use cargo_test_support::install::{ assert_has_installed_exe, assert_has_not_installed_exe, cargo_home, }; use cargo_test_support::project; #[cargo_test] fn gated() { let p = project() .file( "Cargo.toml", r#" [package] name = "foo" version = "0.0.1" [[bin]] name = "foo" filename = "007bar" path = "src/main.rs" "#, ) .file("src/main.rs", "fn main() { assert!(true) }") .build(); // Run cargo build. p.cargo("build") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_status(101) .with_stderr_contains("[..]feature `different-binary-name` is required") .run(); } #[cargo_test] // This test checks if: // 1. The correct binary is produced // 2. The deps file has the correct content // 3. Fingerprinting works // 4. `cargo clean` command works fn binary_name1() { // Create the project. let p = project() .file( "Cargo.toml", r#" cargo-features = ["different-binary-name"] [package] name = "foo" version = "0.0.1" [[bin]] name = "foo" filename = "007bar" path = "src/main.rs" "#, ) .file("src/main.rs", "fn main() { assert!(true) }") .build(); // Run cargo build. p.cargo("build") .masquerade_as_nightly_cargo(&["different-binary-name"]) .run(); // Check the name of the binary that cargo has generated. // A binary with the name of the crate should NOT be created. let foo_path = p.bin("foo"); assert!(!foo_path.is_file()); // A binary with the name provided in `filename` parameter should be created. let bar_path = p.bin("007bar"); assert!(bar_path.is_file()); // Check if deps file exists. let deps_path = p.bin("007bar").with_extension("d"); assert!(deps_path.is_file(), "{:?}", bar_path); let depinfo = p.read_file(deps_path.to_str().unwrap()); // Prepare what content we expect to be present in deps file. let deps_exp = format!( "{}: {}", p.bin("007bar").to_str().unwrap(), p.root().join("src").join("main.rs").to_str().unwrap() ); // Compare actual deps content with expected deps content. assert!( depinfo.lines().any(|line| line == deps_exp), "Content of `{}` is incorrect", deps_path.to_string_lossy() ); // Run cargo second time, to verify fingerprint. p.cargo("build -p foo -v") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_stderr( "\ [FRESH] foo [..] [FINISHED] [..] ", ) .run(); // Run cargo clean. p.cargo("clean -p foo") .masquerade_as_nightly_cargo(&["different-binary-name"]) .run(); // Check if the appropriate file was removed. assert!( !bar_path.is_file(), "`cargo clean` did not remove the correct files" ); } #[cargo_test] // This test checks if: // 1. Check `cargo run` // 2. Check `cargo test` // 3. Check `cargo install/uninstall` fn binary_name2() { // Create the project. let p = project() .file( "Cargo.toml", r#" cargo-features = ["different-binary-name"] [package] name = "foo" version = "0.0.1" [[bin]] name = "foo" filename = "007bar" "#, ) .file( "src/main.rs", r#" fn hello(name: &str) -> String { format!("Hello, {}!", name) } fn main() { println!("{}", hello("crabs")); } #[cfg(test)] mod tests { use super::*; #[test] fn check_crabs() { assert_eq!(hello("crabs"), "Hello, crabs!"); } } "#, ) .build(); // Run cargo build. p.cargo("build") .masquerade_as_nightly_cargo(&["different-binary-name"]) .run(); // Check the name of the binary that cargo has generated. // A binary with the name of the crate should NOT be created. let foo_path = p.bin("foo"); assert!(!foo_path.is_file()); // A binary with the name provided in `filename` parameter should be created. let bar_path = p.bin("007bar"); assert!(bar_path.is_file()); // Check if `cargo test` works p.cargo("test") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_stderr( "\ [COMPILING] foo v0.0.1 ([CWD]) [FINISHED] test [unoptimized + debuginfo] target(s) in [..] [RUNNING] [..] (target/debug/deps/foo-[..][EXE])", ) .with_stdout_contains("test tests::check_crabs ... ok") .run(); // Check if `cargo run` is able to execute the binary p.cargo("run") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_stdout("Hello, crabs!") .run(); p.cargo("install") .masquerade_as_nightly_cargo(&["different-binary-name"]) .run(); assert_has_installed_exe(cargo_home(), "007bar"); p.cargo("uninstall") .with_stderr("[REMOVING] [ROOT]/home/.cargo/bin/007bar[EXE]") .masquerade_as_nightly_cargo(&["different-binary-name"]) .run(); assert_has_not_installed_exe(cargo_home(), "007bar"); } #[cargo_test] fn check_env_vars() { let p = project() .file( "Cargo.toml", r#" cargo-features = ["different-binary-name"] [package] name = "foo" version = "0.0.1" [[bin]] name = "foo" filename = "007bar" "#, ) .file( "src/main.rs", r#" fn main() { println!("{}", option_env!("CARGO_BIN_NAME").unwrap()); } "#, ) .file( "tests/integration.rs", r#" #[test] fn check_env_vars2() { let value = option_env!("CARGO_BIN_EXE_007bar").expect("Could not find environment variable."); assert!(value.contains("007bar")); } "# ) .build(); // Run cargo build. p.cargo("build") .masquerade_as_nightly_cargo(&["different-binary-name"]) .run(); p.cargo("run") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_stdout("007bar") .run(); p.cargo("test") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_status(0) .run(); } #[cargo_test] fn check_msg_format_json() { // Create the project. let p = project() .file( "Cargo.toml", r#" cargo-features = ["different-binary-name"] [package] name = "foo" version = "0.0.1" [[bin]] name = "foo" filename = "007bar" path = "src/main.rs" "#, ) .file("src/main.rs", "fn main() { assert!(true) }") .build(); let output = r#" { "reason": "compiler-artifact", "package_id": "path+file:///[..]/foo#0.0.1", "manifest_path": "[CWD]/Cargo.toml", "target": "{...}", "profile": "{...}", "features": [], "filenames": "{...}", "executable": "[ROOT]/foo/target/debug/007bar[EXE]", "fresh": false } {"reason":"build-finished", "success":true} "#; // Run cargo build. p.cargo("build --message-format=json") .masquerade_as_nightly_cargo(&["different-binary-name"]) .with_json(output) .run(); }