#+test package main import "core:crypto/hash" import "core:encoding/hex" import "core:fmt" import "core:os" import "core:path/filepath" import "core:strings" import "core:testing" import "sqlite" make_test_env_file :: proc(path, sha, contents: string, remotes: []string = {}) -> EnvFile { f := EnvFile { Path = path, Dir = "", Sha256 = sha, contents = contents, Remotes = make([dynamic]string, 0, len(remotes), context.temp_allocator), } for r in remotes { append(&f.Remotes, r) } return f } @(test) test_db_insert_and_fetch :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) path := "/project/.env" sha := "abc123" contents := "SECRET=value" f := make_test_env_file(path, sha, contents, []string{"git@github.com:user/repo.git"}) defer delete(f.Remotes) testing.expect(t, db_insert(&db, f), "insert should succeed") fetched, fetch_ok := db_fetch(&db, "/project/.env") // defer delete_envfile(&fetched) testing.expect(t, fetch_ok, "fetch should succeed") if !fetch_ok do return testing.expect_value(t, fetched.Path, path) testing.expect_value(t, fetched.Sha256, sha) testing.expect_value(t, fetched.contents, contents) testing.expect_value(t, len(fetched.Remotes), 1) testing.expect_value(t, fetched.Remotes[0], "git@github.com:user/repo.git") } @(test) test_db_fetch_missing :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) _, fetch_ok := db_fetch(&db, "/nonexistent/.env") testing.expect(t, !fetch_ok, "fetch missing should return false") } @(test) test_db_insert_or_replace :: proc(t: ^testing.T) { db, ok := db_init() defer db_close(&db) testing.expect(t, ok, "failed to create test db") f1 := make_test_env_file("/project/.env", "sha1", "KEY=old") defer delete(f1.Remotes) testing.expect(t, db_insert(&db, f1), "first insert should succeed") f2 := make_test_env_file("/project/.env", "sha2", "KEY=new") defer delete(f2.Remotes) testing.expect(t, db_insert(&db, f2), "second insert should succeed") results, list_ok := db_list(&db) testing.expect(t, list_ok, "list should succeed") testing.expect(t, len(results) == 1, "should have 1 row, not 2") fetched, fetch_ok := db_fetch(&db, "/project/.env") testing.expect(t, fetch_ok, "fetch should succeed") if !fetch_ok do return // defer delete_envfile(&fetched) testing.expect_value(t, fetched.contents, "KEY=new") testing.expect_value(t, fetched.Sha256, "sha2") } @(test) test_db_delete_existing :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) f := make_test_env_file("/project/.env", "sha", "KEY=val") defer delete(f.Remotes) db_insert(&db, f) testing.expect(t, db_delete(&db, "/project/.env"), "delete should return true") _, fetch_ok := db_fetch(&db, "/project/.env") testing.expect(t, !fetch_ok, "row should be gone after delete") } @(test) test_db_delete_missing :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) testing.expect(t, !db_delete(&db, "/nonexistent/.env"), "delete missing should return false") } @(test) test_db_list_multiple :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) f1 := make_test_env_file("/proj1/.env", "sha1", "A=1", []string{"git@github.com:a/repo.git"}) defer delete(f1.Remotes) f2 := make_test_env_file("/proj2/.env", "sha2", "B=2", []string{"git@github.com:b/repo.git"}) defer delete(f2.Remotes) f3 := make_test_env_file("/proj3/.env", "sha3", "C=3") db_insert(&db, f1) db_insert(&db, f2) db_insert(&db, f3) results, list_ok := db_list(&db) testing.expect(t, list_ok, "list should succeed") testing.expect_value(t, len(results), 3) } @(test) test_db_list_empty :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) results, list_ok := db_list(&db) testing.expect(t, list_ok, "list should succeed on empty db") testing.expect(t, len(results) == 0, "should have 0 rows") } @(test) test_db_insert_sets_changed :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) testing.expect(t, !db.changed, "changed should start false") f := make_test_env_file("/project/.env", "sha", "KEY=val") defer delete(f.Remotes) db_insert(&db, f) testing.expect(t, db.changed, "changed should be true after insert") } @(test) test_db_delete_sets_changed :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) f := make_test_env_file("/project/.env", "sha", "KEY=val") defer delete(f.Remotes) db_insert(&db, f) db.changed = false db_delete(&db, "/project/.env") testing.expect(t, db.changed, "changed should be true after delete") } @(test) test_db_serialize :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") if !ok do return defer db_close(&db) f := make_test_env_file("/project/.env", "sha", "KEY=val") defer delete(f.Remotes) db_insert(&db, f) sz: i64 data := sqlite.serialize(db.conn, "main", &sz, 0) testing.expect(t, data != nil, "serialize should return non-nil") if data == nil do return defer sqlite.free(data) testing.expect(t, sz > 0, "serialized size should be > 0") } @(test) test_shares_remote_overlap :: proc(t: ^testing.T) { f := EnvFile { Remotes = make([dynamic]string, 2, context.temp_allocator), } append(&f.Remotes, "git@github.com:user/repo.git") append(&f.Remotes, "git@gitlab.com:user/repo.git") remotes := []string{"git@github.com:user/repo.git"} testing.expect(t, shares_remote(&f, remotes), "should share remote") } @(test) test_shares_remote_no_overlap :: proc(t: ^testing.T) { f := EnvFile { Remotes = make([dynamic]string, 1, context.temp_allocator), } append(&f.Remotes, "git@github.com:user/repo.git") remotes := []string{"git@github.com:other/repo.git"} testing.expect(t, !shares_remote(&f, remotes), "should not share remote") } @(test) test_shares_remote_empty_file_remotes :: proc(t: ^testing.T) { f := EnvFile { Remotes = make([dynamic]string, 0, context.temp_allocator), } remotes := []string{"git@github.com:user/repo.git"} testing.expect(t, !shares_remote(&f, remotes), "empty file remotes should not share") } @(test) test_shares_remote_empty_check_remotes :: proc(t: ^testing.T) { f := EnvFile { Remotes = make([dynamic]string, 1, context.temp_allocator), } append(&f.Remotes, "git@github.com:user/repo.git") remotes: []string testing.expect(t, !shares_remote(&f, remotes), "empty check remotes should not share") } @(test) test_shares_remote_both_empty :: proc(t: ^testing.T) { f := EnvFile { Remotes = make([dynamic]string, 0), } remotes: []string testing.expect(t, !shares_remote(&f, remotes), "both empty should not share") } delete_remotes :: proc(remotes: [dynamic]string) { for &r in remotes { delete(r) } delete(remotes) } @(test) test_get_git_remotes_single :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-remotes-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) git_dir := fmt.tprintf("%s/.git", base) os.mkdir_all(git_dir) config_content := "[core]\n\trepositoryformatversion = 0\n[remote \"origin\"]\n\turl = git@github.com:user/repo.git\n\tfetch = +refs/heads/*:refs/remotes/origin/*\n" config_path := fmt.tprintf("%s/config", git_dir) err := os.write_entire_file(config_path, transmute([]u8)config_content) testing.expect(t, err == nil, "should write .git/config") remotes := get_git_remotes(base, context.temp_allocator) testing.expect(t, len(remotes) == 1, "should find 1 remote") if len(remotes) != 1 do return testing.expect_value(t, remotes[0], "git@github.com:user/repo.git") } @(test) test_get_git_remotes_multiple :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-remotes-multi-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) git_dir := fmt.tprintf("%s/.git", base) os.mkdir_all(git_dir) config_content := "[remote \"origin\"]\n\turl = git@github.com:user/repo.git\n[remote \"upstream\"]\n\turl = https://gitlab.com/upstream/repo.git\n" config_path := fmt.tprintf("%s/config", git_dir) err := os.write_entire_file(config_path, transmute([]u8)config_content) testing.expect(t, err == nil, "should write .git/config") remotes := get_git_remotes(base, context.temp_allocator) testing.expect(t, len(remotes) == 2, "should find 2 remotes") } @(test) test_get_git_remotes_no_config :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-remotes-none-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) remotes := get_git_remotes(base, context.temp_allocator) testing.expect(t, len(remotes) == 0, "should return empty when no .git/config") } @(test) test_get_git_remotes_no_remotes :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-remotes-empty-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) git_dir := fmt.tprintf("%s/.git", base) os.mkdir_all(git_dir) config_content := "[core]\n\trepositoryformatversion = 0\n\tbare = false\n" config_path := fmt.tprintf("%s/config", git_dir) err := os.write_entire_file(config_path, transmute([]u8)config_content) testing.expect(t, err == nil, "should write .git/config") remotes := get_git_remotes(base, context.temp_allocator) testing.expect(t, len(remotes) == 0, "should return empty when no remote sections") } @(test) test_new_env_file :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-envfile-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) env_path := fmt.tprintf("%s/.env", base) err := os.write_entire_file(env_path, "SECRET=value\n") testing.expect(t, err == nil, ".env file should exists") file, ok := new_env_file(env_path) testing.expect(t, ok, "new_env_file should succeed") if !ok do return defer delete(file.Remotes) defer delete(file.Sha256) defer delete(file.Path) testing.expect(t, filepath.is_abs(file.Path), "path should be absolute") testing.expect(t, strings.has_suffix(file.Path, "/.env"), "path should end with /.env") testing.expect(t, file.contents == "SECRET=value\n", "contents mismatch") testing.expect(t, len(file.Sha256) == 64, "sha256 should be 64 hex chars") } @(test) test_new_env_file_missing :: proc(t: ^testing.T) { _, ok := new_env_file("/tmp/envr-nonexistent-envfile/path/.env") testing.expect(t, !ok, "missing file should return false") } @(test) test_closing_db_has_no_leaks :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-leak-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) cfg_path, err := filepath.join([]string{base, "config.json"}, context.temp_allocator) testing.expect(t, err == nil, "cfgPath should build successfully") { cfg := new_config([]string{"fixtures/keys/insecure-test-key"}, cfg_path) testing.expect(t, save_config(cfg, force = true), "save should succeed") delete_config(&cfg) } db, ok := db_open(cfg_path) testing.expect(t, ok, "db should open") db_close(&db) } @(test) test_open_existing_db_has_no_leaks :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-leak-existing-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) cfg_path, err := filepath.join([]string{base, "config.json"}, context.temp_allocator) testing.expect(t, err == nil, "cfgPath should build successfully") { cfg := new_config([]string{"fixtures/keys/insecure-test-key"}, cfg_path) testing.expect(t, save_config(cfg, force = true), "save should succeed") delete_config(&cfg) } // First open/close creates data.envr on disk db, ok := db_open(cfg_path) testing.expect(t, ok, "db should open") if !ok do return f := make_test_env_file( "/project/.env", "abc123", "SECRET=value", []string{"git@github.com:user/repo.git"}, ) defer delete(f.Remotes) testing.expect(t, db_insert(&db, f), "insert should succeed") db_close(&db) // Second open exercises db_restore_from_encrypted db2, ok2 := db_open(cfg_path) testing.expect(t, ok2, "db should open existing") if !ok2 do return db_close(&db2) } @(test) test_db_sync_noop :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-sync-noop-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) env_path := fmt.tprintf("%s/.env", base) content := "KEY=value\n" write_err := os.write_entire_file(env_path, transmute([]u8)content) testing.expect(t, write_err == nil, "should write .env file") digest := hash.hash_bytes( hash.Algorithm.SHA256, transmute([]u8)content, context.temp_allocator, ) hex_bytes, _ := hex.encode(digest, context.temp_allocator) sha := string(hex_bytes) db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) f := make_test_env_file(env_path, sha, content) f.Dir = base db_insert(&db, f) result, sync_err := db_sync(&db, &f) testing.expect(t, sync_err == .None, "sync should not error") testing.expect(t, result == {}, "should be noop") } @(test) test_db_sync_backed_up :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-sync-backup-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) env_path := fmt.tprintf("%s/.env", base) changed_content := "KEY=changed\n" write_err := os.write_entire_file(env_path, transmute([]u8)changed_content) testing.expect(t, write_err == nil, "should write .env file") db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) f := make_test_env_file(env_path, "old_sha", "KEY=original") f.Dir = base db_insert(&db, f) result, sync_err := db_sync(&db, &f) testing.expect(t, sync_err == .None, "sync should not error") testing.expect(t, .BackedUp in result, "should be backed up") } @(test) test_db_sync_restored :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-sync-restore-%d", os.get_pid()) os.mkdir_all(base) defer os.remove_all(base) env_path := fmt.tprintf("%s/.env", base) db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) f := make_test_env_file(env_path, "some_sha", "SECRET=value") f.Dir = base defer delete(f.Remotes) db_insert(&db, f) result, err := db_sync(&db, &f) testing.expect(t, err == .None, "sync should not error") testing.expect(t, .Restored in result, "should be restored") data, read_err := os.read_entire_file_from_path(env_path, context.temp_allocator) testing.expect(t, read_err == nil, "file should exist after restore") if read_err == nil { testing.expect_value(t, string(data), "SECRET=value") } } @(test) test_db_sync_dir_missing :: proc(t: ^testing.T) { db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) f := make_test_env_file("/nonexistent/path/.env", "sha", "KEY=val") db_insert(&db, f) result, err := db_sync(&db, &f) testing.expect_value(t, err, SyncError.DirMissing) testing.expect_value(t, result, nil) } @(test) test_db_sync_moved :: proc(t: ^testing.T) { base := fmt.tprintf("/tmp/envr-test-sync-moved-%d", os.get_pid()) search_root := fmt.tprintf("%s/search", base) repo_dir := fmt.tprintf("%s/myproject", search_root) git_dir := fmt.tprintf("%s/.git", repo_dir) defer os.remove_all(base) os.mkdir_all(git_dir) config_content := "[remote \"origin\"]\n\turl = git@github.com:user/repo.git\n" config_path := fmt.tprintf("%s/config", git_dir) write_err := os.write_entire_file(config_path, transmute([]u8)config_content) testing.expect(t, write_err == nil, "should write .git/config") db, ok := db_init() testing.expect(t, ok, "failed to create test db") defer db_close(&db) db.cfg.ScanConfig.Include = make([dynamic]string, 0, 1, context.temp_allocator) append(&db.cfg.ScanConfig.Include, search_root) f := make_test_env_file( "/old/nonexistent/path/.env", "some_sha", "SECRET=value", []string{"git@github.com:user/repo.git"}, ) testing.expect(t, db_insert(&db, f), "insert should succeed") result, err := db_sync(&db, &f) testing.expect(t, err == .None, "sync should not error") if err != .None do return testing.expect(t, .DirUpdated in result, "should have DirUpdated flag") testing.expect(t, .Restored in result, "should have Restored flag") expected_path := fmt.tprintf("%s/.env", repo_dir) testing.expect_value(t, f.Path, expected_path) testing.expect_value(t, f.Dir, repo_dir) _, old_exists := db_fetch(&db, "/old/nonexistent/path/.env") testing.expect(t, !old_exists, "old path should be deleted from db") new_fetched, new_ok := db_fetch(&db, expected_path) testing.expect(t, new_ok, "new path should exist in db") if new_ok { testing.expect_value(t, new_fetched.contents, "SECRET=value") } }