badguardhome/internal/filtering/filtering.go

983 lines
25 KiB
Go

// Package filtering implements a DNS request and response filter.
package filtering
import (
"context"
"fmt"
"io/fs"
"net"
"net/http"
"os"
"runtime"
"runtime/debug"
"strings"
"sync"
"sync/atomic"
"github.com/AdguardTeam/AdGuardHome/internal/aghnet"
"github.com/AdguardTeam/dnsproxy/upstream"
"github.com/AdguardTeam/golibs/cache"
"github.com/AdguardTeam/golibs/errors"
"github.com/AdguardTeam/golibs/log"
"github.com/AdguardTeam/golibs/stringutil"
"github.com/AdguardTeam/urlfilter"
"github.com/AdguardTeam/urlfilter/filterlist"
"github.com/AdguardTeam/urlfilter/rules"
"github.com/miekg/dns"
)
// The IDs of built-in filter lists.
//
// Keep in sync with client/src/helpers/constants.js.
const (
CustomListID = -iota
SysHostsListID
BlockedSvcsListID
ParentalListID
SafeBrowsingListID
SafeSearchListID
)
// ServiceEntry - blocked service array element
type ServiceEntry struct {
Name string
Rules []*rules.NetworkRule
}
// Settings are custom filtering settings for a client.
type Settings struct {
ClientName string
ClientIP net.IP
ClientTags []string
ServicesRules []ServiceEntry
ProtectionEnabled bool
FilteringEnabled bool
SafeSearchEnabled bool
SafeBrowsingEnabled bool
ParentalEnabled bool
}
// Resolver is the interface for net.Resolver to simplify testing.
type Resolver interface {
LookupIP(ctx context.Context, network, host string) (ips []net.IP, err error)
}
// Config allows you to configure DNS filtering with New() or just change variables directly.
type Config struct {
// enabled is used to be returned within Settings.
//
// It is of type uint32 to be accessed by atomic.
enabled uint32
ParentalEnabled bool `yaml:"parental_enabled"`
SafeSearchEnabled bool `yaml:"safesearch_enabled"`
SafeBrowsingEnabled bool `yaml:"safebrowsing_enabled"`
SafeBrowsingCacheSize uint `yaml:"safebrowsing_cache_size"` // (in bytes)
SafeSearchCacheSize uint `yaml:"safesearch_cache_size"` // (in bytes)
ParentalCacheSize uint `yaml:"parental_cache_size"` // (in bytes)
CacheTime uint `yaml:"cache_time"` // Element's TTL (in minutes)
Rewrites []*LegacyRewrite `yaml:"rewrites"`
// Names of services to block (globally).
// Per-client settings can override this configuration.
BlockedServices []string `yaml:"blocked_services"`
// EtcHosts is a container of IP-hostname pairs taken from the operating
// system configuration files (e.g. /etc/hosts).
EtcHosts *aghnet.HostsContainer `yaml:"-"`
// Called when the configuration is changed by HTTP request
ConfigModified func() `yaml:"-"`
// Register an HTTP handler
HTTPRegister func(string, string, func(http.ResponseWriter, *http.Request)) `yaml:"-"`
// CustomResolver is the resolver used by DNSFilter.
CustomResolver Resolver `yaml:"-"`
}
// LookupStats store stats collected during safebrowsing or parental checks
type LookupStats struct {
Requests uint64 // number of HTTP requests that were sent
CacheHits uint64 // number of lookups that didn't need HTTP requests
Pending int64 // number of currently pending HTTP requests
PendingMax int64 // maximum number of pending HTTP requests
}
// Stats store LookupStats for safebrowsing, parental and safesearch
type Stats struct {
Safebrowsing LookupStats
Parental LookupStats
Safesearch LookupStats
}
// Parameters to pass to filters-initializer goroutine
type filtersInitializerParams struct {
allowFilters []Filter
blockFilters []Filter
}
type hostChecker struct {
check func(host string, qtype uint16, setts *Settings) (res Result, err error)
name string
}
// DNSFilter matches hostnames and DNS requests against filtering rules.
type DNSFilter struct {
rulesStorage *filterlist.RuleStorage
filteringEngine *urlfilter.DNSEngine
rulesStorageAllow *filterlist.RuleStorage
filteringEngineAllow *urlfilter.DNSEngine
engineLock sync.RWMutex
parentalServer string // access via methods
safeBrowsingServer string // access via methods
parentalUpstream upstream.Upstream
safeBrowsingUpstream upstream.Upstream
safebrowsingCache cache.Cache
parentalCache cache.Cache
safeSearchCache cache.Cache
Config // for direct access by library users, even a = assignment
// confLock protects Config.
confLock sync.RWMutex
// Channel for passing data to filters-initializer goroutine
filtersInitializerChan chan filtersInitializerParams
filtersInitializerLock sync.Mutex
// resolver only looks up the IP address of the host while safe search.
//
// TODO(e.burkov): Use upstream that configured in dnsforward instead.
resolver Resolver
hostCheckers []hostChecker
}
// Filter represents a filter list
type Filter struct {
// FilePath is the path to a filtering rules list file.
FilePath string `yaml:"-"`
// Data is the content of the file.
Data []byte `yaml:"-"`
// ID is automatically assigned when filter is added using nextFilterID.
ID int64
}
// Reason holds an enum detailing why it was filtered or not filtered
type Reason int
const (
// reasons for not filtering
// NotFilteredNotFound - host was not find in any checks, default value for result
NotFilteredNotFound Reason = iota
// NotFilteredAllowList - the host is explicitly allowed
NotFilteredAllowList
// NotFilteredError is returned when there was an error during
// checking. Reserved, currently unused.
NotFilteredError
// reasons for filtering
// FilteredBlockList - the host was matched to be advertising host
FilteredBlockList
// FilteredSafeBrowsing - the host was matched to be malicious/phishing
FilteredSafeBrowsing
// FilteredParental - the host was matched to be outside of parental control settings
FilteredParental
// FilteredInvalid - the request was invalid and was not processed
FilteredInvalid
// FilteredSafeSearch - the host was replaced with safesearch variant
FilteredSafeSearch
// FilteredBlockedService - the host is blocked by "blocked services" settings
FilteredBlockedService
// Rewritten is returned when there was a rewrite by a legacy DNS rewrite
// rule.
Rewritten
// RewrittenAutoHosts is returned when there was a rewrite by autohosts
// rules (/etc/hosts and so on).
RewrittenAutoHosts
// RewrittenRule is returned when a $dnsrewrite filter rule was applied.
//
// TODO(a.garipov): Remove Rewritten and RewrittenAutoHosts by merging their
// functionality into RewrittenRule.
//
// See https://github.com/AdguardTeam/AdGuardHome/issues/2499.
RewrittenRule
)
// TODO(a.garipov): Resync with actual code names or replace completely
// in HTTP API v1.
var reasonNames = []string{
NotFilteredNotFound: "NotFilteredNotFound",
NotFilteredAllowList: "NotFilteredWhiteList",
NotFilteredError: "NotFilteredError",
FilteredBlockList: "FilteredBlackList",
FilteredSafeBrowsing: "FilteredSafeBrowsing",
FilteredParental: "FilteredParental",
FilteredInvalid: "FilteredInvalid",
FilteredSafeSearch: "FilteredSafeSearch",
FilteredBlockedService: "FilteredBlockedService",
Rewritten: "Rewrite",
RewrittenAutoHosts: "RewriteEtcHosts",
RewrittenRule: "RewriteRule",
}
func (r Reason) String() string {
if r < 0 || int(r) >= len(reasonNames) {
return ""
}
return reasonNames[r]
}
// In returns true if reasons include r.
func (r Reason) In(reasons ...Reason) (ok bool) {
for _, reason := range reasons {
if r == reason {
return true
}
}
return false
}
// SetEnabled sets the status of the *DNSFilter.
func (d *DNSFilter) SetEnabled(enabled bool) {
var i int32
if enabled {
i = 1
}
atomic.StoreUint32(&d.enabled, uint32(i))
}
// GetConfig - get configuration
func (d *DNSFilter) GetConfig() (s Settings) {
d.confLock.RLock()
defer d.confLock.RUnlock()
return Settings{
FilteringEnabled: atomic.LoadUint32(&d.Config.enabled) != 0,
SafeSearchEnabled: d.Config.SafeSearchEnabled,
SafeBrowsingEnabled: d.Config.SafeBrowsingEnabled,
ParentalEnabled: d.Config.ParentalEnabled,
}
}
// WriteDiskConfig - write configuration
func (d *DNSFilter) WriteDiskConfig(c *Config) {
d.confLock.Lock()
defer d.confLock.Unlock()
*c = d.Config
c.Rewrites = cloneRewrites(c.Rewrites)
}
// cloneRewrites returns a deep copy of entries.
func cloneRewrites(entries []*LegacyRewrite) (clone []*LegacyRewrite) {
clone = make([]*LegacyRewrite, len(entries))
for i, rw := range entries {
clone[i] = rw.clone()
}
return clone
}
// SetFilters - set new filters (synchronously or asynchronously)
// When filters are set asynchronously, the old filters continue working until the new filters are ready.
// In this case the caller must ensure that the old filter files are intact.
func (d *DNSFilter) SetFilters(blockFilters, allowFilters []Filter, async bool) error {
if async {
params := filtersInitializerParams{
allowFilters: allowFilters,
blockFilters: blockFilters,
}
d.filtersInitializerLock.Lock() // prevent multiple writers from adding more than 1 task
// remove all pending tasks
stop := false
for !stop {
select {
case <-d.filtersInitializerChan:
//
default:
stop = true
}
}
d.filtersInitializerChan <- params
d.filtersInitializerLock.Unlock()
return nil
}
err := d.initFiltering(allowFilters, blockFilters)
if err != nil {
log.Error("Can't initialize filtering subsystem: %s", err)
return err
}
return nil
}
// Starts initializing new filters by signal from channel
func (d *DNSFilter) filtersInitializer() {
for {
params := <-d.filtersInitializerChan
err := d.initFiltering(params.allowFilters, params.blockFilters)
if err != nil {
log.Error("Can't initialize filtering subsystem: %s", err)
continue
}
}
}
// Close - close the object
func (d *DNSFilter) Close() {
d.engineLock.Lock()
defer d.engineLock.Unlock()
d.reset()
}
func (d *DNSFilter) reset() {
var err error
if d.rulesStorage != nil {
err = d.rulesStorage.Close()
if err != nil {
log.Error("filtering: rulesStorage.Close: %s", err)
}
}
if d.rulesStorageAllow != nil {
err = d.rulesStorageAllow.Close()
if err != nil {
log.Error("filtering: rulesStorageAllow.Close: %s", err)
}
}
}
// ResultRule contains information about applied rules.
type ResultRule struct {
// Text is the text of the rule.
Text string `json:",omitempty"`
// IP is the host IP. It is nil unless the rule uses the
// /etc/hosts syntax or the reason is FilteredSafeSearch.
IP net.IP `json:",omitempty"`
// FilterListID is the ID of the rule's filter list.
FilterListID int64 `json:",omitempty"`
}
// Result contains the result of a request check.
//
// All fields transitively have omitempty tags so that the query log
// doesn't become too large.
//
// TODO(a.garipov): Clarify relationships between fields. Perhaps
// replace with a sum type or an interface?
type Result struct {
// IsFiltered is true if the request is filtered.
IsFiltered bool `json:",omitempty"`
// Reason is the reason for blocking or unblocking the request.
Reason Reason `json:",omitempty"`
// Rules are applied rules. If Rules are not empty, each rule is not nil.
Rules []*ResultRule `json:",omitempty"`
// IPList is the lookup rewrite result. It is empty unless Reason is set to
// Rewritten.
IPList []net.IP `json:",omitempty"`
// CanonName is the CNAME value from the lookup rewrite result. It is empty
// unless Reason is set to Rewritten or RewrittenRule.
CanonName string `json:",omitempty"`
// ServiceName is the name of the blocked service. It is empty unless
// Reason is set to FilteredBlockedService.
ServiceName string `json:",omitempty"`
// DNSRewriteResult is the $dnsrewrite filter rule result.
DNSRewriteResult *DNSRewriteResult `json:",omitempty"`
}
// Matched returns true if any match at all was found regardless of
// whether it was filtered or not.
func (r Reason) Matched() bool {
return r != NotFilteredNotFound
}
// CheckHostRules tries to match the host against filtering rules only.
func (d *DNSFilter) CheckHostRules(host string, rrtype uint16, setts *Settings) (Result, error) {
return d.matchHost(strings.ToLower(host), rrtype, setts)
}
// CheckHost tries to match the host against filtering rules, then safebrowsing
// and parental control rules, if they are enabled.
func (d *DNSFilter) CheckHost(
host string,
qtype uint16,
setts *Settings,
) (res Result, err error) {
// Sometimes clients try to resolve ".", which is a request to get root
// servers.
if host == "" {
return Result{}, nil
}
host = strings.ToLower(host)
if setts.FilteringEnabled {
res = d.processRewrites(host, qtype)
if res.Reason == Rewritten {
return res, nil
}
}
for _, hc := range d.hostCheckers {
res, err = hc.check(host, qtype, setts)
if err != nil {
return Result{}, fmt.Errorf("%s: %w", hc.name, err)
}
if res.Reason.Matched() {
return res, nil
}
}
return Result{}, nil
}
// matchSysHosts tries to match the host against the operating system's hosts
// database. err is always nil.
func (d *DNSFilter) matchSysHosts(
host string,
qtype uint16,
setts *Settings,
) (res Result, err error) {
if !setts.FilteringEnabled || d.EtcHosts == nil {
return res, nil
}
dnsres, _ := d.EtcHosts.MatchRequest(&urlfilter.DNSRequest{
Hostname: host,
SortedClientTags: setts.ClientTags,
// TODO(e.burkov): Wait for urlfilter update to pass net.IP.
ClientIP: setts.ClientIP.String(),
ClientName: setts.ClientName,
DNSType: qtype,
})
if dnsres == nil {
return res, nil
}
dnsr := dnsres.DNSRewrites()
if len(dnsr) == 0 {
return res, nil
}
res = d.processDNSRewrites(dnsr)
res.Reason = RewrittenAutoHosts
for _, r := range res.Rules {
r.Text = stringutil.Coalesce(d.EtcHosts.Translate(r.Text), r.Text)
}
return res, nil
}
// processRewrites performs filtering based on the legacy rewrite records.
//
// Firstly, it finds CNAME rewrites for host. If the CNAME is the same as host,
// this query isn't filtered. If it's different, repeat the process for the new
// CNAME, breaking loops in the process.
//
// Secondly, it finds A or AAAA rewrites for host and, if found, sets res.IPList
// accordingly. If the found rewrite has a special value of "A" or "AAAA", the
// result is an exception.
func (d *DNSFilter) processRewrites(host string, qtype uint16) (res Result) {
d.confLock.RLock()
defer d.confLock.RUnlock()
rewrites, matched := findRewrites(d.Rewrites, host, qtype)
if !matched {
return Result{}
}
res.Reason = Rewritten
cnames := stringutil.NewSet()
origHost := host
for matched && len(rewrites) > 0 && rewrites[0].Type == dns.TypeCNAME {
rw := rewrites[0]
rwPat := rw.Domain
rwAns := rw.Answer
log.Debug("rewrite: cname for %s is %s", host, rwAns)
if origHost == rwAns || rwPat == rwAns {
// Either a request for the hostname itself or a rewrite of
// a pattern onto itself, both of which are an exception rules.
// Return a not filtered result.
return Result{}
} else if host == rwAns && isWildcard(rwPat) {
// An "*.example.com → sub.example.com" rewrite matching in a loop.
//
// See https://github.com/AdguardTeam/AdGuardHome/issues/4016.
res.CanonName = host
break
}
host = rwAns
if cnames.Has(host) {
log.Info("rewrite: cname loop for %q on %q", origHost, host)
return res
}
cnames.Add(host)
res.CanonName = host
rewrites, matched = findRewrites(d.Rewrites, host, qtype)
}
setRewriteResult(&res, host, rewrites, qtype)
return res
}
// setRewriteResult sets the Reason or IPList of res if necessary. res must not
// be nil.
func setRewriteResult(res *Result, host string, rewrites []*LegacyRewrite, qtype uint16) {
for _, rw := range rewrites {
if rw.Type == qtype && (qtype == dns.TypeA || qtype == dns.TypeAAAA) {
if rw.IP == nil {
// "A"/"AAAA" exception: allow getting from upstream.
res.Reason = NotFilteredNotFound
return
}
res.IPList = append(res.IPList, rw.IP)
log.Debug("rewrite: a/aaaa for %s is %s", host, rw.IP)
}
}
}
// matchBlockedServicesRules checks the host against the blocked services rules
// in settings, if any. The err is always nil, it is only there to make this
// a valid hostChecker function.
func matchBlockedServicesRules(
host string,
_ uint16,
setts *Settings,
) (res Result, err error) {
if !setts.ProtectionEnabled {
return Result{}, nil
}
svcs := setts.ServicesRules
if len(svcs) == 0 {
return Result{}, nil
}
req := rules.NewRequestForHostname(host)
for _, s := range svcs {
for _, rule := range s.Rules {
if rule.Match(req) {
res.Reason = FilteredBlockedService
res.IsFiltered = true
res.ServiceName = s.Name
ruleText := rule.Text()
res.Rules = []*ResultRule{{
FilterListID: int64(rule.GetFilterListID()),
Text: ruleText,
}}
log.Debug("blocked services: matched rule: %s host: %s service: %s",
ruleText, host, s.Name)
return res, nil
}
}
}
return res, nil
}
//
// Adding rule and matching against the rules
//
func newRuleStorage(filters []Filter) (rs *filterlist.RuleStorage, err error) {
lists := make([]filterlist.RuleList, 0, len(filters))
for _, f := range filters {
switch id := int(f.ID); {
case len(f.Data) != 0:
lists = append(lists, &filterlist.StringRuleList{
ID: id,
RulesText: string(f.Data),
IgnoreCosmetic: true,
})
case f.FilePath == "":
continue
case runtime.GOOS == "windows":
// On Windows we don't pass a file to urlfilter because it's
// difficult to update this file while it's being used.
var data []byte
data, err = os.ReadFile(f.FilePath)
if errors.Is(err, fs.ErrNotExist) {
continue
} else if err != nil {
return nil, fmt.Errorf("reading filter content: %w", err)
}
lists = append(lists, &filterlist.StringRuleList{
ID: id,
RulesText: string(data),
IgnoreCosmetic: true,
})
default:
var list *filterlist.FileRuleList
list, err = filterlist.NewFileRuleList(id, f.FilePath, true)
if errors.Is(err, fs.ErrNotExist) {
continue
} else if err != nil {
return nil, fmt.Errorf("creating file rule list with %q: %w", f.FilePath, err)
}
lists = append(lists, list)
}
}
rs, err = filterlist.NewRuleStorage(lists)
if err != nil {
return nil, fmt.Errorf("creating rule storage: %w", err)
}
return rs, nil
}
// Initialize urlfilter objects.
func (d *DNSFilter) initFiltering(allowFilters, blockFilters []Filter) error {
rulesStorage, err := newRuleStorage(blockFilters)
if err != nil {
return err
}
rulesStorageAllow, err := newRuleStorage(allowFilters)
if err != nil {
return err
}
filteringEngine := urlfilter.NewDNSEngine(rulesStorage)
filteringEngineAllow := urlfilter.NewDNSEngine(rulesStorageAllow)
func() {
d.engineLock.Lock()
defer d.engineLock.Unlock()
d.reset()
d.rulesStorage = rulesStorage
d.filteringEngine = filteringEngine
d.rulesStorageAllow = rulesStorageAllow
d.filteringEngineAllow = filteringEngineAllow
}()
// Make sure that the OS reclaims memory as soon as possible.
debug.FreeOSMemory()
log.Debug("initialized filtering engine")
return nil
}
// hostRules is a helper that converts a slice of host rules into a slice of the
// rules.Rule interface values.
func hostRulesToRules(netRules []*rules.HostRule) (res []rules.Rule) {
if netRules == nil {
return nil
}
res = make([]rules.Rule, len(netRules))
for i, nr := range netRules {
res[i] = nr
}
return res
}
// matchHostProcessAllowList processes the allowlist logic of host matching.
func (d *DNSFilter) matchHostProcessAllowList(
host string,
dnsres *urlfilter.DNSResult,
) (res Result, err error) {
var matchedRules []rules.Rule
if dnsres.NetworkRule != nil {
matchedRules = []rules.Rule{dnsres.NetworkRule}
} else if len(dnsres.HostRulesV4) > 0 {
matchedRules = hostRulesToRules(dnsres.HostRulesV4)
} else if len(dnsres.HostRulesV6) > 0 {
matchedRules = hostRulesToRules(dnsres.HostRulesV6)
}
if len(matchedRules) == 0 {
return Result{}, fmt.Errorf("invalid dns result: rules are empty")
}
log.Debug("filtering: allowlist rules for host %q: %+v", host, matchedRules)
return makeResult(matchedRules, NotFilteredAllowList), nil
}
// matchHostProcessDNSResult processes the matched DNS filtering result.
func (d *DNSFilter) matchHostProcessDNSResult(
qtype uint16,
dnsres *urlfilter.DNSResult,
) (res Result) {
if dnsres.NetworkRule != nil {
reason := FilteredBlockList
if dnsres.NetworkRule.Whitelist {
reason = NotFilteredAllowList
}
return makeResult([]rules.Rule{dnsres.NetworkRule}, reason)
}
if qtype == dns.TypeA && dnsres.HostRulesV4 != nil {
res = makeResult(hostRulesToRules(dnsres.HostRulesV4), FilteredBlockList)
for i, hr := range dnsres.HostRulesV4 {
res.Rules[i].IP = hr.IP.To4()
}
return res
}
if qtype == dns.TypeAAAA && dnsres.HostRulesV6 != nil {
res = makeResult(hostRulesToRules(dnsres.HostRulesV6), FilteredBlockList)
for i, hr := range dnsres.HostRulesV6 {
res.Rules[i].IP = hr.IP.To16()
}
return res
}
if dnsres.HostRulesV4 != nil || dnsres.HostRulesV6 != nil {
// Question type doesn't match the host rules. Return the first matched
// host rule, but without an IP address.
var matchedRules []rules.Rule
if dnsres.HostRulesV4 != nil {
matchedRules = []rules.Rule{dnsres.HostRulesV4[0]}
} else if dnsres.HostRulesV6 != nil {
matchedRules = []rules.Rule{dnsres.HostRulesV6[0]}
}
return makeResult(matchedRules, FilteredBlockList)
}
return Result{}
}
// matchHost is a low-level way to check only if host is filtered by rules,
// skipping expensive safebrowsing and parental lookups.
func (d *DNSFilter) matchHost(
host string,
rrtype uint16,
setts *Settings,
) (res Result, err error) {
if !setts.FilteringEnabled {
return Result{}, nil
}
ureq := &urlfilter.DNSRequest{
Hostname: host,
SortedClientTags: setts.ClientTags,
// TODO(e.burkov): Wait for urlfilter update to pass net.IP.
ClientIP: setts.ClientIP.String(),
ClientName: setts.ClientName,
DNSType: rrtype,
}
d.engineLock.RLock()
// Keep in mind that this lock must be held no just when calling Match() but
// also while using the rules returned by it.
//
// TODO(e.burkov): Inspect if the above is true.
defer d.engineLock.RUnlock()
if setts.ProtectionEnabled && d.filteringEngineAllow != nil {
dnsres, ok := d.filteringEngineAllow.MatchRequest(ureq)
if ok {
return d.matchHostProcessAllowList(host, dnsres)
}
}
if d.filteringEngine == nil {
return Result{}, nil
}
dnsres, ok := d.filteringEngine.MatchRequest(ureq)
// Check DNS rewrites first, because the API there is a bit awkward.
if dnsr := dnsres.DNSRewrites(); len(dnsr) > 0 {
res = d.processDNSRewrites(dnsr)
if res.Reason == RewrittenRule && res.CanonName == host {
// A rewrite of a host to itself. Go on and try matching other
// things.
} else {
return res, nil
}
} else if !ok {
return Result{}, nil
}
if !setts.ProtectionEnabled {
// Don't check non-dnsrewrite filtering results.
return Result{}, nil
}
res = d.matchHostProcessDNSResult(rrtype, dnsres)
for _, r := range res.Rules {
log.Debug(
"filtering: found rule %q for host %q, filter list id: %d",
r.Text,
host,
r.FilterListID,
)
}
return res, nil
}
// makeResult returns a properly constructed Result.
func makeResult(matchedRules []rules.Rule, reason Reason) (res Result) {
resRules := make([]*ResultRule, len(matchedRules))
for i, mr := range matchedRules {
resRules[i] = &ResultRule{
FilterListID: int64(mr.GetFilterListID()),
Text: mr.Text(),
}
}
return Result{
IsFiltered: reason == FilteredBlockList,
Reason: reason,
Rules: resRules,
}
}
// InitModule manually initializes blocked services map.
func InitModule() {
initBlockedServices()
}
// New creates properly initialized DNS Filter that is ready to be used.
func New(c *Config, blockFilters []Filter) (d *DNSFilter) {
d = &DNSFilter{
resolver: net.DefaultResolver,
}
if c != nil {
d.safebrowsingCache = cache.New(cache.Config{
EnableLRU: true,
MaxSize: c.SafeBrowsingCacheSize,
})
d.safeSearchCache = cache.New(cache.Config{
EnableLRU: true,
MaxSize: c.SafeSearchCacheSize,
})
d.parentalCache = cache.New(cache.Config{
EnableLRU: true,
MaxSize: c.ParentalCacheSize,
})
if c.CustomResolver != nil {
d.resolver = c.CustomResolver
}
}
d.hostCheckers = []hostChecker{{
check: d.matchSysHosts,
name: "hosts container",
}, {
check: d.matchHost,
name: "filtering",
}, {
check: matchBlockedServicesRules,
name: "blocked services",
}, {
check: d.checkSafeBrowsing,
name: "safe browsing",
}, {
check: d.checkParental,
name: "parental",
}, {
check: d.checkSafeSearch,
name: "safe search",
}}
err := d.initSecurityServices()
if err != nil {
log.Error("filtering: initialize services: %s", err)
return nil
}
if c != nil {
d.Config = *c
err = d.prepareRewrites()
if err != nil {
log.Error("rewrites: preparing: %s", err)
return nil
}
}
bsvcs := []string{}
for _, s := range d.BlockedServices {
if !BlockedSvcKnown(s) {
log.Debug("skipping unknown blocked-service %q", s)
continue
}
bsvcs = append(bsvcs, s)
}
d.BlockedServices = bsvcs
if blockFilters != nil {
err = d.initFiltering(nil, blockFilters)
if err != nil {
log.Error("Can't initialize filtering subsystem: %s", err)
d.Close()
return nil
}
}
return d
}
// Start - start the module:
// . start async filtering initializer goroutine
// . register web handlers
func (d *DNSFilter) Start() {
d.filtersInitializerChan = make(chan filtersInitializerParams, 1)
go d.filtersInitializer()
if d.Config.HTTPRegister != nil { // for tests
d.registerSecurityHandlers()
d.registerRewritesHandlers()
d.registerBlockedServicesHandlers()
}
}