// RUN: %clang_cc1 -fsyntax-only -verify %s int foo(); __attribute__((objc_root_class)) @interface AClass - (void)bothTCBAndTCBLeafOnSeparateRedeclarations __attribute__((enforce_tcb("x"))); // expected-note{{conflicting attribute is here}} - (void)bothTCBAndTCBLeafOnSeparateRedeclarationsOppositeOrder __attribute__((enforce_tcb_leaf("x"))); // expected-note{{conflicting attribute is here}} - (void)bothTCBAndTCBLeafButDifferentIdentifiersOnSeparateRedeclarations __attribute__((enforce_tcb("x"))); - (void)bothTCBAndTCBLeafButDifferentIdentifiersOnSeparateRedeclarationsOppositeOrder __attribute__((enforce_tcb_leaf("x"))); - (void)onInterfaceOnly __attribute__((enforce_tcb("test"))); @end @interface AClass (NoImplementation) - (void)noArguments __attribute__((enforce_tcb)); // expected-error{{'enforce_tcb' attribute takes one argument}} - (void)tooManyArguments __attribute__((enforce_tcb("test", 12))); // expected-error{{'enforce_tcb' attribute takes one argument}} - (void)wrongArgumentType __attribute__((enforce_tcb(12))); // expected-error{{expected string literal as argument of 'enforce_tcb' attribute}} - (void)noArgumentsLeaf __attribute__((enforce_tcb_leaf)); // expected-error{{'enforce_tcb_leaf' attribute takes one argument}} - (void)tooManyArgumentsLeaf __attribute__((enforce_tcb_leaf("test", 12))); // expected-error{{'enforce_tcb_leaf' attribute takes one argument}} - (void)wrongArgumentTypeLeaf __attribute__((enforce_tcb_leaf(12))); // expected-error{{expected string literal as argument of 'enforce_tcb_leaf' attribute}} @end @implementation AClass - (void)onInterfaceOnly { foo(); // expected-warning{{calling 'foo' is a violation of trusted computing base 'test'}} } - (void)bothTCBAndTCBLeaf __attribute__((enforce_tcb("x"))) __attribute__((enforce_tcb_leaf("x"))) // expected-error{{attributes 'enforce_tcb_leaf("x")' and 'enforce_tcb("x")' are mutually exclusive}} { foo(); // no-warning } - (void)bothTCBAndTCBLeafOnSeparateRedeclarations __attribute__((enforce_tcb_leaf("x"))) // expected-error{{attributes 'enforce_tcb_leaf("x")' and 'enforce_tcb("x")' are mutually exclusive}} { // Error recovery: no need to emit a warning when we didn't // figure out our attributes to begin with. foo(); // no-warning } - (void)bothTCBAndTCBLeafOppositeOrder __attribute__((enforce_tcb_leaf("x"))) __attribute__((enforce_tcb("x"))) // expected-error{{attributes 'enforce_tcb("x")' and 'enforce_tcb_leaf("x")' are mutually exclusive}} { foo(); // no-warning } - (void)bothTCBAndTCBLeafOnSeparateRedeclarationsOppositeOrder __attribute__((enforce_tcb("x"))) // expected-error{{attributes 'enforce_tcb("x")' and 'enforce_tcb_leaf("x")' are mutually exclusive}} { foo(); // no-warning } - (void)bothTCBAndTCBLeafButDifferentIdentifiers __attribute__((enforce_tcb("x"))) __attribute__((enforce_tcb_leaf("y"))) // no-error { foo(); // expected-warning{{calling 'foo' is a violation of trusted computing base 'x'}} } - (void)bothTCBAndTCBLeafButDifferentIdentifiersOppositeOrder __attribute__((enforce_tcb_leaf("x"))) __attribute__((enforce_tcb("y"))) // no-error { foo(); // expected-warning{{calling 'foo' is a violation of trusted computing base 'y'}} } - (void)bothTCBAndTCBLeafButDifferentIdentifiersOnSeparateRedeclarations __attribute__((enforce_tcb_leaf("y"))) // no-error { foo(); // expected-warning{{calling 'foo' is a violation of trusted computing base 'x'}} } - (void)bothTCBAndTCBLeafButDifferentIdentifiersOnSeparateRedeclarationsOppositeOrder __attribute__((enforce_tcb("y"))) { foo(); // expected-warning{{calling 'foo' is a violation of trusted computing base 'y'}} } - (void)errorRecoveryOverIndividualTCBs __attribute__((enforce_tcb("y"))) __attribute__((enforce_tcb("x"))) __attribute__((enforce_tcb_leaf("x"))) // expected-error{{attributes 'enforce_tcb_leaf("x")' and 'enforce_tcb("x")' are mutually exclusive}} { // FIXME: Ideally this should warn. The conflict between attributes // for TCB "x" shouldn't affect the warning about TCB "y". foo(); // no-warning } @end