownType() || type.isUnresolved() || type.isAllType();
}
static JSType evaluateTypeString(
AbstractCompiler compiler, String expression)
throws InvalidRequirementSpec {
Node typeNodes = JsDocInfoParser.parseTypeString(expression);
if (typeNodes == null) {
throw new InvalidRequirementSpec("bad type expression");
}
JSTypeExpression typeExpr = new JSTypeExpression(
typeNodes, "conformance");
return compiler.getTypeRegistry().evaluateTypeExpressionInGlobalScope(typeExpr);
}
/**
* Validate the parameters and the 'this' type, of a new or call.
* @see TypeCheck#visitParameterList
*/
static boolean validateCall(
AbstractCompiler compiler,
Node callOrNew,
FunctionType functionType,
boolean isCallInvocation) {
checkState(callOrNew.isCall() || callOrNew.isNew());
return validateParameterList(compiler, callOrNew, functionType, isCallInvocation)
&& validateThis(callOrNew, functionType, isCallInvocation);
}
private static boolean validateThis(
Node callOrNew,
FunctionType functionType,
boolean isCallInvocation) {
if (callOrNew.isNew()) {
return true;
}
JSType thisType = functionType.getTypeOfThis();
if (thisType == null || thisType.isUnknownType()) {
return true;
}
Node thisNode = isCallInvocation
? callOrNew.getSecondChild()
: callOrNew.getFirstFirstChild();
JSType thisNodeType =
thisNode.getJSType().restrictByNotNullOrUndefined();
return thisNodeType.isSubtypeOf(thisType);
}
private static boolean validateParameterList(
AbstractCompiler compiler,
Node callOrNew,
FunctionType functionType,
boolean isCallInvocation) {
Iterator arguments = callOrNew.children().iterator();
arguments.next(); // skip the function name
if (isCallInvocation && arguments.hasNext()) {
arguments.next();
}
// Get all the annotated types of the argument nodes
ImmutableList.Builder argumentTypes = ImmutableList.builder();
while (arguments.hasNext()) {
JSType argType = arguments.next().getJSType();
if (argType == null) {
argType = compiler.getTypeRegistry().getNativeType(JSTypeNative.UNKNOWN_TYPE);
}
argumentTypes.add(argType);
}
return functionType.acceptsArguments(argumentTypes.build());
}
/** Extracts the method name from a provided name. */
private static String getPropertyFromDeclarationName(String specName)
throws InvalidRequirementSpec {
String[] parts = specName.split("\\.prototype\\.");
checkState(parts.length == 1 || parts.length == 2);
if (parts.length == 2) {
return parts[1];
}
return null;
}
/** Extracts the class name from a provided name. */
private static String getClassFromDeclarationName(String specName)
throws InvalidRequirementSpec {
String tmp = specName;
String[] parts = tmp.split("\\.prototype\\.");
checkState(parts.length == 1 || parts.length == 2);
if (parts.length == 2) {
return parts[0];
}
return null;
}
private static String removeTypeDecl(String specName) throws InvalidRequirementSpec {
int index = specName.indexOf(':');
if (index < 1) {
throw new InvalidRequirementSpec("value should be in the form NAME:TYPE");
}
return specName.substring(0, index);
}
private static String getTypeFromValue(String specName) {
int index = specName.indexOf(':');
if (index < 1) {
return null;
}
return specName.substring(index + 1);
}
}
/**
* Restricted name call rule
*/
static class RestrictedNameCall extends AbstractRule {
private static class Restriction {
final Node name;
final FunctionType restrictedCallType;
Restriction(Node name, FunctionType restrictedCallType) {
this.name = name;
this.restrictedCallType = restrictedCallType;
}
}
private final ImmutableList restrictions;
RestrictedNameCall(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (requirement.getValueCount() == 0) {
throw new InvalidRequirementSpec("missing value");
}
ImmutableList.Builder builder = ImmutableList.builder();
for (String value : requirement.getValueList()) {
Node name = NodeUtil.newQName(compiler, getNameFromValue(value));
String restrictedDecl = ConformanceUtil.getTypeFromValue(value);
if (name == null || restrictedDecl == null) {
throw new InvalidRequirementSpec("bad prop value");
}
FunctionType restrictedCallType = ConformanceUtil.evaluateTypeString(
compiler, restrictedDecl).toMaybeFunctionType();
if (restrictedCallType == null) {
throw new InvalidRequirementSpec("invalid conformance type");
}
builder.add(new Restriction(name, restrictedCallType));
}
restrictions = builder.build();
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (ConformanceUtil.isCallTarget(n) && n.isQualifiedName()) {
// TODO(johnlenz): restrict to global names
for (int i = 0; i < restrictions.size(); i++) {
Restriction r = restrictions.get(i);
if (n.matchesQualifiedName(r.name)) {
if (!ConformanceUtil.validateCall(
compiler, n.getParent(), r.restrictedCallType, false)) {
return ConformanceResult.VIOLATION;
}
} else if (n.isGetProp() && n.getLastChild().getString().equals("call")
&& n.getFirstChild().matchesQualifiedName(r.name)) {
if (!ConformanceUtil.validateCall(
compiler, n.getParent(), r.restrictedCallType, true)) {
return ConformanceResult.VIOLATION;
}
}
}
}
return ConformanceResult.CONFORMANCE;
}
private static String getNameFromValue(String specName) {
int index = specName.indexOf(':');
if (index < 1) {
return null;
}
return specName.substring(0, index);
}
}
/**
* Banned property call rule
*/
static class RestrictedMethodCall extends AbstractRule {
private static class Restriction {
final JSType type;
final String property;
final FunctionType restrictedCallType;
Restriction(JSType type, String property, FunctionType restrictedCallType) {
this.type = type;
this.property = property;
this.restrictedCallType = restrictedCallType;
}
}
private final ImmutableList restrictions;
RestrictedMethodCall(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (requirement.getValueCount() == 0) {
throw new InvalidRequirementSpec("missing value");
}
JSTypeRegistry registry = compiler.getTypeRegistry();
ImmutableList.Builder builder = ImmutableList.builder();
for (String value : requirement.getValueList()) {
String type =
ConformanceUtil.getClassFromDeclarationName(ConformanceUtil.removeTypeDecl(value));
String property =
ConformanceUtil.getPropertyFromDeclarationName(ConformanceUtil.removeTypeDecl(value));
String restrictedDecl = ConformanceUtil.getTypeFromValue(value);
if (type == null || property == null || restrictedDecl == null) {
throw new InvalidRequirementSpec("bad prop value");
}
FunctionType restrictedCallType = ConformanceUtil.evaluateTypeString(
compiler, restrictedDecl).toMaybeFunctionType();
if (restrictedCallType == null) {
throw new InvalidRequirementSpec("invalid conformance type");
}
builder.add(new Restriction(registry.getGlobalType(type), property, restrictedCallType));
}
restrictions = builder.build();
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (NodeUtil.isGet(n)
&& ConformanceUtil.isCallTarget(n)
&& n.getLastChild().isString()) {
for (int i = 0; i < restrictions.size(); i++) {
Restriction r = restrictions.get(i);
ConformanceResult result = ConformanceResult.CONFORMANCE;
if (matchesProp(n, r)) {
result = checkConformance(t, n, r, false);
} else if (n.getLastChild().getString().equals("call")
&& matchesProp(n.getFirstChild(), r)) {
// handle .call invocation
result = checkConformance(t, n, r, true);
}
// TODO(johnlenz): should "apply" always be a possible violation?
if (result.level != ConformanceLevel.CONFORMANCE) {
return result;
}
}
}
return ConformanceResult.CONFORMANCE;
}
private ConformanceResult checkConformance(
NodeTraversal t, Node n, Restriction r, boolean isCallInvocation) {
JSTypeRegistry registry = t.getCompiler().getTypeRegistry();
JSType methodClassType = r.type;
Node lhs = isCallInvocation ? n.getFirstFirstChild() : n.getFirstChild();
if (methodClassType != null && lhs.getJSType() != null) {
JSType targetType = lhs.getJSType().restrictByNotNullOrUndefined();
if (ConformanceUtil.isLooseType(targetType)
|| targetType.isEquivalentTo(registry.getNativeType(JSTypeNative.OBJECT_TYPE))) {
if (reportLooseTypeViolations
&& !ConformanceUtil.validateCall(
compiler, n.getParent(), r.restrictedCallType, isCallInvocation)) {
return ConformanceResult.POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES;
}
} else if (targetType.isSubtypeOf(methodClassType)) {
if (!ConformanceUtil.validateCall(
compiler, n.getParent(), r.restrictedCallType, isCallInvocation)) {
return ConformanceResult.VIOLATION;
}
}
}
return ConformanceResult.CONFORMANCE;
}
private boolean matchesProp(Node n, Restriction r) {
return n.isGetProp() && n.getLastChild().getString().equals(r.property);
}
}
/** Restricted property write. */
static class RestrictedPropertyWrite extends AbstractRule {
private static class Restriction {
final JSType type;
final String property;
final JSType restrictedType;
Restriction(JSType type, String property, JSType restrictedType) {
this.type = type;
this.property = property.intern();
this.restrictedType = restrictedType;
}
}
private final ImmutableList restrictions;
RestrictedPropertyWrite(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (requirement.getValueCount() == 0) {
throw new InvalidRequirementSpec("missing value");
}
JSTypeRegistry registry = compiler.getTypeRegistry();
ImmutableList.Builder builder = ImmutableList.builder();
for (String value : requirement.getValueList()) {
String type =
ConformanceUtil.getClassFromDeclarationName(ConformanceUtil.removeTypeDecl(value));
String property =
ConformanceUtil.getPropertyFromDeclarationName(ConformanceUtil.removeTypeDecl(value));
String restrictedDecl = ConformanceUtil.getTypeFromValue(value);
if (type == null || property == null || restrictedDecl == null) {
throw new InvalidRequirementSpec("bad prop value");
}
JSType restrictedType = ConformanceUtil.evaluateTypeString(compiler, restrictedDecl);
builder.add(new Restriction(registry.getGlobalType(type), property, restrictedType));
}
restrictions = builder.build();
}
@Override
@SuppressWarnings("ReferenceEquality") // take advantage of string interning.
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isGetProp() && NodeUtil.isLhsOfAssign(n)) {
JSType rhsType = n.getNext().getJSType();
JSType targetType = n.getFirstChild().getJSType();
if (rhsType != null && targetType != null) {
JSType targetNotNullType = null;
for (Restriction r : restrictions) {
if (n.getLastChild().getString() == r.property) { // Both strings are interned.
if (!rhsType.isSubtypeOf(r.restrictedType)) {
if (ConformanceUtil.isLooseType(targetType)) {
if (reportLooseTypeViolations) {
return ConformanceResult.POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES;
}
} else {
if (targetNotNullType == null) {
targetNotNullType = targetType.restrictByNotNullOrUndefined();
}
if (targetNotNullType.isSubtypeOf(r.type)) {
return ConformanceResult.VIOLATION;
}
}
}
}
}
}
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned Code Pattern rule
*/
static class BannedCodePattern extends AbstractRule {
private final ImmutableList restrictions;
BannedCodePattern(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (requirement.getValueCount() == 0) {
throw new InvalidRequirementSpec("missing value");
}
ImmutableList.Builder builder =
ImmutableList.builder();
for (String value : requirement.getValueList()) {
Node parseRoot = new JsAst(SourceFile.fromCode(
"template", value)).getAstRoot(compiler);
if (!parseRoot.hasOneChild()
|| !parseRoot.getFirstChild().isFunction()) {
throw new InvalidRequirementSpec(
"invalid conformance template: " + value);
}
Node templateRoot = parseRoot.getFirstChild();
TemplateAstMatcher astMatcher =
new TemplateAstMatcher(compiler.getTypeRegistry(), templateRoot, typeMatchingStrategy);
builder.add(astMatcher);
}
restrictions = builder.build();
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
boolean possibleViolation = false;
for (int i = 0; i < restrictions.size(); i++) {
TemplateAstMatcher matcher = restrictions.get(i);
if (matcher.matches(n)) {
if (matcher.isLooseMatch()) {
possibleViolation = true;
} else {
return ConformanceResult.VIOLATION;
}
}
}
return possibleViolation && reportLooseTypeViolations
? ConformanceResult.POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES
: ConformanceResult.CONFORMANCE;
}
}
/**
* A custom rule proxy, for rules that we load dynamically.
*/
static class CustomRuleProxy implements Rule {
final Rule customRule;
CustomRuleProxy(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
if (!requirement.hasJavaClass()) {
throw new InvalidRequirementSpec("missing java_class");
}
customRule = createRule(compiler, requirement);
}
@Override
public void check(NodeTraversal t, Node n) {
customRule.check(t, n);
}
private Rule createRule(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
try {
Class custom = getRuleClass(requirement.getJavaClass());
Constructor ctor = getRuleConstructor(custom);
Rule rule;
try {
rule = (Rule) (ctor.newInstance(compiler, requirement));
} catch (InvocationTargetException e) {
Throwable cause = e.getCause();
if (cause instanceof InvalidRequirementSpec) {
throw (InvalidRequirementSpec) cause;
}
throw new RuntimeException(cause);
}
return rule;
} catch (InstantiationException | IllegalAccessException | IllegalArgumentException e) {
throw new RuntimeException(e);
}
}
private Constructor getRuleConstructor(Class cls)
throws InvalidRequirementSpec {
for (Constructor ctor : cls.getConstructors()) {
Class[] paramClasses = ctor.getParameterTypes();
if (paramClasses.length == 2) {
TypeToken param1 = TypeToken.of(paramClasses[0]);
TypeToken param2 = TypeToken.of(paramClasses[1]);
if (param1.isSupertypeOf(COMPILER_TYPE) && param2.isSupertypeOf(REQUIREMENT_TYPE)) {
return ctor;
}
}
}
throw new InvalidRequirementSpec("No valid class constructors found.");
}
private static final TypeToken RULE_TYPE =
new TypeToken() {};
private static final TypeToken COMPILER_TYPE =
new TypeToken() {};
private static final TypeToken REQUIREMENT_TYPE =
new TypeToken() {};
private Class getRuleClass(
String className) throws InvalidRequirementSpec {
Class customClass;
try {
customClass = Class.forName(className);
} catch (ClassNotFoundException e) {
throw new InvalidRequirementSpec("JavaClass not found.");
}
if (RULE_TYPE.isSupertypeOf(TypeToken.of(customClass))) {
@SuppressWarnings("unchecked") // Assignable to Rule;
Class ruleClass = (Class) customClass;
return ruleClass;
}
throw new InvalidRequirementSpec("JavaClass is not a rule.");
}
}
/** Banned for/of loops */
public static final class BanForOf extends AbstractRule {
public BanForOf(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isForOf() || n.isForAwaitOf()) {
return ConformanceResult.VIOLATION;
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned @expose
*/
public static final class BanExpose extends AbstractRule {
public BanExpose(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
JSDocInfo info = n.getJSDocInfo();
if (info != null && info.isExpose()) {
return ConformanceResult.VIOLATION;
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Require "use strict" rule
*/
public static class RequireUseStrict extends AbstractRule {
public RequireUseStrict(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
if (!requirement.getValueList().isEmpty()) {
throw new InvalidRequirementSpec("invalid value");
}
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isScript()) {
Set directives = n.getDirectives();
if (directives == null || !directives.contains("use strict")) {
return ConformanceResult.VIOLATION;
}
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned throw of non-error object types.
*/
public static final class BanThrowOfNonErrorTypes extends AbstractRule {
final JSType errorObjType;
public BanThrowOfNonErrorTypes(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
errorObjType = compiler.getTypeRegistry().getGlobalType("Error");
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (errorObjType != null && n.isThrow()) {
JSType thrown = n.getFirstChild().getJSType();
if (thrown != null) {
// Allow vague types, as is typical of re-throws of exceptions
if (!thrown.isUnknownType()
&& !thrown.isAllType()
&& !thrown.isEmptyType()
&& !thrown.isSubtypeOf(errorObjType)) {
return ConformanceResult.VIOLATION;
}
}
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned dereferencing null or undefined types.
*/
public static final class BanNullDeref extends AbstractTypeRestrictionRule {
public BanNullDeref(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
boolean violation;
switch (n.getToken()) {
case GETPROP:
case GETELEM:
case NEW:
case CALL:
violation = report(n.getFirstChild());
break;
case IN:
violation = report(n.getLastChild());
break;
default:
violation = false;
break;
}
return violation ? ConformanceResult.VIOLATION : ConformanceResult.CONFORMANCE;
}
boolean report(Node n) {
return n.getJSType() != null
&& isKnown(n)
&& invalidDeref(n)
&& !isWhitelistedType(n);
}
// Whether the type is known to be invalid to dereference.
private boolean invalidDeref(Node n) {
JSType type = n.getJSType();
// TODO(johnlenz): top type should not be allowed here
return !type.isAllType() && (type.isNullable() || type.isVoidable());
}
}
/**
* Banned unknown "this" types.
*/
public static final class BanUnknownThis extends AbstractTypeRestrictionRule {
private final Set reports = Sets.newIdentityHashSet();
public BanUnknownThis(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isThis()) {
JSType type = n.getJSType();
if (type != null && type.isUnknownType() && !isTypeImmediatelyTightened(n)) {
Node root = t.getScopeRoot();
if (!reports.contains(root)) {
reports.add(root);
return ConformanceResult.VIOLATION;
}
}
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned unknown type references of the form "this.prop" unless
* - it is immediately cast,
* - it is a @template type (until template type
* restricts are enabled) or
* - the value is unused.
* - the "this" type is unknown (as this is expected to be used with
* BanUnknownThis which would have already reported the root cause).
*/
public static final class BanUnknownDirectThisPropsReferences
extends AbstractTypeRestrictionRule {
public BanUnknownDirectThisPropsReferences(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isGetProp()
&& isKnownThis(n.getFirstChild()) // not a cascading unknown
&& isUnknown(n)
&& !isTypeVariable(n)
&& isUsed(n) // skip most assignments, etc
&& !isTypeImmediatelyTightened(n)
&& !isExplicitlyUnknown(n)) {
return ConformanceResult.VIOLATION;
}
return ConformanceResult.CONFORMANCE;
}
private static boolean isKnownThis(Node n) {
return n.isThis() && !isUnknown(n);
}
private static boolean isExplicitlyUnknown(Node n) {
ObjectType owner = ObjectType.cast(n.getFirstChild().getJSType());
Property prop = owner != null ? owner.getSlot(n.getLastChild().getString()) : null;
return prop != null && !prop.isTypeInferred();
}
}
/**
* Banned unknown type references of the form "instance.prop" unless
* (a) it is immediately cast/asserted, or
* (b) it is a @template type (until template type restrictions are enabled), or
* (c) the value is unused, or
* (d) the source object type is unknown (to avoid error cascades)
*/
public static final class BanUnknownTypedClassPropsReferences
extends AbstractTypeRestrictionRule {
public BanUnknownTypedClassPropsReferences(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isGetProp()
&& isUnknown(n)
&& isUsed(n) // skip most assignments, etc
&& !isTypeImmediatelyTightened(n)
&& isCheckablePropertySource(n.getFirstChild()) // not a cascading unknown
&& !isTypeVariable(n)
&& !isDeclaredUnknown(n)) {
String propName = n.getLastChild().getString();
String typeName = n.getFirstChild().getJSType().toString();
return new ConformanceResult(ConformanceLevel.VIOLATION,
"The property \"" + propName + "\" on type \"" + typeName + "\"");
}
return ConformanceResult.CONFORMANCE;
}
private boolean isCheckablePropertySource(Node n) {
return isKnown(n)
&& !isTop(n)
&& isClassType(n)
&& !isNativeObjectType(n)
&& !isWhitelistedType(n);
}
private boolean isClassType(Node n) {
ObjectType type = n.getJSType().restrictByNotNullOrUndefined().toMaybeObjectType();
if (type != null && type.isInstanceType()) {
FunctionType ctor = type.getConstructor();
if (ctor != null) {
JSDocInfo info = ctor.getJSDocInfo();
if (info != null && info.isConstructorOrInterface()) {
return true;
}
}
}
return false;
}
private boolean isDeclaredUnknown(Node n) {
Node target = n.getFirstChild();
ObjectType targetType = target.getJSType().toMaybeObjectType();
if (targetType != null) {
JSDocInfo info = targetType.getPropertyJSDocInfo(n.getLastChild().getString());
if (info != null && info.hasType()) {
JSTypeExpression expr = info.getType();
Node typeExprNode = expr.getRoot();
if (typeExprNode.getToken() == Token.QMARK && !typeExprNode.hasChildren()) {
return true;
} else if (typeExprNode.getToken() == Token.PIPE) {
// Might be a union type including ? that's collapsed during checking.
for (Node child : typeExprNode.children()) {
if (child.getToken() == Token.QMARK) {
return true;
}
}
}
}
}
return false;
}
}
/**
* Banned accessing properties from objects that are unresolved
* forward-declared type names. For legacy reasons this is allowed but
* causes unexpected weaknesses in the type inference.
*/
public static final class BanUnresolvedType extends AbstractTypeRestrictionRule {
public BanUnresolvedType(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isGetProp()) {
Node target = n.getFirstChild();
JSType type = target.getJSType();
JSType nonConformingPart = getNonConformingPart(type);
if (nonConformingPart != null && !isTypeImmediatelyTightened(n)) {
return new ConformanceResult(
ConformanceLevel.VIOLATION,
"Reference to type '" + nonConformingPart + "' never resolved.");
}
}
return ConformanceResult.CONFORMANCE;
}
private static @Nullable JSType getNonConformingPart(JSType type) {
if (type == null) {
return null;
}
if (type.isUnionType()) {
// unwrap union types which might contain unresolved type name
// references for example {Foo|undefined}
for (JSType part : type.getUnionMembers()) {
JSType nonConformingPart = getNonConformingPart(part);
if (nonConformingPart != null) {
return nonConformingPart;
}
}
} else if (type.isUnresolved()) {
return type;
}
return null;
}
}
/** Ban any use of unresolved forward-declared types */
public static final class StrictBanUnresolvedType extends AbstractTypeRestrictionRule {
public StrictBanUnresolvedType(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
JSType nonConformingPart = BanUnresolvedType.getNonConformingPart(n.getJSType());
if (nonConformingPart != null && !isTypeImmediatelyTightened(n)) {
return new ConformanceResult(
ConformanceLevel.VIOLATION,
"Reference to type '" + nonConformingPart + "' never resolved.");
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Banned global var declarations.
*/
public static final class BanGlobalVars extends AbstractRule {
public BanGlobalVars(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (t.inGlobalScope()
&& NodeUtil.isDeclaration(n)
&& !n.getBooleanProp(Node.IS_NAMESPACE)
&& !isWhitelisted(n)) {
Node enclosingScript = NodeUtil.getEnclosingScript(n);
if (enclosingScript != null
&& (enclosingScript.getBooleanProp(Node.GOOG_MODULE)
|| enclosingScript.getBooleanProp(Node.ES6_MODULE)
|| enclosingScript.getInputId().equals(compiler.getSyntheticCodeInputId()))) {
return ConformanceResult.CONFORMANCE;
}
return ConformanceResult.VIOLATION;
}
return ConformanceResult.CONFORMANCE;
}
private boolean isWhitelisted(Node n) {
if (n.isFromExterns()) {
return true;
}
if (n.isFunction()) {
return isWhitelistedName(n.getFirstChild().getString());
}
if (NodeUtil.isNameDeclaration(n)) {
for (Node name : NodeUtil.findLhsNodesInNode(n)) {
if (!isWhitelistedName(name.getString())) {
return false;
}
}
return true;
}
return false;
}
private boolean isWhitelistedName(String name) {
return name.equals("$jscomp")
|| name.startsWith("$jscomp$compprop")
|| ClosureRewriteModule.isModuleContent(name)
|| ClosureRewriteModule.isModuleExport(name);
}
}
/**
* Requires source files to contain a top-level {@code @fileoverview} block
* with an explicit visibility annotation.
*/
public static final class RequireFileoverviewVisibility extends AbstractRule {
public RequireFileoverviewVisibility(
AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (!n.isScript()) {
return ConformanceResult.CONFORMANCE;
}
JSDocInfo docInfo = n.getJSDocInfo();
if (docInfo == null || !docInfo.hasFileOverview()) {
return ConformanceResult.VIOLATION;
}
Visibility v = docInfo.getVisibility();
if (v == null || v == Visibility.INHERITED) {
return ConformanceResult.VIOLATION;
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Bans {@code document.createElement} and similar methods with string literal parameter specified
* in {@code value}, e.g. {@code value: 'script'}. The purpose of banning these is that they don't
* provide the type information which hinders other rules. Authors should use e.g. {@code
* goog.dom.createElement(goog.dom.TagName.SCRIPT)} which returns HTMLScriptElement.
*/
public static final class BanCreateElement extends AbstractRule {
private final Set bannedTags;
private final JSType domHelperType;
private final JSType documentType;
public BanCreateElement(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
bannedTags = new HashSet<>();
for (String value : requirement.getValueList()) {
bannedTags.add(Ascii.toLowerCase(value));
}
if (bannedTags.isEmpty()) {
throw new InvalidRequirementSpec("Specify one or more values.");
}
domHelperType = compiler.getTypeRegistry().getGlobalType("goog.dom.DomHelper");
documentType = compiler.getTypeRegistry().getGlobalType("Document");
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (n.isCall()) {
Node tag = n.getSecondChild();
if (tag != null
&& tag.isString()
&& bannedTags.contains(Ascii.toLowerCase(tag.getString()))) {
return checkCreateElement(n);
}
}
return ConformanceResult.CONFORMANCE;
}
private ConformanceResult checkCreateElement(Node n) {
Node target = n.getFirstChild();
if (!target.isGetProp()) {
return ConformanceResult.CONFORMANCE;
}
String functionName = target.getLastChild().getString();
if (!"createElement".equals(functionName) && !"createDom".equals(functionName)) {
return ConformanceResult.CONFORMANCE;
}
Node srcObj = target.getFirstChild();
if (srcObj.matchesQualifiedName("goog.dom")) {
return ConformanceResult.VIOLATION;
}
JSType type = srcObj.getJSType();
if (type == null || ConformanceUtil.isLooseType(type)) {
return reportLooseTypeViolations
? ConformanceResult.POSSIBLE_VIOLATION_DUE_TO_LOOSE_TYPES
: ConformanceResult.CONFORMANCE;
}
if ((domHelperType != null && domHelperType.isSubtypeOf(type))
|| (documentType != null && documentType.isSubtypeOf(type))) {
return ConformanceResult.VIOLATION;
}
return ConformanceResult.CONFORMANCE;
}
}
/**
* Ban {@code goog.dom.createDom} and {@code goog.dom.DomHelper#createDom} with parameters
* specified in {@code value} in the format tagname.attribute, e.g. {@code value: 'iframe.src'}.
* Tag name might be also {@code *} to ban the attribute in any tag.
* Note that string literal values assigned to banned attributes are allowed as they couldn't be
* attacker controlled.
*/
public static final class BanCreateDom extends AbstractRule {
private final List bannedTagAttrs;
private final JSType domHelperType;
private final JSType classNameTypes;
public BanCreateDom(AbstractCompiler compiler, Requirement requirement)
throws InvalidRequirementSpec {
super(compiler, requirement);
bannedTagAttrs = new ArrayList<>();
for (String value : requirement.getValueList()) {
String[] tagAttr = value.split("\\.");
if (tagAttr.length != 2 || tagAttr[0].isEmpty() || tagAttr[1].isEmpty()) {
throw new InvalidRequirementSpec("Values must be in the format tagname.attribute.");
}
tagAttr[0] = tagAttr[0].toLowerCase();
bannedTagAttrs.add(tagAttr);
}
if (bannedTagAttrs.isEmpty()) {
throw new InvalidRequirementSpec("Specify one or more values.");
}
domHelperType = compiler.getTypeRegistry().getGlobalType("goog.dom.DomHelper");
classNameTypes =
compiler
.getTypeRegistry()
.createUnionType(
compiler.getTypeRegistry().getNativeType(JSTypeNative.STRING_TYPE),
compiler.getTypeRegistry().getNativeType(JSTypeNative.ARRAY_TYPE),
compiler.getTypeRegistry().getNativeType(JSTypeNative.NULL_TYPE),
compiler.getTypeRegistry().getNativeType(JSTypeNative.VOID_TYPE));
}
@Override
protected ConformanceResult checkConformance(NodeTraversal t, Node n) {
if (!isCreateDomCall(n)) {
return ConformanceResult.CONFORMANCE;
}
if (n.getChildCount() < 3) {
// goog.dom.createDom('iframe') is fine.
return ConformanceResult.CONFORMANCE;
}
Collection tagNames = getTagNames(n.getSecondChild());
Node attrs = n.getChildAtIndex(2);
JSType attrsType = attrs.getJSType();
// TODO(tbreisacher): Remove this after the typechecker understands ES6.
if (attrsType == null) {
// Type information is not available; don't run this check.
return ConformanceResult.CONFORMANCE;
}
// String or array attribute sets the class.
boolean isClassName = !attrsType.isUnknownType() && attrsType.isSubtypeOf(classNameTypes);
if (attrs.isNull() || (attrsType != null && attrsType.isVoidType())) {
// goog.dom.createDom('iframe', null) is fine.
return ConformanceResult.CONFORMANCE;
}
for (String[] tagAttr : bannedTagAttrs) {
if (tagNames != null && !tagNames.contains(tagAttr[0]) && !tagAttr[0].equals("*")) {
continue;
}
ConformanceResult violation;
if (tagNames != null || tagAttr[0].equals("*")) {
violation = ConformanceResult.VIOLATION;
} else if (reportLooseTypeViolations) {
violation = ConformanceResult.POSSIBLE_VIOLATION;
} else {
violation = ConformanceResult.CONFORMANCE;
}
if (isClassName) {
if (!tagAttr[1].equals("class")) {
continue;
}
return violation;
}
if (tagAttr[1].equals("textContent")
&& n.getChildCount() > 3
&& violation != ConformanceResult.CONFORMANCE) {
return violation;
}
if (!attrs.isObjectLit()) {
// Attrs is not an object literal and tagName matches or is unknown.
return reportLooseTypeViolations
? ConformanceResult.POSSIBLE_VIOLATION
: ConformanceResult.CONFORMANCE;
}
Node prop = NodeUtil.getFirstPropMatchingKey(attrs, tagAttr[1]);
if (prop != null) {
if (NodeUtil.isSomeCompileTimeConstStringValue(prop)) {
// Ignore string literal values.
continue;
}
return violation;
} else if (Iterables.any(attrs.children(), child -> child.isComputedProp())) {
// We don't know if the computed property matches 'src' or not
return reportLooseTypeViolations
? ConformanceResult.POSSIBLE_VIOLATION
: ConformanceResult.CONFORMANCE;
}
}
return ConformanceResult.CONFORMANCE;
}
private ImmutableCollection getTagNames(Node tag) {
if (tag.isString()) {
return ImmutableSet.of(tag.getString().toLowerCase());
} else if (tag.isGetProp() && tag.getFirstChild().matchesQualifiedName("goog.dom.TagName")) {
return ImmutableSet.of(tag.getLastChild().getString().toLowerCase());
}
// TODO(jakubvrana): Support union, e.g. {!TagName|!TagName}.
JSType type = tag.getJSType();
if (type == null || !type.isTemplatizedType()) {
return null;
}
ObjectType typeAsObj = type.toMaybeObjectType();
if (typeAsObj.getRawType().getDisplayName().equals("goog.dom.TagName")) {
JSType tagType = Iterables.getOnlyElement(typeAsObj.getTemplateTypes());
return ELEMENT_TAG_NAMES.get(tagType.getDisplayName());
}
return null;
}
private static final ImmutableMultimap ELEMENT_TAG_NAMES =
ImmutableMultimap.builder()
.put("HTMLAnchorElement", "a")
.put("HTMLAppletElement", "applet")
.put("HTMLAreaElement", "area")
.put("HTMLAudioElement", "audio")
.put("HTMLBRElement", "br")
.put("HTMLBaseElement", "base")
.put("HTMLBaseFontElement", "basefont")
.put("HTMLBodyElement", "body")
.put("HTMLButtonElement", "button")
.put("HTMLCanvasElement", "canvas")
.put("HTMLDListElement", "dl")
.put("HTMLDataListElement", "datalist")
.put("HTMLDetailsElement", "details")
.put("HTMLDialogElement", "dialog")
.put("HTMLDirectoryElement", "dir")
.put("HTMLDivElement", "div")
.put("HTMLEmbedElement", "embed")
.put("HTMLFieldSetElement", "fieldset")
.put("HTMLFontElement", "font")
.put("HTMLFormElement", "form")
.put("HTMLFrameElement", "frame")
.put("HTMLFrameSetElement", "frameset")
.put("HTMLHRElement", "hr")
.put("HTMLHeadElement", "head")
.put("HTMLHeadingElement", "h1")
.put("HTMLHeadingElement", "h2")
.put("HTMLHeadingElement", "h3")
.put("HTMLHeadingElement", "h4")
.put("HTMLHeadingElement", "h5")
.put("HTMLHeadingElement", "h6")
.put("HTMLHtmlElement", "html")
.put("HTMLIFrameElement", "iframe")
.put("HTMLImageElement", "img")
.put("HTMLInputElement", "input")
.put("HTMLIsIndexElement", "isindex")
.put("HTMLLIElement", "li")
.put("HTMLLabelElement", "label")
.put("HTMLLegendElement", "legend")
.put("HTMLLinkElement", "link")
.put("HTMLMapElement", "map")
.put("HTMLMenuElement", "menu")
.put("HTMLMetaElement", "meta")
.put("HTMLMeterElement", "meter")
.put("HTMLModElement", "del")
.put("HTMLModElement", "ins")
.put("HTMLOListElement", "ol")
.put("HTMLObjectElement", "object")
.put("HTMLOptGroupElement", "optgroup")
.put("HTMLOptionElement", "option")
.put("HTMLOutputElement", "output")
.put("HTMLParagraphElement", "p")
.put("HTMLParamElement", "param")
.put("HTMLPreElement", "pre")
.put("HTMLProgressElement", "progress")
.put("HTMLQuoteElement", "blockquote")
.put("HTMLQuoteElement", "q")
.put("HTMLScriptElement", "script")
.put("HTMLSelectElement", "select")
.put("HTMLSourceElement", "source")
.put("HTMLSpanElement", "span")
.put("HTMLStyleElement", "style")
.put("HTMLTableCaptionElement", "caption")
.put("HTMLTableCellElement", "td")
.put("HTMLTableCellElement", "th")
.put("HTMLTableColElement", "col")
.put("HTMLTableColElement", "colgroup")
.put("HTMLTableElement", "table")
.put("HTMLTableRowElement", "tr")
.put("HTMLTableSectionElement", "tbody")
.put("HTMLTableSectionElement", "tfoot")
.put("HTMLTableSectionElement", "thead")
.put("HTMLTemplateElement", "template")
.put("HTMLTextAreaElement", "textarea")
.put("HTMLTitleElement", "title")
.put("HTMLTrackElement", "track")
.put("HTMLUListElement", "ul")
.put("HTMLVideoElement", "video")
.build();
private boolean isCreateDomCall(Node n) {
if (!n.isCall()) {
return false;
}
Node target = n.getFirstChild();
if (!target.isGetProp()) {
return false;
}
if (!"createDom".equals(target.getLastChild().getString())) {
return false;
}
Node srcObj = target.getFirstChild();
if (srcObj.matchesQualifiedName("goog.dom")) {
return true;
}
JSType type = srcObj.getJSType();
if (type == null) {
return false;
}
if (type.isEquivalentTo(domHelperType)) {
return true;
}
return false;
}
}
}
