/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ "use strict"; const { TestUtils } = ChromeUtils.importESModule( "resource://testing-common/TestUtils.sys.mjs" ); let h2Port; let trrServer; function inChildProcess() { return Services.appinfo.processType != Ci.nsIXULRuntime.PROCESS_TYPE_DEFAULT; } add_setup(async function setup() { if (inChildProcess()) { return; } trr_test_setup(); h2Port = Services.env.get("MOZHTTP2_PORT"); Assert.notEqual(h2Port, null); Assert.notEqual(h2Port, ""); registerCleanupFunction(async () => { trr_clear_prefs(); Services.prefs.clearUserPref("network.dns.port_prefixed_qname_https_rr"); await trrServer.stop(); }); if (mozinfo.socketprocess_networking) { Services.dns; // Needed to trigger socket process. await TestUtils.waitForCondition(() => Services.io.socketProcessLaunched); } Services.prefs.setIntPref("network.trr.mode", 3); }); add_task(async function testHTTPSSVC() { // use the h2 server as DOH provider if (!inChildProcess()) { Services.prefs.setCharPref( "network.trr.uri", "https://foo.example.com:" + h2Port + "/httpssvc" ); } let { inRecord } = await new TRRDNSListener("test.httpssvc.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, }); let answer = inRecord.QueryInterface(Ci.nsIDNSHTTPSSVCRecord).records; Assert.equal(answer[0].priority, 1); Assert.equal(answer[0].name, "h3pool"); Assert.equal(answer[0].values.length, 7); Assert.deepEqual( answer[0].values[0].QueryInterface(Ci.nsISVCParamAlpn).alpn, ["h2", "h3"], "got correct answer" ); Assert.ok( answer[0].values[1].QueryInterface(Ci.nsISVCParamNoDefaultAlpn), "got correct answer" ); Assert.equal( answer[0].values[2].QueryInterface(Ci.nsISVCParamPort).port, 8888, "got correct answer" ); Assert.equal( answer[0].values[3].QueryInterface(Ci.nsISVCParamIPv4Hint).ipv4Hint[0] .address, "1.2.3.4", "got correct answer" ); Assert.equal( answer[0].values[4].QueryInterface(Ci.nsISVCParamEchConfig).echconfig, "123...", "got correct answer" ); Assert.equal( answer[0].values[5].QueryInterface(Ci.nsISVCParamIPv6Hint).ipv6Hint[0] .address, "::1", "got correct answer" ); Assert.equal( answer[0].values[6].QueryInterface(Ci.nsISVCParamODoHConfig).ODoHConfig, "456...", "got correct answer" ); Assert.equal(answer[1].priority, 2); Assert.equal(answer[1].name, "test.httpssvc.com"); Assert.equal(answer[1].values.length, 5); Assert.deepEqual( answer[1].values[0].QueryInterface(Ci.nsISVCParamAlpn).alpn, ["h2"], "got correct answer" ); Assert.equal( answer[1].values[1].QueryInterface(Ci.nsISVCParamIPv4Hint).ipv4Hint[0] .address, "1.2.3.4", "got correct answer" ); Assert.equal( answer[1].values[1].QueryInterface(Ci.nsISVCParamIPv4Hint).ipv4Hint[1] .address, "5.6.7.8", "got correct answer" ); Assert.equal( answer[1].values[2].QueryInterface(Ci.nsISVCParamEchConfig).echconfig, "abc...", "got correct answer" ); Assert.equal( answer[1].values[3].QueryInterface(Ci.nsISVCParamIPv6Hint).ipv6Hint[0] .address, "::1", "got correct answer" ); Assert.equal( answer[1].values[3].QueryInterface(Ci.nsISVCParamIPv6Hint).ipv6Hint[1] .address, "fe80::794f:6d2c:3d5e:7836", "got correct answer" ); Assert.equal( answer[1].values[4].QueryInterface(Ci.nsISVCParamODoHConfig).ODoHConfig, "def...", "got correct answer" ); Assert.equal(answer[2].priority, 3); Assert.equal(answer[2].name, "hello"); Assert.equal(answer[2].values.length, 0); }); add_task(async function test_aliasform() { trrServer = new TRRServer(); await trrServer.start(); dump(`port = ${trrServer.port()}\n`); if (inChildProcess()) { do_send_remote_message("mode3-port", trrServer.port()); await do_await_remote_message("mode3-port-done"); } else { Services.prefs.setIntPref("network.trr.mode", 3); Services.prefs.setCharPref( "network.trr.uri", `https://foo.example.com:${trrServer.port()}/dns-query` ); } // Make sure that HTTPS AliasForm is only treated as a CNAME for HTTPS requests await trrServer.registerDoHAnswers("test1.com", "A", { answers: [ { name: "test1.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "something1.com", values: [], }, }, ], }); await trrServer.registerDoHAnswers("something1.com", "A", { answers: [ { name: "something1.com", ttl: 55, type: "A", flush: false, data: "1.2.3.4", }, ], }); { let { inStatus } = await new TRRDNSListener("test1.com", { expectedSuccess: false, }); Assert.ok( !Components.isSuccessCode(inStatus), `${inStatus} should be an error code` ); } // Test that HTTPS priority = 0 (AliasForm) behaves like a CNAME await trrServer.registerDoHAnswers("test.com", "HTTPS", { answers: [ { name: "test.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "something.com", values: [], }, }, ], }); await trrServer.registerDoHAnswers("something.com", "HTTPS", { answers: [ { name: "something.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [{ key: "alpn", value: ["h2", "h3"] }], }, }, ], }); { let { inStatus, inRecord } = await new TRRDNSListener("test.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, }); Assert.ok(Components.isSuccessCode(inStatus), `${inStatus} should succeed`); let answer = inRecord.QueryInterface(Ci.nsIDNSHTTPSSVCRecord).records; Assert.equal(answer[0].priority, 1); Assert.equal(answer[0].name, "h3pool"); } // Test a chain of HTTPSSVC AliasForm and CNAMEs await trrServer.registerDoHAnswers("x.com", "HTTPS", { answers: [ { name: "x.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "y.com", values: [], }, }, ], }); await trrServer.registerDoHAnswers("y.com", "HTTPS", { answers: [ { name: "y.com", type: "CNAME", ttl: 55, class: "IN", flush: false, data: "z.com", }, ], }); await trrServer.registerDoHAnswers("z.com", "HTTPS", { answers: [ { name: "z.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "target.com", values: [], }, }, ], }); await trrServer.registerDoHAnswers("target.com", "HTTPS", { answers: [ { name: "target.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [{ key: "alpn", value: ["h2", "h3"] }], }, }, ], }); let { inStatus, inRecord } = await new TRRDNSListener("x.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, }); Assert.ok(Components.isSuccessCode(inStatus), `${inStatus} should succeed`); let answer = inRecord.QueryInterface(Ci.nsIDNSHTTPSSVCRecord).records; Assert.equal(answer[0].priority, 1); Assert.equal(answer[0].name, "h3pool"); // We get a ServiceForm instead of a A answer, CNAME or AliasForm await trrServer.registerDoHAnswers("no-ip-host.com", "A", { answers: [ { name: "no-ip-host.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [ { key: "alpn", value: ["h2", "h3"] }, { key: "no-default-alpn" }, { key: "port", value: 8888 }, { key: "ipv4hint", value: "1.2.3.4" }, { key: "echconfig", value: "123..." }, { key: "ipv6hint", value: "::1" }, ], }, }, ], }); ({ inStatus } = await new TRRDNSListener("no-ip-host.com", { expectedSuccess: false, })); Assert.ok( !Components.isSuccessCode(inStatus), `${inStatus} should be an error code` ); // Test CNAME/AliasForm loop await trrServer.registerDoHAnswers("loop.com", "HTTPS", { answers: [ { name: "loop.com", type: "CNAME", ttl: 55, class: "IN", flush: false, data: "loop2.com", }, ], }); await trrServer.registerDoHAnswers("loop2.com", "HTTPS", { answers: [ { name: "loop2.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "loop.com", values: [], }, }, ], }); // Make sure these are the first requests Assert.equal(await trrServer.requestCount("loop.com", "HTTPS"), 0); Assert.equal(await trrServer.requestCount("loop2.com", "HTTPS"), 0); ({ inStatus } = await new TRRDNSListener("loop.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, })); Assert.ok( !Components.isSuccessCode(inStatus), `${inStatus} should be an error code` ); // Make sure the error was actually triggered by a loop. Assert.greater(await trrServer.requestCount("loop.com", "HTTPS"), 2); Assert.greater(await trrServer.requestCount("loop2.com", "HTTPS"), 2); // Alias form for . await trrServer.registerDoHAnswers("empty.com", "A", { answers: [ { name: "empty.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "", // This is not allowed values: [], }, }, ], }); ({ inStatus } = await new TRRDNSListener("empty.com", { expectedSuccess: false, })); Assert.ok( !Components.isSuccessCode(inStatus), `${inStatus} should be an error code` ); // We should ignore ServiceForm if an AliasForm record is also present await trrServer.registerDoHAnswers("multi.com", "HTTPS", { answers: [ { name: "multi.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [ { key: "alpn", value: ["h2", "h3"] }, { key: "no-default-alpn" }, { key: "port", value: 8888 }, { key: "ipv4hint", value: "1.2.3.4" }, { key: "echconfig", value: "123..." }, { key: "ipv6hint", value: "::1" }, ], }, }, { name: "multi.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: "example.com", values: [], }, }, ], }); let { inStatus: inStatus2 } = await new TRRDNSListener("multi.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, }); Assert.ok( !Components.isSuccessCode(inStatus2), `${inStatus2} should be an error code` ); // the svcparam keys are in reverse order await trrServer.registerDoHAnswers("order.com", "HTTPS", { answers: [ { name: "order.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [ { key: "ipv6hint", value: "::1" }, { key: "echconfig", value: "123..." }, { key: "ipv4hint", value: "1.2.3.4" }, { key: "port", value: 8888 }, { key: "no-default-alpn" }, { key: "alpn", value: ["h2", "h3"] }, ], }, }, ], }); ({ inStatus: inStatus2 } = await new TRRDNSListener("order.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, })); Assert.ok( !Components.isSuccessCode(inStatus2), `${inStatus2} should be an error code` ); // duplicate svcparam keys await trrServer.registerDoHAnswers("duplicate.com", "HTTPS", { answers: [ { name: "duplicate.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [ { key: "alpn", value: ["h2", "h3"] }, { key: "alpn", value: ["h2", "h3", "h4"] }, ], }, }, ], }); ({ inStatus: inStatus2 } = await new TRRDNSListener("duplicate.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, })); Assert.ok( !Components.isSuccessCode(inStatus2), `${inStatus2} should be an error code` ); // mandatory svcparam await trrServer.registerDoHAnswers("mandatory.com", "HTTPS", { answers: [ { name: "mandatory.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [ { key: "mandatory", value: ["key100"] }, { key: "alpn", value: ["h2", "h3"] }, { key: "key100" }, ], }, }, ], }); ({ inStatus: inStatus2 } = await new TRRDNSListener("mandatory.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, })); Assert.ok(!Components.isSuccessCode(inStatus2), `${inStatus2} should fail`); // mandatory svcparam await trrServer.registerDoHAnswers("mandatory2.com", "HTTPS", { answers: [ { name: "mandatory2.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "h3pool", values: [ { key: "mandatory", value: [ "alpn", "no-default-alpn", "port", "ipv4hint", "echconfig", "ipv6hint", ], }, { key: "alpn", value: ["h2", "h3"] }, { key: "no-default-alpn" }, { key: "port", value: 8888 }, { key: "ipv4hint", value: "1.2.3.4" }, { key: "echconfig", value: "123..." }, { key: "ipv6hint", value: "::1" }, ], }, }, ], }); ({ inStatus: inStatus2 } = await new TRRDNSListener("mandatory2.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, })); Assert.ok(Components.isSuccessCode(inStatus2), `${inStatus2} should succeed`); // alias-mode with . targetName await trrServer.registerDoHAnswers("no-alias.com", "HTTPS", { answers: [ { name: "no-alias.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 0, name: ".", values: [], }, }, ], }); ({ inStatus: inStatus2 } = await new TRRDNSListener("no-alias.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, })); Assert.ok(!Components.isSuccessCode(inStatus2), `${inStatus2} should fail`); // service-mode with . targetName await trrServer.registerDoHAnswers("service.com", "HTTPS", { answers: [ { name: "service.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: ".", values: [{ key: "alpn", value: ["h2", "h3"] }], }, }, ], }); ({ inRecord, inStatus: inStatus2 } = await new TRRDNSListener("service.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, })); Assert.ok(Components.isSuccessCode(inStatus2), `${inStatus2} should work`); answer = inRecord.QueryInterface(Ci.nsIDNSHTTPSSVCRecord).records; Assert.equal(answer[0].priority, 1); Assert.equal(answer[0].name, "service.com"); }); add_task(async function testNegativeResponse() { let { inStatus } = await new TRRDNSListener("negative_test.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, }); Assert.ok( !Components.isSuccessCode(inStatus), `${inStatus} should be an error code` ); await trrServer.registerDoHAnswers("negative_test.com", "HTTPS", { answers: [ { name: "negative_test.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "negative_test.com", values: [{ key: "alpn", value: ["h2", "h3"] }], }, }, ], }); // Should still be failed because a negative response is from DNS cache. ({ inStatus } = await new TRRDNSListener("negative_test.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, expectedSuccess: false, })); Assert.ok( !Components.isSuccessCode(inStatus), `${inStatus} should be an error code` ); if (inChildProcess()) { do_send_remote_message("clearCache"); await do_await_remote_message("clearCache-done"); } else { Services.dns.clearCache(true); } let inRecord; ({ inRecord, inStatus } = await new TRRDNSListener("negative_test.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, })); Assert.ok(Components.isSuccessCode(inStatus), `${inStatus} should work`); let answer = inRecord.QueryInterface(Ci.nsIDNSHTTPSSVCRecord).records; Assert.equal(answer[0].priority, 1); Assert.equal(answer[0].name, "negative_test.com"); }); add_task(async function testPortPrefixedName() { if (inChildProcess()) { do_send_remote_message("set-port-prefixed-pref"); await do_await_remote_message("set-port-prefixed-pref-done"); } else { Services.prefs.setBoolPref( "network.dns.port_prefixed_qname_https_rr", true ); } await trrServer.registerDoHAnswers( "_4433._https.port_prefix.test.com", "HTTPS", { answers: [ { name: "_4433._https.port_prefix.test.com", ttl: 55, type: "HTTPS", flush: false, data: { priority: 1, name: "port_prefix.test1.com", values: [{ key: "alpn", value: ["h2", "h3"] }], }, }, ], } ); let { inRecord, inStatus } = await new TRRDNSListener( "port_prefix.test.com", { type: Ci.nsIDNSService.RESOLVE_TYPE_HTTPSSVC, port: 4433, } ); Assert.ok(Components.isSuccessCode(inStatus), `${inStatus} should work`); let answer = inRecord.QueryInterface(Ci.nsIDNSHTTPSSVCRecord).records; Assert.equal(answer[0].priority, 1); Assert.equal(answer[0].name, "port_prefix.test1.com"); await trrServer.stop(); });