/* This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ /** * @author Christian * @date 2015 * Tests for high level features like import. */ #include #include #include #include #include using namespace std; namespace dev { namespace solidity { namespace test { BOOST_AUTO_TEST_SUITE(SolidityImports) BOOST_AUTO_TEST_CASE(smoke_test) { CompilerStack c; c.addSource("a", "contract C {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(regular_import) { CompilerStack c; c.addSource("a", "contract C {} pragma solidity >=0.0;"); c.addSource("b", "import \"a\"; contract D is C {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(import_does_not_clutter_importee) { CompilerStack c; c.addSource("a", "contract C { D d; } pragma solidity >=0.0;"); c.addSource("b", "import \"a\"; contract D is C {} pragma solidity >=0.0;"); BOOST_CHECK(!c.compile()); } BOOST_AUTO_TEST_CASE(import_is_transitive) { CompilerStack c; c.addSource("a", "contract C { } pragma solidity >=0.0;"); c.addSource("b", "import \"a\"; pragma solidity >=0.0;"); c.addSource("c", "import \"b\"; contract D is C {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(circular_import) { CompilerStack c; c.addSource("a", "import \"b\"; contract C { D d; } pragma solidity >=0.0;"); c.addSource("b", "import \"a\"; contract D { C c; } pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(relative_import) { CompilerStack c; c.addSource("a", "import \"./dir/b\"; contract A is B {} pragma solidity >=0.0;"); c.addSource("dir/b", "contract B {} pragma solidity >=0.0;"); c.addSource("dir/c", "import \"../a\"; contract C is A {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(relative_import_multiplex) { CompilerStack c; c.addSource("a", "contract A {} pragma solidity >=0.0;"); c.addSource("dir/a/b/c", "import \"../../.././a\"; contract B is A {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(simple_alias) { CompilerStack c; c.addSource("a", "contract A {} pragma solidity >=0.0;"); c.addSource("dir/a/b/c", "import \"../../.././a\" as x; contract B is x.A { function() { x.A r = x.A(20); } } pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(library_name_clash) { CompilerStack c; c.addSource("a", "library A {} pragma solidity >=0.0;"); c.addSource("b", "library A {} pragma solidity >=0.0;"); c.addSource("c", "import {A} from \"./a\"; import {A} from \"./b\";"); BOOST_CHECK(!c.compile()); } BOOST_AUTO_TEST_CASE(library_name_clash_with_contract) { CompilerStack c; c.addSource("a", "contract A {} pragma solidity >=0.0;"); c.addSource("b", "library A {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(complex_import) { CompilerStack c; c.addSource("a", "contract A {} contract B {} contract C { struct S { uint a; } } pragma solidity >=0.0;"); c.addSource("b", "import \"a\" as x; import {B as b, C as c, C} from \"a\"; " "contract D is b { function f(c.S var1, x.C.S var2, C.S var3) internal {} } pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(name_clash_in_import) { CompilerStack c; c.addSource("a", "contract A {} pragma solidity >=0.0;"); c.addSource("b", "import \"a\"; contract A {} pragma solidity >=0.0;"); BOOST_CHECK(!c.compile()); c.addSource("b", "import \"a\" as A; contract A {} pragma solidity >=0.0;"); BOOST_CHECK(!c.compile()); c.addSource("b", "import {A as b} from \"a\"; contract b {} pragma solidity >=0.0;"); BOOST_CHECK(!c.compile()); c.addSource("b", "import {A} from \"a\"; contract A {} pragma solidity >=0.0;"); BOOST_CHECK(!c.compile()); c.addSource("b", "import {A} from \"a\"; contract B {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(remappings) { CompilerStack c; c.setRemappings(vector{"s=s_1.4.6", "t=Tee"}); c.addSource("a", "import \"s/s.sol\"; contract A is S {} pragma solidity >=0.0;"); c.addSource("b", "import \"t/tee.sol\"; contract A is Tee {} pragma solidity >=0.0;"); c.addSource("s_1.4.6/s.sol", "contract S {} pragma solidity >=0.0;"); c.addSource("Tee/tee.sol", "contract Tee {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(context_dependent_remappings) { CompilerStack c; c.setRemappings(vector{"a:s=s_1.4.6", "b:s=s_1.4.7"}); c.addSource("a/a.sol", "import \"s/s.sol\"; contract A is SSix {} pragma solidity >=0.0;"); c.addSource("b/b.sol", "import \"s/s.sol\"; contract B is SSeven {} pragma solidity >=0.0;"); c.addSource("s_1.4.6/s.sol", "contract SSix {} pragma solidity >=0.0;"); c.addSource("s_1.4.7/s.sol", "contract SSeven {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(filename_with_period) { CompilerStack c; c.addSource("a/a.sol", "import \".b.sol\"; contract A is B {} pragma solidity >=0.0;"); c.addSource("a/.b.sol", "contract B {} pragma solidity >=0.0;"); BOOST_CHECK(!c.compile()); } BOOST_AUTO_TEST_CASE(context_dependent_remappings_ensure_default_and_module_preserved) { CompilerStack c; c.setRemappings(vector{"foo=vendor/foo_2.0.0", "vendor/bar:foo=vendor/foo_1.0.0", "bar=vendor/bar"}); c.addSource("main.sol", "import \"foo/foo.sol\"; import {Bar} from \"bar/bar.sol\"; contract Main is Foo2, Bar {} pragma solidity >=0.0;"); c.addSource("vendor/bar/bar.sol", "import \"foo/foo.sol\"; contract Bar {Foo1 foo;} pragma solidity >=0.0;"); c.addSource("vendor/foo_1.0.0/foo.sol", "contract Foo1 {} pragma solidity >=0.0;"); c.addSource("vendor/foo_2.0.0/foo.sol", "contract Foo2 {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); } BOOST_AUTO_TEST_CASE(context_dependent_remappings_order_independent) { CompilerStack c; c.setRemappings(vector{"a:x/y/z=d", "a/b:x=e"}); c.addSource("a/main.sol", "import \"x/y/z/z.sol\"; contract Main is D {} pragma solidity >=0.0;"); c.addSource("a/b/main.sol", "import \"x/y/z/z.sol\"; contract Main is E {} pragma solidity >=0.0;"); c.addSource("d/z.sol", "contract D {} pragma solidity >=0.0;"); c.addSource("e/y/z/z.sol", "contract E {} pragma solidity >=0.0;"); BOOST_CHECK(c.compile()); CompilerStack d; d.setRemappings(vector{"a/b:x=e", "a:x/y/z=d"}); d.addSource("a/main.sol", "import \"x/y/z/z.sol\"; contract Main is D {} pragma solidity >=0.0;"); d.addSource("a/b/main.sol", "import \"x/y/z/z.sol\"; contract Main is E {} pragma solidity >=0.0;"); d.addSource("d/z.sol", "contract D {} pragma solidity >=0.0;"); d.addSource("e/y/z/z.sol", "contract E {} pragma solidity >=0.0;"); BOOST_CHECK(d.compile()); } BOOST_AUTO_TEST_CASE(shadowing_via_import) { CompilerStack c; c.addSource("a", "library A {} pragma solidity >=0.0;"); c.addSource("b", "library A {} pragma solidity >=0.0;"); c.addSource("c", "import {A} from \"./a\"; import {A} from \"./b\";"); BOOST_CHECK(!c.compile()); } BOOST_AUTO_TEST_CASE(shadowing_builtins_with_imports) { CompilerStack c; c.addSource("B.sol", "contract X {} pragma solidity >=0.0;"); c.addSource("b", R"( pragma solidity >=0.0; import * as msg from "B.sol"; contract C { } )"); BOOST_CHECK(c.compile()); auto numErrors = c.errors().size(); // Sometimes we get the prerelease warning, sometimes not. BOOST_CHECK(2 <= numErrors && numErrors <= 3); for (auto const& e: c.errors()) { string const* msg = e->comment(); BOOST_REQUIRE(msg); BOOST_CHECK( msg->find("pre-release") != string::npos || msg->find("shadows a builtin symbol") != string::npos ); } } BOOST_AUTO_TEST_CASE(shadowing_builtins_with_multiple_imports) { CompilerStack c; c.addSource("B.sol", "contract msg {} contract block{} pragma solidity >=0.0;"); c.addSource("b", R"( pragma solidity >=0.0; import {msg, block} from "B.sol"; contract C { } )"); BOOST_CHECK(c.compile()); auto numErrors = c.errors().size(); // Sometimes we get the prerelease warning, sometimes not. BOOST_CHECK(4 <= numErrors && numErrors <= 5); for (auto const& e: c.errors()) { string const* msg = e->comment(); BOOST_REQUIRE(msg); BOOST_CHECK( msg->find("pre-release") != string::npos || msg->find("shadows a builtin symbol") != string::npos ); } } BOOST_AUTO_TEST_SUITE_END() } } } // end namespaces