// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. use std::io::BufReader; use std::io::Cursor; use std::io::Read; use std::io::Write; use std::process::Command; use std::process::Stdio; use std::sync::Arc; use bytes::Bytes; use deno_core::serde_json::json; use deno_core::url; use deno_tls::rustls; use deno_tls::rustls::ClientConnection; use deno_tls::rustls_pemfile; use deno_tls::TlsStream; use pretty_assertions::assert_eq; use test_util as util; use test_util::itest; use test_util::TempDir; use trust_dns_client::serialize::txt::Lexer; use trust_dns_client::serialize::txt::Parser; use util::assert_contains; use util::assert_not_contains; use util::env_vars_for_npm_tests; use util::PathRef; use util::TestContext; use util::TestContextBuilder; const CODE_CACHE_DB_FILE_NAME: &str = "v8_code_cache_v2"; itest!(stdout_write_all { args: "run --quiet run/stdout_write_all.ts", output: "run/stdout_write_all.out", }); itest!(stdin_read_all { args: "run --quiet run/stdin_read_all.ts", output: "run/stdin_read_all.out", input: Some("01234567890123456789012345678901234567890123456789"), }); itest!(stdout_write_sync_async { args: "run --quiet run/stdout_write_sync_async.ts", output: "run/stdout_write_sync_async.out", }); itest!(_001_hello { args: "run --reload run/001_hello.js", output: "run/001_hello.js.out", }); itest!(_002_hello { args: "run --quiet --reload run/002_hello.ts", output: "run/002_hello.ts.out", }); itest!(_003_relative_import { args: "run --quiet --reload run/003_relative_import.ts", output: "run/003_relative_import.ts.out", }); itest!(_004_set_timeout { args: "run --quiet --reload run/004_set_timeout.ts", output: "run/004_set_timeout.ts.out", }); itest!(_005_more_imports { args: "run --quiet --reload run/005_more_imports.ts", output: "run/005_more_imports.ts.out", }); itest!(_006_url_imports { args: "run --quiet --reload run/006_url_imports.ts", output: "run/006_url_imports.ts.out", http_server: true, }); itest!(_012_async { args: "run --quiet --reload run/012_async.ts", output: "run/012_async.ts.out", }); itest!(_013_dynamic_import { args: "run --quiet --reload --allow-read run/013_dynamic_import.ts", output: "run/013_dynamic_import.ts.out", }); itest!(_014_duplicate_import { args: "run --quiet --reload --allow-read run/014_duplicate_import.ts ", output: "run/014_duplicate_import.ts.out", }); itest!(_015_duplicate_parallel_import { args: "run --quiet --reload --allow-read run/015_duplicate_parallel_import.js", output: "run/015_duplicate_parallel_import.js.out", }); itest!(_016_double_await { args: "run --quiet --allow-read --reload run/016_double_await.ts", output: "run/016_double_await.ts.out", }); itest!(_017_import_redirect { args: "run --quiet --reload run/017_import_redirect.ts", output: "run/017_import_redirect.ts.out", }); itest!(_017_import_redirect_check { args: "run --quiet --reload --check run/017_import_redirect.ts", output: "run/017_import_redirect.ts.out", }); itest!(_017_import_redirect_vendor_dir { args: "run --quiet --reload --vendor --check $TESTDATA/run/017_import_redirect.ts", output: "run/017_import_redirect.ts.out", temp_cwd: true, }); itest!(_017_import_redirect_info { args: "info --quiet --reload run/017_import_redirect.ts", output: "run/017_import_redirect_info.out", }); itest!(_018_async_catch { args: "run --quiet --reload run/018_async_catch.ts", output: "run/018_async_catch.ts.out", }); itest!(_019_media_types { args: "run --reload run/019_media_types.ts", output: "run/019_media_types.ts.out", http_server: true, }); itest!(_020_json_modules { args: "run --reload run/020_json_modules.ts", output: "run/020_json_modules.ts.out", exit_code: 1, }); itest!(_021_mjs_modules { args: "run --quiet --reload run/021_mjs_modules.ts", output: "run/021_mjs_modules.ts.out", }); itest!(_023_no_ext { args: "run --reload --check run/023_no_ext", output: "run/023_no_ext.out", }); itest!(_025_hrtime { args: "run --quiet --allow-hrtime --reload run/025_hrtime.ts", output: "run/025_hrtime.ts.out", }); itest!(_025_reload_js_type_error { args: "run --quiet --reload run/025_reload_js_type_error.js", output: "run/025_reload_js_type_error.js.out", }); itest!(_027_redirect_typescript { args: "run --quiet --reload run/027_redirect_typescript.ts", output: "run/027_redirect_typescript.ts.out", http_server: true, }); itest!(_027_redirect_typescript_vendor_dir { args: "run --quiet --reload --vendor $TESTDATA/run/027_redirect_typescript.ts", output: "run/027_redirect_typescript.ts.out", http_server: true, temp_cwd: true, }); itest!(_028_args { args: "run --quiet --reload run/028_args.ts --arg1 val1 --arg2=val2 -- arg3 arg4", output: "run/028_args.ts.out", }); itest!(_033_import_map_remote { args: "run --quiet --reload --import-map=http://127.0.0.1:4545/import_maps/import_map_remote.json import_maps/test_remote.ts", output: "run/033_import_map_remote.out", http_server: true, }); itest!(_033_import_map_vendor_dir_remote { args: "run --quiet --reload --import-map=http://127.0.0.1:4545/import_maps/import_map_remote.json --vendor $TESTDATA/import_maps/test_remote.ts", output: "run/033_import_map_remote.out", http_server: true, temp_cwd: true, }); itest!(_033_import_map_data_uri { args: "run --quiet --reload --import-map=data:application/json;charset=utf-8;base64,ewogICJpbXBvcnRzIjogewogICAgInRlc3Rfc2VydmVyLyI6ICJodHRwOi8vbG9jYWxob3N0OjQ1NDUvIgogIH0KfQ== run/import_maps/test_data.ts", output: "run/import_maps/test_data.ts.out", http_server: true, }); itest!(onload { args: "run --quiet --reload --config ../config/deno.json run/onload/main.ts", output: "run/onload/main.out", }); itest!(_035_cached_only_flag { args: "run --reload --check --cached-only http://127.0.0.1:4545/run/019_media_types.ts", output: "run/035_cached_only_flag.out", exit_code: 1, http_server: true, }); itest!(_038_checkjs { // checking if JS file is run through TS compiler args: "run --reload --config run/checkjs.tsconfig.json --check run/038_checkjs.js", exit_code: 1, output: "run/038_checkjs.js.out", }); itest!(_042_dyn_import_evalcontext { args: "run --quiet --allow-read --reload run/042_dyn_import_evalcontext.ts", output: "run/042_dyn_import_evalcontext.ts.out", }); itest!(_044_bad_resource { args: "run --quiet --reload --allow-read run/044_bad_resource.ts", output: "run/044_bad_resource.ts.out", exit_code: 1, }); itest!(_046_tsx { args: "run --quiet --reload run/046_jsx_test.tsx", output: "run/046_jsx_test.tsx.out", }); itest!(_047_jsx { args: "run --quiet --reload run/047_jsx_test.jsx", output: "run/047_jsx_test.jsx.out", }); itest!(_048_media_types_jsx { args: "run --reload run/048_media_types_jsx.ts", output: "run/048_media_types_jsx.ts.out", http_server: true, }); itest!(_052_no_remote_flag { args: "run --reload --check --no-remote http://127.0.0.1:4545/run/019_media_types.ts", output: "run/052_no_remote_flag.out", exit_code: 1, http_server: true, }); itest!(_056_make_temp_file_write_perm { args: "run --quiet --allow-read --allow-write=./subdir/ run/056_make_temp_file_write_perm.ts", output: "run/056_make_temp_file_write_perm.out", }); itest!(_058_tasks_microtasks_close { args: "run --quiet run/058_tasks_microtasks_close.ts", output: "run/058_tasks_microtasks_close.ts.out", }); itest!(_059_fs_relative_path_perm { args: "run run/059_fs_relative_path_perm.ts", output: "run/059_fs_relative_path_perm.ts.out", exit_code: 1, }); itest!(_070_location { args: "run --location https://foo/bar?baz#bat run/070_location.ts", output: "run/070_location.ts.out", }); itest!(_071_location_unset { args: "run run/071_location_unset.ts", output: "run/071_location_unset.ts.out", }); itest!(_072_location_relative_fetch { args: "run --location http://127.0.0.1:4545/ --allow-net run/072_location_relative_fetch.ts", output: "run/072_location_relative_fetch.ts.out", http_server: true, }); // tests the beforeunload event itest!(beforeunload_event { args: "run run/before_unload.js", output: "run/before_unload.js.out", }); // tests the serialization of webstorage (both localStorage and sessionStorage) itest!(webstorage_serialization { args: "run run/webstorage/serialization.ts", output: "run/webstorage/serialization.ts.out", }); // tests to ensure that when `--location` is set, all code shares the same // localStorage cache based on the origin of the location URL. #[test] fn webstorage_location_shares_origin() { let deno_dir = util::new_deno_dir(); let output = util::deno_cmd_with_deno_dir(&deno_dir) .current_dir(util::testdata_path()) .arg("run") .arg("--location") .arg("https://example.com/a.ts") .arg("run/webstorage/fixture.ts") .stdout(Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); assert_eq!(output.stdout, b"Storage { length: 0 }\n"); let output = util::deno_cmd_with_deno_dir(&deno_dir) .current_dir(util::testdata_path()) .arg("run") .arg("--location") .arg("https://example.com/b.ts") .arg("run/webstorage/logger.ts") .stdout(Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); assert_eq!(output.stdout, b"Storage { hello: \"deno\", length: 1 }\n"); } // test to ensure that when a --config file is set, but no --location, that // storage persists against unique configuration files. #[test] fn webstorage_config_file() { let context = TestContext::default(); context .new_command() .args( "run --config run/webstorage/config_a.jsonc run/webstorage/fixture.ts", ) .run() .assert_matches_text("Storage { length: 0 }\n"); context .new_command() .args("run --config run/webstorage/config_b.jsonc run/webstorage/logger.ts") .run() .assert_matches_text("Storage { length: 0 }\n"); context .new_command() .args("run --config run/webstorage/config_a.jsonc run/webstorage/logger.ts") .run() .assert_matches_text("Storage { hello: \"deno\", length: 1 }\n"); } // tests to ensure `--config` does not effect persisted storage when a // `--location` is provided. #[test] fn webstorage_location_precedes_config() { let context = TestContext::default(); context.new_command() .args("run --location https://example.com/a.ts --config run/webstorage/config_a.jsonc run/webstorage/fixture.ts") .run() .assert_matches_text("Storage { length: 0 }\n"); context.new_command() .args("run --location https://example.com/b.ts --config run/webstorage/config_b.jsonc run/webstorage/logger.ts") .run() .assert_matches_text("Storage { hello: \"deno\", length: 1 }\n"); } // test to ensure that when there isn't a configuration or location, that the // main module is used to determine how to persist storage data. #[test] fn webstorage_main_module() { let context = TestContext::default(); context .new_command() .args("run run/webstorage/fixture.ts") .run() .assert_matches_text("Storage { length: 0 }\n"); context .new_command() .args("run run/webstorage/logger.ts") .run() .assert_matches_text("Storage { length: 0 }\n"); context .new_command() .args("run run/webstorage/fixture.ts") .run() .assert_matches_text("Storage { hello: \"deno\", length: 1 }\n"); } itest!(_075_import_local_query_hash { args: "run run/075_import_local_query_hash.ts", output: "run/075_import_local_query_hash.ts.out", }); itest!(_077_fetch_empty { args: "run -A run/077_fetch_empty.ts", output: "run/077_fetch_empty.ts.out", exit_code: 1, }); itest!(_078_unload_on_exit { args: "run run/078_unload_on_exit.ts", output: "run/078_unload_on_exit.ts.out", exit_code: 1, }); itest!(_079_location_authentication { args: "run --location https://foo:bar@baz/qux run/079_location_authentication.ts", output: "run/079_location_authentication.ts.out", }); itest!(_081_location_relative_fetch_redirect { args: "run --location http://127.0.0.1:4546/ --allow-net run/081_location_relative_fetch_redirect.ts", output: "run/081_location_relative_fetch_redirect.ts.out", http_server: true, }); itest!(_082_prepare_stack_trace_throw { args: "run run/082_prepare_stack_trace_throw.js", output: "run/082_prepare_stack_trace_throw.js.out", exit_code: 1, }); #[test] fn _083_legacy_external_source_map() { let _g = util::http_server(); let deno_dir = TempDir::new(); let module_url = url::Url::parse( "http://localhost:4545/run/083_legacy_external_source_map.ts", ) .unwrap(); // Write a faulty old external source map. let faulty_map_path = deno_dir.path().join("gen/http/localhost_PORT4545/9576bd5febd0587c5c4d88d57cb3ac8ebf2600c529142abe3baa9a751d20c334.js.map"); faulty_map_path.parent().create_dir_all(); faulty_map_path.write(r#"{\"version\":3,\"file\":\"\",\"sourceRoot\":\"\",\"sources\":[\"http://localhost:4545/083_legacy_external_source_map.ts\"],\"names\":[],\"mappings\":\";AAAA,MAAM,IAAI,KAAK,CAAC,KAAK,CAAC,CAAC\"}"#); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg(module_url.to_string()) .output() .unwrap(); // Before https://github.com/denoland/deno/issues/6965 was fixed, the faulty // old external source map would cause a panic while formatting the error // and the exit code would be 101. The external source map should be ignored // in favor of the inline one. assert_eq!(output.status.code(), Some(1)); let out = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(out, ""); } itest!(dynamic_import_async_error { args: "run --allow-read run/dynamic_import_async_error/main.ts", output: "run/dynamic_import_async_error/main.out", }); itest!(dynamic_import_already_rejected { args: "run --allow-read run/dynamic_import_already_rejected/main.ts", output: "run/dynamic_import_already_rejected/main.out", }); itest!(dynamic_import_concurrent_non_statically_analyzable { args: "run --allow-read --allow-net --quiet run/dynamic_import_concurrent_non_statically_analyzable/main.ts", output: "run/dynamic_import_concurrent_non_statically_analyzable/main.out", http_server: true, }); itest!(no_check_imports_not_used_as_values { args: "run --config run/no_check_imports_not_used_as_values/preserve_imports.tsconfig.json --no-check run/no_check_imports_not_used_as_values/main.ts", output: "run/no_check_imports_not_used_as_values/main.out", }); itest!(_088_dynamic_import_already_evaluating { args: "run --allow-read run/088_dynamic_import_already_evaluating.ts", output: "run/088_dynamic_import_already_evaluating.ts.out", }); // TODO(bartlomieju): remove --unstable once Deno.Command is stabilized itest!(_089_run_allow_list { args: "run --unstable --allow-run=curl run/089_run_allow_list.ts", output: "run/089_run_allow_list.ts.out", }); #[test] fn _090_run_permissions_request() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/090_run_permissions_request.ts"]) .with_pty(|mut console| { console.expect(concat!( "┌ ⚠️ Deno requests run access to \"ls\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-run to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all run permissions)", )); console.human_delay(); console.write_line_raw("y"); console.expect("Granted run access to \"ls\"."); console.expect(concat!( "┌ ⚠️ Deno requests run access to \"cat\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-run to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all run permissions)", )); console.human_delay(); console.write_line_raw("n"); console.expect("Denied run access to \"cat\"."); console.expect("granted"); console.expect("denied"); }); } #[test] fn _090_run_permissions_request_sync() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/090_run_permissions_request_sync.ts"]) .with_pty(|mut console| { console.expect(concat!( "┌ ⚠️ Deno requests run access to \"ls\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-run to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all run permissions)", )); console.human_delay(); console.write_line_raw("y"); console.expect("Granted run access to \"ls\"."); console.expect(concat!( "┌ ⚠️ Deno requests run access to \"cat\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-run to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all run permissions)", )); console.human_delay(); console.write_line_raw("n"); console.expect("Denied run access to \"cat\"."); console.expect("granted"); console.expect("denied"); }); } #[test] fn permissions_prompt_allow_all() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/permissions_prompt_allow_all.ts"]) .with_pty(|mut console| { // "run" permissions console.expect(concat!( "┌ ⚠️ Deno requests run access to \"FOO\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-run to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all run permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all run access."); // "read" permissions console.expect(concat!( "┌ ⚠️ Deno requests read access to \"FOO\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all read access."); // "write" permissions console.expect(concat!( "┌ ⚠️ Deno requests write access to \"FOO\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-write to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all write permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all write access."); // "net" permissions console.expect(concat!( "┌ ⚠️ Deno requests net access to \"foo\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-net to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all net permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all net access."); // "env" permissions console.expect(concat!( "┌ ⚠️ Deno requests env access to \"FOO\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-env to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all env permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all env access."); // "sys" permissions console.expect(concat!( "┌ ⚠️ Deno requests sys access to \"loadavg\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-sys to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all sys permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all sys access."); // "ffi" permissions console.expect(concat!( "┌ ⚠️ Deno requests ffi access to \"FOO\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-ffi to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all ffi permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all ffi access.") }, ); } #[test] fn permissions_prompt_allow_all_2() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/permissions_prompt_allow_all_2.ts"]) .with_pty(|mut console| { // "env" permissions console.expect(concat!( "┌ ⚠️ Deno requests env access to \"FOO\".\r\n", "├ Run again with --allow-env to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all env permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all env access."); // "sys" permissions console.expect(concat!( "┌ ⚠️ Deno requests sys access to \"loadavg\".\r\n", "├ Requested by `Deno.loadavg()` API.\r\n", "├ Run again with --allow-sys to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all sys permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all sys access."); // "read" permissions console.expect(concat!( "┌ ⚠️ Deno requests read access to .\r\n", "├ Requested by `Deno.cwd()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("A"); console.expect("✅ Granted all read access."); }); } #[test] fn permissions_prompt_allow_all_lowercase_a() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/permissions_prompt_allow_all.ts"]) .with_pty(|mut console| { // "run" permissions console.expect(concat!( "┌ ⚠️ Deno requests run access to \"FOO\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-run to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all run permissions)", )); console.human_delay(); console.write_line_raw("a"); console.expect("Unrecognized option."); }); } #[test] fn permission_request_long() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/permission_request_long.ts"]) .with_pty(|mut console| { console.expect(concat!( "was larger than the configured maximum length (10240 bytes): denying request.\r\n", "❌ WARNING: This may indicate that code is trying to bypass or hide permission check requests.\r\n", "❌ Run again with --allow-read to bypass this check if this is really what you want to do.\r\n", )); }); } itest!(deny_all_permission_args { args: "run --deny-env --deny-read --deny-write --deny-ffi --deny-run --deny-sys --deny-net --deny-hrtime run/deny_all_permission_args.js", output: "run/deny_all_permission_args.out", }); itest!(deny_some_permission_args { args: "run --allow-env --deny-env=FOO --allow-read --deny-read=/foo --allow-write --deny-write=/foo --allow-ffi --deny-ffi=/foo --allow-run --deny-run=foo --allow-sys --deny-sys=hostname --allow-net --deny-net=127.0.0.1 --allow-hrtime --deny-hrtime run/deny_some_permission_args.js", output: "run/deny_some_permission_args.out", }); #[test] fn permissions_cache() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/permissions_cache.ts"]) .with_pty(|mut console| { console.expect(concat!( "prompt\r\n", "┌ ⚠️ Deno requests read access to \"foo\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("y"); console.expect("✅ Granted read access to \"foo\"."); console.expect("granted"); console.expect("prompt"); }); } itest!(env_file { args: "run --env=env --allow-env run/env_file.ts", output: "run/env_file.out", }); itest!(env_file_missing { args: "run --env=missing --allow-env run/env_file.ts", output: "run/env_file_missing.out", }); itest!(_091_use_define_for_class_fields { args: "run --check run/091_use_define_for_class_fields.ts", output: "run/091_use_define_for_class_fields.ts.out", exit_code: 1, }); itest!(js_import_detect { args: "run --quiet --reload run/js_import_detect.ts", output: "run/js_import_detect.ts.out", exit_code: 0, }); itest!(blob_gc_finalization { args: "run run/blob_gc_finalization.js", output: "run/blob_gc_finalization.js.out", exit_code: 0, }); itest!(fetch_response_finalization { args: "run --v8-flags=--expose-gc --allow-net run/fetch_response_finalization.js", output: "run/fetch_response_finalization.js.out", http_server: true, exit_code: 0, }); itest!(import_type { args: "run --reload run/import_type.ts", output: "run/import_type.ts.out", }); itest!(import_type_no_check { args: "run --reload --no-check run/import_type.ts", output: "run/import_type.ts.out", }); itest!(private_field_presence { args: "run --reload run/private_field_presence.ts", output: "run/private_field_presence.ts.out", }); itest!(private_field_presence_no_check { args: "run --reload --no-check run/private_field_presence.ts", output: "run/private_field_presence.ts.out", }); itest!(lock_write_fetch { args: "run --quiet --allow-read --allow-write --allow-env --allow-run run/lock_write_fetch/main.ts", output: "run/lock_write_fetch/main.out", http_server: true, exit_code: 0, }); itest!(lock_check_ok { args: "run --quiet --lock=run/lock_check_ok.json http://127.0.0.1:4545/run/003_relative_import.ts", output: "run/003_relative_import.ts.out", http_server: true, }); itest!(lock_check_ok2 { args: "run --lock=run/lock_check_ok2.json run/019_media_types.ts", output: "run/019_media_types.ts.out", http_server: true, }); itest!(lock_v2_check_ok { args: "run --quiet --lock=run/lock_v2_check_ok.json http://127.0.0.1:4545/run/003_relative_import.ts", output: "run/003_relative_import.ts.out", http_server: true, }); itest!(lock_v2_check_ok2 { args: "run --lock=run/lock_v2_check_ok2.json run/019_media_types.ts", output: "run/019_media_types.ts.out", http_server: true, }); #[test] fn lock_no_declaration_files() { let context = TestContextBuilder::new() .use_temp_cwd() .use_http_server() .build(); let output = context .new_command() .args("cache --lock --lock-write $TESTDATA/lockfile/no_dts/main.ts") .run(); output.assert_matches_file("lockfile/no_dts/main.cache.out"); let lockfile = context.temp_dir().path().join("deno.lock"); lockfile.assert_matches_file("lockfile/no_dts/deno.lock.out"); } #[test] fn lock_redirects() { let context = TestContextBuilder::new() .use_temp_cwd() .use_http_server() .add_npm_env_vars() .build(); let temp_dir = context.temp_dir(); temp_dir.write("deno.json", "{}"); // cause a lockfile to be created temp_dir.write( "main.ts", "import 'http://localhost:4546/run/001_hello.js';", ); context .new_command() .args("run main.ts") .run() .skip_output_check(); let initial_lockfile_text = r#"{ "version": "3", "redirects": { "http://localhost:4546/run/001_hello.js": "http://localhost:4545/run/001_hello.js" }, "remote": { "http://localhost:4545/run/001_hello.js": "c479db5ea26965387423ca438bb977d0b4788d5901efcef52f69871e4c1048c5" } } "#; assert_eq!(temp_dir.read_to_string("deno.lock"), initial_lockfile_text); context .new_command() .args("run main.ts") .run() .assert_matches_text("Hello World\n"); assert_eq!(temp_dir.read_to_string("deno.lock"), initial_lockfile_text); // now try changing where the redirect occurs in the lockfile temp_dir.write("deno.lock", r#"{ "version": "3", "redirects": { "http://localhost:4546/run/001_hello.js": "http://localhost:4545/echo.ts" }, "remote": { "http://localhost:4545/run/001_hello.js": "c479db5ea26965387423ca438bb977d0b4788d5901efcef52f69871e4c1048c5" } } "#); // also, add some npm dependency to ensure it doesn't end up in // the redirects as they're currently stored separately temp_dir.write( "main.ts", "import 'http://localhost:4546/run/001_hello.js';\n import 'npm:@denotest/esm-basic';\n", ); // it should use the echo script instead context .new_command() .args("run main.ts Hi there") .run() .assert_matches_text(concat!( "Download http://localhost:4545/echo.ts\n", "Download http://localhost:4260/@denotest/esm-basic\n", "Download http://localhost:4260/@denotest/esm-basic/1.0.0.tgz\n", "Hi, there", )); util::assertions::assert_wildcard_match( &temp_dir.read_to_string("deno.lock"), r#"{ "version": "3", "packages": { "specifiers": { "npm:@denotest/esm-basic": "npm:@denotest/esm-basic@1.0.0" }, "npm": { "@denotest/esm-basic@1.0.0": { "integrity": "sha512-[WILDCARD]", "dependencies": {} } } }, "redirects": { "http://localhost:4546/run/001_hello.js": "http://localhost:4545/echo.ts" }, "remote": { "http://localhost:4545/echo.ts": "829eb4d67015a695d70b2a33c78b631b29eea1dbac491a6bfcf394af2a2671c2", "http://localhost:4545/run/001_hello.js": "c479db5ea26965387423ca438bb977d0b4788d5901efcef52f69871e4c1048c5" } } "#, ); } #[test] fn lock_deno_json_package_json_deps() { let context = TestContextBuilder::new() .use_temp_cwd() .use_http_server() .add_npm_env_vars() .add_jsr_env_vars() .build(); let temp_dir = context.temp_dir().path(); let deno_json = temp_dir.join("deno.json"); let package_json = temp_dir.join("package.json"); // add a jsr and npm dependency deno_json.write_json(&json!({ "imports": { "esm-basic": "npm:@denotest/esm-basic", "module_graph": "jsr:@denotest/module-graph@1.4", } })); let main_ts = temp_dir.join("main.ts"); main_ts.write("import 'esm-basic'; import 'module_graph';"); context .new_command() .args("cache main.ts") .run() .skip_output_check(); let lockfile = temp_dir.join("deno.lock"); let esm_basic_integrity = get_lockfile_npm_package_integrity(&lockfile, "@denotest/esm-basic@1.0.0"); lockfile.assert_matches_json(json!({ "version": "3", "packages": { "specifiers": { "jsr:@denotest/module-graph@1.4": "jsr:@denotest/module-graph@1.4.0", "npm:@denotest/esm-basic": "npm:@denotest/esm-basic@1.0.0" }, "jsr": { "@denotest/module-graph@1.4.0": { "integrity": "32de0973c5fa55772326fcd504a757f386d2b010db3e13e78f3bcf851e69473d" } }, "npm": { "@denotest/esm-basic@1.0.0": { "integrity": esm_basic_integrity, "dependencies": {} } } }, "remote": {}, "workspace": { "dependencies": [ "jsr:@denotest/module-graph@1.4", "npm:@denotest/esm-basic" ] } })); // now remove the npm dependency from the deno.json and move // it to a package.json that uses an alias deno_json.write_json(&json!({ "imports": { "module_graph": "jsr:@denotest/module-graph@1.4", } })); package_json.write_json(&json!({ "dependencies": { "esm-basic": "npm:@denotest/esm-basic" } })); context .new_command() .args("cache main.ts") .run() .skip_output_check(); main_ts.write("import 'module_graph';"); context .new_command() // ensure this doesn't clear out packageJson below .args("cache --no-npm main.ts") .run() .skip_output_check(); lockfile.assert_matches_json(json!({ "version": "3", "packages": { "specifiers": { "jsr:@denotest/module-graph@1.4": "jsr:@denotest/module-graph@1.4.0", "npm:@denotest/esm-basic": "npm:@denotest/esm-basic@1.0.0" }, "jsr": { "@denotest/module-graph@1.4.0": { "integrity": "32de0973c5fa55772326fcd504a757f386d2b010db3e13e78f3bcf851e69473d" } }, "npm": { "@denotest/esm-basic@1.0.0": { "integrity": esm_basic_integrity, "dependencies": {} } } }, "remote": {}, "workspace": { "dependencies": [ "jsr:@denotest/module-graph@1.4" ], "packageJson": { "dependencies": [ "npm:@denotest/esm-basic" ] } } })); // now remove the package.json package_json.remove_file(); // cache and it will remove the package.json context .new_command() .args("cache main.ts") .run() .skip_output_check(); lockfile.assert_matches_json(json!({ "version": "3", "packages": { "specifiers": { "jsr:@denotest/module-graph@1.4": "jsr:@denotest/module-graph@1.4.0", }, "jsr": { "@denotest/module-graph@1.4.0": { "integrity": "32de0973c5fa55772326fcd504a757f386d2b010db3e13e78f3bcf851e69473d" } } }, "remote": {}, "workspace": { "dependencies": [ "jsr:@denotest/module-graph@1.4" ] } })); // now remove the deps from the deno.json deno_json.write("{}"); main_ts.write(""); context .new_command() .args("cache main.ts") .run() .skip_output_check(); lockfile.assert_matches_json(json!({ "version": "3", "remote": {} })); } #[test] fn lock_deno_json_package_json_deps_workspace() { let context = TestContextBuilder::new() .use_temp_cwd() .use_http_server() .add_npm_env_vars() .add_jsr_env_vars() .build(); let temp_dir = context.temp_dir().path(); // deno.json let deno_json = temp_dir.join("deno.json"); deno_json.write_json(&json!({ "nodeModulesDir": true })); // package.json let package_json = temp_dir.join("package.json"); package_json.write_json(&json!({ "workspaces": ["package-a"], "dependencies": { "@denotest/cjs-default-export": "1" } })); // main.ts let main_ts = temp_dir.join("main.ts"); main_ts.write("import '@denotest/cjs-default-export';"); // package-a/package.json let a_package = temp_dir.join("package-a"); a_package.create_dir_all(); let a_package_json = a_package.join("package.json"); a_package_json.write_json(&json!({ "dependencies": { "@denotest/esm-basic": "1" } })); // package-a/main.ts let main_ts = a_package.join("main.ts"); main_ts.write("import '@denotest/esm-basic';"); context .new_command() .args("run package-a/main.ts") .run() .skip_output_check(); let lockfile = temp_dir.join("deno.lock"); let esm_basic_integrity = get_lockfile_npm_package_integrity(&lockfile, "@denotest/esm-basic@1.0.0"); let cjs_default_export_integrity = get_lockfile_npm_package_integrity( &lockfile, "@denotest/cjs-default-export@1.0.0", ); lockfile.assert_matches_json(json!({ "version": "3", "packages": { "specifiers": { "npm:@denotest/cjs-default-export@1": "npm:@denotest/cjs-default-export@1.0.0", "npm:@denotest/esm-basic@1": "npm:@denotest/esm-basic@1.0.0" }, "npm": { "@denotest/cjs-default-export@1.0.0": { "integrity": cjs_default_export_integrity, "dependencies": {} }, "@denotest/esm-basic@1.0.0": { "integrity": esm_basic_integrity, "dependencies": {} } } }, "remote": {}, "workspace": { "packageJson": { "dependencies": [ "npm:@denotest/cjs-default-export@1" ] }, "members": { "package-a": { "packageJson": { "dependencies": [ "npm:@denotest/esm-basic@1" ] } } } } })); // run a command that causes discovery of the root package.json beside the lockfile context .new_command() .args("run main.ts") .run() .skip_output_check(); // now we should see the dependencies let cjs_default_export_integrity = get_lockfile_npm_package_integrity( &lockfile, "@denotest/cjs-default-export@1.0.0", ); let expected_lockfile = json!({ "version": "3", "packages": { "specifiers": { "npm:@denotest/cjs-default-export@1": "npm:@denotest/cjs-default-export@1.0.0", "npm:@denotest/esm-basic@1": "npm:@denotest/esm-basic@1.0.0" }, "npm": { "@denotest/cjs-default-export@1.0.0": { "integrity": cjs_default_export_integrity, "dependencies": {} }, "@denotest/esm-basic@1.0.0": { "integrity": esm_basic_integrity, "dependencies": {} } } }, "remote": {}, "workspace": { "packageJson": { "dependencies": [ "npm:@denotest/cjs-default-export@1" ] }, "members": { "package-a": { "packageJson": { "dependencies": [ "npm:@denotest/esm-basic@1" ] } } } } }); lockfile.assert_matches_json(expected_lockfile.clone()); // now run the command again in the package with the nested package.json context .new_command() .args("run package-a/main.ts") .run() .skip_output_check(); // the lockfile should stay the same as the above because the package.json // was found in a different directory lockfile.assert_matches_json(expected_lockfile.clone()); } fn get_lockfile_npm_package_integrity( lockfile: &PathRef, package_name: &str, ) -> String { // todo(dsherret): it would be nice if the test server didn't produce // different hashes depending on what operating system it's running on lockfile .read_json_value() .get("packages") .unwrap() .get("npm") .unwrap() .get(package_name) .unwrap() .get("integrity") .unwrap() .as_str() .unwrap() .to_string() } itest!(mts_dmts_mjs { args: "run subdir/import.mts", output: "run/mts_dmts_mjs.out", }); itest!(mts_dmts_mjs_no_check { args: "run --no-check subdir/import.mts", output: "run/mts_dmts_mjs.out", }); itest!(async_error { exit_code: 1, args: "run --reload run/async_error.ts", output: "run/async_error.ts.out", }); itest!(config { args: "run --reload --config run/config/tsconfig.json --check run/config/main.ts", output: "run/config/main.out", }); itest!(config_types { args: "run --reload --quiet --check=all --config run/config_types/tsconfig.json run/config_types/main.ts", output: "run/config_types/main.out", }); itest!(config_types_remote { http_server: true, args: "run --reload --quiet --check=all --config run/config_types/remote.tsconfig.json run/config_types/main.ts", output: "run/config_types/main.out", }); itest!(empty_typescript { args: "run --reload --check run/empty.ts", output_str: Some("Check file:[WILDCARD]/run/empty.ts\n"), }); itest!(error_001 { args: "run --reload run/error_001.ts", exit_code: 1, output: "run/error_001.ts.out", }); itest!(error_002 { args: "run --reload run/error_002.ts", exit_code: 1, output: "run/error_002.ts.out", }); itest!(error_003_typescript { args: "run --reload --check run/error_003_typescript.ts", exit_code: 1, output: "run/error_003_typescript.ts.out", }); // Supposing that we've already attempted to run error_003_typescript.ts // we want to make sure that JS wasn't emitted. Running again without reload flag // should result in the same output. // https://github.com/denoland/deno/issues/2436 itest!(error_003_typescript2 { args: "run --check run/error_003_typescript.ts", exit_code: 1, output: "run/error_003_typescript.ts.out", }); itest!(error_004_missing_module { args: "run --reload run/error_004_missing_module.ts", exit_code: 1, output: "run/error_004_missing_module.ts.out", }); itest!(error_005_missing_dynamic_import { args: "run --reload --allow-read --quiet run/error_005_missing_dynamic_import.ts", exit_code: 1, output: "run/error_005_missing_dynamic_import.ts.out", }); itest!(error_006_import_ext_failure { args: "run --reload run/error_006_import_ext_failure.ts", exit_code: 1, output: "run/error_006_import_ext_failure.ts.out", }); itest!(error_007_any { args: "run --reload run/error_007_any.ts", exit_code: 1, output: "run/error_007_any.ts.out", }); itest!(error_008_checkjs { args: "run --reload run/error_008_checkjs.js", exit_code: 1, output: "run/error_008_checkjs.js.out", }); itest!(error_009_extensions_error { args: "run run/error_009_extensions_error.js", output: "run/error_009_extensions_error.js.out", exit_code: 1, }); itest!(error_011_bad_module_specifier { args: "run --reload run/error_011_bad_module_specifier.ts", exit_code: 1, output: "run/error_011_bad_module_specifier.ts.out", }); itest!(error_012_bad_dynamic_import_specifier { args: "run --reload --check run/error_012_bad_dynamic_import_specifier.ts", exit_code: 1, output: "run/error_012_bad_dynamic_import_specifier.ts.out", }); itest!(error_013_missing_script { args: "run --reload missing_file_name", exit_code: 1, output: "run/error_013_missing_script.out", }); itest!(error_014_catch_dynamic_import_error { args: "run --reload --allow-read run/error_014_catch_dynamic_import_error.js", output: "run/error_014_catch_dynamic_import_error.js.out", }); itest!(error_015_dynamic_import_permissions { args: "run --reload --quiet run/error_015_dynamic_import_permissions.js", output: "run/error_015_dynamic_import_permissions.out", exit_code: 1, http_server: true, }); // We have an allow-net flag but not allow-read, it should still result in error. itest!(error_016_dynamic_import_permissions2 { args: "run --reload --allow-net run/error_016_dynamic_import_permissions2.js", output: "run/error_016_dynamic_import_permissions2.out", exit_code: 1, http_server: true, }); itest!(error_017_hide_long_source_ts { args: "run --reload --check run/error_017_hide_long_source_ts.ts", output: "run/error_017_hide_long_source_ts.ts.out", exit_code: 1, }); itest!(error_018_hide_long_source_js { args: "run run/error_018_hide_long_source_js.js", output: "run/error_018_hide_long_source_js.js.out", exit_code: 1, }); itest!(error_019_stack_function { args: "run run/error_019_stack_function.ts", output: "run/error_019_stack_function.ts.out", exit_code: 1, }); itest!(error_020_stack_constructor { args: "run run/error_020_stack_constructor.ts", output: "run/error_020_stack_constructor.ts.out", exit_code: 1, }); itest!(error_021_stack_method { args: "run run/error_021_stack_method.ts", output: "run/error_021_stack_method.ts.out", exit_code: 1, }); itest!(error_022_stack_custom_error { args: "run run/error_022_stack_custom_error.ts", output: "run/error_022_stack_custom_error.ts.out", exit_code: 1, }); itest!(error_023_stack_async { args: "run run/error_023_stack_async.ts", output: "run/error_023_stack_async.ts.out", exit_code: 1, }); itest!(error_024_stack_promise_all { args: "run run/error_024_stack_promise_all.ts", output: "run/error_024_stack_promise_all.ts.out", exit_code: 1, }); itest!(error_025_tab_indent { args: "run run/error_025_tab_indent", output: "run/error_025_tab_indent.out", exit_code: 1, }); itest!(error_026_remote_import_error { args: "run run/error_026_remote_import_error.ts", output: "run/error_026_remote_import_error.ts.out", exit_code: 1, http_server: true, }); itest!(error_for_await { args: "run --reload --check run/error_for_await.ts", output: "run/error_for_await.ts.out", exit_code: 1, }); itest!(error_missing_module_named_import { args: "run --reload run/error_missing_module_named_import.ts", output: "run/error_missing_module_named_import.ts.out", exit_code: 1, }); itest!(error_no_check { args: "run --reload --no-check run/error_no_check.ts", output: "run/error_no_check.ts.out", exit_code: 1, }); itest!(error_syntax { args: "run --reload run/error_syntax.js", exit_code: 1, output: "run/error_syntax.js.out", }); itest!(error_syntax_empty_trailing_line { args: "run --reload run/error_syntax_empty_trailing_line.mjs", exit_code: 1, output: "run/error_syntax_empty_trailing_line.mjs.out", }); itest!(error_type_definitions { args: "run --reload --check run/error_type_definitions.ts", exit_code: 1, output: "run/error_type_definitions.ts.out", }); itest!(error_local_static_import_from_remote_ts { args: "run --reload http://localhost:4545/run/error_local_static_import_from_remote.ts", exit_code: 1, http_server: true, output: "run/error_local_static_import_from_remote.ts.out", }); itest!(error_local_static_import_from_remote_js { args: "run --reload http://localhost:4545/run/error_local_static_import_from_remote.js", exit_code: 1, http_server: true, output: "run/error_local_static_import_from_remote.js.out", }); itest!(exit_error42 { exit_code: 42, args: "run --quiet --reload run/exit_error42.ts", output: "run/exit_error42.ts.out", }); itest!(set_exit_code_0 { args: "run --no-check run/set_exit_code_0.ts", output_str: Some(""), exit_code: 0, }); itest!(set_exit_code_1 { args: "run --no-check run/set_exit_code_1.ts", output_str: Some(""), exit_code: 42, }); itest!(set_exit_code_2 { args: "run --no-check run/set_exit_code_2.ts", output_str: Some(""), exit_code: 42, }); itest!(op_exit_op_set_exit_code_in_worker { args: "run --no-check --allow-read run/op_exit_op_set_exit_code_in_worker.ts", exit_code: 21, output_str: Some(""), }); itest!(deno_exit_tampering { args: "run --no-check run/deno_exit_tampering.ts", output_str: Some(""), exit_code: 42, }); itest!(heapstats { args: "run --quiet --v8-flags=--expose-gc run/heapstats.js", output: "run/heapstats.js.out", }); itest!(finalization_registry { args: "run --quiet --v8-flags=--expose-gc run/finalization_registry.js", output: "run/finalization_registry.js.out", }); itest!(https_import { args: "run --quiet --reload --cert tls/RootCA.pem run/https_import.ts", output: "run/https_import.ts.out", http_server: true, }); itest!(if_main { args: "run --quiet --reload run/if_main.ts", output: "run/if_main.ts.out", }); itest!(import_meta { args: "run --quiet --reload --import-map=run/import_meta/importmap.json run/import_meta/main.ts", output: "run/import_meta/main.out", http_server: true, }); itest!(main_module { args: "run --quiet --allow-read --reload run/main_module/main.ts", output: "run/main_module/main.out", }); itest!(no_check { args: "run --quiet --reload --no-check run/006_url_imports.ts", output: "run/006_url_imports.ts.out", http_server: true, }); itest!(no_check_decorators { args: "run --quiet --reload --no-check run/decorators/experimental/no_check/main.ts", output: "run/decorators/experimental/no_check/main.out", }); itest!(decorators_tc39_proposal { args: "run --quiet --reload --check run/decorators/tc39_proposal/main.ts", output: "run/decorators/tc39_proposal/main.out", }); itest!(check_remote { args: "run --quiet --reload --check=all run/no_check_remote.ts", output: "run/no_check_remote.ts.disabled.out", exit_code: 1, http_server: true, }); itest!(no_check_remote { args: "run --quiet --reload --no-check=remote run/no_check_remote.ts", output: "run/no_check_remote.ts.enabled.out", http_server: true, }); itest!(runtime_decorators { args: "run --quiet --reload --no-check run/decorators/experimental/runtime/main.ts", output: "run/decorators/experimental/runtime/main.out", }); itest!(seed_random { args: "run --seed=100 run/seed_random.js", output: "run/seed_random.js.out", }); itest!(type_definitions { args: "run --reload run/type_definitions.ts", output: "run/type_definitions.ts.out", }); itest!(type_definitions_for_export { args: "run --reload --check run/type_definitions_for_export.ts", output: "run/type_definitions_for_export.ts.out", exit_code: 1, }); itest!(type_directives_01 { args: "run --reload --check=all -L debug run/type_directives_01.ts", output: "run/type_directives_01.ts.out", http_server: true, }); itest!(type_directives_02 { args: "run --reload --check=all -L debug run/type_directives_02.ts", output: "run/type_directives_02.ts.out", }); #[test] fn type_directives_js_main() { let context = TestContext::default(); let output = context .new_command() .args("run --reload -L debug --check run/type_directives_js_main.js") .run(); output.assert_matches_text("[WILDCARD] - FileFetcher::fetch_no_follow_with_options - specifier: file:///[WILDCARD]/subdir/type_reference.d.ts[WILDCARD]"); let output = context .new_command() .args("run --reload -L debug run/type_directives_js_main.js") .run(); assert_not_contains!(output.combined_output(), "type_reference.d.ts"); } itest!(type_directives_redirect { args: "run --reload --check run/type_directives_redirect.ts", output: "run/type_directives_redirect.ts.out", http_server: true, }); itest!(type_headers_deno_types { args: "run --reload --check run/type_headers_deno_types.ts", output: "run/type_headers_deno_types.ts.out", http_server: true, }); itest!(ts_type_imports { args: "run --reload --check run/ts_type_imports.ts", output: "run/ts_type_imports.ts.out", exit_code: 1, }); itest!(ts_decorators { args: "run --reload --check run/decorators/experimental/ts/main.ts", output: "run/decorators/experimental/ts/main.out", }); itest!(ts_type_only_import { args: "run --reload --check run/ts_type_only_import.ts", output: "run/ts_type_only_import.ts.out", }); itest!(swc_syntax_error { args: "run --reload --check run/swc_syntax_error.ts", output: "run/swc_syntax_error.ts.out", exit_code: 1, }); itest!(unbuffered_stderr { args: "run --reload run/unbuffered_stderr.ts", output: "run/unbuffered_stderr.ts.out", }); itest!(unbuffered_stdout { args: "run --quiet --reload run/unbuffered_stdout.ts", output: "run/unbuffered_stdout.ts.out", }); itest!(v8_flags_run { args: "run --v8-flags=--expose-gc run/v8_flags.js", output: "run/v8_flags.js.out", }); itest!(v8_flags_env_run { envs: vec![("DENO_V8_FLAGS".to_string(), "--expose-gc".to_string())], args: "run run/v8_flags.js", output: "run/v8_flags.js.out", }); itest!(v8_flags_unrecognized { args: "repl --v8-flags=--foo,bar,--trace-gc,-baz", output: "run/v8_flags_unrecognized.out", exit_code: 1, }); itest!(v8_help { args: "repl --v8-flags=--help", output: "run/v8_help.out", }); itest!(unsupported_dynamic_import_scheme { args: "eval import('xxx:')", output: "run/unsupported_dynamic_import_scheme.out", exit_code: 1, }); itest!(wasm { args: "run --quiet run/wasm.ts", output: "run/wasm.ts.out", }); itest!(wasm_shared { args: "run --quiet run/wasm_shared.ts", output: "run/wasm_shared.out", }); itest!(wasm_async { args: "run run/wasm_async.js", output: "run/wasm_async.out", }); itest!(wasm_unreachable { args: "run --allow-read run/wasm_unreachable.js", output: "run/wasm_unreachable.out", exit_code: 1, }); itest!(wasm_url { args: "run --quiet --allow-net=localhost:4545 run/wasm_url.js", output: "run/wasm_url.out", exit_code: 1, http_server: true, }); itest!(weakref { args: "run --quiet --reload run/weakref.ts", output: "run/weakref.ts.out", }); itest!(top_level_await_order { args: "run --allow-read run/top_level_await/order.js", output: "run/top_level_await/order.out", }); itest!(top_level_await_loop { args: "run --allow-read run/top_level_await/loop.js", output: "run/top_level_await/loop.out", }); itest!(top_level_await_circular { args: "run --allow-read run/top_level_await/circular.js", output: "run/top_level_await/circular.out", exit_code: 1, }); // Regression test for https://github.com/denoland/deno/issues/11238. itest!(top_level_await_nested { args: "run --allow-read run/top_level_await/nested/main.js", output: "run/top_level_await/nested.out", }); itest!(top_level_await_unresolved { args: "run run/top_level_await/unresolved.js", output: "run/top_level_await/unresolved.out", exit_code: 1, }); itest!(top_level_await { args: "run --allow-read run/top_level_await/top_level_await.js", output: "run/top_level_await/top_level_await.out", }); itest!(top_level_await_ts { args: "run --quiet --allow-read run/top_level_await/top_level_await.ts", output: "run/top_level_await/top_level_await.out", }); itest!(top_level_for_await { args: "run --quiet run/top_level_await/top_level_for_await.js", output: "run/top_level_await/top_level_for_await.out", }); itest!(top_level_for_await_ts { args: "run --quiet run/top_level_await/top_level_for_await.ts", output: "run/top_level_await/top_level_for_await.out", }); itest!(unstable_disabled_js { args: "run --reload run/unstable.js", output: "run/unstable_disabled_js.out", }); itest!(unstable_enabled_js { args: "run --quiet --reload --unstable-fs run/unstable.ts", output: "run/unstable_enabled_js.out", }); itest!(unstable_worker { args: "run --reload --quiet --allow-read run/unstable_worker.ts", output: "run/unstable_worker.ts.out", }); itest!(unstable_worker_options_disabled { args: "run --quiet --reload --allow-read run/unstable_worker_options.js", output: "run/unstable_worker_options.disabled.out", exit_code: 70, }); itest!(unstable_worker_options_enabled { args: "run --quiet --reload --allow-read --unstable-worker-options run/unstable_worker_options.js", output: "run/unstable_worker_options.enabled.out", }); itest!(unstable_broadcast_channel_disabled { args: "run --quiet --reload --allow-read run/unstable_broadcast_channel.js", output: "run/unstable_broadcast_channel.disabled.out", }); itest!(unstable_broadcast_channel_enabled { args: "run --quiet --reload --allow-read --unstable-broadcast-channel run/unstable_broadcast_channel.js", output: "run/unstable_broadcast_channel.enabled.out", }); itest!(unstable_cron_disabled { args: "run --quiet --reload --allow-read run/unstable_cron.js", output: "run/unstable_cron.disabled.out", }); itest!(unstable_cron_enabled { args: "run --quiet --reload --allow-read --unstable-cron run/unstable_cron.js", output: "run/unstable_cron.enabled.out", }); itest!(unstable_ffi_disabled { args: "run --quiet --reload --allow-read run/unstable_ffi.js", output: "run/unstable_ffi.disabled.out", }); itest!(unstable_ffi_enabled { args: "run --quiet --reload --allow-read --unstable-ffi run/unstable_ffi.js", output: "run/unstable_ffi.enabled.out", }); itest!(unstable_fs_disabled { args: "run --quiet --reload --allow-read run/unstable_fs.js", output: "run/unstable_fs.disabled.out", }); itest!(unstable_fs_enabled { args: "run --quiet --reload --allow-read --unstable-fs run/unstable_fs.js", output: "run/unstable_fs.enabled.out", }); itest!(unstable_http_disabled { args: "run --quiet --reload --allow-read run/unstable_http.js", output: "run/unstable_http.disabled.out", }); itest!(unstable_http_enabled { args: "run --quiet --reload --allow-read --unstable-http run/unstable_http.js", output: "run/unstable_http.enabled.out", }); itest!(unstable_net_disabled { args: "run --quiet --reload --allow-read run/unstable_net.js", output: "run/unstable_net.disabled.out", }); itest!(unstable_net_enabled { args: "run --quiet --reload --allow-read --unstable-net run/unstable_net.js", output: "run/unstable_net.enabled.out", }); itest!(unstable_kv_disabled { args: "run --quiet --reload --allow-read run/unstable_kv.js", output: "run/unstable_kv.disabled.out", }); itest!(unstable_kv_enabled { args: "run --quiet --reload --allow-read --unstable-kv run/unstable_kv.js", output: "run/unstable_kv.enabled.out", }); itest!(unstable_webgpu_disabled { args: "run --quiet --reload --allow-read run/unstable_webgpu.js", output: "run/unstable_webgpu.disabled.out", }); itest!(unstable_webgpu_enabled { args: "run --quiet --reload --allow-read --unstable-webgpu run/unstable_webgpu.js", output: "run/unstable_webgpu.enabled.out", }); itest!(import_compression { args: "run --quiet --reload --allow-net run/import_compression/main.ts", output: "run/import_compression/main.out", http_server: true, }); itest!(disallow_http_from_https_js { args: "run --quiet --reload --cert tls/RootCA.pem https://localhost:5545/run/disallow_http_from_https.js", output: "run/disallow_http_from_https_js.out", http_server: true, exit_code: 1, }); itest!(disallow_http_from_https_ts { args: "run --quiet --reload --cert tls/RootCA.pem https://localhost:5545/run/disallow_http_from_https.ts", output: "run/disallow_http_from_https_ts.out", http_server: true, exit_code: 1, }); itest!(dynamic_import_conditional { args: "run --quiet --reload run/dynamic_import_conditional.js", output: "run/dynamic_import_conditional.js.out", }); itest!(tsx_imports { args: "run --reload --check run/tsx_imports/tsx_imports.ts", output: "run/tsx_imports/tsx_imports.ts.out", }); itest!(fix_dynamic_import_errors { args: "run --reload run/fix_dynamic_import_errors.js", output: "run/fix_dynamic_import_errors.js.out", }); itest!(fix_emittable_skipped { args: "run --reload run/fix_emittable_skipped.js", output: "run/fix_emittable_skipped.ts.out", }); itest!(fix_js_import_js { args: "run --quiet --reload run/fix_js_import_js.ts", output: "run/fix_js_import_js.ts.out", }); itest!(fix_js_imports { args: "run --quiet --reload run/fix_js_imports.ts", output: "run/fix_js_imports.ts.out", }); itest!(fix_tsc_file_exists { args: "run --quiet --reload tsc/test.js", output: "run/fix_tsc_file_exists.out", }); itest!(fix_worker_dispatchevent { args: "run --quiet --reload run/fix_worker_dispatchevent.ts", output: "run/fix_worker_dispatchevent.ts.out", }); itest!(es_private_fields { args: "run --quiet --reload run/es_private_fields.js", output: "run/es_private_fields.js.out", }); itest!(cjs_imports { args: "run --quiet --reload run/cjs_imports/main.ts", output: "run/cjs_imports/main.out", }); itest!(ts_import_from_js { args: "run --quiet --reload run/ts_import_from_js/main.js", output: "run/ts_import_from_js/main.out", http_server: true, }); itest!(jsx_import_from_ts { args: "run --quiet --reload run/jsx_import_from_ts.ts", output: "run/jsx_import_from_ts.ts.out", }); itest!(jsx_import_source_pragma { args: "run --reload run/jsx_import_source_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, }); itest!(jsx_import_source_pragma_with_config { args: "run --reload --config jsx/deno-jsx.jsonc --no-lock run/jsx_import_source_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, }); itest!(jsx_import_source_pragma_with_dev_config { args: "run --reload --config jsx/deno-jsxdev.jsonc --no-lock run/jsx_import_source_pragma.tsx", output: "run/jsx_import_source_dev.out", http_server: true, }); itest!(jsx_import_source_no_pragma { args: "run --reload --config jsx/deno-jsx.jsonc --no-lock run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, }); itest!(jsx_import_source_no_pragma_dev { args: "run --reload --config jsx/deno-jsxdev.jsonc --no-lock run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_dev.out", http_server: true, }); itest!(jsx_import_source_pragma_import_map { args: "run --reload --import-map jsx/import-map.json run/jsx_import_source_pragma_import_map.tsx", output: "run/jsx_import_source_import_map.out", http_server: true, }); itest!(jsx_import_source_pragma_import_map_dev { args: "run --reload --import-map jsx/import-map.json --config jsx/deno-jsxdev-import-map.jsonc run/jsx_import_source_pragma_import_map.tsx", output: "run/jsx_import_source_import_map_dev.out", http_server: true, }); itest!(jsx_import_source_precompile_import_map { args: "run --reload --check --import-map jsx/import-map.json --no-lock --config jsx/deno-jsx-precompile.jsonc run/jsx_precompile/no_pragma.tsx", output: "run/jsx_precompile/no_pragma.out", http_server: true, }); itest!(jsx_import_source_precompile_import_map_skip_element { args: "run --reload --check --import-map jsx/import-map.json --no-lock --config jsx/deno-jsx-precompile-skip.jsonc run/jsx_precompile/skip.tsx", output: "run/jsx_precompile/skip.out", http_server: true, }); itest!(jsx_import_source_import_map { args: "run --reload --import-map jsx/import-map.json --no-lock --config jsx/deno-jsx-import-map.jsonc run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_import_map.out", http_server: true, }); itest!(jsx_import_source_import_map_dev { args: "run --reload --import-map jsx/import-map.json --no-lock --config jsx/deno-jsxdev-import-map.jsonc run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_import_map_dev.out", http_server: true, }); itest!(jsx_import_source_import_map_scoped { args: "run --reload --import-map jsx/import-map-scoped.json --no-lock --config jsx/deno-jsx-import-map.jsonc subdir/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_import_map.out", http_server: true, }); itest!(jsx_import_source_import_map_scoped_dev { args: "run --reload --import-map jsx/import-map-scoped.json --no-lock --config jsx/deno-jsxdev-import-map.jsonc subdir/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_import_map_dev.out", http_server: true, }); itest!(jsx_import_source_pragma_no_check { args: "run --reload --no-check run/jsx_import_source_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, }); itest!(jsx_import_source_pragma_with_config_no_check { args: "run --reload --config jsx/deno-jsx.jsonc --no-lock --no-check run/jsx_import_source_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, }); itest!(jsx_import_source_pragma_with_config_vendor_dir { args: "run --reload --config jsx/deno-jsx.jsonc --no-lock --vendor $TESTDATA/run/jsx_import_source_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, temp_cwd: true, copy_temp_dir: Some("jsx/"), }); itest!(jsx_import_source_no_pragma_no_check { args: "run --reload --config jsx/deno-jsx.jsonc --no-lock --no-check run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source.out", http_server: true, }); itest!(jsx_import_source_pragma_import_map_no_check { args: "run --reload --import-map jsx/import-map.json --no-check run/jsx_import_source_pragma_import_map.tsx", output: "run/jsx_import_source_import_map.out", http_server: true, }); itest!(jsx_import_source_import_map_no_check { args: "run --reload --import-map jsx/import-map.json --no-lock --config jsx/deno-jsx-import-map.jsonc --no-check run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_import_map.out", http_server: true, }); itest!(jsx_import_source_error { args: "run --config jsx/deno-jsx-error.jsonc --check run/jsx_import_source_no_pragma.tsx", output: "run/jsx_import_source_error.out", exit_code: 1, }); itest!(single_compile_with_reload { args: "run --reload --allow-read run/single_compile_with_reload.ts", output: "run/single_compile_with_reload.ts.out", }); itest!(proto_exploit { args: "run run/proto_exploit.js", output: "run/proto_exploit.js.out", }); itest!(reference_types { args: "run --reload --quiet run/reference_types.ts", output: "run/reference_types.ts.out", }); itest!(references_types_remote { http_server: true, args: "run --reload --quiet run/reference_types_remote.ts", output: "run/reference_types_remote.ts.out", }); itest!(reference_types_error { args: "run --config run/checkjs.tsconfig.json --check run/reference_types_error.js", output: "run/reference_types_error.js.out", exit_code: 1, }); itest!(reference_types_error_vendor_dir { args: "run --config run/checkjs.tsconfig.json --check --vendor $TESTDATA/run/reference_types_error.js", output: "run/reference_types_error.js.out", exit_code: 1, }); itest!(reference_types_error_no_check { args: "run --no-check run/reference_types_error.js", output_str: Some(""), }); itest!(import_data_url_error_stack { args: "run --quiet --reload run/import_data_url_error_stack.ts", output: "run/import_data_url_error_stack.ts.out", exit_code: 1, }); itest!(import_data_url_import_relative { args: "run --quiet --reload run/import_data_url_import_relative.ts", output: "run/import_data_url_import_relative.ts.out", exit_code: 1, }); itest!(import_data_url_imports { args: "run --quiet --reload run/import_data_url_imports.ts", output: "run/import_data_url_imports.ts.out", http_server: true, }); itest!(import_data_url_jsx { args: "run --quiet --reload run/import_data_url_jsx.ts", output: "run/import_data_url_jsx.ts.out", }); itest!(import_data_url { args: "run --quiet --reload run/import_data_url.ts", output: "run/import_data_url.ts.out", }); itest!(import_dynamic_data_url { args: "run --quiet --reload run/import_dynamic_data_url.ts", output: "run/import_dynamic_data_url.ts.out", }); itest!(import_blob_url_error_stack { args: "run --quiet --reload run/import_blob_url_error_stack.ts", output: "run/import_blob_url_error_stack.ts.out", exit_code: 1, }); itest!(import_blob_url_import_relative { args: "run --quiet --reload run/import_blob_url_import_relative.ts", output: "run/import_blob_url_import_relative.ts.out", exit_code: 1, }); itest!(import_blob_url_imports { args: "run --quiet --reload --allow-net=localhost:4545 run/import_blob_url_imports.ts", output: "run/import_blob_url_imports.ts.out", http_server: true, }); itest!(import_blob_url_jsx { args: "run --quiet --reload run/import_blob_url_jsx.ts", output: "run/import_blob_url_jsx.ts.out", }); itest!(import_blob_url { args: "run --quiet --reload run/import_blob_url.ts", output: "run/import_blob_url.ts.out", }); itest!(import_file_with_colon { args: "run --quiet --reload run/import_file_with_colon.ts", output: "run/import_file_with_colon.ts.out", http_server: true, }); itest!(import_extensionless { args: "run --quiet --reload run/import_extensionless.ts", output: "run/import_extensionless.ts.out", http_server: true, }); itest!(classic_workers_event_loop { args: "run --enable-testing-features-do-not-use run/classic_workers_event_loop.js", output: "run/classic_workers_event_loop.js.out", }); // FIXME(bartlomieju): disabled, because this test is very flaky on CI // itest!(local_sources_not_cached_in_memory { // args: "run --allow-read --allow-write run/no_mem_cache.js", // output: "run/no_mem_cache.js.out", // }); // This test checks that inline source map data is used. It uses a hand crafted // source map that maps to a file that exists, but is not loaded into the module // graph (inline_js_source_map_2.ts) (because there are no direct dependencies). // Source line is not remapped because no inline source contents are included in // the sourcemap and the file is not present in the dependency graph. itest!(inline_js_source_map_2 { args: "run --quiet run/inline_js_source_map_2.js", output: "run/inline_js_source_map_2.js.out", exit_code: 1, }); // This test checks that inline source map data is used. It uses a hand crafted // source map that maps to a file that exists, but is not loaded into the module // graph (inline_js_source_map_2.ts) (because there are no direct dependencies). // Source line remapped using th inline source contents that are included in the // inline source map. itest!(inline_js_source_map_2_with_inline_contents { args: "run --quiet run/inline_js_source_map_2_with_inline_contents.js", output: "run/inline_js_source_map_2_with_inline_contents.js.out", exit_code: 1, }); // This test checks that inline source map data is used. It uses a hand crafted // source map that maps to a file that exists, and is loaded into the module // graph because of a direct import statement (inline_js_source_map.ts). The // source map was generated from an earlier version of this file, where the throw // was not commented out. The source line is remapped using source contents that // from the module graph. itest!(inline_js_source_map_with_contents_from_graph { args: "run --quiet run/inline_js_source_map_with_contents_from_graph.js", output: "run/inline_js_source_map_with_contents_from_graph.js.out", exit_code: 1, http_server: true, }); // This test ensures that a descriptive error is shown when we're unable to load // the import map. Even though this tests only the `run` subcommand, we can be sure // that the error message is similar for other subcommands as they all use // `program_state.maybe_import_map` to access the import map underneath. itest!(error_import_map_unable_to_load { args: "run --import-map=import_maps/does_not_exist.json import_maps/test.ts", output: "run/error_import_map_unable_to_load.out", exit_code: 1, }); // Test that setting `self` in the main thread to some other value doesn't break // the world. itest!(replace_self { args: "run run/replace_self.js", output: "run/replace_self.js.out", }); itest!(worker_event_handler_test { args: "run --quiet --reload --allow-read run/worker_event_handler_test.js", output: "run/worker_event_handler_test.js.out", }); itest!(worker_close_race { args: "run --quiet --reload --allow-read run/worker_close_race.js", output: "run/worker_close_race.js.out", }); itest!(worker_drop_handle_race { args: "run --quiet --reload --allow-read run/worker_drop_handle_race.js", output: "run/worker_drop_handle_race.js.out", exit_code: 1, }); itest!(worker_drop_handle_race_terminate { args: "run run/worker_drop_handle_race_terminate.js", output: "run/worker_drop_handle_race_terminate.js.out", }); itest!(worker_close_nested { args: "run --quiet --reload --allow-read run/worker_close_nested.js", output: "run/worker_close_nested.js.out", }); itest!(worker_message_before_close { args: "run --quiet --reload --allow-read run/worker_message_before_close.js", output: "run/worker_message_before_close.js.out", }); itest!(worker_close_in_wasm_reactions { args: "run --quiet --reload --allow-read run/worker_close_in_wasm_reactions.js", output: "run/worker_close_in_wasm_reactions.js.out", }); itest!(shebang_tsc { args: "run --quiet --check run/shebang.ts", output: "run/shebang.ts.out", }); itest!(shebang_swc { args: "run --quiet run/shebang.ts", output: "run/shebang.ts.out", }); itest!(shebang_with_json_imports_tsc { args: "run --quiet import_attributes/json_with_shebang.ts", output: "import_attributes/json_with_shebang.ts.out", exit_code: 1, }); itest!(shebang_with_json_imports_swc { args: "run --quiet --no-check import_attributes/json_with_shebang.ts", output: "import_attributes/json_with_shebang.ts.out", exit_code: 1, }); #[test] fn no_validate_asm() { let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("run/no_validate_asm.js") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); assert!(output.stderr.is_empty()); assert!(output.stdout.is_empty()); } #[test] fn exec_path() { let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--allow-read") .arg("run/exec_path.ts") .stdout(Stdio::piped()) .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); let stdout_str = std::str::from_utf8(&output.stdout).unwrap().trim(); let actual = PathRef::new(std::path::Path::new(stdout_str)).canonicalize(); let expected = util::deno_exe_path().canonicalize(); assert_eq!(expected, actual); } #[test] fn run_from_stdin_defaults_to_ts() { let source_code = r#" interface Lollipop { _: number; } console.log("executing typescript"); "#; let mut p = util::deno_cmd() .arg("run") .arg("--check") .arg("-") .stdin(std::process::Stdio::piped()) .stdout_piped() .spawn() .unwrap(); let stdin = p.stdin.as_mut().unwrap(); stdin.write_all(source_code.as_bytes()).unwrap(); let result = p.wait_with_output().unwrap(); assert!(result.status.success()); let stdout_str = std::str::from_utf8(&result.stdout).unwrap().trim(); assert_eq!(stdout_str, "executing typescript"); } #[test] fn run_from_stdin_ext() { let source_code = r#" let i = 123; i = "hello" console.log("executing javascript"); "#; let mut p = util::deno_cmd() .args("run --ext js --check -") .stdin(std::process::Stdio::piped()) .stdout_piped() .spawn() .unwrap(); let stdin = p.stdin.as_mut().unwrap(); stdin.write_all(source_code.as_bytes()).unwrap(); let result = p.wait_with_output().unwrap(); assert!(result.status.success()); let stdout_str = std::str::from_utf8(&result.stdout).unwrap().trim(); assert_eq!(stdout_str, "executing javascript"); } #[cfg(windows)] // Clippy suggests to remove the `NoStd` prefix from all variants. I disagree. #[allow(clippy::enum_variant_names)] enum WinProcConstraints { NoStdIn, NoStdOut, NoStdErr, } #[cfg(windows)] fn run_deno_script_constrained( script_path: test_util::PathRef, constraints: WinProcConstraints, ) -> Result<(), i64> { let file_path = "assets/DenoWinRunner.ps1"; let constraints = match constraints { WinProcConstraints::NoStdIn => "1", WinProcConstraints::NoStdOut => "2", WinProcConstraints::NoStdErr => "4", }; let deno_exe_path = util::deno_exe_path().to_string(); let deno_script_path = script_path.to_string(); let args = vec![&deno_exe_path[..], &deno_script_path[..], constraints]; util::run_powershell_script_file(file_path, args) } #[cfg(windows)] #[test] fn should_not_panic_on_no_stdin() { let output = run_deno_script_constrained( util::testdata_path().join("echo.ts"), WinProcConstraints::NoStdIn, ); output.unwrap(); } #[cfg(windows)] #[test] fn should_not_panic_on_no_stdout() { let output = run_deno_script_constrained( util::testdata_path().join("echo.ts"), WinProcConstraints::NoStdOut, ); output.unwrap(); } #[cfg(windows)] #[test] fn should_not_panic_on_no_stderr() { let output = run_deno_script_constrained( util::testdata_path().join("echo.ts"), WinProcConstraints::NoStdErr, ); output.unwrap(); } #[cfg(not(windows))] #[test] fn should_not_panic_on_undefined_home_environment_variable() { let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("echo.ts") .env_remove("HOME") .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); } #[test] fn should_not_panic_on_undefined_deno_dir_environment_variable() { let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("echo.ts") .env_remove("DENO_DIR") .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); } #[cfg(not(windows))] #[test] fn should_not_panic_on_undefined_deno_dir_and_home_environment_variables() { let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("echo.ts") .env_remove("DENO_DIR") .env_remove("HOME") .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); } #[test] fn rust_log() { // Without RUST_LOG the stderr is empty. let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("run/001_hello.js") .stderr_piped() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); assert!(output.stderr.is_empty()); // With RUST_LOG the stderr is not empty. let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("run/001_hello.js") .env("RUST_LOG", "debug") .stderr_piped() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); assert!(!output.stderr.is_empty()); } #[test] fn dont_cache_on_check_fail() { let context = TestContext::default(); let output = context .new_command() .args("run --check=all --reload run/error_003_typescript.ts") .split_output() .run(); assert!(!output.stderr().is_empty()); output.skip_stdout_check(); output.assert_exit_code(1); let output = context .new_command() .args("run --check=all run/error_003_typescript.ts") .split_output() .run(); assert!(!output.stderr().is_empty()); output.skip_stdout_check(); output.assert_exit_code(1); } mod permissions { use test_util as util; use test_util::itest; use util::TestContext; // TODO(bartlomieju): remove --unstable once Deno.Command is stabilized #[test] fn with_allow() { for permission in &util::PERMISSION_VARIANTS { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg(format!("--allow-{permission}")) .arg("run/permission_test.ts") .arg(format!("{permission}Required")) .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } } // TODO(bartlomieju): remove --unstable once Deno.Command is stabilized #[test] fn without_allow() { for permission in &util::PERMISSION_VARIANTS { let (_, err) = util::run_and_collect_output( false, &format!("run --unstable run/permission_test.ts {permission}Required"), None, None, false, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } } #[test] fn rw_inside_project_dir() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; for permission in &PERMISSION_VARIANTS { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(format!( "--allow-{0}={1}", permission, util::testdata_path() )) .arg("run/complex_permissions_test.ts") .arg(permission) .arg("run/complex_permissions_test.ts") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } } #[test] fn rw_outside_test_dir() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; for permission in &PERMISSION_VARIANTS { let (_, err) = util::run_and_collect_output( false, &format!( "run --allow-{0}={1} run/complex_permissions_test.ts {0} {2}", permission, util::testdata_path(), util::root_path().join("Cargo.toml"), ), None, None, false, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } } #[test] fn rw_inside_test_dir() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; for permission in &PERMISSION_VARIANTS { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(format!( "--allow-{0}={1}", permission, util::testdata_path(), )) .arg("run/complex_permissions_test.ts") .arg(permission) .arg("run/complex_permissions_test.ts") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } } #[test] fn rw_outside_test_and_js_dir() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; let test_dir = util::testdata_path(); let js_dir = util::root_path().join("js"); for permission in &PERMISSION_VARIANTS { let (_, err) = util::run_and_collect_output( false, &format!( "run --allow-{0}={1},{2} run/complex_permissions_test.ts {0} {3}", permission, test_dir, js_dir, util::root_path().join("Cargo.toml"), ), None, None, false, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } } #[test] fn rw_inside_test_and_js_dir() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; let test_dir = util::testdata_path(); let js_dir = util::root_path().join("js"); for permission in &PERMISSION_VARIANTS { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(format!("--allow-{permission}={test_dir},{js_dir}")) .arg("run/complex_permissions_test.ts") .arg(permission) .arg("run/complex_permissions_test.ts") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } } #[test] fn rw_relative() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; for permission in &PERMISSION_VARIANTS { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(format!("--allow-{permission}=.")) .arg("run/complex_permissions_test.ts") .arg(permission) .arg("run/complex_permissions_test.ts") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } } #[test] fn rw_no_prefix() { const PERMISSION_VARIANTS: [&str; 2] = ["read", "write"]; for permission in &PERMISSION_VARIANTS { let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(format!("--allow-{permission}=tls/../")) .arg("run/complex_permissions_test.ts") .arg(permission) .arg("run/complex_permissions_test.ts") .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } } #[test] fn net_fetch_allow_localhost_4545() { // ensure the http server is running for those tests so they run // deterministically whether the http server is running or not let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( true, "run --allow-net=localhost:4545 run/complex_permissions_test.ts netFetch http://localhost:4545/", None, None, true, ); assert!(!err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_fetch_allow_deno_land() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( false, "run --allow-net=deno.land run/complex_permissions_test.ts netFetch http://localhost:4545/", None, None, true, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_fetch_localhost_4545_fail() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( false, "run --allow-net=localhost:4545 run/complex_permissions_test.ts netFetch http://localhost:4546/", None, None, true, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_fetch_localhost() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( true, "run --allow-net=localhost run/complex_permissions_test.ts netFetch http://localhost:4545/ http://localhost:4546/ http://localhost:4547/", None, None, true, ); assert!(!err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_connect_allow_localhost_ip_4555() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( true, "run --allow-net=127.0.0.1:4545 run/complex_permissions_test.ts netConnect 127.0.0.1:4545", None, None, true, ); assert!(!err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_connect_allow_deno_land() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( false, "run --allow-net=deno.land run/complex_permissions_test.ts netConnect 127.0.0.1:4546", None, None, true, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_connect_allow_localhost_ip_4545_fail() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( false, "run --allow-net=127.0.0.1:4545 run/complex_permissions_test.ts netConnect 127.0.0.1:4546", None, None, true, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_connect_allow_localhost_ip() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( true, "run --allow-net=127.0.0.1 run/complex_permissions_test.ts netConnect 127.0.0.1:4545 127.0.0.1:4546 127.0.0.1:4547", None, None, true, ); assert!(!err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_listen_allow_localhost_4555() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( true, "run --allow-net=localhost:4588 run/complex_permissions_test.ts netListen localhost:4588", None, None, false, ); assert!(!err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_listen_allow_deno_land() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( false, "run --allow-net=deno.land run/complex_permissions_test.ts netListen localhost:4545", None, None, false, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_listen_allow_localhost_4555_fail() { let _http_guard = util::http_server(); let (_, err) = util::run_and_collect_output( false, "run --allow-net=localhost:4555 run/complex_permissions_test.ts netListen localhost:4556", None, None, false, ); assert!(err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn net_listen_allow_localhost() { let _http_guard = util::http_server(); // Port 4600 is chosen to not collide with those used by // target/debug/test_server let (_, err) = util::run_and_collect_output( true, "run --allow-net=localhost run/complex_permissions_test.ts netListen localhost:4600", None, None, false, ); assert!(!err.contains(util::PERMISSION_DENIED_PATTERN)); } #[test] fn _061_permissions_request() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/061_permissions_request.ts"]) .with_pty(|mut console| { console.expect(concat!( "┌ ⚠️ Deno requests read access to \"foo\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("y"); console.expect(concat!( "┌ ⚠️ Deno requests read access to \"bar\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("n"); console.expect("granted"); console.expect("prompt"); console.expect("denied"); }); } #[test] fn _061_permissions_request_sync() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/061_permissions_request_sync.ts"]) .with_pty(|mut console| { console.expect(concat!( "┌ ⚠️ Deno requests read access to \"foo\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("y"); console.expect(concat!( "┌ ⚠️ Deno requests read access to \"bar\".\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("n"); console.expect("granted"); console.expect("prompt"); console.expect("denied"); }); } #[test] fn _062_permissions_request_global() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/062_permissions_request_global.ts"]) .with_pty(|mut console| { console.expect(concat!( "┌ ⚠️ Deno requests read access.\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("y\n"); console .expect("PermissionStatus { state: \"granted\", onchange: null }"); console .expect("PermissionStatus { state: \"granted\", onchange: null }"); console .expect("PermissionStatus { state: \"granted\", onchange: null }"); }); } #[test] fn _062_permissions_request_global_sync() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/062_permissions_request_global_sync.ts"]) .with_pty(|mut console| { console.expect(concat!( "┌ ⚠️ Deno requests read access.\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-read to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions)", )); console.human_delay(); console.write_line_raw("y"); console .expect("PermissionStatus { state: \"granted\", onchange: null }"); console .expect("PermissionStatus { state: \"granted\", onchange: null }"); console .expect("PermissionStatus { state: \"granted\", onchange: null }"); }); } itest!(_063_permissions_revoke { args: "run --allow-read=foo,bar run/063_permissions_revoke.ts", output: "run/063_permissions_revoke.ts.out", }); itest!(_063_permissions_revoke_sync { args: "run --allow-read=foo,bar run/063_permissions_revoke_sync.ts", output: "run/063_permissions_revoke.ts.out", }); itest!(_064_permissions_revoke_global { args: "run --allow-read=foo,bar run/064_permissions_revoke_global.ts", output: "run/064_permissions_revoke_global.ts.out", }); itest!(_064_permissions_revoke_global_sync { args: "run --allow-read=foo,bar run/064_permissions_revoke_global_sync.ts", output: "run/064_permissions_revoke_global.ts.out", }); itest!(_065_permissions_revoke_net { args: "run --allow-net run/065_permissions_revoke_net.ts", output: "run/065_permissions_revoke_net.ts.out", }); #[test] fn _066_prompt() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "--unstable", "run/066_prompt.ts"]) .with_pty(|mut console| { console.expect("What is your name? Jane Doe"); console.write_line_raw(""); console.expect("Your name is Jane Doe."); console.expect("Prompt "); console.write_line_raw("foo"); console.expect("Your input is foo."); console.expect("Question 0 [y/N] "); console.write_line_raw("Y"); console.expect("Your answer is true"); console.expect("Question 1 [y/N] "); console.write_line_raw("N"); console.expect("Your answer is false"); console.expect("Question 2 [y/N] "); console.write_line_raw("yes"); console.expect("Your answer is false"); console.expect("Confirm [y/N] "); console.write_line(""); console.expect("Your answer is false"); console.expect("What is Windows EOL? "); console.write_line("windows"); console.expect("Your answer is \"windows\""); console.expect("Hi [Enter] "); console.write_line(""); console.expect("Alert [Enter] "); console.write_line(""); console.expect("The end of test"); }); } itest!(dynamic_import_static_analysis_no_permissions { args: "run --quiet --reload --no-prompt dynamic_import/static_analysis_no_permissions.ts", output: "dynamic_import/static_analysis_no_permissions.ts.out", }); itest!(dynamic_import_permissions_remote_remote { args: "run --quiet --reload --allow-net=localhost:4545 dynamic_import/permissions_remote_remote.ts", output: "dynamic_import/permissions_remote_remote.ts.out", http_server: true, exit_code: 1, }); itest!(dynamic_import_permissions_data_remote { args: "run --quiet --reload --allow-net=localhost:4545 dynamic_import/permissions_data_remote.ts", output: "dynamic_import/permissions_data_remote.ts.out", http_server: true, exit_code: 1, }); itest!(dynamic_import_permissions_blob_remote { args: "run --quiet --reload --allow-net=localhost:4545 dynamic_import/permissions_blob_remote.ts", output: "dynamic_import/permissions_blob_remote.ts.out", http_server: true, exit_code: 1, }); itest!(dynamic_import_permissions_data_local { args: "run --quiet --reload --allow-net=localhost:4545 dynamic_import/permissions_data_local.ts", output: "dynamic_import/permissions_data_local.ts.out", http_server: true, exit_code: 1, }); itest!(dynamic_import_permissions_blob_local { args: "run --quiet --reload --allow-net=localhost:4545 dynamic_import/permissions_blob_local.ts", output: "dynamic_import/permissions_blob_local.ts.out", http_server: true, exit_code: 1, }); } itest!(tls_starttls { args: "run --quiet --reload --allow-net --allow-read --cert tls/RootCA.pem --config ../config/deno.json run/tls_starttls.js", output: "run/tls.out", }); itest!(tls_connecttls { args: "run --quiet --reload --allow-net --allow-read --cert tls/RootCA.pem --config ../config/deno.json run/tls_connecttls.js", output: "run/tls.out", }); itest!(byte_order_mark { args: "run --no-check run/byte_order_mark.ts", output: "run/byte_order_mark.out", }); #[test] #[cfg(windows)] fn process_stdin_read_unblock() { TestContext::default() .new_command() .args_vec(["run", "run/process_stdin_unblock.mjs"]) .with_pty(|mut console| { console.write_raw("b"); console.human_delay(); console.write_line_raw("s"); console.expect_all(&["1", "1"]); }); } #[test] fn issue9750() { TestContext::default() .new_command() .args_vec(["run", "run/issue9750.js"]) .with_pty(|mut console| { console.expect("Enter 'yy':"); console.write_line_raw("yy"); console.expect(concat!( "┌ ⚠️ Deno requests env access.\r\n", "├ Requested by `Deno.permissions.request()` API.\r\n", "├ Run again with --allow-env to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all env permissions)", )); console.human_delay(); console.write_line_raw("n"); console.expect("Denied env access."); console.expect(concat!( "┌ ⚠️ Deno requests env access to \"SECRET\".\r\n", "├ Run again with --allow-env to bypass this prompt.\r\n", "└ Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all env permissions)", )); console.human_delay(); console.write_line_raw("n"); console.expect_all(&[ "Denied env access to \"SECRET\".", "PermissionDenied: Requires env access to \"SECRET\", run again with the --allow-env flag", ]); }); } // Regression test for https://github.com/denoland/deno/issues/11451. itest!(dom_exception_formatting { args: "run run/dom_exception_formatting.ts", output: "run/dom_exception_formatting.ts.out", exit_code: 1, }); itest!(long_data_url_formatting { args: "run run/long_data_url_formatting.ts", output: "run/long_data_url_formatting.ts.out", exit_code: 1, }); itest!(eval_context_throw_dom_exception { args: "run run/eval_context_throw_dom_exception.js", output: "run/eval_context_throw_dom_exception.js.out", }); #[test] #[cfg(unix)] fn navigator_language_unix() { let (res, _) = util::run_and_collect_output( true, "run navigator_language.ts", None, Some(vec![("LC_ALL".to_owned(), "pl_PL".to_owned())]), false, ); assert_eq!(res, "pl-PL\n") } #[test] fn navigator_language() { let (res, _) = util::run_and_collect_output( true, "run navigator_language.ts", None, None, false, ); assert!(!res.is_empty()) } #[test] #[cfg(unix)] fn navigator_languages_unix() { let (res, _) = util::run_and_collect_output( true, "run navigator_languages.ts", None, Some(vec![ ("LC_ALL".to_owned(), "pl_PL".to_owned()), ("NO_COLOR".to_owned(), "1".to_owned()), ]), false, ); assert_eq!(res, "[ \"pl-PL\" ]\n") } #[test] fn navigator_languages() { let (res, _) = util::run_and_collect_output( true, "run navigator_languages.ts", None, None, false, ); assert!(!res.is_empty()) } /// Regression test for https://github.com/denoland/deno/issues/12740. #[test] fn issue12740() { let mod_dir = TempDir::new(); let mod1_path = mod_dir.path().join("mod1.ts"); let mod2_path = mod_dir.path().join("mod2.ts"); mod1_path.write(""); let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(&mod1_path) .stderr(Stdio::null()) .stdout(Stdio::null()) .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); mod1_path.write("export { foo } from \"./mod2.ts\";"); mod2_path.write("("); let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg(&mod1_path) .stderr(Stdio::null()) .stdout(Stdio::null()) .spawn() .unwrap() .wait() .unwrap(); assert!(!status.success()); } /// Regression test for https://github.com/denoland/deno/issues/12807. #[test] fn issue12807() { let mod_dir = TempDir::new(); let mod1_path = mod_dir.path().join("mod1.ts"); let mod2_path = mod_dir.path().join("mod2.ts"); // With a fresh `DENO_DIR`, run a module with a dependency and a type error. mod1_path.write("import './mod2.ts'; Deno.exit('0');"); mod2_path.write("console.log('Hello, world!');"); let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--check") .arg(&mod1_path) .stderr(Stdio::null()) .stdout(Stdio::null()) .spawn() .unwrap() .wait() .unwrap(); assert!(!status.success()); // Fix the type error and run again. std::fs::write(&mod1_path, "import './mod2.ts'; Deno.exit(0);").unwrap(); let status = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--check") .arg(&mod1_path) .stderr(Stdio::null()) .stdout(Stdio::null()) .spawn() .unwrap() .wait() .unwrap(); assert!(status.success()); } itest!(issue_13562 { args: "run run/issue13562.ts", output: "run/issue13562.ts.out", }); itest!(import_attributes_static_import { args: "run --allow-read import_attributes/static_import.ts", output: "import_attributes/static_import.out", }); itest!(import_attributes_static_export { args: "run --allow-read import_attributes/static_export.ts", output: "import_attributes/static_export.out", }); itest!(import_attributes_static_error { args: "run --allow-read import_attributes/static_error.ts", output: "import_attributes/static_error.out", exit_code: 1, }); itest!(import_attributes_dynamic_import { args: "run --allow-read --check import_attributes/dynamic_import.ts", output: "import_attributes/dynamic_import.out", }); itest!(import_attributes_dynamic_error { args: "run --allow-read import_attributes/dynamic_error.ts", output: "import_attributes/dynamic_error.out", exit_code: 1, }); itest!(import_attributes_type_check { args: "run --allow-read --check import_attributes/type_check.ts", output: "import_attributes/type_check.out", exit_code: 1, }); itest!(delete_window { args: "run run/delete_window.js", output_str: Some("true\n"), }); itest!(colors_without_global_this { args: "run run/colors_without_globalThis.js", output_str: Some("true\n"), }); itest!(config_auto_discovered_for_local_script { args: "run --quiet run/with_config/frontend_work.ts", output_str: Some("ok\n"), }); itest!(config_auto_discovered_for_local_script_log { args: "run -L debug run/with_config/frontend_work.ts", output: "run/with_config/auto_discovery_log.out", }); itest!(no_config_auto_discovery_for_local_script { args: "run --quiet --no-config --check run/with_config/frontend_work.ts", output: "run/with_config/no_auto_discovery.out", exit_code: 1, }); itest!(config_not_auto_discovered_for_remote_script { args: "run --quiet http://127.0.0.1:4545/run/with_config/server_side_work.ts", output_str: Some("ok\n"), http_server: true, }); // In this case we shouldn't discover `package.json` file, because it's in a // directory that is above the directory containing `deno.json` file. itest!( package_json_auto_discovered_for_local_script_arg_with_stop { args: "run -L debug with_stop/some/nested/dir/main.ts", output: "run/with_package_json/with_stop/main.out", cwd: Some("run/with_package_json/"), copy_temp_dir: Some("run/with_package_json/"), envs: env_vars_for_npm_tests(), http_server: true, exit_code: 1, } ); itest!(package_json_auto_discovered_for_npm_binary { args: "run -L debug -A npm:@denotest/bin/cli-esm this is a test", output: "run/with_package_json/npm_binary/main.out", cwd: Some("run/with_package_json/npm_binary/"), copy_temp_dir: Some("run/with_package_json/"), envs: env_vars_for_npm_tests(), http_server: true, }); #[test] fn package_json_with_deno_json() { let context = TestContextBuilder::for_npm() .use_copy_temp_dir("package_json/deno_json/") .cwd("package_json/deno_json/") .build(); let output = context.new_command().args("run --quiet -A main.ts").run(); output.assert_matches_file("package_json/deno_json/main.out"); assert!(context .temp_dir() .path() .join("package_json/deno_json/deno.lock") .exists()); // run again and ensure the top level install doesn't happen twice let output = context .new_command() .args("run --log-level=debug -A main.ts") .run(); let output = output.combined_output(); assert_contains!(output, "Skipping top level install."); } #[test] fn package_json_error_dep_value_test() { let context = TestContextBuilder::for_npm() .use_copy_temp_dir("package_json/invalid_value") .cwd("package_json/invalid_value") .build(); // should run fine when not referencing a failing dep entry context .new_command() .args("run ok.ts") .run() .assert_matches_file("package_json/invalid_value/ok.ts.out"); // should fail when referencing a failing dep entry context .new_command() .args("run error.ts") .run() .assert_exit_code(1) .assert_matches_file("package_json/invalid_value/error.ts.out"); // should output a warning about the failing dep entry context .new_command() .args("task test") .run() .assert_matches_file("package_json/invalid_value/task.out"); } #[test] fn package_json_no_node_modules_dir_created() { // it should not create a node_modules directory let context = TestContextBuilder::new() .add_npm_env_vars() .use_temp_cwd() .build(); let temp_dir = context.temp_dir(); temp_dir.write("deno.json", "{}"); temp_dir.write("package.json", "{}"); temp_dir.write("main.ts", ""); context.new_command().args("run main.ts").run(); assert!(!temp_dir.path().join("node_modules").exists()); } #[test] fn node_modules_dir_no_npm_specifiers_no_dir_created() { // it should not create a node_modules directory let context = TestContextBuilder::new() .add_npm_env_vars() .use_temp_cwd() .build(); let temp_dir = context.temp_dir(); temp_dir.write("deno.json", "{}"); temp_dir.write("main.ts", ""); context .new_command() .args("run --node-modules-dir main.ts") .run(); assert!(!temp_dir.path().join("node_modules").exists()); } itest!(wasm_streaming_panic_test { args: "run run/wasm_streaming_panic_test.js", output: "run/wasm_streaming_panic_test.js.out", exit_code: 1, }); // Regression test for https://github.com/denoland/deno/issues/13897. itest!(fetch_async_error_stack { args: "run --quiet -A run/fetch_async_error_stack.ts", output: "run/fetch_async_error_stack.ts.out", exit_code: 1, }); itest!(event_listener_error { args: "run --quiet run/event_listener_error.ts", output: "run/event_listener_error.ts.out", exit_code: 1, }); itest!(event_listener_error_handled { args: "run --quiet run/event_listener_error_handled.ts", output: "run/event_listener_error_handled.ts.out", }); // https://github.com/denoland/deno/pull/14159#issuecomment-1092285446 itest!(event_listener_error_immediate_exit { args: "run --quiet run/event_listener_error_immediate_exit.ts", output: "run/event_listener_error_immediate_exit.ts.out", exit_code: 1, }); // https://github.com/denoland/deno/pull/14159#issuecomment-1092285446 itest!(event_listener_error_immediate_exit_worker { args: "run --quiet -A run/event_listener_error_immediate_exit_worker.ts", output: "run/event_listener_error_immediate_exit_worker.ts.out", exit_code: 1, }); itest!(set_timeout_error { args: "run --quiet run/set_timeout_error.ts", output: "run/set_timeout_error.ts.out", exit_code: 1, }); itest!(set_timeout_error_handled { args: "run --quiet run/set_timeout_error_handled.ts", output: "run/set_timeout_error_handled.ts.out", }); itest!(aggregate_error { args: "run --quiet run/aggregate_error.ts", output: "run/aggregate_error.out", exit_code: 1, }); itest!(complex_error { args: "run --quiet run/complex_error.ts", output: "run/complex_error.ts.out", exit_code: 1, }); // Regression test for https://github.com/denoland/deno/issues/16340. itest!(error_with_errors_prop { args: "run --quiet run/error_with_errors_prop.js", output: "run/error_with_errors_prop.js.out", exit_code: 1, }); // Regression test for https://github.com/denoland/deno/issues/12143. itest!(js_root_with_ts_check { args: "run --quiet --check run/js_root_with_ts_check.js", output: "run/js_root_with_ts_check.js.out", exit_code: 1, }); #[test] fn check_local_then_remote() { let _http_guard = util::http_server(); let deno_dir = util::new_deno_dir(); let output = util::deno_cmd_with_deno_dir(&deno_dir) .current_dir(util::testdata_path()) .arg("run") .arg("--check") .arg("run/remote_type_error/main.ts") .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); let output = util::deno_cmd_with_deno_dir(&deno_dir) .current_dir(util::testdata_path()) .arg("run") .arg("--check=all") .arg("run/remote_type_error/main.ts") .env("NO_COLOR", "1") .stderr_piped() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stderr = std::str::from_utf8(&output.stderr).unwrap(); assert_contains!(stderr, "Type 'string' is not assignable to type 'number'."); } // Regression test for https://github.com/denoland/deno/issues/15163 itest!(check_js_points_to_ts { args: "run --quiet --check --config run/checkjs.tsconfig.json run/check_js_points_to_ts/test.js", output: "run/check_js_points_to_ts/test.js.out", exit_code: 1, }); itest!(no_prompt_flag { args: "run --quiet --no-prompt run/no_prompt.ts", output_str: Some(""), }); #[test] fn deno_no_prompt_environment_variable() { let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("run/no_prompt.ts") .env("DENO_NO_PROMPT", "1") .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(output.status.success()); } itest!(report_error { args: "run --quiet run/report_error.ts", output: "run/report_error.ts.out", exit_code: 1, }); itest!(report_error_handled { args: "run --quiet run/report_error_handled.ts", output: "run/report_error_handled.ts.out", }); // Regression test for https://github.com/denoland/deno/issues/15513. itest!(report_error_end_of_program { args: "run --quiet run/report_error_end_of_program.ts", output: "run/report_error_end_of_program.ts.out", exit_code: 1, }); itest!(queue_microtask_error { args: "run --quiet run/queue_microtask_error.ts", output: "run/queue_microtask_error.ts.out", exit_code: 1, }); itest!(queue_microtask_error_handled { args: "run --quiet run/queue_microtask_error_handled.ts", output: "run/queue_microtask_error_handled.ts.out", }); itest!(spawn_stdout_inherit { args: "run --quiet -A run/spawn_stdout_inherit.ts", output: "run/spawn_stdout_inherit.ts.out", }); itest!(error_name_non_string { args: "run --quiet run/error_name_non_string.js", output: "run/error_name_non_string.js.out", exit_code: 1, }); itest!(custom_inspect_url { args: "run run/custom_inspect_url.js", output: "run/custom_inspect_url.js.out", }); itest!(config_json_import { args: "run --quiet -c jsx/deno-jsx.json run/config_json_import.ts", output: "run/config_json_import.ts.out", http_server: true, }); #[test] fn running_declaration_files() { let context = TestContextBuilder::new().use_temp_cwd().build(); let temp_dir = context.temp_dir(); let files = vec!["file.d.ts", "file.d.cts", "file.d.mts"]; for file in files { temp_dir.write(file, ""); context .new_command() .args_vec(["run", file]) .run() .skip_output_check() .assert_exit_code(0); } } itest!(test_and_bench_are_noops_in_run { args: "run run/test_and_bench_in_run.js", output_str: Some(""), }); #[cfg(not(target_os = "windows"))] itest!(spawn_kill_permissions { args: "run --quiet --allow-run=cat spawn_kill_permissions.ts", output_str: Some(""), }); itest!(followup_dyn_import_resolved { args: "run --allow-read run/followup_dyn_import_resolves/main.ts", output: "run/followup_dyn_import_resolves/main.ts.out", }); itest!(allow_run_allowlist_resolution { args: "run --quiet -A allow_run_allowlist_resolution.ts", output: "allow_run_allowlist_resolution.ts.out", }); itest!(unhandled_rejection { args: "run --check run/unhandled_rejection.ts", output: "run/unhandled_rejection.ts.out", }); itest!(unhandled_rejection_sync_error { args: "run --check run/unhandled_rejection_sync_error.ts", output: "run/unhandled_rejection_sync_error.ts.out", }); // Regression test for https://github.com/denoland/deno/issues/15661 itest!(unhandled_rejection_dynamic_import { args: "run --allow-read run/unhandled_rejection_dynamic_import/main.ts", output: "run/unhandled_rejection_dynamic_import/main.ts.out", exit_code: 1, }); // Regression test for https://github.com/denoland/deno/issues/16909 itest!(unhandled_rejection_dynamic_import2 { args: "run --allow-read run/unhandled_rejection_dynamic_import2/main.ts", output: "run/unhandled_rejection_dynamic_import2/main.ts.out", }); itest!(rejection_handled { args: "run --check run/rejection_handled.ts", output: "run/rejection_handled.out", }); itest!(nested_error { args: "run run/nested_error/main.ts", output: "run/nested_error/main.ts.out", exit_code: 1, }); itest!(node_env_var_allowlist { args: "run --no-prompt run/node_env_var_allowlist.ts", output: "run/node_env_var_allowlist.ts.out", exit_code: 1, }); #[test] fn cache_test() { let _g = util::http_server(); let deno_dir = TempDir::new(); let module_url = url::Url::parse("http://localhost:4545/run/006_url_imports.ts").unwrap(); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("cache") .arg("--check=all") .arg("-L") .arg("debug") .arg(module_url.to_string()) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let prg = util::deno_exe_path(); let output = Command::new(prg) .env("DENO_DIR", deno_dir.path()) .env("HTTP_PROXY", "http://nil") .env("NO_COLOR", "1") .current_dir(util::testdata_path()) .arg("run") .arg(module_url.to_string()) .output() .expect("Failed to spawn script"); let str_output = std::str::from_utf8(&output.stdout).unwrap(); let module_output_path = util::testdata_path().join("run/006_url_imports.ts.out"); let mut module_output = String::new(); let mut module_output_file = std::fs::File::open(module_output_path).unwrap(); module_output_file .read_to_string(&mut module_output) .unwrap(); assert_eq!(module_output, str_output); } #[test] fn cache_invalidation_test() { let deno_dir = TempDir::new(); let fixture_path = deno_dir.path().join("fixture.ts"); fixture_path.write("console.log(\"42\");"); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg(&fixture_path) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "42\n"); fixture_path.write("console.log(\"43\");"); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg(fixture_path) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "43\n"); } #[test] fn cache_invalidation_test_no_check() { let deno_dir = TempDir::new(); let fixture_path = deno_dir.path().join("fixture.ts"); fixture_path.write("console.log(\"42\");"); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg("--no-check") .arg(&fixture_path) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "42\n"); fixture_path.write("console.log(\"43\");"); let output = Command::new(util::deno_exe_path()) .env("DENO_DIR", deno_dir.path()) .current_dir(util::testdata_path()) .arg("run") .arg("--no-check") .arg(fixture_path) .output() .expect("Failed to spawn script"); assert!(output.status.success()); let actual = std::str::from_utf8(&output.stdout).unwrap(); assert_eq!(actual, "43\n"); } #[test] fn ts_dependency_recompilation() { let t = TempDir::new(); let ats = t.path().join("a.ts"); std::fs::write( &ats, " import { foo } from \"./b.ts\"; function print(str: string): void { console.log(str); } print(foo);", ) .unwrap(); let bts = t.path().join("b.ts"); std::fs::write( &bts, " export const foo = \"foo\";", ) .unwrap(); let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--check") .arg(&ats) .output() .expect("failed to spawn script"); let stdout_output = std::str::from_utf8(&output.stdout).unwrap().trim(); let stderr_output = std::str::from_utf8(&output.stderr).unwrap().trim(); assert!(stdout_output.ends_with("foo")); assert!(stderr_output.starts_with("Check")); // Overwrite contents of b.ts and run again std::fs::write( &bts, " export const foo = 5;", ) .expect("error writing file"); let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--check") .arg(&ats) .output() .expect("failed to spawn script"); let stdout_output = std::str::from_utf8(&output.stdout).unwrap().trim(); let stderr_output = std::str::from_utf8(&output.stderr).unwrap().trim(); // error: TS2345 [ERROR]: Argument of type '5' is not assignable to parameter of type 'string'. assert!(stderr_output.contains("TS2345")); assert!(!output.status.success()); assert!(stdout_output.is_empty()); } #[test] fn basic_auth_tokens() { let _g = util::http_server(); let output = util::deno_cmd() .current_dir(util::root_path()) .arg("run") .arg("http://127.0.0.1:4554/run/001_hello.js") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stdout_str = std::str::from_utf8(&output.stdout).unwrap().trim(); assert!(stdout_str.is_empty()); let stderr_str = std::str::from_utf8(&output.stderr).unwrap().trim(); eprintln!("{stderr_str}"); assert!(stderr_str .contains("Module not found \"http://127.0.0.1:4554/run/001_hello.js\".")); let output = util::deno_cmd() .current_dir(util::root_path()) .arg("run") .arg("http://127.0.0.1:4554/run/001_hello.js") .env("DENO_AUTH_TOKENS", "testuser123:testpassabc@127.0.0.1:4554") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); let stderr_str = std::str::from_utf8(&output.stderr).unwrap().trim(); eprintln!("{stderr_str}"); assert!(output.status.success()); let stdout_str = std::str::from_utf8(&output.stdout).unwrap().trim(); assert_eq!(util::strip_ansi_codes(stdout_str), "Hello World"); } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_resolve_dns() { use std::net::SocketAddr; use std::str::FromStr; use std::sync::Arc; use std::time::Duration; use tokio::net::TcpListener; use tokio::net::UdpSocket; use tokio::sync::oneshot; use trust_dns_server::authority::Catalog; use trust_dns_server::authority::ZoneType; use trust_dns_server::proto::rr::Name; use trust_dns_server::store::in_memory::InMemoryAuthority; use trust_dns_server::ServerFuture; const DNS_PORT: u16 = 4553; // Setup DNS server for testing async fn run_dns_server(tx: oneshot::Sender<()>) { let zone_file = std::fs::read_to_string( util::testdata_path().join("run/resolve_dns.zone.in"), ) .unwrap(); let lexer = Lexer::new(&zone_file); let records = Parser::new().parse(lexer, Some(Name::from_str("example.com").unwrap())); if records.is_err() { panic!("failed to parse: {:?}", records.err()) } let (origin, records) = records.unwrap(); let authority = Box::new(Arc::new( InMemoryAuthority::new(origin, records, ZoneType::Primary, false) .unwrap(), )); let mut catalog: Catalog = Catalog::new(); catalog.upsert(Name::root().into(), authority); let mut server_fut = ServerFuture::new(catalog); let socket_addr = SocketAddr::from(([127, 0, 0, 1], DNS_PORT)); let tcp_listener = TcpListener::bind(socket_addr).await.unwrap(); let udp_socket = UdpSocket::bind(socket_addr).await.unwrap(); server_fut.register_socket(udp_socket); server_fut.register_listener(tcp_listener, Duration::from_secs(2)); // Notifies that the DNS server is ready tx.send(()).unwrap(); server_fut.block_until_done().await.unwrap(); } let (ready_tx, ready_rx) = oneshot::channel(); let dns_server_fut = run_dns_server(ready_tx); let handle = tokio::spawn(dns_server_fut); // Waits for the DNS server to be ready ready_rx.await.unwrap(); // Pass: `--allow-net` { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--check") .arg("--allow-net") .arg("run/resolve_dns.ts") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); println!("{err}"); assert!(output.status.success()); assert!(err.starts_with("Check file")); let expected = std::fs::read_to_string( util::testdata_path().join("run/resolve_dns.ts.out"), ) .unwrap(); assert_eq!(expected, out); } // Pass: `--allow-net=127.0.0.1:4553` { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--check") .arg("--allow-net=127.0.0.1:4553") .arg("run/resolve_dns.ts") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); if !output.status.success() { eprintln!("stderr: {err}"); } assert!(output.status.success()); assert!(err.starts_with("Check file")); let expected = std::fs::read_to_string( util::testdata_path().join("run/resolve_dns.ts.out"), ) .unwrap(); assert_eq!(expected, out); } // Permission error: `--allow-net=deno.land` { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--check") .arg("--allow-net=deno.land") .arg("run/resolve_dns.ts") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); assert!(!output.status.success()); assert!(err.starts_with("Check file")); assert!(err.contains(r#"error: Uncaught (in promise) PermissionDenied: Requires net access to "127.0.0.1:4553""#)); assert!(out.is_empty()); } // Permission error: no permission specified { let output = util::deno_cmd() .current_dir(util::testdata_path()) .env("NO_COLOR", "1") .arg("run") .arg("--check") .arg("run/resolve_dns.ts") .piped_output() .spawn() .unwrap() .wait_with_output() .unwrap(); let err = String::from_utf8_lossy(&output.stderr); let out = String::from_utf8_lossy(&output.stdout); assert!(!output.status.success()); assert!(err.starts_with("Check file")); assert!(err.contains(r#"error: Uncaught (in promise) PermissionDenied: Requires net access to "127.0.0.1:4553""#)); assert!(out.is_empty()); } handle.abort(); } #[tokio::test] async fn http2_request_url() { let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--quiet") .arg("--allow-net") .arg("--allow-read") .arg("./run/http2_request_url.ts") .arg("4506") .stdout_piped() .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut buffer = [0; 5]; let read = stdout.read(&mut buffer).unwrap(); assert_eq!(read, 5); let msg = std::str::from_utf8(&buffer).unwrap(); assert_eq!(msg, "READY"); let cert = reqwest::Certificate::from_pem(include_bytes!( "../testdata/tls/RootCA.crt" )) .unwrap(); let client = reqwest::Client::builder() .add_root_certificate(cert) .http2_prior_knowledge() .build() .unwrap(); let res = client.get("http://127.0.0.1:4506").send().await.unwrap(); assert_eq!(200, res.status()); let body = res.text().await.unwrap(); assert_eq!(body, "http://127.0.0.1:4506/"); child.kill().unwrap(); child.wait().unwrap(); } #[cfg(not(windows))] #[test] fn set_raw_should_not_panic_on_no_tty() { let output = util::deno_cmd() .arg("eval") .arg("Deno.stdin.setRaw(true)") // stdin set to piped so it certainly does not refer to TTY .stdin(std::process::Stdio::piped()) // stderr is piped so we can capture output. .stderr_piped() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stderr = std::str::from_utf8(&output.stderr).unwrap().trim(); assert!(stderr.contains("BadResource")); } #[cfg(not(windows))] #[test] fn fsfile_set_raw_should_not_panic_on_no_tty() { let output = util::deno_cmd() .arg("eval") .arg("Deno.openSync(\"/dev/stdin\").setRaw(true)") // stdin set to piped so it certainly does not refer to TTY .stdin(std::process::Stdio::piped()) // stderr is piped so we can capture output. .stderr_piped() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stderr = std::str::from_utf8(&output.stderr).unwrap().trim(); assert!( stderr.contains("BadResource"), "stderr did not contain BadResource: {stderr}" ); } #[test] fn timeout_clear() { // https://github.com/denoland/deno/issues/7599 use std::time::Duration; use std::time::Instant; let source_code = r#" const handle = setTimeout(() => { console.log("timeout finish"); }, 10000); clearTimeout(handle); console.log("finish"); "#; let mut p = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("-") .stdin(std::process::Stdio::piped()) .spawn() .unwrap(); let stdin = p.stdin.as_mut().unwrap(); stdin.write_all(source_code.as_bytes()).unwrap(); let start = Instant::now(); let status = p.wait().unwrap(); let end = Instant::now(); assert!(status.success()); // check that program did not run for 10 seconds // for timeout to clear assert!(end - start < Duration::new(10, 0)); } #[test] fn broken_stdout() { let (reader, writer) = os_pipe::pipe().unwrap(); // drop the reader to create a broken pipe drop(reader); let output = util::deno_cmd() .current_dir(util::testdata_path()) .arg("eval") .arg("console.log(3.14)") .stdout(writer) .stderr_piped() .spawn() .unwrap() .wait_with_output() .unwrap(); assert!(!output.status.success()); let stderr = std::str::from_utf8(output.stderr.as_ref()).unwrap().trim(); assert!(stderr.contains("Uncaught (in promise) BrokenPipe")); assert!(!stderr.contains("panic")); } itest!(error_cause { args: "run run/error_cause.ts", output: "run/error_cause.ts.out", exit_code: 1, }); itest!(error_cause_recursive_aggregate { args: "run error_cause_recursive_aggregate.ts", output: "error_cause_recursive_aggregate.ts.out", exit_code: 1, }); itest!(error_cause_recursive_tail { args: "run error_cause_recursive_tail.ts", output: "error_cause_recursive_tail.ts.out", exit_code: 1, }); itest!(error_cause_recursive { args: "run run/error_cause_recursive.ts", output: "run/error_cause_recursive.ts.out", exit_code: 1, }); itest!(default_file_extension_is_js { args: "run --check file_extensions/js_without_extension", output: "file_extensions/js_without_extension.out", exit_code: 0, }); itest!(js_without_extension { args: "run --ext js --check file_extensions/js_without_extension", output: "file_extensions/js_without_extension.out", exit_code: 0, }); itest!(ts_without_extension { args: "run --ext ts --check file_extensions/ts_without_extension", output: "file_extensions/ts_without_extension.out", exit_code: 0, }); itest!(ext_flag_takes_precedence_over_extension { args: "run --ext ts --check file_extensions/ts_with_js_extension.js", output: "file_extensions/ts_with_js_extension.out", exit_code: 0, }); #[tokio::test(flavor = "multi_thread")] async fn websocketstream_ping() { let _g = util::http_server(); let script = util::testdata_path().join("run/websocketstream_ping_test.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let srv_fn = hyper::service::service_fn(|mut req| async move { let (response, upgrade_fut) = fastwebsockets::upgrade::upgrade(&mut req).unwrap(); tokio::spawn(async move { let mut ws = upgrade_fut.await.unwrap(); ws.write_frame(fastwebsockets::Frame::text(b"A"[..].into())) .await .unwrap(); ws.write_frame(fastwebsockets::Frame::new( true, fastwebsockets::OpCode::Ping, None, vec![].into(), )) .await .unwrap(); ws.write_frame(fastwebsockets::Frame::text(b"B"[..].into())) .await .unwrap(); let message = ws.read_frame().await.unwrap(); assert_eq!(message.opcode, fastwebsockets::OpCode::Pong); ws.write_frame(fastwebsockets::Frame::text(b"C"[..].into())) .await .unwrap(); ws.write_frame(fastwebsockets::Frame::close_raw(vec![].into())) .await .unwrap(); }); Ok::<_, std::convert::Infallible>(response) }); let child = util::deno_cmd() .arg("test") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg(script) .stdout_piped() .spawn() .unwrap(); let server = tokio::net::TcpListener::bind("127.0.0.1:4513") .await .unwrap(); tokio::spawn(async move { let (stream, _) = server.accept().await.unwrap(); let io = hyper_util::rt::TokioIo::new(stream); let conn_fut = hyper::server::conn::http1::Builder::new() .serve_connection(io, srv_fn) .with_upgrades(); if let Err(e) = conn_fut.await { eprintln!("websocket server error: {e:?}"); } }); let r = child.wait_with_output().unwrap(); assert!(r.status.success()); } struct SpawnExecutor; impl hyper::rt::Executor for SpawnExecutor where Fut: std::future::Future + Send + 'static, Fut::Output: Send + 'static, { fn execute(&self, fut: Fut) { deno_core::unsync::spawn(fut); } } #[tokio::test] async fn websocket_server_multi_field_connection_header() { let script = util::testdata_path() .join("run/websocket_server_multi_field_connection_header_test.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let mut child = util::deno_cmd() .arg("run") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg(script) .stdout_piped() .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut buffer = [0; 5]; let read = stdout.read(&mut buffer).unwrap(); assert_eq!(read, 5); let msg = std::str::from_utf8(&buffer).unwrap(); assert_eq!(msg, "READY"); let stream = tokio::net::TcpStream::connect("localhost:4319") .await .unwrap(); let req = http::Request::builder() .header(http::header::UPGRADE, "websocket") .header(http::header::CONNECTION, "keep-alive, Upgrade") .header( "Sec-WebSocket-Key", fastwebsockets::handshake::generate_key(), ) .header("Sec-WebSocket-Version", "13") .uri("ws://localhost:4319") .body(http_body_util::Empty::::new()) .unwrap(); let (mut socket, _) = fastwebsockets::handshake::client(&SpawnExecutor, req, stream) .await .unwrap(); let message = socket.read_frame().await.unwrap(); assert_eq!(message.opcode, fastwebsockets::OpCode::Close); assert!(message.payload.is_empty()); socket .write_frame(fastwebsockets::Frame::close_raw(vec![].into())) .await .unwrap(); assert!(child.wait().unwrap().success()); } #[tokio::test] async fn websocket_server_idletimeout() { test_util::timeout!(60); let script = util::testdata_path().join("run/websocket_server_idletimeout.ts"); let root_ca = util::testdata_path().join("tls/RootCA.pem"); let mut child = util::deno_cmd() .arg("run") .arg("--unstable") .arg("--allow-net") .arg("--cert") .arg(root_ca) .arg("--config") .arg("./config/deno.json") .arg(script) .stdout_piped() .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut buf: Vec = vec![]; while !String::from_utf8(buf.clone()).unwrap().contains("READY") { let mut buffer = [0; 64]; let read = stdout.read(&mut buffer).unwrap(); buf.extend_from_slice(&buffer[0..read]); eprintln!("buf = {buf:?}"); } let stream = tokio::net::TcpStream::connect("localhost:4509") .await .unwrap(); let req = http::Request::builder() .header(http::header::UPGRADE, "websocket") .header(http::header::CONNECTION, "keep-alive, Upgrade") .header( "Sec-WebSocket-Key", fastwebsockets::handshake::generate_key(), ) .header("Sec-WebSocket-Version", "13") .uri("ws://localhost:4509") .body(http_body_util::Empty::::new()) .unwrap(); let (_socket, _) = fastwebsockets::handshake::client(&SpawnExecutor, req, stream) .await .unwrap(); assert_eq!(child.wait().unwrap().code(), Some(123)); } itest!(no_lock_flag { args: "run --no-lock run/no_lock_flag/main.ts", output: "run/no_lock_flag/main.out", http_server: true, exit_code: 0, }); itest!(permission_args { args: "run run/001_hello.js --allow-net", output: "run/permission_args.out", envs: vec![("NO_COLOR".to_string(), "1".to_string())], }); itest!(permission_args_quiet { args: "run --quiet run/001_hello.js --allow-net", output: "run/001_hello.js.out", }); // Regression test for https://github.com/denoland/deno/issues/16772 #[test] fn file_fetcher_preserves_permissions() { let context = TestContext::with_http_server(); context .new_command() .args("repl --quiet") .with_pty(|mut console| { console.write_line( "const a = await import('http://localhost:4545/run/019_media_types.ts');", ); console.expect("Allow?"); console.human_delay(); console.write_line_raw("y"); console.expect_all(&["success", "true"]); }); } #[test] fn stdio_streams_are_locked_in_permission_prompt() { if !util::pty::Pty::is_supported() { // Don't deal with the logic below if the with_pty // block doesn't even run (ex. on Windows CI) return; } let context = TestContextBuilder::new().build(); context .new_command() .args("repl") .with_pty(|mut console| { let malicious_output = r#"**malicious**"#; // Start a worker that starts spamming stdout console.write_line(r#"new Worker(URL.createObjectURL(new Blob(["setInterval(() => console.log('**malicious**'), 10)"])), { type: "module" });"#); // The worker is now spamming console.expect(malicious_output); console.write_line(r#"Deno.readTextFileSync('../Cargo.toml');"#); // We will get a permission prompt console.expect("Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions) > "); // The worker is blocked, so nothing else should get written here console.human_delay(); console.write_line_raw("i"); // We ensure that nothing gets written here between the permission prompt and this text, despire the delay let newline = if cfg!(target_os = "linux") { "^J" } else { "\r\n" }; console.expect_raw_next(format!("i{newline}\u{1b}[1A\u{1b}[0J└ Unrecognized option. Allow? [y/n/A] (y = yes, allow; n = no, deny; A = allow all read permissions) > ")); console.human_delay(); console.write_line_raw("y"); // We ensure that nothing gets written here between the permission prompt and this text, despire the delay console.expect_raw_next(format!("y{newline}\x1b[4A\x1b[0J✅ Granted read access to \"")); // Back to spamming! console.expect(malicious_output); }); } #[test] fn permission_prompt_escapes_ansi_codes_and_control_chars() { util::with_pty(&["repl"], |mut console| { console.write_line( r#"Deno.permissions.request({ name: "env", variable: "\rDo you like ice cream? y/n" });"# ); // will be uppercase on windows let env_name = if cfg!(windows) { "\\rDO YOU LIKE ICE CREAM? Y/N" } else { "\\rDo you like ice cream? y/n" }; console.expect(format!( "\u{250c} \u{26a0}\u{fe0f} Deno requests env access to \"{}\".", env_name )) }); util::with_pty(&["repl"], |mut console| { console.write_line_raw(r#"const boldANSI = "\u001b[1m";"#); console.expect("undefined"); console.write_line_raw(r#"const unboldANSI = "\u001b[22m";"#); console.expect("undefined"); console.write_line_raw( r#"new Deno.Command(`${boldANSI}cat${unboldANSI}`).spawn();"#, ); console.expect("\u{250c} \u{26a0}\u{fe0f} Deno requests run access to \"\\u{1b}[1mcat\\u{1b}[22m\"."); }); } itest!(node_builtin_modules_ts { args: "run --quiet --allow-read run/node_builtin_modules/mod.ts hello there", output: "run/node_builtin_modules/mod.ts.out", envs: env_vars_for_npm_tests(), exit_code: 0, }); itest!(node_builtin_modules_js { args: "run --quiet --allow-read run/node_builtin_modules/mod.js hello there", output: "run/node_builtin_modules/mod.js.out", envs: env_vars_for_npm_tests(), exit_code: 0, }); itest!(node_prefix_missing { args: "run --quiet run/node_prefix_missing/main.ts", output: "run/node_prefix_missing/main.ts.out", envs: env_vars_for_npm_tests(), exit_code: 1, }); itest!(node_prefix_missing_unstable_bare_node_builtins_enbaled { args: "run --unstable-bare-node-builtins run/node_prefix_missing/main.ts", output: "run/node_prefix_missing/main.ts.out_feature_enabled", envs: env_vars_for_npm_tests(), exit_code: 0, }); itest!( node_prefix_missing_unstable_bare_node_builtins_enbaled_by_env { args: "run run/node_prefix_missing/main.ts", output: "run/node_prefix_missing/main.ts.out_feature_enabled", envs: [ env_vars_for_npm_tests(), vec![( "DENO_UNSTABLE_BARE_NODE_BUILTINS".to_string(), "1".to_string() )] ] .concat(), exit_code: 0, } ); itest!(node_prefix_missing_unstable_bare_node_builtins_enbaled_by_config { args: "run --config=run/node_prefix_missing/config.json run/node_prefix_missing/main.ts", output: "run/node_prefix_missing/main.ts.out_feature_enabled", envs: env_vars_for_npm_tests(), exit_code: 0, }); itest!(node_prefix_missing_unstable_bare_node_builtins_enbaled_with_import_map { args: "run --unstable-bare-node-builtins --import-map run/node_prefix_missing/import_map.json run/node_prefix_missing/main.ts", output: "run/node_prefix_missing/main.ts.out_feature_enabled", envs: env_vars_for_npm_tests(), exit_code: 0, }); itest!(dynamic_import_syntax_error { args: "run -A run/dynamic_import_syntax_error.js", output: "run/dynamic_import_syntax_error.js.out", exit_code: 1, }); itest!(extension_import { args: "run run/extension_import.ts", output: "run/extension_import.ts.out", exit_code: 1, }); itest!(extension_dynamic_import { args: "run run/extension_dynamic_import.ts", output: "run/extension_dynamic_import.ts.out", exit_code: 1, }); #[test] pub fn vendor_dir_config_file() { let test_context = TestContextBuilder::new() .use_http_server() .use_temp_cwd() .build(); let temp_dir = test_context.temp_dir(); let vendor_dir = temp_dir.path().join("vendor"); let rm_vendor_dir = || std::fs::remove_dir_all(&vendor_dir).unwrap(); temp_dir.write("deno.json", r#"{ "vendor": true }"#); temp_dir.write( "main.ts", r#"import { returnsHi } from 'http://localhost:4545/subdir/mod1.ts'; console.log(returnsHi());"#, ); let deno_run_cmd = test_context.new_command().args("run --quiet main.ts"); deno_run_cmd.run().assert_matches_text("Hi\n"); assert!(vendor_dir.exists()); rm_vendor_dir(); temp_dir.write("deno.json", r#"{ "vendor": false }"#); deno_run_cmd.run().assert_matches_text("Hi\n"); assert!(!vendor_dir.exists()); test_context .new_command() .args("cache --quiet --vendor main.ts") .run(); assert!(vendor_dir.exists()); rm_vendor_dir(); temp_dir.write("deno.json", r#"{ "vendor": true }"#); let cache_command = test_context.new_command().args("cache --quiet main.ts"); cache_command.run(); assert!(vendor_dir.exists()); let mod1_file = vendor_dir .join("http_localhost_4545") .join("subdir") .join("mod1.ts"); mod1_file.write("export function returnsHi() { return 'bye bye bye'; }"); // this is fine with a lockfile because users are supposed to be able // to modify the vendor folder deno_run_cmd.run().assert_matches_text("bye bye bye\n"); // try updating by deleting the lockfile let lockfile = temp_dir.path().join("deno.lock"); lockfile.remove_file(); cache_command.run(); // should still run and the lockfile should be recreated // (though with the checksum from the vendor folder) deno_run_cmd.run().assert_matches_text("bye bye bye\n"); assert!(lockfile.exists()); // ensure we can add and execute files in directories that have a hash in them test_context .new_command() // http_localhost_4545/subdir/#capitals_c75d7/main.js .args("cache http://localhost:4545/subdir/CAPITALS/main.js") .run() .skip_output_check(); assert_eq!( vendor_dir.join("manifest.json").read_json_value(), json!({ "folders": { "http://localhost:4545/subdir/CAPITALS/": "http_localhost_4545/subdir/#capitals_c75d7" } }) ); vendor_dir .join("http_localhost_4545/subdir/#capitals_c75d7/hello_there.ts") .write("console.log('hello there');"); test_context .new_command() // todo(dsherret): seems wrong that we don't auto-discover the config file to get the vendor directory for this .args("run --vendor http://localhost:4545/subdir/CAPITALS/hello_there.ts") .run() .assert_matches_text("hello there\n"); // now try importing directly from the vendor folder temp_dir.write( "main.ts", r#"import { returnsHi } from './vendor/http_localhost_4545/subdir/mod1.ts'; console.log(returnsHi());"#, ); deno_run_cmd .run() .assert_matches_text("error: Importing from the vendor directory is not permitted. Use a remote specifier instead or disable vendoring. at [WILDCARD]/main.ts:1:27 ") .assert_exit_code(1); } itest!(explicit_resource_management { args: "run --quiet --check run/explicit_resource_management/main.ts", output: "run/explicit_resource_management/main.out", }); itest!(unsafe_proto { args: "run -A run/unsafe_proto/main.js", output: "run/unsafe_proto/main.out", http_server: false, exit_code: 0, }); itest!(unsafe_proto_flag { args: "run -A --unstable-unsafe-proto run/unsafe_proto/main.js", output: "run/unsafe_proto/main_with_unsafe_proto_flag.out", http_server: false, exit_code: 0, }); itest!(unstable_temporal_api { args: "run --no-config --unstable-temporal --check run/unstable_temporal_api/main.ts", output: "run/unstable_temporal_api/main.out", http_server: false, exit_code: 0, }); itest!(unstable_temporal_api_config_file { args: "run --check run/unstable_temporal_api/main.ts", output: "run/unstable_temporal_api/main.out", http_server: false, exit_code: 0, }); itest!(unstable_temporal_api_missing_flag { args: "run --no-config run/unstable_temporal_api/missing_flag.js", output: "run/unstable_temporal_api/missing_flag.out", http_server: false, exit_code: 1, }); // TODO(bartlomieju): temporary disabled // itest!(warn_on_deprecated_api { // args: "run -A run/warn_on_deprecated_api/main.js", // output: "run/warn_on_deprecated_api/main.out", // http_server: true, // exit_code: 0, // }); // itest!(warn_on_deprecated_api_verbose { // args: "run -A run/warn_on_deprecated_api/main.js", // output: "run/warn_on_deprecated_api/main.verbose.out", // envs: vec![("DENO_VERBOSE_WARNINGS".to_string(), "1".to_string())], // http_server: true, // exit_code: 0, // }); // itest!(warn_on_deprecated_api_with_flag { // args: "run -A --quiet run/warn_on_deprecated_api/main.js", // output: "run/warn_on_deprecated_api/main_disabled_flag.out", // http_server: true, // exit_code: 0, // }); // itest!(warn_on_deprecated_api_with_env_var { // args: "run -A run/warn_on_deprecated_api/main.js", // envs: vec![("DENO_NO_DEPRECATION_WARNINGS".to_string(), "1".to_string())], // output: "run/warn_on_deprecated_api/main_disabled_env.out", // http_server: true, // exit_code: 0, // }); #[test] fn deno_json_imports_expand() { let test_context = TestContextBuilder::for_npm().use_temp_cwd().build(); let dir = test_context.temp_dir(); dir.write( "deno.json", r#"{ "imports": { "basic": "npm:@denotest/esm-basic" } }"#, ); dir.write( "main.ts", r#" // import map should resolve import { setValue, getValue } from "basic"; // this entry should have been added automatically import { hello } from "basic/other.mjs"; setValue(5); console.log(getValue()); console.log(hello()); "#, ); let output = test_context.new_command().args("run main.ts").run(); output.assert_matches_text("[WILDCARD]5\nhello, world!\n"); } #[test] fn deno_json_imports_expand_doesnt_overwrite_existing_entries() { let test_context = TestContextBuilder::for_npm().use_temp_cwd().build(); let dir = test_context.temp_dir(); dir.write( "deno.json", r#"{ "imports": { "basic": "npm:@denotest/esm-basic", "basic/": "npm:/@denotest/sub-folders/folder_index_js/" } }"#, ); dir.write( "main.ts", r#" // import map should resolve import { setValue, getValue } from "basic"; // this entry should map to explicitly specified "basic/" mapping import { add } from "basic/index.js"; setValue(5); console.log(getValue()); console.log(add(3, 4)); "#, ); let output = test_context.new_command().args("run main.ts").run(); output.assert_matches_text("[WILDCARD]5\n7\n"); } #[test] fn run_etag_delete_source_cache() { let test_context = TestContextBuilder::new() .use_temp_cwd() .use_http_server() .build(); test_context .temp_dir() .write("main.ts", "import 'http://localhost:4545/etag_script.ts'"); test_context .new_command() .args("cache main.ts") .run() .skip_output_check(); // The cache is currently stored unideally in two files where one file has the headers // and the other contains the body. An issue can happen with the etag header where the // headers file exists, but the body was deleted. We need to get the cache to gracefully // handle this scenario. let deno_dir = test_context.deno_dir().path(); let etag_script_path = deno_dir.join("deps/http/localhost_PORT4545/26110db7d42c9bad32386735cbc05c301f83e4393963deb8da14fec3b4202a13"); assert!(etag_script_path.exists()); etag_script_path.remove_file(); test_context .new_command() .args("cache --reload --log-level=debug main.ts") .run() .assert_matches_text( "[WILDCARD]Cache body not found. Trying again without etag.[WILDCARD]", ); } #[test] fn code_cache_test() { let test_context = TestContextBuilder::new().use_temp_cwd().build(); let deno_dir = test_context.deno_dir(); let temp_dir = test_context.temp_dir(); temp_dir.write("main.js", "console.log('Hello World - A');"); // First run with no prior cache. { let output = test_context .new_command() .args("run -Ldebug main.js") .split_output() .run(); output .assert_stdout_matches_text("Hello World - A[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for ES module: file:///[WILDCARD]/main.js[WILDCARD]"); assert_not_contains!(output.stderr(), "V8 code cache hit"); // Check that the code cache database exists. let code_cache_path = deno_dir.path().join(CODE_CACHE_DB_FILE_NAME); assert!(code_cache_path.exists()); } // 2nd run with cache. { let output = test_context .new_command() .args("run -Ldebug main.js") .split_output() .run(); output .assert_stdout_matches_text("Hello World - A[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for ES module: file:///[WILDCARD]/main.js[WILDCARD]"); assert_not_contains!(output.stderr(), "Updating V8 code cache"); } // Rerun with --no-code-cache. { let output = test_context .new_command() .args("run -Ldebug --no-code-cache main.js") .split_output() .run(); output .assert_stdout_matches_text("Hello World - A[WILDCARD]") .skip_stderr_check(); assert_not_contains!(output.stderr(), "V8 code cache"); } // Modify the script, and make sure that the cache is rejected. temp_dir.write("main.js", "console.log('Hello World - B');"); { let output = test_context .new_command() .args("run -Ldebug main.js") .split_output() .run(); output .assert_stdout_matches_text("Hello World - B[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for ES module: file:///[WILDCARD]/main.js[WILDCARD]"); assert_not_contains!(output.stderr(), "V8 code cache hit"); } } #[test] fn code_cache_npm_test() { let test_context = TestContextBuilder::for_npm().use_temp_cwd().build(); let deno_dir = test_context.deno_dir(); let temp_dir = test_context.temp_dir(); temp_dir.write( "main.js", "import chalk from \"npm:chalk@5\";console.log(chalk('Hello World'));", ); // First run with no prior cache. { let output = test_context .new_command() .args("run -Ldebug -A main.js") .split_output() .run(); output .assert_stdout_matches_text("Hello World[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for ES module: file:///[WILDCARD]/main.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for ES module: file:///[WILDCARD]/chalk/5.[WILDCARD]/source/index.js[WILDCARD]"); assert_not_contains!(output.stderr(), "V8 code cache hit"); // Check that the code cache database exists. let code_cache_path = deno_dir.path().join(CODE_CACHE_DB_FILE_NAME); assert!(code_cache_path.exists()); } // 2nd run with cache. { let output = test_context .new_command() .args("run -Ldebug -A main.js") .split_output() .run(); output .assert_stdout_matches_text("Hello World[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for ES module: file:///[WILDCARD]/main.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for ES module: file:///[WILDCARD]/chalk/5.[WILDCARD]/source/index.js[WILDCARD]"); assert_not_contains!(output.stderr(), "Updating V8 code cache"); } } #[test] fn code_cache_npm_with_require_test() { let test_context = TestContextBuilder::for_npm().use_temp_cwd().build(); let deno_dir = test_context.deno_dir(); let temp_dir = test_context.temp_dir(); temp_dir.write( "main.js", "import fraction from \"npm:autoprefixer\";console.log(typeof fraction);", ); // First run with no prior cache. { let output = test_context .new_command() .args("run -Ldebug -A main.js") .split_output() .run(); output .assert_stdout_matches_text("function[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for ES module: file:///[WILDCARD]/main.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for ES module: file:///[WILDCARD]/autoprefixer/[WILDCARD]/autoprefixer.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for script: file:///[WILDCARD]/autoprefixer/[WILDCARD]/autoprefixer.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]Updating V8 code cache for script: file:///[WILDCARD]/browserslist/[WILDCARD]/index.js[WILDCARD]"); assert_not_contains!(output.stderr(), "V8 code cache hit"); // Check that the code cache database exists. let code_cache_path = deno_dir.path().join(CODE_CACHE_DB_FILE_NAME); assert!(code_cache_path.exists()); } // 2nd run with cache. { let output = test_context .new_command() .args("run -Ldebug -A main.js") .split_output() .run(); output .assert_stdout_matches_text("function[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for ES module: file:///[WILDCARD]/main.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for ES module: file:///[WILDCARD]/autoprefixer/[WILDCARD]/autoprefixer.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for script: file:///[WILDCARD]/autoprefixer/[WILDCARD]/autoprefixer.js[WILDCARD]") .assert_stderr_matches_text("[WILDCARD]V8 code cache hit for script: file:///[WILDCARD]/browserslist/[WILDCARD]/index.js[WILDCARD]"); assert_not_contains!(output.stderr(), "Updating V8 code cache"); } } #[test] fn code_cache_npm_cjs_wrapper_module_many_exports() { // The code cache was being invalidated because the CJS wrapper module // had indeterministic output. let test_context = TestContextBuilder::for_npm().use_temp_cwd().build(); let temp_dir = test_context.temp_dir(); temp_dir.write( "main.js", // this package has a few exports "import { hello } from \"npm:@denotest/cjs-reexport-collision\";hello.sayHello();", ); // First run with no prior cache. { let output = test_context .new_command() .args("run -Ldebug -A main.js") .split_output() .run(); assert_not_contains!(output.stderr(), "V8 code cache hit"); assert_contains!(output.stderr(), "Updating V8 code cache"); output.skip_stdout_check(); } // 2nd run with cache. { let output = test_context .new_command() .args("run -Ldebug -A main.js") .split_output() .run(); assert_contains!(output.stderr(), "V8 code cache hit"); assert_not_contains!(output.stderr(), "Updating V8 code cache"); output.skip_stdout_check(); // should have two occurrences of this (one for entrypoint and one for wrapper module) assert_eq!( output .stderr() .split("V8 code cache hit for ES module") .count(), 3 ); } } #[test] fn node_process_stdin_unref_with_pty() { TestContext::default() .new_command() .args_vec(["run", "--quiet", "run/node_process_stdin_unref_with_pty.js"]) .with_pty(|mut console| { console.expect("START\r\n"); console.write_line("foo"); console.expect("foo\r\n"); console.write_line("bar"); console.expect("bar\r\n"); console.write_line("baz"); console.expect("baz\r\n"); }); TestContext::default() .new_command() .args_vec([ "run", "--quiet", "run/node_process_stdin_unref_with_pty.js", "--unref", ]) .with_pty(|mut console| { // if process.stdin.unref is called, the program immediately ends by skipping reading from stdin. console.expect("START\r\nEND\r\n"); }); } #[tokio::test] async fn listen_tls_alpn() { let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--quiet") .arg("--allow-net") .arg("--allow-read") .arg("./cert/listen_tls_alpn.ts") .arg("4504") .stdout_piped() .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut msg = [0; 5]; let read = stdout.read(&mut msg).unwrap(); assert_eq!(read, 5); assert_eq!(&msg, b"READY"); let mut reader = &mut BufReader::new(Cursor::new(include_bytes!( "../testdata/tls/RootCA.crt" ))); let certs = rustls_pemfile::certs(&mut reader) .collect::, _>>() .unwrap(); let mut root_store = rustls::RootCertStore::empty(); root_store.add_parsable_certificates(certs); let mut cfg = rustls::ClientConfig::builder() .with_root_certificates(root_store) .with_no_client_auth(); cfg.alpn_protocols.push(b"foobar".to_vec()); let cfg = Arc::new(cfg); let hostname = rustls::pki_types::ServerName::try_from("localhost".to_string()).unwrap(); let tcp_stream = tokio::net::TcpStream::connect("localhost:4504") .await .unwrap(); let mut tls_stream = TlsStream::new_client_side( tcp_stream, ClientConnection::new(cfg, hostname).unwrap(), None, ); let handshake = tls_stream.handshake().await.unwrap(); assert_eq!(handshake.alpn, Some(b"foobar".to_vec())); let status = child.wait().unwrap(); assert!(status.success()); } #[tokio::test] async fn listen_tls_alpn_fail() { let mut child = util::deno_cmd() .current_dir(util::testdata_path()) .arg("run") .arg("--unstable") .arg("--quiet") .arg("--allow-net") .arg("--allow-read") .arg("--config") .arg("../config/deno.json") .arg("./cert/listen_tls_alpn_fail.ts") .arg("4505") .stdout_piped() .spawn() .unwrap(); let stdout = child.stdout.as_mut().unwrap(); let mut msg = [0; 5]; let read = stdout.read(&mut msg).unwrap(); assert_eq!(read, 5); assert_eq!(&msg, b"READY"); let mut reader = &mut BufReader::new(Cursor::new(include_bytes!( "../testdata/tls/RootCA.crt" ))); let certs = rustls_pemfile::certs(&mut reader) .collect::, _>>() .unwrap(); let mut root_store = rustls::RootCertStore::empty(); root_store.add_parsable_certificates(certs); let mut cfg = rustls::ClientConfig::builder() .with_root_certificates(root_store) .with_no_client_auth(); cfg.alpn_protocols.push(b"boofar".to_vec()); let cfg = Arc::new(cfg); let hostname = rustls::pki_types::ServerName::try_from("localhost").unwrap(); let tcp_stream = tokio::net::TcpStream::connect("localhost:4505") .await .unwrap(); let mut tls_stream = TlsStream::new_client_side( tcp_stream, ClientConnection::new(cfg, hostname).unwrap(), None, ); tls_stream.handshake().await.unwrap_err(); let status = child.wait().unwrap(); assert!(status.success()); }