use assert_cmd::Command; use glob::glob; use predicates::prelude::*; use predicates::reflection::PredicateReflection; // Used for writing assertions use rstest::*; use std::fmt::Display; use std::{error::Error, fs::File, io::Read, path::Path, str}; struct SortedEquals { expect: Vec, } fn sort_buf(input: &[u8]) -> Vec { let mut lines = input .split(|x| *x == b'\n') .map(|x| Vec::::from(x)) .collect::>>(); lines.sort(); lines.join(&b'\n') } impl SortedEquals { fn new(expect: &[u8]) -> SortedEquals { let sorted = sort_buf(expect); SortedEquals { expect: sorted } } } impl Display for SortedEquals { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_str(str::from_utf8(self.expect.as_slice()).unwrap()) } } impl Predicate<[u8]> for SortedEquals { fn eval(&self, variable: &[u8]) -> bool { // sort self into temporary, then compare with variable let sorted = sort_buf(variable); sorted == self.expect } } impl PredicateReflection for SortedEquals {} // Really should normalize the data (lex sort) before comparison #[rstest] #[case("test-data/dfz_combined", "")] // Basic aggregation test #[case("test-data/max_pfxlen", "-m 20")] // Filter on prefix length #[case("test-data/max_pfxlen_split", "-m 20,32")] // Filter on prefix length (split v4/v6) #[case("test-data/v4_only", "-4")] // Filter v4 only #[case("test-data/v6_only", "-6")] // Filter v4 only fn dfz_test(#[case] path: &str, #[case] args: &str) -> Result<(), Box> { let mut cmd = Command::cargo_bin("rs-aggregate")?; let in_path = Path::new(path).join("input"); let expect_path = Path::new(path).join("expected"); let mut expect_file = File::open(expect_path)?; let mut expect_data: Vec = Vec::with_capacity(expect_file.metadata()?.len().try_into().unwrap()); expect_file.read_to_end(&mut expect_data)?; let assert = cmd .arg(in_path) .args(args.split_whitespace()) .timeout(std::time::Duration::from_secs(30)) .assert(); assert .success() .stdout(SortedEquals::new(&expect_data)) .stderr(predicate::str::is_empty()); Ok(()) } #[rstest] #[case("2001:db8::23ab:f007/64", "2001:db8::/64")] #[case("198.51.100.123/24", "198.51.100.0/24")] fn truncate_test(#[case] input: &str, #[case] expect: &str) -> Result<(), Box> { let mut cmd = Command::cargo_bin("rs-aggregate")?; let assert = cmd.write_stdin(input).assert(); assert .success() .stdout(predicate::str::is_empty()) .stderr(predicate::eq(format!( "ERROR: '{}' is not a valid IP network, ignoring.\n", input ))); let assert = cmd.arg("-t").write_stdin(input).assert(); assert .success() .stdout(predicate::eq(format!("{}\n", expect))) .stderr(predicate::str::is_empty()); Ok(()) } #[rstest] #[case("test-data/multi_input", "")] fn multi_input_test(#[case] path: &str, #[case] args: &str) -> Result<(), Box> { let mut cmd = Command::cargo_bin("rs-aggregate")?; let inputs = glob((path.to_owned() + "/input*").as_str())?; let expect_path = Path::new(path).join("expected"); let mut expect_file = File::open(expect_path)?; let mut expect_data: Vec = Vec::with_capacity(expect_file.metadata()?.len().try_into().unwrap()); expect_file.read_to_end(&mut expect_data)?; let assert = cmd .args(args.split_whitespace()) .args(inputs.map(|x| x.unwrap())) .timeout(std::time::Duration::from_secs(30)) .assert(); assert .success() .stdout(SortedEquals::new(&expect_data)) .stderr(predicate::str::is_empty()); Ok(()) }