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cargo/tests/testsuite/build.rs
Nikhil Benesch b03eeda998
Fix dSYM uplifting when symlink is broken 
We were sporadically but persistently seeing errors like

    failed to link or copy `.../target/debugs/deps/bin-264030cd6c8a02be.dSYM` to `.../target/debug/bin.dSYM`

    Caused by:
      the source path is not an existing regular file

while running `cargo build`. Once the error occurs once, `cargo build`
will fail forever with the same error until `target/debug/bin.dSYM` is
manually unlinked.

After some investigation, I've determined that this situation arises
when the target of `bin.dSYM` goes missing. For example, if bin.dSYM is
pointing at `deps/bin-86908f0fa7f1440e.dSYM`, and
`deps/bin-86908f0fa7f1440e.dSYM` does not exist, then this error will
occur. I'm still not clear on why the underlying dSYM bundle
sporadically goes missing--perhaps it's the result of pressing Ctrl-C at
the wrong moment?--but Cargo should at least be able to handle this
situation better.

It turns out that Cargo was getting confused by the broken symlink. When
it goes to install the new `target/debug/bin.dSYM` link, it will remove
the existing `target/debug/bin.dSYM` file, if it exists. Unfortunately,
Cargo was checking whether the *target* of that symlink existed (e.g.,
`deps/bin-86908f0fa7f1440e.dSYM`, which in the buggy case would not
exist), rather than the symlink itself, deciding that there was no
existing symlink to remove, and crashing with EEXIST when trying to
install the new symlink.

This commit adjusts the existence check to evaluate whether the symlink
itself exists, rather than its target.

Note that while the symptoms are the same as #4671, the root cause is
unrelated.
2019-08-19 17:01:40 -04:00

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use std::env;
use std::fs::{self, File};
use std::io::prelude::*;
use crate::support::paths::{root, CargoPathExt};
use crate::support::registry::Package;
use crate::support::{
basic_bin_manifest, basic_lib_manifest, basic_manifest, main_file, project, rustc_host,
sleep_ms, symlink_supported, Execs, ProjectBuilder,
};
use cargo::util::paths::dylib_path_envvar;
#[cargo_test]
fn cargo_compile_simple() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
p.process(&p.bin("foo")).with_stdout("i am foo\n").run();
}
#[cargo_test]
fn cargo_fail_with_no_stderr() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &String::from("refusal"))
.build();
p.cargo("build --message-format=json")
.with_status(101)
.with_stderr_does_not_contain("--- stderr")
.run();
}
/// Checks that the `CARGO_INCREMENTAL` environment variable results in
/// `rustc` getting `-C incremental` passed to it.
#[cargo_test]
fn cargo_compile_incremental() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.build();
p.cargo("build -v")
.env("CARGO_INCREMENTAL", "1")
.with_stderr_contains(
"[RUNNING] `rustc [..] -C incremental=[..]/target/debug/incremental[..]`\n",
)
.run();
p.cargo("test -v")
.env("CARGO_INCREMENTAL", "1")
.with_stderr_contains(
"[RUNNING] `rustc [..] -C incremental=[..]/target/debug/incremental[..]`\n",
)
.run();
}
#[cargo_test]
fn incremental_profile() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
authors = []
[profile.dev]
incremental = false
[profile.release]
incremental = true
"#,
)
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build -v")
.env_remove("CARGO_INCREMENTAL")
.with_stderr_does_not_contain("[..]C incremental=[..]")
.run();
p.cargo("build -v")
.env("CARGO_INCREMENTAL", "1")
.with_stderr_contains("[..]C incremental=[..]")
.run();
p.cargo("build --release -v")
.env_remove("CARGO_INCREMENTAL")
.with_stderr_contains("[..]C incremental=[..]")
.run();
p.cargo("build --release -v")
.env("CARGO_INCREMENTAL", "0")
.with_stderr_does_not_contain("[..]C incremental=[..]")
.run();
}
#[cargo_test]
fn incremental_config() {
let p = project()
.file("src/main.rs", "fn main() {}")
.file(
".cargo/config",
r#"
[build]
incremental = false
"#,
)
.build();
p.cargo("build -v")
.env_remove("CARGO_INCREMENTAL")
.with_stderr_does_not_contain("[..]C incremental=[..]")
.run();
p.cargo("build -v")
.env("CARGO_INCREMENTAL", "1")
.with_stderr_contains("[..]C incremental=[..]")
.run();
}
#[cargo_test]
fn cargo_compile_with_workspace_excluded() {
let p = project().file("src/main.rs", "fn main() {}").build();
p.cargo("build --all --exclude foo")
.with_stderr_does_not_contain("[..]virtual[..]")
.with_stderr_contains("[..]no packages to compile")
.with_status(101)
.run();
}
#[cargo_test]
fn cargo_compile_manifest_path() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.build();
p.cargo("build --manifest-path foo/Cargo.toml")
.cwd(p.root().parent().unwrap())
.run();
assert!(p.bin("foo").is_file());
}
#[cargo_test]
fn cargo_compile_with_invalid_manifest() {
let p = project().file("Cargo.toml", "").build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
virtual manifests must be configured with [workspace]
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_manifest2() {
let p = project()
.file(
"Cargo.toml",
r"
[project]
foo = bar
",
)
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
could not parse input as TOML
Caused by:
invalid number at line 3 column 19
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_manifest3() {
let p = project().file("src/Cargo.toml", "a = bar").build();
p.cargo("build --manifest-path src/Cargo.toml")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
could not parse input as TOML
Caused by:
invalid number at line 1 column 5
",
)
.run();
}
#[cargo_test]
fn cargo_compile_duplicate_build_targets() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[lib]
name = "main"
path = "src/main.rs"
crate-type = ["dylib"]
[dependencies]
"#,
)
.file("src/main.rs", "#![allow(warnings)] fn main() {}")
.build();
p.cargo("build")
.with_stderr(
"\
warning: file found to be present in multiple build targets: [..]main.rs
[COMPILING] foo v0.0.1 ([..])
[FINISHED] [..]
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_version() {
let p = project()
.file("Cargo.toml", &basic_manifest("foo", "1.0"))
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
Expected dot for key `package.version`
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_empty_package_name() {
let p = project()
.file("Cargo.toml", &basic_manifest("", "0.0.0"))
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
package name cannot be an empty string
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_package_name() {
let p = project()
.file("Cargo.toml", &basic_manifest("foo::bar", "0.0.0"))
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
Invalid character `:` in package name: `foo::bar`
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_bin_target_name() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = ""
"#,
)
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
binary target names cannot be empty
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_forbidden_bin_target_name() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = "build"
"#,
)
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
the binary target name `build` is forbidden
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_bin_and_crate_type() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = "the_foo_bin"
path = "src/foo.rs"
crate-type = ["cdylib", "rlib"]
"#,
)
.file("src/foo.rs", "fn main() {}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
the target `the_foo_bin` is a binary and can't have any crate-types set \
(currently \"cdylib, rlib\")",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_bin_and_proc() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = "the_foo_bin"
path = "src/foo.rs"
proc-macro = true
"#,
)
.file("src/foo.rs", "fn main() {}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
the target `the_foo_bin` is a binary and can't have `proc-macro` set `true`",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_lib_target_name() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[lib]
name = ""
"#,
)
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
library target names cannot be empty
",
)
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_non_numeric_dep_version() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
[dependencies]
crossbeam = "y"
"#,
)
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[CWD]/Cargo.toml`
Caused by:
failed to parse the version requirement `y` for dependency `crossbeam`
Caused by:
the given version requirement is invalid
",
)
.run();
}
#[cargo_test]
fn cargo_compile_without_manifest() {
let p = project().no_manifest().build();
p.cargo("build")
.with_status(101)
.with_stderr("[ERROR] could not find `Cargo.toml` in `[..]` or any parent directory")
.run();
}
#[cargo_test]
fn cargo_compile_with_invalid_code() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", "invalid rust code!")
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains(
"\
[ERROR] Could not compile `foo`.
To learn more, run the command again with --verbose.\n",
)
.run();
assert!(p.root().join("Cargo.lock").is_file());
}
#[cargo_test]
fn cargo_compile_with_invalid_code_in_deps() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.bar]
path = "../bar"
[dependencies.baz]
path = "../baz"
"#,
)
.file("src/main.rs", "invalid rust code!")
.build();
let _bar = project()
.at("bar")
.file("Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("src/lib.rs", "invalid rust code!")
.build();
let _baz = project()
.at("baz")
.file("Cargo.toml", &basic_manifest("baz", "0.1.0"))
.file("src/lib.rs", "invalid rust code!")
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains("[..]invalid rust code[..]")
.with_stderr_contains("[ERROR] Could not compile [..]")
.run();
}
#[cargo_test]
fn cargo_compile_with_warnings_in_the_root_package() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", "fn main() {} fn dead() {}")
.build();
p.cargo("build")
.with_stderr_contains("[..]function is never used: `dead`[..]")
.run();
}
#[cargo_test]
fn cargo_compile_with_warnings_in_a_dep_package() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.bar]
path = "bar"
[[bin]]
name = "foo"
"#,
)
.file("src/foo.rs", &main_file(r#""{}", bar::gimme()"#, &["bar"]))
.file("bar/Cargo.toml", &basic_lib_manifest("bar"))
.file(
"bar/src/bar.rs",
r#"
pub fn gimme() -> &'static str {
"test passed"
}
fn dead() {}
"#,
)
.build();
p.cargo("build")
.with_stderr_contains("[..]function is never used: `dead`[..]")
.run();
assert!(p.bin("foo").is_file());
p.process(&p.bin("foo")).with_stdout("test passed\n").run();
}
#[cargo_test]
fn cargo_compile_with_nested_deps_inferred() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.bar]
path = 'bar'
[[bin]]
name = "foo"
"#,
)
.file("src/foo.rs", &main_file(r#""{}", bar::gimme()"#, &["bar"]))
.file(
"bar/Cargo.toml",
r#"
[project]
name = "bar"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.baz]
path = "../baz"
"#,
)
.file(
"bar/src/lib.rs",
r#"
extern crate baz;
pub fn gimme() -> String {
baz::gimme()
}
"#,
)
.file("baz/Cargo.toml", &basic_manifest("baz", "0.5.0"))
.file(
"baz/src/lib.rs",
r#"
pub fn gimme() -> String {
"test passed".to_string()
}
"#,
)
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
assert!(!p.bin("libbar.rlib").is_file());
assert!(!p.bin("libbaz.rlib").is_file());
p.process(&p.bin("foo")).with_stdout("test passed\n").run();
}
#[cargo_test]
fn cargo_compile_with_nested_deps_correct_bin() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.bar]
path = "bar"
[[bin]]
name = "foo"
"#,
)
.file("src/main.rs", &main_file(r#""{}", bar::gimme()"#, &["bar"]))
.file(
"bar/Cargo.toml",
r#"
[project]
name = "bar"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.baz]
path = "../baz"
"#,
)
.file(
"bar/src/lib.rs",
r#"
extern crate baz;
pub fn gimme() -> String {
baz::gimme()
}
"#,
)
.file("baz/Cargo.toml", &basic_manifest("baz", "0.5.0"))
.file(
"baz/src/lib.rs",
r#"
pub fn gimme() -> String {
"test passed".to_string()
}
"#,
)
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
assert!(!p.bin("libbar.rlib").is_file());
assert!(!p.bin("libbaz.rlib").is_file());
p.process(&p.bin("foo")).with_stdout("test passed\n").run();
}
#[cargo_test]
fn cargo_compile_with_nested_deps_shorthand() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.bar]
path = "bar"
"#,
)
.file("src/main.rs", &main_file(r#""{}", bar::gimme()"#, &["bar"]))
.file(
"bar/Cargo.toml",
r#"
[project]
name = "bar"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.baz]
path = "../baz"
[lib]
name = "bar"
"#,
)
.file(
"bar/src/bar.rs",
r#"
extern crate baz;
pub fn gimme() -> String {
baz::gimme()
}
"#,
)
.file("baz/Cargo.toml", &basic_lib_manifest("baz"))
.file(
"baz/src/baz.rs",
r#"
pub fn gimme() -> String {
"test passed".to_string()
}
"#,
)
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
assert!(!p.bin("libbar.rlib").is_file());
assert!(!p.bin("libbaz.rlib").is_file());
p.process(&p.bin("foo")).with_stdout("test passed\n").run();
}
#[cargo_test]
fn cargo_compile_with_nested_deps_longhand() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.bar]
path = "bar"
version = "0.5.0"
[[bin]]
name = "foo"
"#,
)
.file("src/foo.rs", &main_file(r#""{}", bar::gimme()"#, &["bar"]))
.file(
"bar/Cargo.toml",
r#"
[project]
name = "bar"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.baz]
path = "../baz"
version = "0.5.0"
[lib]
name = "bar"
"#,
)
.file(
"bar/src/bar.rs",
r#"
extern crate baz;
pub fn gimme() -> String {
baz::gimme()
}
"#,
)
.file("baz/Cargo.toml", &basic_lib_manifest("baz"))
.file(
"baz/src/baz.rs",
r#"
pub fn gimme() -> String {
"test passed".to_string()
}
"#,
)
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
assert!(!p.bin("libbar.rlib").is_file());
assert!(!p.bin("libbaz.rlib").is_file());
p.process(&p.bin("foo")).with_stdout("test passed\n").run();
}
// Check that Cargo gives a sensible error if a dependency can't be found
// because of a name mismatch.
#[cargo_test]
fn cargo_compile_with_dep_name_mismatch() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = ["wycats@example.com"]
[[bin]]
name = "foo"
[dependencies.notquitebar]
path = "bar"
"#,
)
.file("src/bin/foo.rs", &main_file(r#""i am foo""#, &["bar"]))
.file("bar/Cargo.toml", &basic_bin_manifest("bar"))
.file("bar/src/bar.rs", &main_file(r#""i am bar""#, &[]))
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
r#"error: no matching package named `notquitebar` found
location searched: [CWD]/bar
required by package `foo v0.0.1 ([CWD])`
"#,
)
.run();
}
#[cargo_test]
fn cargo_compile_with_filename() {
let p = project()
.file("src/lib.rs", "")
.file(
"src/bin/a.rs",
r#"
extern crate foo;
fn main() { println!("hello a.rs"); }
"#,
)
.file("examples/a.rs", r#"fn main() { println!("example"); }"#)
.build();
p.cargo("build --bin bin.rs")
.with_status(101)
.with_stderr("[ERROR] no bin target named `bin.rs`")
.run();
p.cargo("build --bin a.rs")
.with_status(101)
.with_stderr(
"\
[ERROR] no bin target named `a.rs`
<tab>Did you mean `a`?",
)
.run();
p.cargo("build --example example.rs")
.with_status(101)
.with_stderr("[ERROR] no example target named `example.rs`")
.run();
p.cargo("build --example a.rs")
.with_status(101)
.with_stderr(
"\
[ERROR] no example target named `a.rs`
<tab>Did you mean `a`?",
)
.run();
}
#[cargo_test]
fn incompatible_dependencies() {
Package::new("bad", "0.1.0").publish();
Package::new("bad", "1.0.0").publish();
Package::new("bad", "1.0.1").publish();
Package::new("bad", "1.0.2").publish();
Package::new("bar", "0.1.0").dep("bad", "0.1.0").publish();
Package::new("baz", "0.1.1").dep("bad", "=1.0.0").publish();
Package::new("baz", "0.1.0").dep("bad", "=1.0.0").publish();
Package::new("qux", "0.1.2").dep("bad", ">=1.0.1").publish();
Package::new("qux", "0.1.1").dep("bad", ">=1.0.1").publish();
Package::new("qux", "0.1.0").dep("bad", ">=1.0.1").publish();
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.0.1"
[dependencies]
bar = "0.1.0"
baz = "0.1.0"
qux = "0.1.0"
"#,
)
.file("src/main.rs", "fn main(){}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains(
"\
error: failed to select a version for `bad`.
... required by package `qux v0.1.0`
... which is depended on by `foo v0.0.1 ([..])`
versions that meet the requirements `>= 1.0.1` are: 1.0.2, 1.0.1
all possible versions conflict with previously selected packages.
previously selected package `bad v1.0.0`
... which is depended on by `baz v0.1.0`
... which is depended on by `foo v0.0.1 ([..])`
failed to select a version for `bad` which could resolve this conflict",
)
.run();
}
#[cargo_test]
fn incompatible_dependencies_with_multi_semver() {
Package::new("bad", "1.0.0").publish();
Package::new("bad", "1.0.1").publish();
Package::new("bad", "2.0.0").publish();
Package::new("bad", "2.0.1").publish();
Package::new("bar", "0.1.0").dep("bad", "=1.0.0").publish();
Package::new("baz", "0.1.0").dep("bad", ">=2.0.1").publish();
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.0.1"
[dependencies]
bar = "0.1.0"
baz = "0.1.0"
bad = ">=1.0.1, <=2.0.0"
"#,
)
.file("src/main.rs", "fn main(){}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains(
"\
error: failed to select a version for `bad`.
... required by package `foo v0.0.1 ([..])`
versions that meet the requirements `>= 1.0.1, <= 2.0.0` are: 2.0.0, 1.0.1
all possible versions conflict with previously selected packages.
previously selected package `bad v2.0.1`
... which is depended on by `baz v0.1.0`
... which is depended on by `foo v0.0.1 ([..])`
previously selected package `bad v1.0.0`
... which is depended on by `bar v0.1.0`
... which is depended on by `foo v0.0.1 ([..])`
failed to select a version for `bad` which could resolve this conflict",
)
.run();
}
#[cargo_test]
fn compile_path_dep_then_change_version() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.bar]
path = "bar"
"#,
)
.file("src/lib.rs", "")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.0.1"))
.file("bar/src/lib.rs", "")
.build();
p.cargo("build").run();
File::create(&p.root().join("bar/Cargo.toml"))
.unwrap()
.write_all(basic_manifest("bar", "0.0.2").as_bytes())
.unwrap();
p.cargo("build").run();
}
#[cargo_test]
fn ignores_carriage_return_in_lockfile() {
let p = project()
.file("src/main.rs", r"mod a; fn main() {}")
.file("src/a.rs", "")
.build();
p.cargo("build").run();
let lockfile = p.root().join("Cargo.lock");
let mut lock = String::new();
File::open(&lockfile)
.unwrap()
.read_to_string(&mut lock)
.unwrap();
let lock = lock.replace("\n", "\r\n");
File::create(&lockfile)
.unwrap()
.write_all(lock.as_bytes())
.unwrap();
p.cargo("build").run();
}
#[cargo_test]
fn cargo_default_env_metadata_env_var() {
// Ensure that path dep + dylib + env_var get metadata
// (even though path_dep + dylib should not)
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.bar]
path = "bar"
"#,
)
.file("src/lib.rs", "// hi")
.file(
"bar/Cargo.toml",
r#"
[package]
name = "bar"
version = "0.0.1"
authors = []
[lib]
name = "bar"
crate_type = ["dylib"]
"#,
)
.file("bar/src/lib.rs", "// hello")
.build();
// No metadata on libbar since it's a dylib path dependency
p.cargo("build -v")
.with_stderr(&format!(
"\
[COMPILING] bar v0.0.1 ([CWD]/bar)
[RUNNING] `rustc --crate-name bar bar/src/lib.rs --color never --crate-type dylib \
--emit=[..]link \
-C prefer-dynamic -C debuginfo=2 \
-C metadata=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/debug/deps`
[COMPILING] foo v0.0.1 ([CWD])
[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link -C debuginfo=2 \
-C metadata=[..] \
-C extra-filename=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/debug/deps \
--extern bar=[CWD]/target/debug/deps/{prefix}bar{suffix}`
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]",
prefix = env::consts::DLL_PREFIX,
suffix = env::consts::DLL_SUFFIX,
))
.run();
p.cargo("clean").run();
// If you set the env-var, then we expect metadata on libbar
p.cargo("build -v")
.env("__CARGO_DEFAULT_LIB_METADATA", "stable")
.with_stderr(&format!(
"\
[COMPILING] bar v0.0.1 ([CWD]/bar)
[RUNNING] `rustc --crate-name bar bar/src/lib.rs --color never --crate-type dylib \
--emit=[..]link \
-C prefer-dynamic -C debuginfo=2 \
-C metadata=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/debug/deps`
[COMPILING] foo v0.0.1 ([CWD])
[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link -C debuginfo=2 \
-C metadata=[..] \
-C extra-filename=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/debug/deps \
--extern bar=[CWD]/target/debug/deps/{prefix}bar-[..]{suffix}`
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
prefix = env::consts::DLL_PREFIX,
suffix = env::consts::DLL_SUFFIX,
))
.run();
}
#[cargo_test]
fn crate_env_vars() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.1-alpha.1"
description = "This is foo"
homepage = "https://example.com"
repository = "https://example.com/repo.git"
authors = ["wycats@example.com"]
"#,
)
.file(
"src/main.rs",
r#"
extern crate foo;
static VERSION_MAJOR: &'static str = env!("CARGO_PKG_VERSION_MAJOR");
static VERSION_MINOR: &'static str = env!("CARGO_PKG_VERSION_MINOR");
static VERSION_PATCH: &'static str = env!("CARGO_PKG_VERSION_PATCH");
static VERSION_PRE: &'static str = env!("CARGO_PKG_VERSION_PRE");
static VERSION: &'static str = env!("CARGO_PKG_VERSION");
static CARGO_MANIFEST_DIR: &'static str = env!("CARGO_MANIFEST_DIR");
static PKG_NAME: &'static str = env!("CARGO_PKG_NAME");
static HOMEPAGE: &'static str = env!("CARGO_PKG_HOMEPAGE");
static REPOSITORY: &'static str = env!("CARGO_PKG_REPOSITORY");
static DESCRIPTION: &'static str = env!("CARGO_PKG_DESCRIPTION");
fn main() {
let s = format!("{}-{}-{} @ {} in {}", VERSION_MAJOR,
VERSION_MINOR, VERSION_PATCH, VERSION_PRE,
CARGO_MANIFEST_DIR);
assert_eq!(s, foo::version());
println!("{}", s);
assert_eq!("foo", PKG_NAME);
assert_eq!("https://example.com", HOMEPAGE);
assert_eq!("https://example.com/repo.git", REPOSITORY);
assert_eq!("This is foo", DESCRIPTION);
let s = format!("{}.{}.{}-{}", VERSION_MAJOR,
VERSION_MINOR, VERSION_PATCH, VERSION_PRE);
assert_eq!(s, VERSION);
}
"#,
)
.file(
"src/lib.rs",
r#"
pub fn version() -> String {
format!("{}-{}-{} @ {} in {}",
env!("CARGO_PKG_VERSION_MAJOR"),
env!("CARGO_PKG_VERSION_MINOR"),
env!("CARGO_PKG_VERSION_PATCH"),
env!("CARGO_PKG_VERSION_PRE"),
env!("CARGO_MANIFEST_DIR"))
}
"#,
)
.build();
println!("build");
p.cargo("build -v").run();
println!("bin");
p.process(&p.bin("foo"))
.with_stdout("0-5-1 @ alpha.1 in [CWD]")
.run();
println!("test");
p.cargo("test -v").run();
}
#[cargo_test]
fn crate_authors_env_vars() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.1-alpha.1"
authors = ["wycats@example.com", "neikos@example.com"]
"#,
)
.file(
"src/main.rs",
r#"
extern crate foo;
static AUTHORS: &'static str = env!("CARGO_PKG_AUTHORS");
fn main() {
let s = "wycats@example.com:neikos@example.com";
assert_eq!(AUTHORS, foo::authors());
println!("{}", AUTHORS);
assert_eq!(s, AUTHORS);
}
"#,
)
.file(
"src/lib.rs",
r#"
pub fn authors() -> String {
format!("{}", env!("CARGO_PKG_AUTHORS"))
}
"#,
)
.build();
println!("build");
p.cargo("build -v").run();
println!("bin");
p.process(&p.bin("foo"))
.with_stdout("wycats@example.com:neikos@example.com")
.run();
println!("test");
p.cargo("test -v").run();
}
#[cargo_test]
fn vv_prints_rustc_env_vars() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.0.1"
authors = ["escape='\"@example.com"]
"#,
)
.file("src/main.rs", "fn main() {}")
.build();
let mut b = p.cargo("build -vv");
if cfg!(windows) {
b.with_stderr_contains(
"[RUNNING] `[..]set CARGO_PKG_NAME=foo&& [..]rustc [..]`"
).with_stderr_contains(
r#"[RUNNING] `[..]set CARGO_PKG_AUTHORS="escape='\"@example.com"&& [..]rustc [..]`"#
)
} else {
b.with_stderr_contains("[RUNNING] `[..]CARGO_PKG_NAME=foo [..]rustc [..]`")
.with_stderr_contains(
r#"[RUNNING] `[..]CARGO_PKG_AUTHORS='escape='\''"@example.com' [..]rustc [..]`"#,
)
};
b.run();
}
// The tester may already have LD_LIBRARY_PATH=::/foo/bar which leads to a false positive error
fn setenv_for_removing_empty_component(mut execs: Execs) -> Execs {
let v = dylib_path_envvar();
if let Ok(search_path) = env::var(v) {
let new_search_path =
env::join_paths(env::split_paths(&search_path).filter(|e| !e.as_os_str().is_empty()))
.expect("join_paths");
execs.env(v, new_search_path); // build_command() will override LD_LIBRARY_PATH accordingly
}
execs
}
// Regression test for #4277
#[cargo_test]
fn crate_library_path_env_var() {
let p = project()
.file(
"src/main.rs",
&format!(
r##"
fn main() {{
let search_path = env!("{}");
let paths = std::env::split_paths(&search_path).collect::<Vec<_>>();
assert!(!paths.contains(&"".into()));
}}
"##,
dylib_path_envvar()
),
)
.build();
setenv_for_removing_empty_component(p.cargo("run")).run();
}
// Regression test for #4277
#[cargo_test]
fn build_with_fake_libc_not_loading() {
let p = project()
.file("src/main.rs", "fn main() {}")
.file("src/lib.rs", r#" "#)
.file("libc.so.6", r#""#)
.build();
setenv_for_removing_empty_component(p.cargo("build")).run();
}
// this is testing that src/<pkg-name>.rs still works (for now)
#[cargo_test]
fn many_crate_types_old_style_lib_location() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[lib]
name = "foo"
crate_type = ["rlib", "dylib"]
"#,
)
.file("src/foo.rs", "pub fn foo() {}")
.build();
p.cargo("build")
.with_stderr_contains(
"\
[WARNING] path `[..]src/foo.rs` was erroneously implicitly accepted for library `foo`,
please rename the file to `src/lib.rs` or set lib.path in Cargo.toml",
)
.run();
assert!(p.root().join("target/debug/libfoo.rlib").is_file());
let fname = format!("{}foo{}", env::consts::DLL_PREFIX, env::consts::DLL_SUFFIX);
assert!(p.root().join("target/debug").join(&fname).is_file());
}
#[cargo_test]
fn many_crate_types_correct() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[lib]
name = "foo"
crate_type = ["rlib", "dylib"]
"#,
)
.file("src/lib.rs", "pub fn foo() {}")
.build();
p.cargo("build").run();
assert!(p.root().join("target/debug/libfoo.rlib").is_file());
let fname = format!("{}foo{}", env::consts::DLL_PREFIX, env::consts::DLL_SUFFIX);
assert!(p.root().join("target/debug").join(&fname).is_file());
}
#[cargo_test]
fn self_dependency() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "test"
version = "0.0.0"
authors = []
[dependencies.test]
path = "."
[lib]
name = "test"
path = "src/test.rs"
"#,
)
.file("src/test.rs", "fn main() {}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] cyclic package dependency: package `test v0.0.0 ([CWD])` depends on itself. Cycle:
package `test v0.0.0 ([CWD])`",
)
.run();
}
#[cargo_test]
/// Make sure broken symlinks don't break the build
///
/// This test requires you to be able to make symlinks.
/// For windows, this may require you to enable developer mode.
fn ignore_broken_symlinks() {
if !symlink_supported() {
return;
}
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.symlink("Notafile", "bar")
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
p.process(&p.bin("foo")).with_stdout("i am foo\n").run();
}
#[cargo_test]
fn missing_lib_and_bin() {
let p = project().build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]Cargo.toml`
Caused by:
no targets specified in the manifest
either src/lib.rs, src/main.rs, a [lib] section, or [[bin]] section must be present\n",
)
.run();
}
#[cargo_test]
fn lto_build() {
// FIXME: currently this hits a linker bug on 32-bit MSVC
if cfg!(all(target_env = "msvc", target_pointer_width = "32")) {
return;
}
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "test"
version = "0.0.0"
authors = []
[profile.release]
lto = true
"#,
)
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build -v --release")
.with_stderr(
"\
[COMPILING] test v0.0.0 ([CWD])
[RUNNING] `rustc --crate-name test src/main.rs --color never --crate-type bin \
--emit=[..]link \
-C opt-level=3 \
-C lto \
-C metadata=[..] \
--out-dir [CWD]/target/release/deps \
-L dependency=[CWD]/target/release/deps`
[FINISHED] release [optimized] target(s) in [..]
",
)
.run();
}
#[cargo_test]
fn verbose_build() {
let p = project().file("src/lib.rs", "").build();
p.cargo("build -v")
.with_stderr(
"\
[COMPILING] foo v0.0.1 ([CWD])
[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link -C debuginfo=2 \
-C metadata=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/debug/deps`
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
)
.run();
}
#[cargo_test]
fn verbose_release_build() {
let p = project().file("src/lib.rs", "").build();
p.cargo("build -v --release")
.with_stderr(
"\
[COMPILING] foo v0.0.1 ([CWD])
[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link \
-C opt-level=3 \
-C metadata=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/release/deps`
[FINISHED] release [optimized] target(s) in [..]
",
)
.run();
}
#[cargo_test]
fn verbose_release_build_deps() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "test"
version = "0.0.0"
authors = []
[dependencies.foo]
path = "foo"
"#,
)
.file("src/lib.rs", "")
.file(
"foo/Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.0"
authors = []
[lib]
name = "foo"
crate_type = ["dylib", "rlib"]
"#,
)
.file("foo/src/lib.rs", "")
.build();
p.cargo("build -v --release")
.with_stderr(&format!(
"\
[COMPILING] foo v0.0.0 ([CWD]/foo)
[RUNNING] `rustc --crate-name foo foo/src/lib.rs --color never \
--crate-type dylib --crate-type rlib \
--emit=[..]link \
-C prefer-dynamic \
-C opt-level=3 \
-C metadata=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/release/deps`
[COMPILING] test v0.0.0 ([CWD])
[RUNNING] `rustc --crate-name test src/lib.rs --color never --crate-type lib \
--emit=[..]link \
-C opt-level=3 \
-C metadata=[..] \
--out-dir [..] \
-L dependency=[CWD]/target/release/deps \
--extern foo=[CWD]/target/release/deps/{prefix}foo{suffix} \
--extern foo=[CWD]/target/release/deps/libfoo.rlib`
[FINISHED] release [optimized] target(s) in [..]
",
prefix = env::consts::DLL_PREFIX,
suffix = env::consts::DLL_SUFFIX
))
.run();
}
#[cargo_test]
fn explicit_examples() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "1.0.0"
authors = []
[lib]
name = "foo"
path = "src/lib.rs"
[[example]]
name = "hello"
path = "examples/ex-hello.rs"
[[example]]
name = "goodbye"
path = "examples/ex-goodbye.rs"
"#,
)
.file(
"src/lib.rs",
r#"
pub fn get_hello() -> &'static str { "Hello" }
pub fn get_goodbye() -> &'static str { "Goodbye" }
pub fn get_world() -> &'static str { "World" }
"#,
)
.file(
"examples/ex-hello.rs",
r#"
extern crate foo;
fn main() { println!("{}, {}!", foo::get_hello(), foo::get_world()); }
"#,
)
.file(
"examples/ex-goodbye.rs",
r#"
extern crate foo;
fn main() { println!("{}, {}!", foo::get_goodbye(), foo::get_world()); }
"#,
)
.build();
p.cargo("build --examples").run();
p.process(&p.bin("examples/hello"))
.with_stdout("Hello, World!\n")
.run();
p.process(&p.bin("examples/goodbye"))
.with_stdout("Goodbye, World!\n")
.run();
}
#[cargo_test]
fn non_existing_example() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "1.0.0"
authors = []
[lib]
name = "foo"
path = "src/lib.rs"
[[example]]
name = "hello"
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("test -v")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
can't find `hello` example, specify example.path",
)
.run();
}
#[cargo_test]
fn non_existing_binary() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/lib.rs", "")
.file("src/bin/ehlo.rs", "")
.build();
p.cargo("build -v")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
can't find `foo` bin, specify bin.path",
)
.run();
}
#[cargo_test]
fn legacy_binary_paths_warnings() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "1.0.0"
authors = []
[[bin]]
name = "bar"
"#,
)
.file("src/lib.rs", "")
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build -v")
.with_stderr_contains(
"\
[WARNING] path `[..]src/main.rs` was erroneously implicitly accepted for binary `bar`,
please set bin.path in Cargo.toml",
)
.run();
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "1.0.0"
authors = []
[[bin]]
name = "bar"
"#,
)
.file("src/lib.rs", "")
.file("src/bin/main.rs", "fn main() {}")
.build();
p.cargo("build -v")
.with_stderr_contains(
"\
[WARNING] path `[..]src/bin/main.rs` was erroneously implicitly accepted for binary `bar`,
please set bin.path in Cargo.toml",
)
.run();
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "1.0.0"
authors = []
[[bin]]
name = "bar"
"#,
)
.file("src/bar.rs", "fn main() {}")
.build();
p.cargo("build -v")
.with_stderr_contains(
"\
[WARNING] path `[..]src/bar.rs` was erroneously implicitly accepted for binary `bar`,
please set bin.path in Cargo.toml",
)
.run();
}
#[cargo_test]
fn implicit_examples() {
let p = project()
.file(
"src/lib.rs",
r#"
pub fn get_hello() -> &'static str { "Hello" }
pub fn get_goodbye() -> &'static str { "Goodbye" }
pub fn get_world() -> &'static str { "World" }
"#,
)
.file(
"examples/hello.rs",
r#"
extern crate foo;
fn main() {
println!("{}, {}!", foo::get_hello(), foo::get_world());
}
"#,
)
.file(
"examples/goodbye.rs",
r#"
extern crate foo;
fn main() {
println!("{}, {}!", foo::get_goodbye(), foo::get_world());
}
"#,
)
.build();
p.cargo("build --examples").run();
p.process(&p.bin("examples/hello"))
.with_stdout("Hello, World!\n")
.run();
p.process(&p.bin("examples/goodbye"))
.with_stdout("Goodbye, World!\n")
.run();
}
#[cargo_test]
fn standard_build_no_ndebug() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file(
"src/foo.rs",
r#"
fn main() {
if cfg!(debug_assertions) {
println!("slow")
} else {
println!("fast")
}
}
"#,
)
.build();
p.cargo("build").run();
p.process(&p.bin("foo")).with_stdout("slow\n").run();
}
#[cargo_test]
fn release_build_ndebug() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file(
"src/foo.rs",
r#"
fn main() {
if cfg!(debug_assertions) {
println!("slow")
} else {
println!("fast")
}
}
"#,
)
.build();
p.cargo("build --release").run();
p.process(&p.release_bin("foo")).with_stdout("fast\n").run();
}
#[cargo_test]
fn inferred_main_bin() {
let p = project().file("src/main.rs", "fn main() {}").build();
p.cargo("build").run();
p.process(&p.bin("foo")).run();
}
#[cargo_test]
fn deletion_causes_failure() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.bar]
path = "bar"
"#,
)
.file("src/main.rs", "extern crate bar; fn main() {}")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.0.1"))
.file("bar/src/lib.rs", "")
.build();
p.cargo("build").run();
p.change_file("Cargo.toml", &basic_manifest("foo", "0.0.1"));
p.cargo("build")
.with_status(101)
.with_stderr_contains("[..]can't find crate for `bar`")
.run();
}
#[cargo_test]
fn bad_cargo_toml_in_target_dir() {
let p = project()
.file("src/main.rs", "fn main() {}")
.file("target/Cargo.toml", "bad-toml")
.build();
p.cargo("build").run();
p.process(&p.bin("foo")).run();
}
#[cargo_test]
fn lib_with_standard_name() {
let p = project()
.file("Cargo.toml", &basic_manifest("syntax", "0.0.1"))
.file("src/lib.rs", "pub fn foo() {}")
.file(
"src/main.rs",
"extern crate syntax; fn main() { syntax::foo() }",
)
.build();
p.cargo("build")
.with_stderr(
"\
[COMPILING] syntax v0.0.1 ([CWD])
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
)
.run();
}
#[cargo_test]
fn simple_staticlib() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.1"
[lib]
name = "foo"
crate-type = ["staticlib"]
"#,
)
.file("src/lib.rs", "pub fn foo() {}")
.build();
// env var is a test for #1381
p.cargo("build").env("CARGO_LOG", "nekoneko=trace").run();
}
#[cargo_test]
fn staticlib_rlib_and_bin() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.1"
[lib]
name = "foo"
crate-type = ["staticlib", "rlib"]
"#,
)
.file("src/lib.rs", "pub fn foo() {}")
.file("src/main.rs", "extern crate foo; fn main() { foo::foo(); }")
.build();
p.cargo("build -v").run();
}
#[cargo_test]
fn opt_out_of_bin() {
let p = project()
.file(
"Cargo.toml",
r#"
bin = []
[package]
name = "foo"
authors = []
version = "0.0.1"
"#,
)
.file("src/lib.rs", "")
.file("src/main.rs", "bad syntax")
.build();
p.cargo("build").run();
}
#[cargo_test]
fn single_lib() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.1"
[lib]
name = "foo"
path = "src/bar.rs"
"#,
)
.file("src/bar.rs", "")
.build();
p.cargo("build").run();
}
#[cargo_test]
fn freshness_ignores_excluded() {
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.0"
authors = []
build = "build.rs"
exclude = ["src/b*.rs"]
"#,
)
.file("build.rs", "fn main() {}")
.file("src/lib.rs", "pub fn bar() -> i32 { 1 }")
.build();
foo.root().move_into_the_past();
foo.cargo("build")
.with_stderr(
"\
[COMPILING] foo v0.0.0 ([CWD])
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
)
.run();
// Smoke test to make sure it doesn't compile again
println!("first pass");
foo.cargo("build").with_stdout("").run();
// Modify an ignored file and make sure we don't rebuild
println!("second pass");
File::create(&foo.root().join("src/bar.rs")).unwrap();
foo.cargo("build").with_stdout("").run();
}
#[cargo_test]
fn rebuild_preserves_out_dir() {
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.0"
authors = []
build = 'build.rs'
"#,
)
.file(
"build.rs",
r#"
use std::env;
use std::fs::File;
use std::path::Path;
fn main() {
let path = Path::new(&env::var("OUT_DIR").unwrap()).join("foo");
if env::var_os("FIRST").is_some() {
File::create(&path).unwrap();
} else {
File::create(&path).unwrap();
}
}
"#,
)
.file("src/lib.rs", "pub fn bar() -> i32 { 1 }")
.build();
foo.root().move_into_the_past();
foo.cargo("build")
.env("FIRST", "1")
.with_stderr(
"\
[COMPILING] foo v0.0.0 ([CWD])
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
)
.run();
File::create(&foo.root().join("src/bar.rs")).unwrap();
foo.cargo("build")
.with_stderr(
"\
[COMPILING] foo v0.0.0 ([CWD])
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
)
.run();
}
#[cargo_test]
fn dep_no_libs() {
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.0"
authors = []
[dependencies.bar]
path = "bar"
"#,
)
.file("src/lib.rs", "pub fn bar() -> i32 { 1 }")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.0.0"))
.file("bar/src/main.rs", "")
.build();
foo.cargo("build").run();
}
#[cargo_test]
fn recompile_space_in_name() {
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.0"
authors = []
[lib]
name = "foo"
path = "src/my lib.rs"
"#,
)
.file("src/my lib.rs", "")
.build();
foo.cargo("build").run();
foo.root().move_into_the_past();
foo.cargo("build").with_stdout("").run();
}
#[cfg(unix)]
#[cargo_test]
fn ignore_bad_directories() {
use std::os::unix::prelude::*;
let foo = project()
.file("Cargo.toml", &basic_manifest("foo", "0.0.0"))
.file("src/lib.rs", "")
.build();
let dir = foo.root().join("tmp");
fs::create_dir(&dir).unwrap();
let stat = fs::metadata(&dir).unwrap();
let mut perms = stat.permissions();
perms.set_mode(0o644);
fs::set_permissions(&dir, perms.clone()).unwrap();
foo.cargo("build").run();
perms.set_mode(0o755);
fs::set_permissions(&dir, perms).unwrap();
}
#[cargo_test]
fn bad_cargo_config() {
let foo = project()
.file("Cargo.toml", &basic_manifest("foo", "0.0.0"))
.file("src/lib.rs", "")
.file(".cargo/config", "this is not valid toml")
.build();
foo.cargo("build -v")
.with_status(101)
.with_stderr(
"\
[ERROR] could not load Cargo configuration
Caused by:
could not parse TOML configuration in `[..]`
Caused by:
could not parse input as TOML
Caused by:
expected an equals, found an identifier at line 1 column 6
",
)
.run();
}
#[cargo_test]
fn cargo_platform_specific_dependency() {
let host = rustc_host();
let p = project()
.file(
"Cargo.toml",
&format!(
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
build = "build.rs"
[target.{host}.dependencies]
dep = {{ path = "dep" }}
[target.{host}.build-dependencies]
build = {{ path = "build" }}
[target.{host}.dev-dependencies]
dev = {{ path = "dev" }}
"#,
host = host
),
)
.file("src/main.rs", "extern crate dep; fn main() { dep::dep() }")
.file(
"tests/foo.rs",
"extern crate dev; #[test] fn foo() { dev::dev() }",
)
.file(
"build.rs",
"extern crate build; fn main() { build::build(); }",
)
.file("dep/Cargo.toml", &basic_manifest("dep", "0.5.0"))
.file("dep/src/lib.rs", "pub fn dep() {}")
.file("build/Cargo.toml", &basic_manifest("build", "0.5.0"))
.file("build/src/lib.rs", "pub fn build() {}")
.file("dev/Cargo.toml", &basic_manifest("dev", "0.5.0"))
.file("dev/src/lib.rs", "pub fn dev() {}")
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
p.cargo("test").run();
}
#[cargo_test]
fn bad_platform_specific_dependency() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[target.wrong-target.dependencies.bar]
path = "bar"
"#,
)
.file("src/main.rs", &main_file(r#""{}", bar::gimme()"#, &["bar"]))
.file("bar/Cargo.toml", &basic_manifest("bar", "0.5.0"))
.file(
"bar/src/lib.rs",
r#"pub fn gimme() -> String { format!("") }"#,
)
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains("[..]can't find crate for `bar`")
.run();
}
#[cargo_test]
fn cargo_platform_specific_dependency_wrong_platform() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[target.non-existing-triplet.dependencies.bar]
path = "bar"
"#,
)
.file("src/main.rs", "fn main() {}")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.5.0"))
.file(
"bar/src/lib.rs",
"invalid rust file, should not be compiled",
)
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
p.process(&p.bin("foo")).run();
let loc = p.root().join("Cargo.lock");
let mut lockfile = String::new();
File::open(&loc)
.unwrap()
.read_to_string(&mut lockfile)
.unwrap();
assert!(lockfile.contains("bar"));
}
#[cargo_test]
fn example_as_lib() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[[example]]
name = "ex"
crate-type = ["lib"]
"#,
)
.file("src/lib.rs", "")
.file("examples/ex.rs", "")
.build();
p.cargo("build --example=ex").run();
assert!(p.example_lib("ex", "lib").is_file());
}
#[cargo_test]
fn example_as_rlib() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[[example]]
name = "ex"
crate-type = ["rlib"]
"#,
)
.file("src/lib.rs", "")
.file("examples/ex.rs", "")
.build();
p.cargo("build --example=ex").run();
assert!(p.example_lib("ex", "rlib").is_file());
}
#[cargo_test]
fn example_as_dylib() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[[example]]
name = "ex"
crate-type = ["dylib"]
"#,
)
.file("src/lib.rs", "")
.file("examples/ex.rs", "")
.build();
p.cargo("build --example=ex").run();
assert!(p.example_lib("ex", "dylib").is_file());
}
#[cargo_test]
fn example_as_proc_macro() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[[example]]
name = "ex"
crate-type = ["proc-macro"]
"#,
)
.file("src/lib.rs", "")
.file(
"examples/ex.rs",
r#"
extern crate proc_macro;
use proc_macro::TokenStream;
#[proc_macro]
pub fn eat(_item: TokenStream) -> TokenStream {
"".parse().unwrap()
}
"#,
)
.build();
p.cargo("build --example=ex").run();
assert!(p.example_lib("ex", "proc-macro").is_file());
}
#[cargo_test]
fn example_bin_same_name() {
let p = project()
.file("src/main.rs", "fn main() {}")
.file("examples/foo.rs", "fn main() {}")
.build();
p.cargo("build --examples").run();
assert!(!p.bin("foo").is_file());
// We expect a file of the form bin/foo-{metadata_hash}
assert!(p.bin("examples/foo").is_file());
p.cargo("build --examples").run();
assert!(!p.bin("foo").is_file());
// We expect a file of the form bin/foo-{metadata_hash}
assert!(p.bin("examples/foo").is_file());
}
#[cargo_test]
fn compile_then_delete() {
let p = project().file("src/main.rs", "fn main() {}").build();
p.cargo("run -v").run();
assert!(p.bin("foo").is_file());
if cfg!(windows) {
// On windows unlinking immediately after running often fails, so sleep
sleep_ms(100);
}
fs::remove_file(&p.bin("foo")).unwrap();
p.cargo("run -v").run();
}
#[cargo_test]
fn transitive_dependencies_not_available() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.aaaaa]
path = "a"
"#,
)
.file(
"src/main.rs",
"extern crate bbbbb; extern crate aaaaa; fn main() {}",
)
.file(
"a/Cargo.toml",
r#"
[package]
name = "aaaaa"
version = "0.0.1"
authors = []
[dependencies.bbbbb]
path = "../b"
"#,
)
.file("a/src/lib.rs", "extern crate bbbbb;")
.file("b/Cargo.toml", &basic_manifest("bbbbb", "0.0.1"))
.file("b/src/lib.rs", "")
.build();
p.cargo("build -v")
.with_status(101)
.with_stderr_contains("[..] can't find crate for `bbbbb`[..]")
.run();
}
#[cargo_test]
fn cyclic_deps_rejected() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.a]
path = "a"
"#,
)
.file("src/lib.rs", "")
.file(
"a/Cargo.toml",
r#"
[package]
name = "a"
version = "0.0.1"
authors = []
[dependencies.foo]
path = ".."
"#,
)
.file("a/src/lib.rs", "")
.build();
p.cargo("build -v")
.with_status(101)
.with_stderr(
"[ERROR] cyclic package dependency: package `a v0.0.1 ([CWD]/a)` depends on itself. Cycle:
package `a v0.0.1 ([CWD]/a)`
... which is depended on by `foo v0.0.1 ([CWD])`",
).run();
}
#[cargo_test]
fn predictable_filenames() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[lib]
name = "foo"
crate-type = ["dylib", "rlib"]
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build -v").run();
assert!(p.root().join("target/debug/libfoo.rlib").is_file());
let dylib_name = format!("{}foo{}", env::consts::DLL_PREFIX, env::consts::DLL_SUFFIX);
assert!(p.root().join("target/debug").join(dylib_name).is_file());
}
#[cargo_test]
fn dashes_to_underscores() {
let p = project()
.file("Cargo.toml", &basic_manifest("foo-bar", "0.0.1"))
.file("src/lib.rs", "")
.file("src/main.rs", "extern crate foo_bar; fn main() {}")
.build();
p.cargo("build -v").run();
assert!(p.bin("foo-bar").is_file());
}
#[cargo_test]
fn dashes_in_crate_name_bad() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[lib]
name = "foo-bar"
"#,
)
.file("src/lib.rs", "")
.file("src/main.rs", "extern crate foo_bar; fn main() {}")
.build();
p.cargo("build -v")
.with_status(101)
.with_stderr(
"\
[ERROR] failed to parse manifest at `[..]/foo/Cargo.toml`
Caused by:
library target names cannot contain hyphens: foo-bar
",
)
.run();
}
#[cargo_test]
fn rustc_env_var() {
let p = project().file("src/lib.rs", "").build();
p.cargo("build -v")
.env("RUSTC", "rustc-that-does-not-exist")
.with_status(101)
.with_stderr(
"\
[ERROR] could not execute process `rustc-that-does-not-exist -vV` ([..])
Caused by:
[..]
",
)
.run();
assert!(!p.bin("a").is_file());
}
#[cargo_test]
fn filtering() {
let p = project()
.file("src/lib.rs", "")
.file("src/bin/a.rs", "fn main() {}")
.file("src/bin/b.rs", "fn main() {}")
.file("examples/a.rs", "fn main() {}")
.file("examples/b.rs", "fn main() {}")
.build();
p.cargo("build --lib").run();
assert!(!p.bin("a").is_file());
p.cargo("build --bin=a --example=a").run();
assert!(p.bin("a").is_file());
assert!(!p.bin("b").is_file());
assert!(p.bin("examples/a").is_file());
assert!(!p.bin("examples/b").is_file());
}
#[cargo_test]
fn filtering_implicit_bins() {
let p = project()
.file("src/lib.rs", "")
.file("src/bin/a.rs", "fn main() {}")
.file("src/bin/b.rs", "fn main() {}")
.file("examples/a.rs", "fn main() {}")
.file("examples/b.rs", "fn main() {}")
.build();
p.cargo("build --bins").run();
assert!(p.bin("a").is_file());
assert!(p.bin("b").is_file());
assert!(!p.bin("examples/a").is_file());
assert!(!p.bin("examples/b").is_file());
}
#[cargo_test]
fn filtering_implicit_examples() {
let p = project()
.file("src/lib.rs", "")
.file("src/bin/a.rs", "fn main() {}")
.file("src/bin/b.rs", "fn main() {}")
.file("examples/a.rs", "fn main() {}")
.file("examples/b.rs", "fn main() {}")
.build();
p.cargo("build --examples").run();
assert!(!p.bin("a").is_file());
assert!(!p.bin("b").is_file());
assert!(p.bin("examples/a").is_file());
assert!(p.bin("examples/b").is_file());
}
#[cargo_test]
fn ignore_dotfile() {
let p = project()
.file("src/bin/.a.rs", "")
.file("src/bin/a.rs", "fn main() {}")
.build();
p.cargo("build").run();
}
#[cargo_test]
fn ignore_dotdirs() {
let p = project()
.file("src/bin/a.rs", "fn main() {}")
.file(".git/Cargo.toml", "")
.file(".pc/dummy-fix.patch/Cargo.toml", "")
.build();
p.cargo("build").run();
}
#[cargo_test]
fn dotdir_root() {
let p = ProjectBuilder::new(root().join(".foo"))
.file("src/bin/a.rs", "fn main() {}")
.build();
p.cargo("build").run();
}
#[cargo_test]
fn custom_target_dir_env() {
let p = project().file("src/main.rs", "fn main() {}").build();
let exe_name = format!("foo{}", env::consts::EXE_SUFFIX);
p.cargo("build").env("CARGO_TARGET_DIR", "foo/target").run();
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(!p.root().join("target/debug").join(&exe_name).is_file());
p.cargo("build").run();
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(p.root().join("target/debug").join(&exe_name).is_file());
fs::create_dir(p.root().join(".cargo")).unwrap();
File::create(p.root().join(".cargo/config"))
.unwrap()
.write_all(
br#"
[build]
target-dir = "foo/target"
"#,
)
.unwrap();
p.cargo("build").env("CARGO_TARGET_DIR", "bar/target").run();
assert!(p.root().join("bar/target/debug").join(&exe_name).is_file());
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(p.root().join("target/debug").join(&exe_name).is_file());
}
#[cargo_test]
fn custom_target_dir_line_parameter() {
let p = project().file("src/main.rs", "fn main() {}").build();
let exe_name = format!("foo{}", env::consts::EXE_SUFFIX);
p.cargo("build --target-dir foo/target").run();
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(!p.root().join("target/debug").join(&exe_name).is_file());
p.cargo("build").run();
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(p.root().join("target/debug").join(&exe_name).is_file());
fs::create_dir(p.root().join(".cargo")).unwrap();
File::create(p.root().join(".cargo/config"))
.unwrap()
.write_all(
br#"
[build]
target-dir = "foo/target"
"#,
)
.unwrap();
p.cargo("build --target-dir bar/target").run();
assert!(p.root().join("bar/target/debug").join(&exe_name).is_file());
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(p.root().join("target/debug").join(&exe_name).is_file());
p.cargo("build --target-dir foobar/target")
.env("CARGO_TARGET_DIR", "bar/target")
.run();
assert!(p
.root()
.join("foobar/target/debug")
.join(&exe_name)
.is_file());
assert!(p.root().join("bar/target/debug").join(&exe_name).is_file());
assert!(p.root().join("foo/target/debug").join(&exe_name).is_file());
assert!(p.root().join("target/debug").join(&exe_name).is_file());
}
#[cargo_test]
fn build_multiple_packages() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.d1]
path = "d1"
[dependencies.d2]
path = "d2"
[[bin]]
name = "foo"
"#,
)
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.file("d1/Cargo.toml", &basic_bin_manifest("d1"))
.file("d1/src/lib.rs", "")
.file("d1/src/main.rs", "fn main() { println!(\"d1\"); }")
.file(
"d2/Cargo.toml",
r#"
[package]
name = "d2"
version = "0.0.1"
authors = []
[[bin]]
name = "d2"
doctest = false
"#,
)
.file("d2/src/main.rs", "fn main() { println!(\"d2\"); }")
.build();
p.cargo("build -p d1 -p d2 -p foo").run();
assert!(p.bin("foo").is_file());
p.process(&p.bin("foo")).with_stdout("i am foo\n").run();
let d1_path = &p
.build_dir()
.join("debug")
.join(format!("d1{}", env::consts::EXE_SUFFIX));
let d2_path = &p
.build_dir()
.join("debug")
.join(format!("d2{}", env::consts::EXE_SUFFIX));
assert!(d1_path.is_file());
p.process(d1_path).with_stdout("d1").run();
assert!(d2_path.is_file());
p.process(d2_path).with_stdout("d2").run();
}
#[cargo_test]
fn invalid_spec() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[dependencies.d1]
path = "d1"
[[bin]]
name = "foo"
"#,
)
.file("src/bin/foo.rs", &main_file(r#""i am foo""#, &[]))
.file("d1/Cargo.toml", &basic_bin_manifest("d1"))
.file("d1/src/lib.rs", "")
.file("d1/src/main.rs", "fn main() { println!(\"d1\"); }")
.build();
p.cargo("build -p notAValidDep")
.with_status(101)
.with_stderr("[ERROR] package ID specification `notAValidDep` matched no packages")
.run();
p.cargo("build -p d1 -p notAValidDep")
.with_status(101)
.with_stderr("[ERROR] package ID specification `notAValidDep` matched no packages")
.run();
}
#[cargo_test]
fn manifest_with_bom_is_ok() {
let p = project()
.file(
"Cargo.toml",
"\u{FEFF}
[package]
name = \"foo\"
version = \"0.0.1\"
authors = []
",
)
.file("src/lib.rs", "")
.build();
p.cargo("build -v").run();
}
#[cargo_test]
fn panic_abort_compiles_with_panic_abort() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[profile.dev]
panic = 'abort'
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build -v")
.with_stderr_contains("[..] -C panic=abort [..]")
.run();
}
#[cargo_test]
fn explicit_color_config_is_propagated_to_rustc() {
let p = project()
.file("Cargo.toml", &basic_manifest("test", "0.0.0"))
.file("src/lib.rs", "")
.build();
p.cargo("build -v --color always")
.with_stderr_contains("[..]rustc [..] src/lib.rs --color always[..]")
.run();
p.cargo("clean").run();
p.cargo("build -v --color never")
.with_stderr(
"\
[COMPILING] test v0.0.0 ([..])
[RUNNING] `rustc [..] --color never [..]`
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]
",
)
.run();
}
#[cargo_test]
fn compiler_json_error_format() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.5.0"
authors = ["wycats@example.com"]
[dependencies.bar]
path = "bar"
"#,
)
.file(
"build.rs",
"fn main() { println!(\"cargo:rustc-cfg=xyz\") }",
)
.file("src/main.rs", "fn main() { let unused = 92; }")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.5.0"))
.file("bar/src/lib.rs", r#"fn dead() {}"#)
.build();
// Use `jobs=1` to ensure that the order of messages is consistent.
p.cargo("build -v --message-format=json --jobs=1")
.with_json(
r#"
{
"reason":"compiler-artifact",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["custom-build"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"build-script-build",
"src_path":"[..]build.rs"
},
"profile": {
"debug_assertions": true,
"debuginfo": 2,
"opt_level": "0",
"overflow_checks": true,
"test": false
},
"executable": null,
"features": [],
"filenames": "{...}",
"fresh": false
}
{
"reason":"compiler-message",
"package_id":"bar 0.5.0 ([..])",
"target":{
"kind":["lib"],
"crate_types":["lib"],
"doctest": true,
"edition": "2015",
"name":"bar",
"src_path":"[..]lib.rs"
},
"message":"{...}"
}
{
"reason":"compiler-artifact",
"profile": {
"debug_assertions": true,
"debuginfo": 2,
"opt_level": "0",
"overflow_checks": true,
"test": false
},
"executable": null,
"features": [],
"package_id":"bar 0.5.0 ([..])",
"target":{
"kind":["lib"],
"crate_types":["lib"],
"doctest": true,
"edition": "2015",
"name":"bar",
"src_path":"[..]lib.rs"
},
"filenames":[
"[..].rlib",
"[..].rmeta"
],
"fresh": false
}
{
"reason":"build-script-executed",
"package_id":"foo 0.5.0 ([..])",
"linked_libs":[],
"linked_paths":[],
"env":[],
"cfgs":["xyz"]
}
{
"reason":"compiler-message",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["bin"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"foo",
"src_path":"[..]main.rs"
},
"message":"{...}"
}
{
"reason":"compiler-artifact",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["bin"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"foo",
"src_path":"[..]main.rs"
},
"profile": {
"debug_assertions": true,
"debuginfo": 2,
"opt_level": "0",
"overflow_checks": true,
"test": false
},
"executable": "[..]/foo/target/debug/foo[EXE]",
"features": [],
"filenames": "{...}",
"fresh": false
}
"#,
)
.run();
// With fresh build, we should repeat the artifacts,
// but omit compiler warnings.
p.cargo("build -v --message-format=json --jobs=1")
.with_json(
r#"
{
"reason":"compiler-artifact",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["custom-build"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"build-script-build",
"src_path":"[..]build.rs"
},
"profile": {
"debug_assertions": true,
"debuginfo": 2,
"opt_level": "0",
"overflow_checks": true,
"test": false
},
"executable": null,
"features": [],
"filenames": "{...}",
"fresh": true
}
{
"reason":"compiler-artifact",
"profile": {
"debug_assertions": true,
"debuginfo": 2,
"opt_level": "0",
"overflow_checks": true,
"test": false
},
"executable": null,
"features": [],
"package_id":"bar 0.5.0 ([..])",
"target":{
"kind":["lib"],
"crate_types":["lib"],
"doctest": true,
"edition": "2015",
"name":"bar",
"src_path":"[..]lib.rs"
},
"filenames":[
"[..].rlib",
"[..].rmeta"
],
"fresh": true
}
{
"reason":"build-script-executed",
"package_id":"foo 0.5.0 ([..])",
"linked_libs":[],
"linked_paths":[],
"env":[],
"cfgs":["xyz"]
}
{
"reason":"compiler-artifact",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["bin"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"foo",
"src_path":"[..]main.rs"
},
"profile": {
"debug_assertions": true,
"debuginfo": 2,
"opt_level": "0",
"overflow_checks": true,
"test": false
},
"executable": "[..]/foo/target/debug/foo[EXE]",
"features": [],
"filenames": "{...}",
"fresh": true
}
"#,
)
.run();
}
#[cargo_test]
fn wrong_message_format_option() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build --message-format XML")
.with_status(101)
.with_stderr_contains(
"\
error: invalid message format specifier: `xml`
",
)
.run();
}
#[cargo_test]
fn message_format_json_forward_stderr() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/main.rs", "fn main() { let unused = 0; }")
.build();
p.cargo("rustc --release --bin foo --message-format JSON")
.with_json(
r#"
{
"reason":"compiler-message",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["bin"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"foo",
"src_path":"[..]"
},
"message":"{...}"
}
{
"reason":"compiler-artifact",
"package_id":"foo 0.5.0 ([..])",
"target":{
"kind":["bin"],
"crate_types":["bin"],
"doctest": false,
"edition": "2015",
"name":"foo",
"src_path":"[..]"
},
"profile":{
"debug_assertions":false,
"debuginfo":null,
"opt_level":"3",
"overflow_checks": false,
"test":false
},
"executable": "{...}",
"features":[],
"filenames": "{...}",
"fresh": false
}
"#,
)
.run();
}
#[cargo_test]
fn no_warn_about_package_metadata() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
[package.metadata]
foo = "bar"
a = true
b = 3
[package.metadata.another]
bar = 3
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build")
.with_stderr(
"[..] foo v0.0.1 ([..])\n\
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
}
#[cargo_test]
fn cargo_build_empty_target() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build --target")
.arg("")
.with_status(101)
.with_stderr_contains("[..] target was empty")
.run();
}
#[cargo_test]
fn build_all_workspace() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.1.0"
[dependencies]
bar = { path = "bar" }
[workspace]
"#,
)
.file("src/main.rs", "fn main() {}")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "pub fn bar() {}")
.build();
p.cargo("build --all")
.with_stderr(
"[..] Compiling bar v0.1.0 ([..])\n\
[..] Compiling foo v0.1.0 ([..])\n\
[..] Finished dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
}
#[cargo_test]
fn build_all_exclude() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.1.0"
[workspace]
members = ["bar", "baz"]
"#,
)
.file("src/main.rs", "fn main() {}")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "pub fn bar() {}")
.file("baz/Cargo.toml", &basic_manifest("baz", "0.1.0"))
.file("baz/src/lib.rs", "pub fn baz() { break_the_build(); }")
.build();
p.cargo("build --all --exclude baz")
.with_stderr_contains("[..]Compiling foo v0.1.0 [..]")
.with_stderr_contains("[..]Compiling bar v0.1.0 [..]")
.with_stderr_does_not_contain("[..]Compiling baz v0.1.0 [..]")
.run();
}
#[cargo_test]
fn build_all_workspace_implicit_examples() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.1.0"
[dependencies]
bar = { path = "bar" }
[workspace]
"#,
)
.file("src/lib.rs", "")
.file("src/bin/a.rs", "fn main() {}")
.file("src/bin/b.rs", "fn main() {}")
.file("examples/c.rs", "fn main() {}")
.file("examples/d.rs", "fn main() {}")
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "")
.file("bar/src/bin/e.rs", "fn main() {}")
.file("bar/src/bin/f.rs", "fn main() {}")
.file("bar/examples/g.rs", "fn main() {}")
.file("bar/examples/h.rs", "fn main() {}")
.build();
p.cargo("build --all --examples")
.with_stderr(
"[..] Compiling bar v0.1.0 ([..])\n\
[..] Compiling foo v0.1.0 ([..])\n\
[..] Finished dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
assert!(!p.bin("a").is_file());
assert!(!p.bin("b").is_file());
assert!(p.bin("examples/c").is_file());
assert!(p.bin("examples/d").is_file());
assert!(!p.bin("e").is_file());
assert!(!p.bin("f").is_file());
assert!(p.bin("examples/g").is_file());
assert!(p.bin("examples/h").is_file());
}
#[cargo_test]
fn build_all_virtual_manifest() {
let p = project()
.file(
"Cargo.toml",
r#"
[workspace]
members = ["bar", "baz"]
"#,
)
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "pub fn bar() {}")
.file("baz/Cargo.toml", &basic_manifest("baz", "0.1.0"))
.file("baz/src/lib.rs", "pub fn baz() {}")
.build();
// The order in which bar and baz are built is not guaranteed
p.cargo("build --all")
.with_stderr_contains("[..] Compiling baz v0.1.0 ([..])")
.with_stderr_contains("[..] Compiling bar v0.1.0 ([..])")
.with_stderr(
"[..] Compiling [..] v0.1.0 ([..])\n\
[..] Compiling [..] v0.1.0 ([..])\n\
[..] Finished dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
}
#[cargo_test]
fn build_virtual_manifest_all_implied() {
let p = project()
.file(
"Cargo.toml",
r#"
[workspace]
members = ["bar", "baz"]
"#,
)
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "pub fn bar() {}")
.file("baz/Cargo.toml", &basic_manifest("baz", "0.1.0"))
.file("baz/src/lib.rs", "pub fn baz() {}")
.build();
// The order in which `bar` and `baz` are built is not guaranteed.
p.cargo("build")
.with_stderr_contains("[..] Compiling baz v0.1.0 ([..])")
.with_stderr_contains("[..] Compiling bar v0.1.0 ([..])")
.with_stderr(
"[..] Compiling [..] v0.1.0 ([..])\n\
[..] Compiling [..] v0.1.0 ([..])\n\
[..] Finished dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
}
#[cargo_test]
fn build_virtual_manifest_one_project() {
let p = project()
.file(
"Cargo.toml",
r#"
[workspace]
members = ["bar", "baz"]
"#,
)
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "pub fn bar() {}")
.file("baz/Cargo.toml", &basic_manifest("baz", "0.1.0"))
.file("baz/src/lib.rs", "pub fn baz() {}")
.build();
p.cargo("build -p bar")
.with_stderr_does_not_contain("[..]baz[..]")
.with_stderr_contains("[..] Compiling bar v0.1.0 ([..])")
.with_stderr(
"[..] Compiling [..] v0.1.0 ([..])\n\
[..] Finished dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
}
#[cargo_test]
fn build_all_virtual_manifest_implicit_examples() {
let p = project()
.file(
"Cargo.toml",
r#"
[workspace]
members = ["bar", "baz"]
"#,
)
.file("bar/Cargo.toml", &basic_manifest("bar", "0.1.0"))
.file("bar/src/lib.rs", "")
.file("bar/src/bin/a.rs", "fn main() {}")
.file("bar/src/bin/b.rs", "fn main() {}")
.file("bar/examples/c.rs", "fn main() {}")
.file("bar/examples/d.rs", "fn main() {}")
.file("baz/Cargo.toml", &basic_manifest("baz", "0.1.0"))
.file("baz/src/lib.rs", "")
.file("baz/src/bin/e.rs", "fn main() {}")
.file("baz/src/bin/f.rs", "fn main() {}")
.file("baz/examples/g.rs", "fn main() {}")
.file("baz/examples/h.rs", "fn main() {}")
.build();
// The order in which bar and baz are built is not guaranteed
p.cargo("build --all --examples")
.with_stderr_contains("[..] Compiling baz v0.1.0 ([..])")
.with_stderr_contains("[..] Compiling bar v0.1.0 ([..])")
.with_stderr(
"[..] Compiling [..] v0.1.0 ([..])\n\
[..] Compiling [..] v0.1.0 ([..])\n\
[..] Finished dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
assert!(!p.bin("a").is_file());
assert!(!p.bin("b").is_file());
assert!(p.bin("examples/c").is_file());
assert!(p.bin("examples/d").is_file());
assert!(!p.bin("e").is_file());
assert!(!p.bin("f").is_file());
assert!(p.bin("examples/g").is_file());
assert!(p.bin("examples/h").is_file());
}
#[cargo_test]
fn build_all_member_dependency_same_name() {
let p = project()
.file(
"Cargo.toml",
r#"
[workspace]
members = ["a"]
"#,
)
.file(
"a/Cargo.toml",
r#"
[project]
name = "a"
version = "0.1.0"
[dependencies]
a = "0.1.0"
"#,
)
.file("a/src/lib.rs", "pub fn a() {}")
.build();
Package::new("a", "0.1.0").publish();
p.cargo("build --all")
.with_stderr(
"[UPDATING] `[..]` index\n\
[DOWNLOADING] crates ...\n\
[DOWNLOADED] a v0.1.0 ([..])\n\
[COMPILING] a v0.1.0\n\
[COMPILING] a v0.1.0 ([..])\n\
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]\n",
)
.run();
}
#[cargo_test]
fn run_proper_binary() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = "main"
[[bin]]
name = "other"
"#,
)
.file("src/lib.rs", "")
.file(
"src/bin/main.rs",
r#"fn main() { panic!("This should never be run."); }"#,
)
.file("src/bin/other.rs", "fn main() {}")
.build();
p.cargo("run --bin other").run();
}
#[cargo_test]
fn run_proper_binary_main_rs() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/lib.rs", "")
.file("src/bin/main.rs", "fn main() {}")
.build();
p.cargo("run --bin foo").run();
}
#[cargo_test]
fn run_proper_alias_binary_from_src() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = "foo"
[[bin]]
name = "bar"
"#,
)
.file("src/foo.rs", r#"fn main() { println!("foo"); }"#)
.file("src/bar.rs", r#"fn main() { println!("bar"); }"#)
.build();
p.cargo("build --all").run();
p.process(&p.bin("foo")).with_stdout("foo\n").run();
p.process(&p.bin("bar")).with_stdout("bar\n").run();
}
#[cargo_test]
fn run_proper_alias_binary_main_rs() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
authors = []
version = "0.0.0"
[[bin]]
name = "foo"
[[bin]]
name = "bar"
"#,
)
.file("src/main.rs", r#"fn main() { println!("main"); }"#)
.build();
p.cargo("build --all").run();
p.process(&p.bin("foo")).with_stdout("main\n").run();
p.process(&p.bin("bar")).with_stdout("main\n").run();
}
#[cargo_test]
fn run_proper_binary_main_rs_as_foo() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file(
"src/foo.rs",
r#" fn main() { panic!("This should never be run."); }"#,
)
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("run --bin foo").run();
}
#[cargo_test]
// NOTE: we don't have `/usr/bin/env` on Windows.
#[cfg(not(windows))]
fn rustc_wrapper() {
let p = project().file("src/lib.rs", "").build();
p.cargo("build -v")
.env("RUSTC_WRAPPER", "/usr/bin/env")
.with_stderr_contains("[RUNNING] `/usr/bin/env rustc --crate-name foo [..]")
.run();
}
#[cargo_test]
#[cfg(not(windows))]
fn rustc_wrapper_relative() {
let p = project().file("src/lib.rs", "").build();
p.cargo("build -v")
.env("RUSTC_WRAPPER", "./sccache")
.with_status(101)
.with_stderr_contains("[..]/foo/./sccache rustc[..]")
.run();
}
#[cargo_test]
#[cfg(not(windows))]
fn rustc_wrapper_from_path() {
let p = project().file("src/lib.rs", "").build();
p.cargo("build -v")
.env("RUSTC_WRAPPER", "wannabe_sccache")
.with_status(101)
.with_stderr_contains("[..]`wannabe_sccache rustc [..]")
.run();
}
#[cargo_test]
fn cdylib_not_lifted() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
authors = []
version = "0.1.0"
[lib]
crate-type = ["cdylib"]
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build").run();
let files = if cfg!(windows) {
vec!["foo.dll.lib", "foo.dll.exp", "foo.dll"]
} else if cfg!(target_os = "macos") {
vec!["libfoo.dylib"]
} else {
vec!["libfoo.so"]
};
for file in files {
println!("checking: {}", file);
assert!(p.root().join("target/debug/deps").join(&file).is_file());
}
}
#[cargo_test]
fn cdylib_final_outputs() {
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo-bar"
authors = []
version = "0.1.0"
[lib]
crate-type = ["cdylib"]
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build").run();
let files = if cfg!(windows) {
vec!["foo_bar.dll.lib", "foo_bar.dll"]
} else if cfg!(target_os = "macos") {
vec!["libfoo_bar.dylib"]
} else {
vec!["libfoo_bar.so"]
};
for file in files {
println!("checking: {}", file);
assert!(p.root().join("target/debug").join(&file).is_file());
}
}
#[cargo_test]
fn deterministic_cfg_flags() {
// This bug is non-deterministic.
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.1.0"
authors = []
build = "build.rs"
[features]
default = ["f_a", "f_b", "f_c", "f_d"]
f_a = []
f_b = []
f_c = []
f_d = []
"#,
)
.file(
"build.rs",
r#"
fn main() {
println!("cargo:rustc-cfg=cfg_a");
println!("cargo:rustc-cfg=cfg_b");
println!("cargo:rustc-cfg=cfg_c");
println!("cargo:rustc-cfg=cfg_d");
println!("cargo:rustc-cfg=cfg_e");
}
"#,
)
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build -v")
.with_stderr(
"\
[COMPILING] foo v0.1.0 [..]
[RUNNING] [..]
[RUNNING] [..]
[RUNNING] `rustc --crate-name foo [..] \
--cfg[..]default[..]--cfg[..]f_a[..]--cfg[..]f_b[..]\
--cfg[..]f_c[..]--cfg[..]f_d[..] \
--cfg cfg_a --cfg cfg_b --cfg cfg_c --cfg cfg_d --cfg cfg_e`
[FINISHED] dev [unoptimized + debuginfo] target(s) in [..]",
)
.run();
}
#[cargo_test]
fn explicit_bins_without_paths() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
authors = []
[[bin]]
name = "foo"
[[bin]]
name = "bar"
"#,
)
.file("src/lib.rs", "")
.file("src/main.rs", "fn main() {}")
.file("src/bin/bar.rs", "fn main() {}")
.build();
p.cargo("build").run();
}
#[cargo_test]
fn no_bin_in_src_with_lib() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/lib.rs", "")
.file("src/foo.rs", "fn main() {}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains(
"\
[ERROR] failed to parse manifest at `[..]`
Caused by:
can't find `foo` bin, specify bin.path",
)
.run();
}
#[cargo_test]
fn inferred_bins() {
let p = project()
.file("src/main.rs", "fn main() {}")
.file("src/bin/bar.rs", "fn main() {}")
.file("src/bin/baz/main.rs", "fn main() {}")
.build();
p.cargo("build").run();
assert!(p.bin("foo").is_file());
assert!(p.bin("bar").is_file());
assert!(p.bin("baz").is_file());
}
#[cargo_test]
fn inferred_bins_duplicate_name() {
// this should fail, because we have two binaries with the same name
let p = project()
.file("src/main.rs", "fn main() {}")
.file("src/bin/bar.rs", "fn main() {}")
.file("src/bin/bar/main.rs", "fn main() {}")
.build();
p.cargo("build").with_status(101).with_stderr_contains(
"[..]found duplicate binary name bar, but all binary targets must have a unique name[..]",
)
.run();
}
#[cargo_test]
fn inferred_bin_path() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
authors = []
[[bin]]
name = "bar"
# Note, no `path` key!
"#,
)
.file("src/bin/bar/main.rs", "fn main() {}")
.build();
p.cargo("build").run();
assert!(p.bin("bar").is_file());
}
#[cargo_test]
fn inferred_examples() {
let p = project()
.file("src/lib.rs", "fn main() {}")
.file("examples/bar.rs", "fn main() {}")
.file("examples/baz/main.rs", "fn main() {}")
.build();
p.cargo("build --examples").run();
assert!(p.bin("examples/bar").is_file());
assert!(p.bin("examples/baz").is_file());
}
#[cargo_test]
fn inferred_tests() {
let p = project()
.file("src/lib.rs", "fn main() {}")
.file("tests/bar.rs", "fn main() {}")
.file("tests/baz/main.rs", "fn main() {}")
.build();
p.cargo("test --test=bar --test=baz").run();
}
#[cargo_test]
fn inferred_benchmarks() {
let p = project()
.file("src/lib.rs", "fn main() {}")
.file("benches/bar.rs", "fn main() {}")
.file("benches/baz/main.rs", "fn main() {}")
.build();
p.cargo("bench --bench=bar --bench=baz").run();
}
#[cargo_test]
fn target_edition() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
[lib]
edition = "2018"
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build -v")
// Passes on nightly, fails on stable, since `--edition` is nightly-only.
.without_status()
.with_stderr_contains(
"\
[COMPILING] foo v0.0.1 ([..])
[RUNNING] `rustc [..]--edition=2018 [..]
",
)
.run();
}
#[cargo_test]
fn target_edition_override() {
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.0.1"
authors = []
edition = "2018"
[lib]
edition = "2015"
"#,
)
.file(
"src/lib.rs",
"
pub fn async() {}
pub fn try() {}
pub fn await() {}
",
)
.build();
p.cargo("build -v").run();
}
#[cargo_test]
fn same_metadata_different_directory() {
// A top-level crate built in two different workspaces should have the
// same metadata hash.
let p = project()
.at("foo1")
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.build();
let output = t!(String::from_utf8(
t!(p.cargo("build -v").exec_with_output()).stderr,
));
let metadata = output
.split_whitespace()
.find(|arg| arg.starts_with("metadata="))
.unwrap();
let p = project()
.at("foo2")
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.build();
p.cargo("build -v")
.with_stderr_contains(format!("[..]{}[..]", metadata))
.run();
}
#[cargo_test]
fn building_a_dependent_crate_witout_bin_should_fail() {
Package::new("testless", "0.1.0")
.file(
"Cargo.toml",
r#"
[project]
name = "testless"
version = "0.1.0"
[[bin]]
name = "a_bin"
"#,
)
.file("src/lib.rs", "")
.publish();
let p = project()
.file(
"Cargo.toml",
r#"
[project]
name = "foo"
version = "0.1.0"
[dependencies]
testless = "0.1.0"
"#,
)
.file("src/lib.rs", "")
.build();
p.cargo("build")
.with_status(101)
.with_stderr_contains("[..]can't find `a_bin` bin, specify bin.path")
.run();
}
#[cargo_test]
#[cfg(any(target_os = "macos", target_os = "ios"))]
fn uplift_dsym_of_bin_on_mac() {
let p = project()
.file("src/main.rs", "fn main() { panic!(); }")
.file("src/bin/b.rs", "fn main() { panic!(); }")
.file("examples/c.rs", "fn main() { panic!(); }")
.file("tests/d.rs", "fn main() { panic!(); }")
.build();
p.cargo("build --bins --examples --tests").run();
assert!(p.target_debug_dir().join("foo.dSYM").is_dir());
assert!(p.target_debug_dir().join("b.dSYM").is_dir());
assert!(p.target_debug_dir().join("b.dSYM").is_symlink());
assert!(p.target_debug_dir().join("examples/c.dSYM").is_symlink());
assert!(!p.target_debug_dir().join("c.dSYM").exists());
assert!(!p.target_debug_dir().join("d.dSYM").exists());
}
#[cargo_test]
#[cfg(any(target_os = "macos", target_os = "ios"))]
fn uplift_dsym_of_bin_on_mac_when_broken_link_exists() {
let p = project()
.file("src/main.rs", "fn main() { panic!(); }")
.build();
let dsym = p.target_debug_dir().join("foo.dSYM");
p.cargo("build").run();
assert!(dsym.is_dir());
// Simulate the situation where the underlying dSYM bundle goes missing
// but the uplifted symlink to it remains. This would previously cause
// builds to permanently fail until the bad symlink was manually removed.
dsym.rm_rf();
p.symlink(
p.target_debug_dir()
.join("deps")
.join("foo-baaaaaadbaaaaaad.dSYM"),
&dsym,
);
assert!(dsym.is_symlink());
assert!(!dsym.exists());
p.cargo("build").run();
assert!(dsym.is_dir());
}
#[cargo_test]
#[cfg(all(target_os = "windows", target_env = "msvc"))]
fn uplift_pdb_of_bin_on_windows() {
let p = project()
.file("src/main.rs", "fn main() { panic!(); }")
.file("src/bin/b.rs", "fn main() { panic!(); }")
.file("examples/c.rs", "fn main() { panic!(); }")
.file("tests/d.rs", "fn main() { panic!(); }")
.build();
p.cargo("build --bins --examples --tests").run();
assert!(p.target_debug_dir().join("foo.pdb").is_file());
assert!(p.target_debug_dir().join("b.pdb").is_file());
assert!(!p.target_debug_dir().join("examples/c.pdb").exists());
assert_eq!(p.glob("target/debug/examples/c-*.pdb").count(), 1);
assert!(!p.target_debug_dir().join("c.pdb").exists());
assert!(!p.target_debug_dir().join("d.pdb").exists());
}
// Ensure that `cargo build` chooses the correct profile for building
// targets based on filters (assuming `--profile` is not specified).
#[cargo_test]
fn build_filter_infer_profile() {
let p = project()
.file("src/lib.rs", "")
.file("src/main.rs", "fn main() {}")
.file("tests/t1.rs", "")
.file("benches/b1.rs", "")
.file("examples/ex1.rs", "fn main() {}")
.build();
p.cargo("build -v")
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link[..]",
)
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --crate-type bin \
--emit=[..]link[..]",
)
.run();
p.root().join("target").rm_rf();
p.cargo("build -v --test=t1")
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link -C debuginfo=2 [..]",
)
.with_stderr_contains(
"[RUNNING] `rustc --crate-name t1 tests/t1.rs --color never --emit=[..]link \
-C debuginfo=2 [..]",
)
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --crate-type bin \
--emit=[..]link -C debuginfo=2 [..]",
)
.run();
p.root().join("target").rm_rf();
// Bench uses test profile without `--release`.
p.cargo("build -v --bench=b1")
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/lib.rs --color never --crate-type lib \
--emit=[..]link -C debuginfo=2 [..]",
)
.with_stderr_contains(
"[RUNNING] `rustc --crate-name b1 benches/b1.rs --color never --emit=[..]link \
-C debuginfo=2 [..]",
)
.with_stderr_does_not_contain("opt-level")
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --crate-type bin \
--emit=[..]link -C debuginfo=2 [..]",
)
.run();
}
#[cargo_test]
fn targets_selected_default() {
let p = project().file("src/main.rs", "fn main() {}").build();
p.cargo("build -v")
// Binaries.
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --crate-type bin \
--emit=[..]link[..]",
)
// Benchmarks.
.with_stderr_does_not_contain(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --emit=[..]link \
-C opt-level=3 --test [..]",
)
// Unit tests.
.with_stderr_does_not_contain(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --emit=[..]link \
-C debuginfo=2 --test [..]",
)
.run();
}
#[cargo_test]
fn targets_selected_all() {
let p = project().file("src/main.rs", "fn main() {}").build();
p.cargo("build -v --all-targets")
// Binaries.
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --crate-type bin \
--emit=[..]link[..]",
)
// Unit tests.
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --emit=[..]link \
-C debuginfo=2 --test [..]",
)
.run();
}
#[cargo_test]
fn all_targets_no_lib() {
let p = project().file("src/main.rs", "fn main() {}").build();
p.cargo("build -v --all-targets")
// Binaries.
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --crate-type bin \
--emit=[..]link[..]",
)
// Unit tests.
.with_stderr_contains(
"[RUNNING] `rustc --crate-name foo src/main.rs --color never --emit=[..]link \
-C debuginfo=2 --test [..]",
)
.run();
}
#[cargo_test]
fn no_linkable_target() {
// Issue 3169: this is currently not an error as per discussion in PR #4797.
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
authors = []
[dependencies]
the_lib = { path = "the_lib" }
"#,
)
.file("src/main.rs", "fn main() {}")
.file(
"the_lib/Cargo.toml",
r#"
[package]
name = "the_lib"
version = "0.1.0"
[lib]
name = "the_lib"
crate-type = ["staticlib"]
"#,
)
.file("the_lib/src/lib.rs", "pub fn foo() {}")
.build();
p.cargo("build")
.with_stderr_contains(
"[WARNING] The package `the_lib` provides no linkable [..] \
while compiling `foo`. [..] in `the_lib`'s Cargo.toml. [..]",
)
.run();
}
#[cargo_test]
fn avoid_dev_deps() {
Package::new("foo", "1.0.0").publish();
let p = project()
.file(
"Cargo.toml",
r#"
[package]
name = "bar"
version = "0.1.0"
authors = []
[dev-dependencies]
baz = "1.0.0"
"#,
)
.file("src/main.rs", "fn main() {}")
.build();
p.cargo("build")
.with_status(101)
.with_stderr(
"\
[UPDATING] [..]
[ERROR] no matching package named `baz` found
location searched: registry `https://github.com/rust-lang/crates.io-index`
required by package `bar v0.1.0 ([..]/foo)`
",
)
.run();
p.cargo("build -Zavoid-dev-deps")
.masquerade_as_nightly_cargo()
.run();
}
#[cargo_test]
fn invalid_jobs() {
let p = project()
.file("Cargo.toml", &basic_bin_manifest("foo"))
.file("src/foo.rs", &main_file(r#""i am foo""#, &[]))
.build();
p.cargo("build --jobs over9000")
.with_status(1)
.with_stderr("error: Invalid value: could not parse `over9000` as a number")
.run();
}
#[cargo_test]
fn target_filters_workspace() {
let ws = project()
.at("ws")
.file(
"Cargo.toml",
r#"
[workspace]
members = ["a", "b"]
"#,
)
.file("a/Cargo.toml", &basic_lib_manifest("a"))
.file("a/src/lib.rs", "")
.file("a/examples/ex1.rs", "fn main() {}")
.file("b/Cargo.toml", &basic_bin_manifest("b"))
.file("b/src/lib.rs", "")
.file("b/src/main.rs", "fn main() {}")
.build();
ws.cargo("build -v --example ex")
.with_status(101)
.with_stderr(
"\
[ERROR] no example target named `ex`
<tab>Did you mean `ex1`?",
)
.run();
ws.cargo("build -v --lib")
.with_stderr_contains("[RUNNING] `rustc [..]a/src/lib.rs[..]")
.with_stderr_contains("[RUNNING] `rustc [..]b/src/lib.rs[..]")
.run();
ws.cargo("build -v --example ex1")
.with_stderr_contains("[RUNNING] `rustc [..]a/examples/ex1.rs[..]")
.run();
}
#[cargo_test]
fn target_filters_workspace_not_found() {
let ws = project()
.at("ws")
.file(
"Cargo.toml",
r#"
[workspace]
members = ["a", "b"]
"#,
)
.file("a/Cargo.toml", &basic_bin_manifest("a"))
.file("a/src/main.rs", "fn main() {}")
.file("b/Cargo.toml", &basic_bin_manifest("b"))
.file("b/src/main.rs", "fn main() {}")
.build();
ws.cargo("build -v --lib")
.with_status(101)
.with_stderr("[ERROR] no library targets found in packages: a, b")
.run();
}
#[cfg(unix)]
#[cargo_test]
fn signal_display() {
// Cause the compiler to crash with a signal.
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
[dependencies]
pm = { path = "pm" }
"#,
)
.file(
"src/lib.rs",
r#"
#[macro_use]
extern crate pm;
#[derive(Foo)]
pub struct S;
"#,
)
.file(
"pm/Cargo.toml",
r#"
[package]
name = "pm"
version = "0.1.0"
[lib]
proc-macro = true
"#,
)
.file(
"pm/src/lib.rs",
r#"
extern crate proc_macro;
use proc_macro::TokenStream;
#[proc_macro_derive(Foo)]
pub fn derive(_input: TokenStream) -> TokenStream {
std::process::abort()
}
"#,
)
.build();
foo.cargo("build")
.with_stderr(
"\
[COMPILING] pm [..]
[COMPILING] foo [..]
[ERROR] Could not compile `foo`.
Caused by:
process didn't exit successfully: `rustc [..]` (signal: 6, SIGABRT: process abort signal)
",
)
.with_status(101)
.run();
}
#[cargo_test]
fn tricky_pipelining() {
if !crate::support::is_nightly() {
return;
}
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
[dependencies]
bar = { path = "bar" }
"#,
)
.file("src/lib.rs", "extern crate bar;")
.file("bar/Cargo.toml", &basic_lib_manifest("bar"))
.file("bar/src/lib.rs", "")
.build();
foo.cargo("build -p bar")
.env("CARGO_BUILD_PIPELINING", "true")
.run();
foo.cargo("build -p foo")
.env("CARGO_BUILD_PIPELINING", "true")
.run();
}
#[cargo_test]
fn pipelining_works() {
if !crate::support::is_nightly() {
return;
}
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
[dependencies]
bar = { path = "bar" }
"#,
)
.file("src/lib.rs", "extern crate bar;")
.file("bar/Cargo.toml", &basic_lib_manifest("bar"))
.file("bar/src/lib.rs", "")
.build();
foo.cargo("build")
.env("CARGO_BUILD_PIPELINING", "true")
.with_stdout("")
.with_stderr(
"\
[COMPILING] [..]
[COMPILING] [..]
[FINISHED] [..]
",
)
.run();
}
#[cargo_test]
fn pipelining_big_graph() {
if !crate::support::is_nightly() {
return;
}
// Create a crate graph of the form {a,b}{0..29}, where {a,b}(n) depend on {a,b}(n+1)
// Then have `foo`, a binary crate, depend on the whole thing.
let mut project = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
[dependencies]
a1 = { path = "a1" }
b1 = { path = "b1" }
"#,
)
.file("src/main.rs", "fn main(){}");
for n in 0..30 {
for x in &["a", "b"] {
project = project
.file(
&format!("{x}{n}/Cargo.toml", x = x, n = n),
&format!(
r#"
[package]
name = "{x}{n}"
version = "0.1.0"
[dependencies]
a{np1} = {{ path = "../a{np1}" }}
b{np1} = {{ path = "../b{np1}" }}
"#,
x = x,
n = n,
np1 = n + 1
),
)
.file(&format!("{x}{n}/src/lib.rs", x = x, n = n), "");
}
}
let foo = project
.file("a30/Cargo.toml", &basic_lib_manifest("a30"))
.file(
"a30/src/lib.rs",
r#"compile_error!("don't actually build me");"#,
)
.file("b30/Cargo.toml", &basic_lib_manifest("b30"))
.file("b30/src/lib.rs", "")
.build();
foo.cargo("build -p foo")
.env("CARGO_BUILD_PIPELINING", "true")
.with_status(101)
.with_stderr_contains("[ERROR] Could not compile `a30`[..]")
.run();
}
#[cargo_test]
fn forward_rustc_output() {
let foo = project()
.file(
"Cargo.toml",
r#"
[package]
name = "foo"
version = "0.1.0"
edition = '2018'
[dependencies]
bar = { path = "bar" }
"#,
)
.file("src/lib.rs", "bar::foo!();")
.file(
"bar/Cargo.toml",
r#"
[package]
name = "bar"
version = "0.1.0"
[lib]
proc-macro = true
"#,
)
.file(
"bar/src/lib.rs",
r#"
extern crate proc_macro;
use proc_macro::*;
#[proc_macro]
pub fn foo(input: TokenStream) -> TokenStream {
println!("a");
println!("b");
println!("{{}}");
eprintln!("c");
eprintln!("d");
eprintln!("{{a"); // "malformed json"
input
}
"#,
)
.build();
foo.cargo("build")
.with_stdout("a\nb\n{}")
.with_stderr(
"\
[COMPILING] [..]
[COMPILING] [..]
c
d
{a
[FINISHED] [..]
",
)
.run();
}
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