use crate::common::wcs2osstring; use crate::common::ScopeGuard; use crate::env::{EnvVar, EnvVarFlags, VarTable}; use crate::env_universal_common::{CallbackDataList, EnvUniversal, UvarFormat}; use crate::ffi_tests::add_test; use crate::flog::FLOG; use crate::parser::Parser; use crate::reader::{reader_current_data, reader_pop, reader_push, ReaderConfig}; use crate::threads::{iothread_drain_all, iothread_perform}; use crate::wchar::prelude::*; use crate::wutil::file_id_for_path; use crate::wutil::INVALID_FILE_ID; const UVARS_PER_THREAD: usize = 8; const UVARS_TEST_PATH: &wstr = L!("test/fish_uvars_test/varsfile.txt"); fn test_universal_helper(x: usize) { let mut callbacks = CallbackDataList::new(); let mut uvars = EnvUniversal::new(); uvars.initialize_at_path(&mut callbacks, UVARS_TEST_PATH.to_owned()); for j in 0..UVARS_PER_THREAD { let key = sprintf!("key_%d_%d", x, j); let val = sprintf!("val_%d_%d", x, j); uvars.set(&key, EnvVar::new(val, EnvVarFlags::empty())); let synced = uvars.sync(&mut callbacks); assert!( synced, "Failed to sync universal variables after modification" ); } // Last step is to delete the first key. uvars.remove(&sprintf!("key_%d_%d", x, 0)); let synced = uvars.sync(&mut callbacks); assert!(synced, "Failed to sync universal variables after deletion"); } add_test!("test_universal", || { let _ = std::fs::remove_dir_all("test/fish_uvars_test/"); std::fs::create_dir_all("test/fish_uvars_test/").unwrap(); reader_push(Parser::principal_parser(), L!(""), ReaderConfig::default()); let _pop = ScopeGuard::new((), |()| reader_pop()); let threads = 1; for i in 0..threads { iothread_perform(move || test_universal_helper(i)); } unsafe { iothread_drain_all(reader_current_data().unwrap()) }; let mut uvars = EnvUniversal::new(); let mut callbacks = CallbackDataList::new(); uvars.initialize_at_path(&mut callbacks, UVARS_TEST_PATH.to_owned()); for i in 0..threads { for j in 0..UVARS_PER_THREAD { let key = sprintf!("key_%d_%d", i, j); let expected_val = if j == 0 { None } else { Some(EnvVar::new( sprintf!("val_%d_%d", i, j), EnvVarFlags::empty(), )) }; let var = uvars.get(&key); assert_eq!(var, expected_val); } } std::fs::remove_dir_all("test/fish_uvars_test/").unwrap(); }); add_test!("test_universal_output", || { let flag_export = EnvVarFlags::EXPORT; let flag_pathvar = EnvVarFlags::PATHVAR; let mut vars = VarTable::new(); vars.insert( L!("varA").to_owned(), EnvVar::new_vec( vec![L!("ValA1").to_owned(), L!("ValA2").to_owned()], EnvVarFlags::empty(), ), ); vars.insert( L!("varB").to_owned(), EnvVar::new_vec(vec![L!("ValB1").to_owned()], flag_export), ); vars.insert( L!("varC").to_owned(), EnvVar::new_vec(vec![L!("ValC1").to_owned()], EnvVarFlags::empty()), ); vars.insert( L!("varD").to_owned(), EnvVar::new_vec(vec![L!("ValD1").to_owned()], flag_export | flag_pathvar), ); vars.insert( L!("varE").to_owned(), EnvVar::new_vec( vec![L!("ValE1").to_owned(), L!("ValE2").to_owned()], flag_pathvar, ), ); let text = EnvUniversal::serialize_with_vars(&vars); let expected = concat!( "# This file contains fish universal variable definitions.\n", "# VERSION: 3.0\n", "SETUVAR varA:ValA1\\x1eValA2\n", "SETUVAR --export varB:ValB1\n", "SETUVAR varC:ValC1\n", "SETUVAR --export --path varD:ValD1\n", "SETUVAR --path varE:ValE1\\x1eValE2\n", ) .as_bytes(); assert_eq!(text, expected); }); fn test_universal_parsing() { let input = concat!( "# This file contains fish universal variable definitions.\n", "# VERSION: 3.0\n", "SETUVAR varA:ValA1\\x1eValA2\n", "SETUVAR --export varB:ValB1\n", "SETUVAR --nonsenseflag varC:ValC1\n", "SETUVAR --export --path varD:ValD1\n", "SETUVAR --path --path varE:ValE1\\x1eValE2\n", ) .as_bytes(); let flag_export = EnvVarFlags::EXPORT; let flag_pathvar = EnvVarFlags::PATHVAR; let mut vars = VarTable::new(); vars.insert( L!("varA").to_owned(), EnvVar::new_vec( vec![L!("ValA1").to_owned(), L!("ValA2").to_owned()], EnvVarFlags::empty(), ), ); vars.insert( L!("varB").to_owned(), EnvVar::new_vec(vec![L!("ValB1").to_owned()], flag_export), ); vars.insert( L!("varC").to_owned(), EnvVar::new_vec(vec![L!("ValC1").to_owned()], EnvVarFlags::empty()), ); vars.insert( L!("varD").to_owned(), EnvVar::new_vec(vec![L!("ValD1").to_owned()], flag_export | flag_pathvar), ); vars.insert( L!("varE").to_owned(), EnvVar::new_vec( vec![L!("ValE1").to_owned(), L!("ValE2").to_owned()], flag_pathvar, ), ); let mut parsed_vars = VarTable::new(); EnvUniversal::populate_variables(input, &mut parsed_vars); assert_eq!(vars, parsed_vars); } add_test!("test_universal_parsing_legacy", || { let input = concat!( "# This file contains fish universal variable definitions.\n", "SET varA:ValA1\\x1eValA2\n", "SET_EXPORT varB:ValB1\n", ) .as_bytes(); let mut vars = VarTable::new(); vars.insert( L!("varA").to_owned(), EnvVar::new_vec( vec![L!("ValA1").to_owned(), L!("ValA2").to_owned()], EnvVarFlags::empty(), ), ); vars.insert( L!("varB").to_owned(), EnvVar::new(L!("ValB1").to_owned(), EnvVarFlags::EXPORT), ); let mut parsed_vars = VarTable::new(); EnvUniversal::populate_variables(input, &mut parsed_vars); assert_eq!(vars, parsed_vars); }); add_test!("test_universal_callbacks", || { std::fs::create_dir_all("test/fish_uvars_test/").unwrap(); let mut callbacks = CallbackDataList::new(); let mut uvars1 = EnvUniversal::new(); let mut uvars2 = EnvUniversal::new(); uvars1.initialize_at_path(&mut callbacks, UVARS_TEST_PATH.to_owned()); uvars2.initialize_at_path(&mut callbacks, UVARS_TEST_PATH.to_owned()); let noflags = EnvVarFlags::empty(); // Put some variables into both. uvars1.set(L!("alpha"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.set(L!("beta"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.set(L!("delta"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.set(L!("epsilon"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.set(L!("lambda"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.set(L!("kappa"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.set(L!("omicron"), EnvVar::new(L!("1").to_owned(), noflags)); // uvars1.sync(&mut callbacks); uvars2.sync(&mut callbacks); // Change uvars1. uvars1.set(L!("alpha"), EnvVar::new(L!("2").to_owned(), noflags)); // changes value uvars1.set( L!("beta"), EnvVar::new(L!("1").to_owned(), EnvVarFlags::EXPORT), ); // changes export uvars1.remove(L!("delta")); // erases value uvars1.set(L!("epsilon"), EnvVar::new(L!("1").to_owned(), noflags)); // changes nothing uvars1.sync(&mut callbacks); // Change uvars2. It should treat its value as correct and ignore changes from uvars1. uvars2.set(L!("lambda"), EnvVar::new(L!("1").to_owned(), noflags)); // same value uvars2.set(L!("kappa"), EnvVar::new(L!("2").to_owned(), noflags)); // different value // Now see what uvars2 sees. callbacks.clear(); uvars2.sync(&mut callbacks); // Sort them to get them in a predictable order. callbacks.sort_by(|a, b| a.key.cmp(&b.key)); // Should see exactly three changes. assert_eq!(callbacks.len(), 3); assert_eq!(callbacks[0].key, L!("alpha")); assert_eq!(callbacks[0].val.as_ref().unwrap().as_string(), L!("2")); assert_eq!(callbacks[1].key, L!("beta")); assert_eq!(callbacks[1].val.as_ref().unwrap().as_string(), L!("1")); assert_eq!(callbacks[2].key, L!("delta")); assert_eq!(callbacks[2].val, None); std::fs::remove_dir_all("test/fish_uvars_test/").unwrap(); }); add_test!("test_universal_formats", || { macro_rules! validate { ( $version_line:literal, $expected_format:expr ) => { assert_eq!( EnvUniversal::format_for_contents($version_line), $expected_format ); }; } validate!(b"# VERSION: 3.0", UvarFormat::fish_3_0); validate!(b"# version: 3.0", UvarFormat::fish_2_x); validate!(b"# blah blahVERSION: 3.0", UvarFormat::fish_2_x); validate!(b"stuff\n# blah blahVERSION: 3.0", UvarFormat::fish_2_x); validate!(b"# blah\n# VERSION: 3.0", UvarFormat::fish_3_0); validate!(b"# blah\n#VERSION: 3.0", UvarFormat::fish_3_0); validate!(b"# blah\n#VERSION:3.0", UvarFormat::fish_3_0); validate!(b"# blah\n#VERSION:3.1", UvarFormat::future); }); add_test!("test_universal_ok_to_save", || { // Ensure we don't try to save after reading from a newer fish. std::fs::create_dir_all("test/fish_uvars_test/").unwrap(); let contents = b"# VERSION: 99999.99\n"; std::fs::write(wcs2osstring(UVARS_TEST_PATH), contents).unwrap(); let before_id = file_id_for_path(UVARS_TEST_PATH); assert_ne!( before_id, INVALID_FILE_ID, "UVARS_TEST_PATH should be readable" ); let mut cbs = CallbackDataList::new(); let mut uvars = EnvUniversal::new(); uvars.initialize_at_path(&mut cbs, UVARS_TEST_PATH.to_owned()); assert!(!uvars.is_ok_to_save(), "Should not be OK to save"); uvars.sync(&mut cbs); cbs.clear(); assert!(!uvars.is_ok_to_save(), "Should still not be OK to save"); uvars.set( L!("SOMEVAR"), EnvVar::new(L!("SOMEVALUE").to_owned(), EnvVarFlags::empty()), ); // Ensure file is same. let after_id = file_id_for_path(UVARS_TEST_PATH); assert_eq!( before_id, after_id, "UVARS_TEST_PATH should not have changed", ); std::fs::remove_dir_all("test/fish_uvars_test/").unwrap(); });