package sub import ( "encoding/base64" "encoding/json" "strings" "testing" "github.com/mhsanaei/3x-ui/v3/database/model" ) func TestSubscriptionExpiryFromClient(t *testing.T) { const now = int64(1_700_000_000_000) const oneDayMs = int64(86_400_000) if got := subscriptionExpiryFromClient(now, 0); got != 0 { t.Fatalf("zero expiry should stay zero, got %d", got) } if got := subscriptionExpiryFromClient(now, 1_700_000_000_000); got != 1_700_000_000_000 { t.Fatalf("positive expiry should pass through, got %d", got) } if got := subscriptionExpiryFromClient(now, -oneDayMs); got != now+oneDayMs { t.Fatalf("delayed-start expiry should be now+|value|, got %d, want %d", got, now+oneDayMs) } if a, b := subscriptionExpiryFromClient(now, -oneDayMs), subscriptionExpiryFromClient(now, -oneDayMs); a != b { t.Fatalf("same now+value should be deterministic across calls, got %d vs %d (#4545 review)", a, b) } } func TestFindClientIndex(t *testing.T) { clients := []model.Client{ {Email: "a@example.com"}, {Email: "b@example.com"}, {Email: "c@example.com"}, } if got := findClientIndex(clients, "b@example.com"); got != 1 { t.Fatalf("findClientIndex middle = %d, want 1", got) } if got := findClientIndex(clients, "a@example.com"); got != 0 { t.Fatalf("findClientIndex first = %d, want 0", got) } if got := findClientIndex(clients, "missing@example.com"); got != -1 { t.Fatalf("findClientIndex missing = %d, want -1", got) } if got := findClientIndex(nil, "x"); got != -1 { t.Fatalf("findClientIndex on nil slice = %d, want -1", got) } } func TestUnmarshalStreamSettings(t *testing.T) { got := unmarshalStreamSettings(`{"network":"ws","wsSettings":{"path":"/api"}}`) if got["network"] != "ws" { t.Fatalf("network = %v, want ws", got["network"]) } ws, ok := got["wsSettings"].(map[string]any) if !ok || ws["path"] != "/api" { t.Fatalf("wsSettings = %v, want map with path=/api", got["wsSettings"]) } } func TestUnmarshalStreamSettings_InvalidJSON(t *testing.T) { if got := unmarshalStreamSettings("not json"); got != nil { t.Fatalf("invalid JSON should produce nil map, got %#v", got) } } func TestSearchHost_StringValue(t *testing.T) { headers := map[string]any{"Host": "example.com"} if got := searchHost(headers); got != "example.com" { t.Fatalf("searchHost = %q, want example.com", got) } } func TestSearchHost_CaseInsensitiveKey(t *testing.T) { headers := map[string]any{"host": "example.com"} if got := searchHost(headers); got != "example.com" { t.Fatalf("searchHost = %q, want example.com", got) } headers2 := map[string]any{"HOST": "example.com"} if got := searchHost(headers2); got != "example.com" { t.Fatalf("searchHost uppercase = %q, want example.com", got) } } func TestSearchHost_ArrayValue(t *testing.T) { headers := map[string]any{"Host": []any{"first.example.com", "second.example.com"}} if got := searchHost(headers); got != "first.example.com" { t.Fatalf("searchHost array = %q, want first.example.com", got) } } func TestSearchHost_EmptyArray(t *testing.T) { headers := map[string]any{"Host": []any{}} if got := searchHost(headers); got != "" { t.Fatalf("searchHost empty array = %q, want empty", got) } } func TestSearchHost_NoHostKey(t *testing.T) { headers := map[string]any{"X-Other": "value"} if got := searchHost(headers); got != "" { t.Fatalf("searchHost no host = %q, want empty", got) } } func TestSearchHost_NotAMap(t *testing.T) { if got := searchHost("not a map"); got != "" { t.Fatalf("searchHost non-map = %q, want empty", got) } if got := searchHost(nil); got != "" { t.Fatalf("searchHost nil = %q, want empty", got) } } func TestSearchKey_FoundAtTopLevel(t *testing.T) { data := map[string]any{"foo": 42, "bar": "x"} got, ok := searchKey(data, "foo") if !ok { t.Fatal("expected to find foo") } if got != 42 { t.Fatalf("got %v, want 42", got) } } func TestSearchKey_FoundInNested(t *testing.T) { data := map[string]any{ "outer": map[string]any{ "inner": map[string]any{ "target": "hit", }, }, } got, ok := searchKey(data, "target") if !ok { t.Fatal("expected to find target in nested map") } if got != "hit" { t.Fatalf("got %v, want hit", got) } } func TestSearchKey_FoundInsideArray(t *testing.T) { data := map[string]any{ "list": []any{ map[string]any{"other": 1}, map[string]any{"needle": "found"}, }, } got, ok := searchKey(data, "needle") if !ok { t.Fatal("expected to find needle in array element") } if got != "found" { t.Fatalf("got %v, want found", got) } } func TestSearchKey_NotFound(t *testing.T) { data := map[string]any{"foo": "bar"} if _, ok := searchKey(data, "missing"); ok { t.Fatal("expected ok=false for missing key") } } func TestSearchKey_OnScalar(t *testing.T) { if _, ok := searchKey(42, "anything"); ok { t.Fatal("expected ok=false searching on a scalar") } } func TestBuildXhttpExtra_IncludesClientSideFieldsWhenPresent(t *testing.T) { extra := buildXhttpExtra(map[string]any{ "path": "/xhttp", "host": "example.com", "mode": "packet-up", "xPaddingBytes": "100-1000", "uplinkHTTPMethod": "GET", "uplinkChunkSize": float64(4096), "noGRPCHeader": true, "scMinPostsIntervalMs": "20-40", "xmux": map[string]any{ "maxConcurrency": "16-32", "hMaxRequestTimes": "600-900", "hMaxReusableSecs": "1800-3000", "hKeepAlivePeriod": float64(15), }, "downloadSettings": map[string]any{ "network": "xhttp", }, "headers": map[string]any{ "Host": "ignored.example.com", "X-Forwarded": "1", "X-Test-Empty": "", }, }) if extra["path"] != nil || extra["host"] != nil { t.Fatalf("path/host should stay top-level, got extra %#v", extra) } for _, key := range []string{ "xPaddingBytes", "uplinkHTTPMethod", "uplinkChunkSize", "noGRPCHeader", "scMinPostsIntervalMs", "xmux", "downloadSettings", } { if _, ok := extra[key]; !ok { t.Fatalf("extra missing %q: %#v", key, extra) } } if _, ok := extra["mode"]; ok { t.Fatalf("mode should stay as a top-level query parameter, got extra %#v", extra) } headers, ok := extra["headers"].(map[string]any) if !ok { t.Fatalf("headers = %#v, want map", extra["headers"]) } if _, ok := headers["Host"]; ok { t.Fatalf("headers should not include Host: %#v", headers) } if headers["X-Forwarded"] != "1" { t.Fatalf("headers[X-Forwarded] = %#v, want 1", headers["X-Forwarded"]) } } func TestBuildXhttpExtra_LeavesDefaultClientSideFieldsOut(t *testing.T) { extra := buildXhttpExtra(map[string]any{ "uplinkHTTPMethod": "", "uplinkChunkSize": float64(0), "noGRPCHeader": false, "xmux": map[string]any{}, "downloadSettings": map[string]any{}, }) if extra != nil { t.Fatalf("default-only xhttp extra = %#v, want nil", extra) } } func TestCloneStringMap(t *testing.T) { src := map[string]string{"a": "1", "b": "2"} dst := cloneStringMap(src) if len(dst) != len(src) { t.Fatalf("clone length = %d, want %d", len(dst), len(src)) } for k, v := range src { if dst[k] != v { t.Fatalf("clone[%q] = %q, want %q", k, dst[k], v) } } dst["a"] = "changed" if src["a"] == "changed" { t.Fatal("modifying clone leaked into source") } } func TestCloneStringMap_Empty(t *testing.T) { dst := cloneStringMap(map[string]string{}) if dst == nil { t.Fatal("clone of empty map should not be nil") } if len(dst) != 0 { t.Fatalf("clone of empty map should be empty, got %v", dst) } } func TestGetHostFromXFH_HostOnly(t *testing.T) { got, err := getHostFromXFH("example.com") if err != nil { t.Fatalf("unexpected error: %v", err) } if got != "example.com" { t.Fatalf("got %q, want example.com", got) } } func TestGetHostFromXFH_HostWithPort(t *testing.T) { got, err := getHostFromXFH("example.com:8443") if err != nil { t.Fatalf("unexpected error: %v", err) } if got != "example.com" { t.Fatalf("got %q, want example.com", got) } } func TestGetHostFromXFH_IPv6WithPort(t *testing.T) { got, err := getHostFromXFH("[2606:4700::1111]:443") if err != nil { t.Fatalf("unexpected error: %v", err) } if got != "2606:4700::1111" { t.Fatalf("got %q, want 2606:4700::1111", got) } } func TestGetHostFromXFH_BadHostPort(t *testing.T) { if _, err := getHostFromXFH("example.com:8443:9999"); err == nil { t.Fatal("expected error for malformed host:port") } } func TestReadPositiveInt(t *testing.T) { cases := []struct { name string in any wantVal int wantOk bool }{ {"int_positive", int(5), 5, true}, {"int_zero", int(0), 0, false}, {"int_negative", int(-3), -3, false}, {"int32_positive", int32(7), 7, true}, {"int64_positive", int64(99), 99, true}, {"float64_positive", float64(12), 12, true}, {"float64_zero", float64(0.0), 0, false}, {"float64_negative", float64(-1.5), -1, false}, {"float32_positive", float32(3), 3, true}, {"string", "not a number", 0, false}, {"nil", nil, 0, false}, } for _, c := range cases { t.Run(c.name, func(t *testing.T) { gotVal, gotOk := readPositiveInt(c.in) if gotVal != c.wantVal || gotOk != c.wantOk { t.Fatalf("readPositiveInt(%v) = (%d, %v), want (%d, %v)", c.in, gotVal, gotOk, c.wantVal, c.wantOk) } }) } } func TestSetStringParam(t *testing.T) { p := map[string]string{"existing": "value"} setStringParam(p, "new", "hello") if p["new"] != "hello" { t.Fatalf("missing key after set: %v", p) } setStringParam(p, "existing", "") if _, ok := p["existing"]; ok { t.Fatalf("empty value should delete the key, got %v", p) } } func TestSetIntParam(t *testing.T) { p := map[string]string{"existing": "10"} setIntParam(p, "n", 42) if p["n"] != "42" { t.Fatalf("set positive int: got %v", p) } setIntParam(p, "existing", 0) if _, ok := p["existing"]; ok { t.Fatalf("zero value should delete the key, got %v", p) } p["other"] = "5" setIntParam(p, "other", -1) if _, ok := p["other"]; ok { t.Fatalf("negative value should delete the key, got %v", p) } } func TestSetStringField(t *testing.T) { f := map[string]any{"existing": "value"} setStringField(f, "new", "hello") if f["new"] != "hello" { t.Fatalf("missing key after set: %v", f) } setStringField(f, "existing", "") if _, ok := f["existing"]; ok { t.Fatalf("empty value should delete the key, got %v", f) } } func TestSetIntField(t *testing.T) { f := map[string]any{"existing": 10} setIntField(f, "n", 7) if f["n"] != 7 { t.Fatalf("set positive int: got %v", f) } setIntField(f, "existing", 0) if _, ok := f["existing"]; ok { t.Fatalf("zero value should delete the key, got %v", f) } } func TestBuildVmessLink(t *testing.T) { obj := map[string]any{ "v": "2", "ps": "remark", "add": "example.com", "port": 443, "net": "tcp", } link := buildVmessLink(obj) if !strings.HasPrefix(link, "vmess://") { t.Fatalf("missing vmess:// prefix: %q", link) } payload := strings.TrimPrefix(link, "vmess://") decoded, err := base64.StdEncoding.DecodeString(payload) if err != nil { t.Fatalf("base64 decode failed: %v", err) } var roundTrip map[string]any if err := json.Unmarshal(decoded, &roundTrip); err != nil { t.Fatalf("decoded payload is not JSON: %v\n%s", err, decoded) } if roundTrip["add"] != "example.com" { t.Fatalf("round-trip add = %v, want example.com", roundTrip["add"]) } if roundTrip["ps"] != "remark" { t.Fatalf("round-trip ps = %v, want remark", roundTrip["ps"]) } } func TestCloneVmessShareObj_CopiesEverythingByDefault(t *testing.T) { base := map[string]any{ "v": "2", "sni": "example.com", "alpn": "h2", "fp": "chrome", "net": "tcp", } out := cloneVmessShareObj(base, "tls") for _, key := range []string{"sni", "alpn", "fp", "net", "v"} { if _, ok := out[key]; !ok { t.Fatalf("expected key %q to be preserved when security=tls, got %v", key, out) } } } func TestCloneVmessShareObj_NoneStripsTLSOnlyKeys(t *testing.T) { base := map[string]any{ "v": "2", "sni": "example.com", "alpn": "h2", "fp": "chrome", "net": "tcp", } out := cloneVmessShareObj(base, "none") for _, key := range []string{"sni", "alpn", "fp"} { if _, ok := out[key]; ok { t.Fatalf("security=none should strip %q, got %v", key, out) } } if out["v"] != "2" || out["net"] != "tcp" { t.Fatalf("non-TLS keys should remain, got %v", out) } } func TestApplyExternalProxyTLSParams_UsesProxyDomainAndOverrides(t *testing.T) { params := map[string]string{ "security": "tls", "sni": "origin.example.com", "fp": "firefox", "alpn": "h2", } ep := map[string]any{ "dest": "proxy.example.com", "sni": "tls.example.com", "fingerprint": "chrome", "alpn": []any{"h3", "h2"}, } applyExternalProxyTLSParams(ep, params, "tls") if params["sni"] != "tls.example.com" { t.Fatalf("sni = %q, want tls.example.com", params["sni"]) } if params["fp"] != "chrome" { t.Fatalf("fp = %q, want chrome", params["fp"]) } if params["alpn"] != "h3,h2" { t.Fatalf("alpn = %q, want h3,h2", params["alpn"]) } } func TestApplyExternalProxyTLSParams_FallsBackToDestSNI(t *testing.T) { params := map[string]string{"security": "tls"} ep := map[string]any{"dest": "proxy.example.com"} applyExternalProxyTLSParams(ep, params, "tls") if params["sni"] != "proxy.example.com" { t.Fatalf("sni = %q, want proxy.example.com", params["sni"]) } } func TestApplyExternalProxyTLSToStream_DoesNotLeakAcrossProxies(t *testing.T) { stream := map[string]any{ "security": "tls", "tlsSettings": map[string]any{}, } proxies := []map[string]any{ {"dest": "a.example.com", "fingerprint": "chrome", "alpn": []any{"h3"}}, {"dest": "b.example.com"}, } results := make([]map[string]any, 0, len(proxies)) for _, ep := range proxies { working := cloneStreamForExternalProxy(stream) applyExternalProxyTLSToStream(ep, working, "tls") ts := working["tlsSettings"].(map[string]any) snapshot := map[string]any{ "serverName": ts["serverName"], "fingerprint": ts["fingerprint"], "alpn": ts["alpn"], } results = append(results, snapshot) } if results[0]["serverName"] != "a.example.com" || results[0]["fingerprint"] != "chrome" { t.Fatalf("proxy A snapshot = %v", results[0]) } if results[1]["serverName"] != "b.example.com" { t.Fatalf("proxy B serverName = %v, want b.example.com", results[1]["serverName"]) } if results[1]["fingerprint"] != nil { t.Fatalf("proxy B should inherit no fingerprint, got %v (leaked from A)", results[1]["fingerprint"]) } if results[1]["alpn"] != nil { t.Fatalf("proxy B should inherit no alpn, got %v (leaked from A)", results[1]["alpn"]) } } func TestApplyExternalProxyTLSParams_DoesNotApplyForNone(t *testing.T) { params := map[string]string{ "security": "none", "sni": "origin.example.com", } ep := map[string]any{ "dest": "proxy.example.com", "fingerprint": "chrome", "alpn": []any{"h3"}, } applyExternalProxyTLSParams(ep, params, "none") if params["sni"] != "origin.example.com" { t.Fatalf("sni should not change for security=none, got %q", params["sni"]) } if _, ok := params["fp"]; ok { t.Fatalf("fp should not be set for security=none, got %v", params) } if _, ok := params["alpn"]; ok { t.Fatalf("alpn should not be set for security=none, got %v", params) } } func TestExtractKcpShareFields_Defaults(t *testing.T) { stream := map[string]any{} got := extractKcpShareFields(stream) if got.headerType != "none" { t.Fatalf("default headerType = %q, want none", got.headerType) } if got.seed != "" || got.mtu != 0 || got.tti != 0 { t.Fatalf("default kcpShareFields should be zero except headerType, got %+v", got) } } func TestExtractKcpShareFields_ReadsAllFields(t *testing.T) { stream := map[string]any{ "kcpSettings": map[string]any{ "header": map[string]any{"type": "wechat-video"}, "seed": "secret-seed", "mtu": float64(1350), "tti": float64(50), }, } got := extractKcpShareFields(stream) if got.headerType != "wechat-video" { t.Fatalf("headerType = %q, want wechat-video", got.headerType) } if got.seed != "secret-seed" { t.Fatalf("seed = %q, want secret-seed", got.seed) } if got.mtu != 1350 { t.Fatalf("mtu = %d, want 1350", got.mtu) } if got.tti != 50 { t.Fatalf("tti = %d, want 50", got.tti) } } func TestKcpShareFields_ApplyToParams(t *testing.T) { params := map[string]string{} kcpShareFields{headerType: "wechat-video", seed: "s", mtu: 1350, tti: 50}.applyToParams(params) if params["headerType"] != "wechat-video" { t.Fatalf("headerType param = %q", params["headerType"]) } if params["seed"] != "s" { t.Fatalf("seed param = %q", params["seed"]) } if params["mtu"] != "1350" { t.Fatalf("mtu param = %q", params["mtu"]) } if params["tti"] != "50" { t.Fatalf("tti param = %q", params["tti"]) } } func TestKcpShareFields_ApplyToParams_NoneHeaderNotAdded(t *testing.T) { params := map[string]string{} kcpShareFields{headerType: "none"}.applyToParams(params) if _, ok := params["headerType"]; ok { t.Fatalf("headerType=none should not be added, got %v", params) } } func TestMarshalFinalMask_EmptyReturnsFalse(t *testing.T) { if _, ok := marshalFinalMask(map[string]any{}); ok { t.Fatal("expected ok=false for empty finalmask") } if _, ok := marshalFinalMask(nil); ok { t.Fatal("expected ok=false for nil finalmask") } } func TestMarshalFinalMask_WithContent(t *testing.T) { fm := map[string]any{ "tcp": []any{ map[string]any{"type": "fragment"}, }, } out, ok := marshalFinalMask(fm) if !ok { t.Fatal("expected ok=true for finalmask with valid tcp mask") } if !strings.Contains(out, `"tcp"`) { t.Fatalf("marshaled finalmask missing tcp key: %s", out) } if !strings.Contains(out, "fragment") { t.Fatalf("marshaled finalmask missing mask type: %s", out) } } func TestMarshalFinalMask_UnknownTypeIsDropped(t *testing.T) { fm := map[string]any{ "tcp": []any{ map[string]any{"type": "not-a-real-mask"}, }, } if _, ok := marshalFinalMask(fm); ok { t.Fatal("unknown mask types should be dropped, leaving nothing to marshal") } } func TestHasFinalMaskContent(t *testing.T) { if hasFinalMaskContent(nil) { t.Fatal("nil should not count as content") } if hasFinalMaskContent(map[string]any{}) { t.Fatal("empty map should not count as content") } if !hasFinalMaskContent(map[string]any{"x": 1}) { t.Fatal("non-empty map should count as content") } }