package dnsfilter import ( "archive/zip" "bytes" "io/ioutil" "net/http" "net/http/httptest" "path" "runtime/pprof" "strings" "testing" "time" "bufio" "fmt" "os" "runtime" "github.com/shirou/gopsutil/process" "go.uber.org/goleak" ) // first in file because it must be run first func TestLotsOfRulesMemoryUsage(t *testing.T) { start := getRSS() trace("RSS before loading rules - %d kB\n", start/1024) dumpMemProfile(_Func() + "1.pprof") d := NewForTest() defer d.Destroy() err := loadTestRules(d) if err != nil { t.Error(err) } afterLoad := getRSS() trace("RSS after loading rules - %d kB (%d kB diff)\n", afterLoad/1024, (afterLoad-start)/1024) dumpMemProfile(_Func() + "2.pprof") tests := []struct { host string match bool }{ {"asdasdasd_adsajdasda_asdasdjashdkasdasdasdasd_adsajdasda_asdasdjashdkasd.thisistesthost.com", false}, {"asdasdasd_adsajdasda_asdasdjashdkasdasdasdasd_adsajdasda_asdasdjashdkasd.ad.doubleclick.net", true}, } for _, testcase := range tests { ret, err := d.CheckHost(testcase.host) if err != nil { t.Errorf("Error while matching host %s: %s", testcase.host, err) } if !ret.IsFiltered && ret.IsFiltered != testcase.match { t.Errorf("Expected hostname %s to not match", testcase.host) } if ret.IsFiltered && ret.IsFiltered != testcase.match { t.Errorf("Expected hostname %s to match", testcase.host) } } afterMatch := getRSS() trace("RSS after matching - %d kB (%d kB diff)\n", afterMatch/1024, (afterMatch-afterLoad)/1024) dumpMemProfile(_Func() + "3.pprof") } func getRSS() uint64 { proc, err := process.NewProcess(int32(os.Getpid())) if err != nil { panic(err) } minfo, err := proc.MemoryInfo() return minfo.RSS } func dumpMemProfile(name string) { runtime.GC() f, err := os.Create(name) if err != nil { panic(err) } defer f.Close() runtime.GC() // update the stats before writing them err = pprof.WriteHeapProfile(f) if err != nil { panic(err) } } const topHostsFilename = "../tests/top-1m.csv" func fetchTopHostsFromNet() { trace("Fetching top hosts from network") resp, err := http.Get("http://s3-us-west-1.amazonaws.com/umbrella-static/top-1m.csv.zip") if err != nil { panic(err) } defer resp.Body.Close() trace("Reading zipfile body") zipfile, err := ioutil.ReadAll(resp.Body) if err != nil { panic(err) } trace("Opening zipfile") r, err := zip.NewReader(bytes.NewReader(zipfile), int64(len(zipfile))) if err != nil { panic(err) } if len(r.File) != 1 { panic(fmt.Errorf("zipfile must have only one entry: %+v", r)) } f := r.File[0] trace("Unpacking file %s from zipfile", f.Name) rc, err := f.Open() if err != nil { panic(err) } trace("Reading file %s contents", f.Name) body, err := ioutil.ReadAll(rc) if err != nil { panic(err) } rc.Close() trace("Writing file %s contents to disk", f.Name) err = ioutil.WriteFile(topHostsFilename+".tmp", body, 0644) if err != nil { panic(err) } err = os.Rename(topHostsFilename+".tmp", topHostsFilename) if err != nil { panic(err) } } func getTopHosts() { // if file doesn't exist, fetch it if _, err := os.Stat(topHostsFilename); os.IsNotExist(err) { // file does not exist, fetch it fetchTopHostsFromNet() } } func TestLotsOfRulesLotsOfHostsMemoryUsage(t *testing.T) { start := getRSS() trace("RSS before loading rules - %d kB\n", start/1024) dumpMemProfile(_Func() + "1.pprof") d := NewForTest() defer d.Destroy() mustLoadTestRules(d) trace("Have %d rules", d.Count()) afterLoad := getRSS() trace("RSS after loading rules - %d kB (%d kB diff)\n", afterLoad/1024, (afterLoad-start)/1024) dumpMemProfile(_Func() + "2.pprof") getTopHosts() hostnames, err := os.Open(topHostsFilename) if err != nil { t.Fatal(err) } defer hostnames.Close() afterHosts := getRSS() trace("RSS after loading hosts - %d kB (%d kB diff)\n", afterHosts/1024, (afterHosts-afterLoad)/1024) dumpMemProfile(_Func() + "2.pprof") { scanner := bufio.NewScanner(hostnames) for scanner.Scan() { line := scanner.Text() records := strings.Split(line, ",") ret, err := d.CheckHost(records[1] + "." + records[1]) if err != nil { t.Error(err) } if ret.Reason.Matched() { // log.Printf("host \"%s\" mathed. Rule \"%s\", reason: %v", host, ret.Rule, ret.Reason) } } } afterMatch := getRSS() trace("RSS after matching - %d kB (%d kB diff)\n", afterMatch/1024, (afterMatch-afterLoad)/1024) dumpMemProfile(_Func() + "3.pprof") } func TestRuleToRegexp(t *testing.T) { tests := []struct { rule string result string err error }{ {"/doubleclick/", "doubleclick", nil}, {"/", "", ErrInvalidSyntax}, {`|double*?.+[]|(){}#$\|`, `^double.*\?\.\+\[\]\|\(\)\{\}\#\$\\$`, nil}, {`||doubleclick.net^`, `(?:^|\.)doubleclick\.net$`, nil}, } for _, testcase := range tests { converted, err := ruleToRegexp(testcase.rule) if err != testcase.err { t.Error("Errors do not match, got ", err, " expected ", testcase.err) } if converted != testcase.result { t.Error("Results do not match, got ", converted, " expected ", testcase.result) } } } func TestSuffixRule(t *testing.T) { for _, testcase := range []struct { rule string isSuffix bool suffix string }{ {`||doubleclick.net^`, true, `doubleclick.net`}, // entire string or subdomain match {`||doubleclick.net|`, true, `doubleclick.net`}, // entire string or subdomain match {`|doubleclick.net^`, false, ``}, // TODO: ends with doubleclick.net {`*doubleclick.net^`, false, ``}, // TODO: ends with doubleclick.net {`doubleclick.net^`, false, ``}, // TODO: ends with doubleclick.net {`|*doubleclick.net^`, false, ``}, // TODO: ends with doubleclick.net {`||*doubleclick.net^`, false, ``}, // TODO: ends with doubleclick.net {`||*doubleclick.net|`, false, ``}, // TODO: ends with doubleclick.net {`||*doublec*lick.net^`, false, ``}, // has a wildcard inside, has to be regexp {`||*doublec|lick.net^`, false, ``}, // has a special symbol inside, has to be regexp {`/abracadabra/`, false, ``}, // regexp, not anchored {`/abracadabra$/`, false, ``}, // TODO: simplify simple suffix regexes } { isSuffix, suffix := getSuffix(testcase.rule) if testcase.isSuffix != isSuffix { t.Errorf("Results do not match for \"%s\": got %v expected %v", testcase.rule, isSuffix, testcase.isSuffix) continue } if testcase.isSuffix && testcase.suffix != suffix { t.Errorf("Result suffix does not match for \"%s\": got \"%s\" expected \"%s\"", testcase.rule, suffix, testcase.suffix) continue } // trace("\"%s\": %v: %s", testcase.rule, isSuffix, suffix) } } // // helper functions // func (d *Dnsfilter) checkAddRule(t *testing.T, rule string) { t.Helper() err := d.AddRule(rule, 0) if err == nil { // nothing to report return } if err == ErrInvalidSyntax { t.Errorf("This rule has invalid syntax: %s", rule) } if err != nil { t.Errorf("Error while adding rule %s: %s", rule, err) } } func (d *Dnsfilter) checkAddRuleFail(t *testing.T, rule string) { t.Helper() err := d.AddRule(rule, 0) if err == ErrInvalidSyntax || err == ErrAlreadyExists { return } if err != nil { t.Errorf("Error while adding rule %s: %s", rule, err) } t.Errorf("Adding this rule should have failed: %s", rule) } func (d *Dnsfilter) checkMatch(t *testing.T, hostname string) { t.Helper() ret, err := d.CheckHost(hostname) if err != nil { t.Errorf("Error while matching host %s: %s", hostname, err) } if !ret.IsFiltered { t.Errorf("Expected hostname %s to match", hostname) } } func (d *Dnsfilter) checkMatchIp(t *testing.T, hostname string, ip string) { t.Helper() ret, err := d.CheckHost(hostname) if err != nil { t.Errorf("Error while matching host %s: %s", hostname, err) } if !ret.IsFiltered { t.Errorf("Expected hostname %s to match", hostname) } if ret.Ip == nil || ret.Ip.String() != ip { t.Errorf("Expected ip %s to match, actual: %v", ip, ret.Ip) } } func (d *Dnsfilter) checkMatchEmpty(t *testing.T, hostname string) { t.Helper() ret, err := d.CheckHost(hostname) if err != nil { t.Errorf("Error while matching host %s: %s", hostname, err) } if ret.IsFiltered { t.Errorf("Expected hostname %s to not match", hostname) } } func loadTestRules(d *Dnsfilter) error { filterFileName := "../tests/dns.txt" file, err := os.Open(filterFileName) if err != nil { return err } defer file.Close() scanner := bufio.NewScanner(file) for scanner.Scan() { rule := scanner.Text() err = d.AddRule(rule, 0) if err == ErrInvalidSyntax || err == ErrAlreadyExists { continue } if err != nil { return err } } err = scanner.Err() return err } func mustLoadTestRules(d *Dnsfilter) { err := loadTestRules(d) if err != nil { panic(err) } } func NewForTest() *Dnsfilter { d := New() purgeCaches() return d } // // tests // func TestSanityCheck(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "||doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatch(t, "www.doubleclick.net") d.checkMatchEmpty(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") d.checkMatchEmpty(t, "wmconvirus.narod.ru") d.checkAddRuleFail(t, "lkfaojewhoawehfwacoefawr$@#$@3413841384") } func TestEtcHostsMatching(t *testing.T) { d := NewForTest() defer d.Destroy() addr := "216.239.38.120" text := fmt.Sprintf(" %s google.com www.google.com # enforce google's safesearch ", addr) d.checkAddRule(t, text) d.checkMatchIp(t, "google.com", addr) d.checkMatchIp(t, "www.google.com", addr) d.checkMatchEmpty(t, "subdomain.google.com") d.checkMatchEmpty(t, "example.org") } func TestSuffixMatching1(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "||doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatch(t, "www.doubleclick.net") d.checkMatchEmpty(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") } func TestSuffixMatching2(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "|doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatchEmpty(t, "www.doubleclick.net") d.checkMatchEmpty(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") } func TestSuffixMatching3(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatch(t, "www.doubleclick.net") d.checkMatch(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") } func TestSuffixMatching4(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "*doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatch(t, "www.doubleclick.net") d.checkMatch(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") } func TestSuffixMatching5(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "|*doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatch(t, "www.doubleclick.net") d.checkMatch(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") } func TestSuffixMatching6(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "||*doubleclick.net^") d.checkMatch(t, "doubleclick.net") d.checkMatch(t, "www.doubleclick.net") d.checkMatch(t, "nodoubleclick.net") d.checkMatchEmpty(t, "doubleclick.net.ru") } func TestCount(t *testing.T) { d := NewForTest() defer d.Destroy() err := loadTestRules(d) if err != nil { t.Fatal(err) } count := d.Count() expected := 12747 if count != expected { t.Fatalf("Number of rules parsed should be %d, but it is %d\n", expected, count) } } func TestDnsFilterBlocking(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "||example.org^") d.checkMatch(t, "example.org") d.checkMatch(t, "test.example.org") d.checkMatch(t, "test.test.example.org") d.checkMatchEmpty(t, "testexample.org") d.checkMatchEmpty(t, "onemoreexample.org") } func TestDnsFilterWhitelist(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "||example.org^") d.checkAddRule(t, "@@||test.example.org") d.checkMatch(t, "example.org") d.checkMatchEmpty(t, "test.example.org") d.checkMatchEmpty(t, "test.test.example.org") d.checkAddRule(t, "||googleadapis.l.google.com^|") d.checkMatch(t, "googleadapis.l.google.com") d.checkMatch(t, "test.googleadapis.l.google.com") d.checkAddRule(t, "@@||googleadapis.l.google.com|") d.checkMatchEmpty(t, "googleadapis.l.google.com") d.checkMatchEmpty(t, "test.googleadapis.l.google.com") } func TestDnsFilterImportant(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "@@||example.org^") d.checkAddRule(t, "||test.example.org^$important") d.checkMatchEmpty(t, "example.org") d.checkMatch(t, "test.example.org") d.checkMatch(t, "test.test.example.org") d.checkMatchEmpty(t, "testexample.org") d.checkMatchEmpty(t, "onemoreexample.org") } func TestDnsFilterRegexrule(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "/example\\.org/") d.checkAddRule(t, "@@||test.example.org^") d.checkMatch(t, "example.org") d.checkMatchEmpty(t, "test.example.org") d.checkMatchEmpty(t, "test.test.example.org") d.checkMatch(t, "testexample.org") d.checkMatch(t, "onemoreexample.org") } func TestDomainMask(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRule(t, "test*.example.org^") d.checkAddRule(t, "exam*.com") d.checkMatch(t, "test.example.org") d.checkMatch(t, "test2.example.org") d.checkMatch(t, "example.com") d.checkMatch(t, "exampleeee.com") d.checkMatchEmpty(t, "example.org") d.checkMatchEmpty(t, "testexample.org") d.checkMatchEmpty(t, "example.co.uk") } func TestAddRuleFail(t *testing.T) { d := NewForTest() defer d.Destroy() d.checkAddRuleFail(t, "lkfaojewhoawehfwacoefawr$@#$@3413841384") } func TestSafeBrowsing(t *testing.T) { testCases := []string{ "", "sb.adtidy.org", } for _, tc := range testCases { t.Run(fmt.Sprintf("%s in %s", tc, _Func()), func(t *testing.T) { d := NewForTest() defer d.Destroy() d.EnableSafeBrowsing() stats.Safebrowsing.Requests = 0 d.checkMatch(t, "wmconvirus.narod.ru") d.checkMatch(t, "wmconvirus.narod.ru") if stats.Safebrowsing.Requests != 1 { t.Errorf("Safebrowsing lookup positive cache is not working: %v", stats.Safebrowsing.Requests) } d.checkMatch(t, "WMconvirus.narod.ru") if stats.Safebrowsing.Requests != 1 { t.Errorf("Safebrowsing lookup positive cache is not working: %v", stats.Safebrowsing.Requests) } d.checkMatch(t, "wmconvirus.narod.ru.") d.checkMatch(t, "test.wmconvirus.narod.ru") d.checkMatch(t, "test.wmconvirus.narod.ru.") d.checkMatchEmpty(t, "yandex.ru") d.checkMatchEmpty(t, "pornhub.com") l := stats.Safebrowsing.Requests d.checkMatchEmpty(t, "pornhub.com") if stats.Safebrowsing.Requests != l { t.Errorf("Safebrowsing lookup negative cache is not working: %v", stats.Safebrowsing.Requests) } }) } } func TestParallelSB(t *testing.T) { d := NewForTest() defer d.Destroy() d.EnableSafeBrowsing() t.Run("group", func(t *testing.T) { for i := 0; i < 100; i++ { t.Run(fmt.Sprintf("aaa%d", i), func(t *testing.T) { t.Parallel() d.checkMatch(t, "wmconvirus.narod.ru") d.checkMatch(t, "wmconvirus.narod.ru.") d.checkMatch(t, "test.wmconvirus.narod.ru") d.checkMatch(t, "test.wmconvirus.narod.ru.") d.checkMatchEmpty(t, "yandex.ru") d.checkMatchEmpty(t, "pornhub.com") }) } }) } // the only way to verify that custom server option is working is to point it at a server that does serve safebrowsing func TestSafeBrowsingCustomServerFail(t *testing.T) { d := NewForTest() defer d.Destroy() ts := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) { // w.Write("Hello, client") fmt.Fprintln(w, "Hello, client") })) defer ts.Close() address := ts.Listener.Addr().String() d.EnableSafeBrowsing() d.SetHTTPTimeout(time.Second * 5) d.SetSafeBrowsingServer(address) // this will ensure that test fails d.checkMatchEmpty(t, "wmconvirus.narod.ru") } func TestParentalControl(t *testing.T) { d := NewForTest() defer d.Destroy() d.EnableParental(3) d.checkMatch(t, "pornhub.com") d.checkMatch(t, "pornhub.com") if stats.Parental.Requests != 1 { t.Errorf("Parental lookup positive cache is not working") } d.checkMatch(t, "PORNhub.com") if stats.Parental.Requests != 1 { t.Errorf("Parental lookup positive cache is not working") } d.checkMatch(t, "www.pornhub.com") d.checkMatch(t, "pornhub.com.") d.checkMatch(t, "www.pornhub.com.") d.checkMatchEmpty(t, "www.yandex.ru") d.checkMatchEmpty(t, "yandex.ru") l := stats.Parental.Requests d.checkMatchEmpty(t, "yandex.ru") if stats.Parental.Requests != l { t.Errorf("Parental lookup negative cache is not working") } d.checkMatchEmpty(t, "api.jquery.com") } func TestSafeSearch(t *testing.T) { d := NewForTest() defer d.Destroy() _, ok := d.SafeSearchDomain("www.google.com") if ok { t.Errorf("Expected safesearch to error when disabled") } d.EnableSafeSearch() val, ok := d.SafeSearchDomain("www.google.com") if !ok { t.Errorf("Expected safesearch to find result for www.google.com") } if val != "forcesafesearch.google.com" { t.Errorf("Expected safesearch for google.com to be forcesafesearch.google.com") } } // // parametrized testing // var blockingRules = []string{"||example.org^"} var whitelistRules = []string{"||example.org^", "@@||test.example.org"} var importantRules = []string{"@@||example.org^", "||test.example.org^$important"} var regexRules = []string{"/example\\.org/", "@@||test.example.org^"} var maskRules = []string{"test*.example.org^", "exam*.com"} var tests = []struct { testname string rules []string hostname string isFiltered bool reason Reason }{ {"sanity", []string{"||doubleclick.net^"}, "www.doubleclick.net", true, FilteredBlackList}, {"sanity", []string{"||doubleclick.net^"}, "nodoubleclick.net", false, NotFilteredNotFound}, {"sanity", []string{"||doubleclick.net^"}, "doubleclick.net.ru", false, NotFilteredNotFound}, {"sanity", []string{"||doubleclick.net^"}, "wmconvirus.narod.ru", false, NotFilteredNotFound}, {"blocking", blockingRules, "example.org", true, FilteredBlackList}, {"blocking", blockingRules, "test.example.org", true, FilteredBlackList}, {"blocking", blockingRules, "test.test.example.org", true, FilteredBlackList}, {"blocking", blockingRules, "testexample.org", false, NotFilteredNotFound}, {"blocking", blockingRules, "onemoreexample.org", false, NotFilteredNotFound}, {"whitelist", whitelistRules, "example.org", true, FilteredBlackList}, {"whitelist", whitelistRules, "test.example.org", false, NotFilteredWhiteList}, {"whitelist", whitelistRules, "test.test.example.org", false, NotFilteredWhiteList}, {"whitelist", whitelistRules, "testexample.org", false, NotFilteredNotFound}, {"whitelist", whitelistRules, "onemoreexample.org", false, NotFilteredNotFound}, {"important", importantRules, "example.org", false, NotFilteredWhiteList}, {"important", importantRules, "test.example.org", true, FilteredBlackList}, {"important", importantRules, "test.test.example.org", true, FilteredBlackList}, {"important", importantRules, "testexample.org", false, NotFilteredNotFound}, {"important", importantRules, "onemoreexample.org", false, NotFilteredNotFound}, {"regex", regexRules, "example.org", true, FilteredBlackList}, {"regex", regexRules, "test.example.org", false, NotFilteredWhiteList}, {"regex", regexRules, "test.test.example.org", false, NotFilteredWhiteList}, {"regex", regexRules, "testexample.org", true, FilteredBlackList}, {"regex", regexRules, "onemoreexample.org", true, FilteredBlackList}, {"mask", maskRules, "test.example.org", true, FilteredBlackList}, {"mask", maskRules, "test2.example.org", true, FilteredBlackList}, {"mask", maskRules, "example.com", true, FilteredBlackList}, {"mask", maskRules, "exampleeee.com", true, FilteredBlackList}, {"mask", maskRules, "onemoreexamsite.com", true, FilteredBlackList}, {"mask", maskRules, "example.org", false, NotFilteredNotFound}, {"mask", maskRules, "testexample.org", false, NotFilteredNotFound}, {"mask", maskRules, "example.co.uk", false, NotFilteredNotFound}, } func TestMatching(t *testing.T) { for _, test := range tests { t.Run(fmt.Sprintf("%s-%s", test.testname, test.hostname), func(t *testing.T) { d := NewForTest() defer d.Destroy() for _, rule := range test.rules { err := d.AddRule(rule, 0) if err != nil { t.Fatal(err) } } ret, err := d.CheckHost(test.hostname) if err != nil { t.Errorf("Error while matching host %s: %s", test.hostname, err) } if ret.IsFiltered != test.isFiltered { t.Errorf("Hostname %s has wrong result (%v must be %v)", test.hostname, ret.IsFiltered, test.isFiltered) } if ret.Reason != test.reason { t.Errorf("Hostname %s has wrong reason (%v must be %v)", test.hostname, ret.Reason.String(), test.reason.String()) } }) } } // // benchmarks // func BenchmarkAddRule(b *testing.B) { d := NewForTest() defer d.Destroy() for n := 0; n < b.N; n++ { rule := "||doubleclick.net^" err := d.AddRule(rule, 0) switch err { case nil: case ErrAlreadyExists: // ignore rules which were already added case ErrInvalidSyntax: // ignore invalid syntax default: b.Fatalf("Error while adding rule %s: %s", rule, err) } } } func BenchmarkAddRuleParallel(b *testing.B) { d := NewForTest() defer d.Destroy() rule := "||doubleclick.net^" b.ResetTimer() b.RunParallel(func(pb *testing.PB) { var err error for pb.Next() { err = d.AddRule(rule, 0) } switch err { case nil: case ErrAlreadyExists: // ignore rules which were already added case ErrInvalidSyntax: // ignore invalid syntax default: b.Fatalf("Error while adding rule %s: %s", rule, err) } }) } func BenchmarkLotsOfRulesNoMatch(b *testing.B) { d := NewForTest() defer d.Destroy() err := loadTestRules(d) if err != nil { b.Fatal(err) } b.ResetTimer() for n := 0; n < b.N; n++ { hostname := "asdasdasd_adsajdasda_asdasdjashdkasdasdasdasd_adsajdasda_asdasdjashdkasd.thisistesthost.com" ret, err := d.CheckHost(hostname) if err != nil { b.Errorf("Error while matching host %s: %s", hostname, err) } if ret.IsFiltered { b.Errorf("Expected hostname %s to not match", hostname) } } } func BenchmarkLotsOfRulesNoMatchParallel(b *testing.B) { d := NewForTest() defer d.Destroy() err := loadTestRules(d) if err != nil { b.Fatal(err) } b.ResetTimer() hostname := "asdasdasd_adsajdasda_asdasdjashdkasdasdasdasd_adsajdasda_asdasdjashdkasd.thisistesthost.com" b.ResetTimer() b.RunParallel(func(pb *testing.PB) { for pb.Next() { ret, err := d.CheckHost(hostname) if err != nil { b.Errorf("Error while matching host %s: %s", hostname, err) } if ret.IsFiltered { b.Errorf("Expected hostname %s to not match", hostname) } } }) } func BenchmarkLotsOfRulesMatch(b *testing.B) { d := NewForTest() defer d.Destroy() err := loadTestRules(d) if err != nil { b.Fatal(err) } b.ResetTimer() for n := 0; n < b.N; n++ { const hostname = "asdasdasd_adsajdasda_asdasdjashdkasdasdasdasd_adsajdasda_asdasdjashdkasd.ad.doubleclick.net" ret, err := d.CheckHost(hostname) if err != nil { b.Errorf("Error while matching host %s: %s", hostname, err) } if !ret.IsFiltered { b.Errorf("Expected hostname %s to match", hostname) } } } func BenchmarkLotsOfRulesMatchParallel(b *testing.B) { d := NewForTest() defer d.Destroy() err := loadTestRules(d) if err != nil { b.Fatal(err) } b.ResetTimer() const hostname = "asdasdasd_adsajdasda_asdasdjashdkasdasdasdasd_adsajdasda_asdasdjashdkasd.ad.doubleclick.net" b.ResetTimer() b.RunParallel(func(pb *testing.PB) { for pb.Next() { ret, err := d.CheckHost(hostname) if err != nil { b.Errorf("Error while matching host %s: %s", hostname, err) } if !ret.IsFiltered { b.Errorf("Expected hostname %s to match", hostname) } } }) } func BenchmarkLotsOfRulesLotsOfHosts(b *testing.B) { d := NewForTest() defer d.Destroy() mustLoadTestRules(d) getTopHosts() hostnames, err := os.Open(topHostsFilename) if err != nil { b.Fatal(err) } defer hostnames.Close() scanner := bufio.NewScanner(hostnames) b.ResetTimer() for n := 0; n < b.N; n++ { havedata := scanner.Scan() if !havedata { hostnames.Seek(0, 0) scanner = bufio.NewScanner(hostnames) havedata = scanner.Scan() } if !havedata { b.Fatal(scanner.Err()) } line := scanner.Text() records := strings.Split(line, ",") ret, err := d.CheckHost(records[1] + "." + records[1]) if err != nil { b.Error(err) } if ret.Reason.Matched() { // log.Printf("host \"%s\" mathed. Rule \"%s\", reason: %v", host, ret.Rule, ret.Reason) } } } func BenchmarkLotsOfRulesLotsOfHostsParallel(b *testing.B) { d := NewForTest() defer d.Destroy() mustLoadTestRules(d) getTopHosts() b.ResetTimer() b.RunParallel(func(pb *testing.PB) { hostnames, err := os.Open(topHostsFilename) if err != nil { b.Fatal(err) } defer hostnames.Close() scanner := bufio.NewScanner(hostnames) for pb.Next() { havedata := scanner.Scan() if !havedata { hostnames.Seek(0, 0) scanner = bufio.NewScanner(hostnames) havedata = scanner.Scan() } if !havedata { b.Fatal(scanner.Err()) } line := scanner.Text() records := strings.Split(line, ",") ret, err := d.CheckHost(records[1] + "." + records[1]) if err != nil { b.Error(err) } if ret.Reason.Matched() { // log.Printf("host \"%s\" mathed. Rule \"%s\", reason: %v", host, ret.Rule, ret.Reason) } } }) } func BenchmarkSafeBrowsing(b *testing.B) { d := NewForTest() defer d.Destroy() d.EnableSafeBrowsing() for n := 0; n < b.N; n++ { hostname := "wmconvirus.narod.ru" ret, err := d.CheckHost(hostname) if err != nil { b.Errorf("Error while matching host %s: %s", hostname, err) } if !ret.IsFiltered { b.Errorf("Expected hostname %s to match", hostname) } } } func BenchmarkSafeBrowsingParallel(b *testing.B) { d := NewForTest() defer d.Destroy() d.EnableSafeBrowsing() b.RunParallel(func(pb *testing.PB) { for pb.Next() { hostname := "wmconvirus.narod.ru" ret, err := d.CheckHost(hostname) if err != nil { b.Errorf("Error while matching host %s: %s", hostname, err) } if !ret.IsFiltered { b.Errorf("Expected hostname %s to match", hostname) } } }) } func BenchmarkSafeSearch(b *testing.B) { d := NewForTest() defer d.Destroy() d.EnableSafeSearch() for n := 0; n < b.N; n++ { val, ok := d.SafeSearchDomain("www.google.com") if !ok { b.Errorf("Expected safesearch to find result for www.google.com") } if val != "forcesafesearch.google.com" { b.Errorf("Expected safesearch for google.com to be forcesafesearch.google.com") } } } func BenchmarkSafeSearchParallel(b *testing.B) { d := NewForTest() defer d.Destroy() d.EnableSafeSearch() b.RunParallel(func(pb *testing.PB) { for pb.Next() { val, ok := d.SafeSearchDomain("www.google.com") if !ok { b.Errorf("Expected safesearch to find result for www.google.com") } if val != "forcesafesearch.google.com" { b.Errorf("Expected safesearch for google.com to be forcesafesearch.google.com") } } }) } func TestMain(m *testing.M) { goleak.VerifyTestMain(m) } // // helper functions for debugging and testing // func purgeCaches() { if safebrowsingCache != nil { safebrowsingCache.Purge() } if parentalCache != nil { parentalCache.Purge() } } func _Func() string { pc := make([]uintptr, 10) // at least 1 entry needed runtime.Callers(2, pc) f := runtime.FuncForPC(pc[0]) return path.Base(f.Name()) } func trace(format string, args ...interface{}) { pc := make([]uintptr, 10) // at least 1 entry needed runtime.Callers(2, pc) f := runtime.FuncForPC(pc[0]) var buf strings.Builder buf.WriteString(fmt.Sprintf("%s(): ", path.Base(f.Name()))) text := fmt.Sprintf(format, args...) buf.WriteString(text) if len(text) == 0 || text[len(text)-1] != '\n' { buf.WriteRune('\n') } fmt.Print(buf.String()) }