AdGuardHome/home/filter.go
2020-04-07 13:02:28 +03:00

705 lines
17 KiB
Go

package home
import (
"bufio"
"fmt"
"hash/crc32"
"io"
"io/ioutil"
"os"
"path/filepath"
"regexp"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/AdguardTeam/AdGuardHome/dnsfilter"
"github.com/AdguardTeam/AdGuardHome/util"
"github.com/AdguardTeam/golibs/log"
)
var (
nextFilterID = time.Now().Unix() // semi-stable way to generate an unique ID
)
// type FilteringConf struct {
// BlockLists []filter
// AllowLists []filter
// UserRules []string
// }
// Filtering - module object
type Filtering struct {
// conf FilteringConf
refreshStatus uint32 // 0:none; 1:in progress
refreshLock sync.Mutex
filterTitleRegexp *regexp.Regexp
}
// Init - initialize the module
func (f *Filtering) Init() {
f.filterTitleRegexp = regexp.MustCompile(`^! Title: +(.*)$`)
_ = os.MkdirAll(filepath.Join(Context.getDataDir(), filterDir), 0755)
f.loadFilters(config.Filters)
f.loadFilters(config.WhitelistFilters)
deduplicateFilters()
updateUniqueFilterID(config.Filters)
updateUniqueFilterID(config.WhitelistFilters)
}
// Start - start the module
func (f *Filtering) Start() {
f.RegisterFilteringHandlers()
// Here we should start updating filters,
// but currently we can't wake up the periodic task to do so.
// So for now we just start this periodic task from here.
go f.periodicallyRefreshFilters()
}
// Close - close the module
func (f *Filtering) Close() {
}
func defaultFilters() []filter {
return []filter{
{Filter: dnsfilter.Filter{ID: 1}, Enabled: true, URL: "https://adguardteam.github.io/AdGuardSDNSFilter/Filters/filter.txt", Name: "AdGuard Simplified Domain Names filter"},
{Filter: dnsfilter.Filter{ID: 2}, Enabled: false, URL: "https://adaway.org/hosts.txt", Name: "AdAway"},
{Filter: dnsfilter.Filter{ID: 3}, Enabled: false, URL: "https://hosts-file.net/ad_servers.txt", Name: "hpHosts - Ad and Tracking servers only"},
{Filter: dnsfilter.Filter{ID: 4}, Enabled: false, URL: "https://www.malwaredomainlist.com/hostslist/hosts.txt", Name: "MalwareDomainList.com Hosts List"},
}
}
// field ordering is important -- yaml fields will mirror ordering from here
type filter struct {
Enabled bool
URL string
Name string `yaml:"name"`
RulesCount int `yaml:"-"`
LastUpdated time.Time `yaml:"-"`
checksum uint32 // checksum of the file data
white bool
dnsfilter.Filter `yaml:",inline"`
}
// Creates a helper object for working with the user rules
func userFilter() filter {
f := filter{
// User filter always has constant ID=0
Enabled: true,
}
f.Filter.Data = []byte(strings.Join(config.UserRules, "\n"))
return f
}
const (
statusFound = 1
statusEnabledChanged = 2
statusURLChanged = 4
statusURLExists = 8
statusUpdateRequired = 0x10
)
// Update properties for a filter specified by its URL
// Return status* flags.
func (f *Filtering) filterSetProperties(url string, newf filter, whitelist bool) int {
r := 0
config.Lock()
defer config.Unlock()
filters := &config.Filters
if whitelist {
filters = &config.WhitelistFilters
}
for i := range *filters {
filt := &(*filters)[i]
if filt.URL != url {
continue
}
log.Debug("filter: set properties: %s: {%s %s %v}",
filt.URL, newf.Name, newf.URL, newf.Enabled)
filt.Name = newf.Name
if filt.URL != newf.URL {
r |= statusURLChanged | statusUpdateRequired
if filterExistsNoLock(newf.URL) {
return statusURLExists
}
filt.URL = newf.URL
filt.unload()
filt.LastUpdated = time.Time{}
filt.checksum = 0
filt.RulesCount = 0
}
if filt.Enabled != newf.Enabled {
r |= statusEnabledChanged
filt.Enabled = newf.Enabled
if filt.Enabled {
if (r & statusURLChanged) == 0 {
e := f.load(filt)
if e != nil {
// This isn't a fatal error,
// because it may occur when someone removes the file from disk.
filt.LastUpdated = time.Time{}
filt.checksum = 0
filt.RulesCount = 0
r |= statusUpdateRequired
}
}
} else {
filt.unload()
}
}
return r | statusFound
}
return 0
}
// Return TRUE if a filter with this URL exists
func filterExists(url string) bool {
config.RLock()
r := filterExistsNoLock(url)
config.RUnlock()
return r
}
func filterExistsNoLock(url string) bool {
for _, f := range config.Filters {
if f.URL == url {
return true
}
}
for _, f := range config.WhitelistFilters {
if f.URL == url {
return true
}
}
return false
}
// Add a filter
// Return FALSE if a filter with this URL exists
func filterAdd(f filter) bool {
config.Lock()
defer config.Unlock()
// Check for duplicates
if filterExistsNoLock(f.URL) {
return false
}
if f.white {
config.WhitelistFilters = append(config.WhitelistFilters, f)
} else {
config.Filters = append(config.Filters, f)
}
return true
}
// Load filters from the disk
// And if any filter has zero ID, assign a new one
func (f *Filtering) loadFilters(array []filter) {
for i := range array {
filter := &array[i] // otherwise we're operating on a copy
if filter.ID == 0 {
filter.ID = assignUniqueFilterID()
}
if !filter.Enabled {
// No need to load a filter that is not enabled
continue
}
err := f.load(filter)
if err != nil {
log.Error("Couldn't load filter %d contents due to %s", filter.ID, err)
}
}
}
func deduplicateFilters() {
// Deduplicate filters
i := 0 // output index, used for deletion later
urls := map[string]bool{}
for _, filter := range config.Filters {
if _, ok := urls[filter.URL]; !ok {
// we didn't see it before, keep it
urls[filter.URL] = true // remember the URL
config.Filters[i] = filter
i++
}
}
// all entries we want to keep are at front, delete the rest
config.Filters = config.Filters[:i]
}
// Set the next filter ID to max(filter.ID) + 1
func updateUniqueFilterID(filters []filter) {
for _, filter := range filters {
if nextFilterID < filter.ID {
nextFilterID = filter.ID + 1
}
}
}
func assignUniqueFilterID() int64 {
value := nextFilterID
nextFilterID++
return value
}
// Sets up a timer that will be checking for filters updates periodically
func (f *Filtering) periodicallyRefreshFilters() {
const maxInterval = 1 * 60 * 60
intval := 5 // use a dynamically increasing time interval
for {
isNetworkErr := false
if config.DNS.FiltersUpdateIntervalHours != 0 && atomic.CompareAndSwapUint32(&f.refreshStatus, 0, 1) {
f.refreshLock.Lock()
_, isNetworkErr = f.refreshFiltersIfNecessary(FilterRefreshBlocklists | FilterRefreshAllowlists)
f.refreshLock.Unlock()
f.refreshStatus = 0
if !isNetworkErr {
intval = maxInterval
}
}
if isNetworkErr {
intval *= 2
if intval > maxInterval {
intval = maxInterval
}
}
time.Sleep(time.Duration(intval) * time.Second)
}
}
// Refresh filters
// flags: FilterRefresh*
// important:
// TRUE: ignore the fact that we're currently updating the filters
func (f *Filtering) refreshFilters(flags int, important bool) (int, error) {
set := atomic.CompareAndSwapUint32(&f.refreshStatus, 0, 1)
if !important && !set {
return 0, fmt.Errorf("filters update procedure is already running")
}
f.refreshLock.Lock()
nUpdated, _ := f.refreshFiltersIfNecessary(flags)
f.refreshLock.Unlock()
f.refreshStatus = 0
return nUpdated, nil
}
func (f *Filtering) refreshFiltersArray(filters *[]filter, force bool) (int, []filter, []bool, bool) {
var updateFilters []filter
var updateFlags []bool // 'true' if filter data has changed
now := time.Now()
config.RLock()
for i := range *filters {
f := &(*filters)[i] // otherwise we will be operating on a copy
if !f.Enabled {
continue
}
expireTime := f.LastUpdated.Unix() + int64(config.DNS.FiltersUpdateIntervalHours)*60*60
if !force && expireTime > now.Unix() {
continue
}
var uf filter
uf.ID = f.ID
uf.URL = f.URL
uf.Name = f.Name
uf.checksum = f.checksum
updateFilters = append(updateFilters, uf)
}
config.RUnlock()
if len(updateFilters) == 0 {
return 0, nil, nil, false
}
nfail := 0
for i := range updateFilters {
uf := &updateFilters[i]
updated, err := f.update(uf)
updateFlags = append(updateFlags, updated)
if err != nil {
nfail++
log.Printf("Failed to update filter %s: %s\n", uf.URL, err)
continue
}
}
if nfail == len(updateFilters) {
return 0, nil, nil, true
}
updateCount := 0
for i := range updateFilters {
uf := &updateFilters[i]
updated := updateFlags[i]
config.Lock()
for k := range *filters {
f := &(*filters)[k]
if f.ID != uf.ID || f.URL != uf.URL {
continue
}
f.LastUpdated = uf.LastUpdated
if !updated {
continue
}
log.Info("Updated filter #%d. Rules: %d -> %d",
f.ID, f.RulesCount, uf.RulesCount)
f.Name = uf.Name
f.RulesCount = uf.RulesCount
f.checksum = uf.checksum
updateCount++
}
config.Unlock()
}
return updateCount, updateFilters, updateFlags, false
}
const (
FilterRefreshForce = 1 // ignore last file modification date
FilterRefreshAllowlists = 2 // update allow-lists
FilterRefreshBlocklists = 4 // update block-lists
)
// Checks filters updates if necessary
// If force is true, it ignores the filter.LastUpdated field value
// flags: FilterRefresh*
//
// Algorithm:
// . Get the list of filters to be updated
// . For each filter run the download and checksum check operation
// . Store downloaded data in a temporary file inside data/filters directory
// . For each filter:
// . If filter data hasn't changed, just set new update time on file
// . If filter data has changed:
// . rename the temporary file (<temp> -> 1.txt)
// Note that this method works only on UNIX.
// On Windows we don't pass files to dnsfilter - we pass the whole data.
// . Pass new filters to dnsfilter object - it analyzes new data while the old filters are still active
// . dnsfilter activates new filters
//
// Return the number of updated filters
// Return TRUE - there was a network error and nothing could be updated
func (f *Filtering) refreshFiltersIfNecessary(flags int) (int, bool) {
log.Debug("Filters: updating...")
updateCount := 0
var updateFilters []filter
var updateFlags []bool
netError := false
netErrorW := false
force := false
if (flags & FilterRefreshForce) != 0 {
force = true
}
if (flags & FilterRefreshBlocklists) != 0 {
updateCount, updateFilters, updateFlags, netError = f.refreshFiltersArray(&config.Filters, force)
}
if (flags & FilterRefreshAllowlists) != 0 {
updateCountW := 0
var updateFiltersW []filter
var updateFlagsW []bool
updateCountW, updateFiltersW, updateFlagsW, netErrorW = f.refreshFiltersArray(&config.WhitelistFilters, force)
updateCount += updateCountW
updateFilters = append(updateFilters, updateFiltersW...)
updateFlags = append(updateFlags, updateFlagsW...)
}
if netError && netErrorW {
return 0, true
}
if updateCount != 0 {
enableFilters(false)
for i := range updateFilters {
uf := &updateFilters[i]
updated := updateFlags[i]
if !updated {
continue
}
_ = os.Remove(uf.Path() + ".old")
}
}
log.Debug("Filters: update finished")
return updateCount, false
}
// Allows printable UTF-8 text with CR, LF, TAB characters
func isPrintableText(data []byte) bool {
for _, c := range data {
if (c >= ' ' && c != 0x7f) || c == '\n' || c == '\r' || c == '\t' {
continue
}
return false
}
return true
}
// A helper function that parses filter contents and returns a number of rules and a filter name (if there's any)
func (f *Filtering) parseFilterContents(file io.Reader) (int, uint32, string) {
rulesCount := 0
name := ""
seenTitle := false
r := bufio.NewReader(file)
checksum := uint32(0)
for {
line, err := r.ReadString('\n')
if err != nil {
break
}
checksum = crc32.Update(checksum, crc32.IEEETable, []byte(line))
line = strings.TrimSpace(line)
if len(line) == 0 {
continue
}
if line[0] == '!' {
m := f.filterTitleRegexp.FindAllStringSubmatch(line, -1)
if len(m) > 0 && len(m[0]) >= 2 && !seenTitle {
name = m[0][1]
seenTitle = true
}
} else {
rulesCount++
}
}
return rulesCount, checksum, name
}
// Perform upgrade on a filter and update LastUpdated value
func (f *Filtering) update(filter *filter) (bool, error) {
b, err := f.updateIntl(filter)
filter.LastUpdated = time.Now()
if !b {
e := os.Chtimes(filter.Path(), filter.LastUpdated, filter.LastUpdated)
if e != nil {
log.Error("os.Chtimes(): %v", e)
}
}
return b, err
}
func (f *Filtering) updateIntl(filter *filter) (bool, error) {
log.Tracef("Downloading update for filter %d from %s", filter.ID, filter.URL)
tmpFile, err := ioutil.TempFile(filepath.Join(Context.getDataDir(), filterDir), "")
if err != nil {
return false, err
}
defer func() {
if tmpFile != nil {
_ = tmpFile.Close()
_ = os.Remove(tmpFile.Name())
}
}()
resp, err := Context.client.Get(filter.URL)
if resp != nil && resp.Body != nil {
defer resp.Body.Close()
}
if err != nil {
log.Printf("Couldn't request filter from URL %s, skipping: %s", filter.URL, err)
return false, err
}
if resp.StatusCode != 200 {
log.Printf("Got status code %d from URL %s, skipping", resp.StatusCode, filter.URL)
return false, fmt.Errorf("got status code != 200: %d", resp.StatusCode)
}
htmlTest := true
firstChunk := make([]byte, 4*1024)
firstChunkLen := 0
buf := make([]byte, 64*1024)
total := 0
for {
n, err := resp.Body.Read(buf)
total += n
if htmlTest {
// gather full buffer firstChunk and perform its data tests
num := util.MinInt(n, len(firstChunk)-firstChunkLen)
copied := copy(firstChunk[firstChunkLen:], buf[:num])
firstChunkLen += copied
if firstChunkLen == len(firstChunk) || err == io.EOF {
if !isPrintableText(firstChunk) {
return false, fmt.Errorf("data contains non-printable characters")
}
s := strings.ToLower(string(firstChunk))
if strings.Index(s, "<html") >= 0 ||
strings.Index(s, "<!doctype") >= 0 {
return false, fmt.Errorf("data is HTML, not plain text")
}
htmlTest = false
firstChunk = nil
}
}
_, err2 := tmpFile.Write(buf[:n])
if err2 != nil {
return false, err2
}
if err == io.EOF {
break
}
if err != nil {
log.Printf("Couldn't fetch filter contents from URL %s, skipping: %s", filter.URL, err)
return false, err
}
}
// Extract filter name and count number of rules
_, _ = tmpFile.Seek(0, io.SeekStart)
rulesCount, checksum, filterName := f.parseFilterContents(tmpFile)
// Check if the filter has been really changed
if filter.checksum == checksum {
log.Tracef("Filter #%d at URL %s hasn't changed, not updating it", filter.ID, filter.URL)
return false, nil
}
log.Printf("Filter %d has been updated: %d bytes, %d rules",
filter.ID, total, rulesCount)
if filterName != "" {
filter.Name = filterName
}
filter.RulesCount = rulesCount
filter.checksum = checksum
filterFilePath := filter.Path()
log.Printf("Saving filter %d contents to: %s", filter.ID, filterFilePath)
// Closing the file before renaming it is necessary on Windows
_ = tmpFile.Close()
err = os.Rename(tmpFile.Name(), filterFilePath)
if err != nil {
return false, err
}
tmpFile = nil
return true, nil
}
// loads filter contents from the file in dataDir
func (f *Filtering) load(filter *filter) error {
filterFilePath := filter.Path()
log.Tracef("Loading filter %d contents to: %s", filter.ID, filterFilePath)
if _, err := os.Stat(filterFilePath); os.IsNotExist(err) {
// do nothing, file doesn't exist
return err
}
file, err := os.Open(filterFilePath)
if err != nil {
return err
}
defer file.Close()
st, _ := file.Stat()
log.Tracef("File %s, id %d, length %d",
filterFilePath, filter.ID, st.Size())
rulesCount, checksum, _ := f.parseFilterContents(file)
filter.RulesCount = rulesCount
filter.checksum = checksum
filter.LastUpdated = filter.LastTimeUpdated()
return nil
}
// Clear filter rules
func (filter *filter) unload() {
filter.RulesCount = 0
filter.checksum = 0
}
// Path to the filter contents
func (filter *filter) Path() string {
return filepath.Join(Context.getDataDir(), filterDir, strconv.FormatInt(filter.ID, 10)+".txt")
}
// LastTimeUpdated returns the time when the filter was last time updated
func (filter *filter) LastTimeUpdated() time.Time {
filterFilePath := filter.Path()
s, err := os.Stat(filterFilePath)
if os.IsNotExist(err) {
// if the filter file does not exist, return 0001-01-01
return time.Time{}
}
if err != nil {
// if the filter file does not exist, return 0001-01-01
return time.Time{}
}
// filter file modified time
return s.ModTime()
}
func enableFilters(async bool) {
var filters []dnsfilter.Filter
var whiteFilters []dnsfilter.Filter
if config.DNS.FilteringEnabled {
// convert array of filters
userFilter := userFilter()
f := dnsfilter.Filter{
ID: userFilter.ID,
Data: userFilter.Data,
}
filters = append(filters, f)
for _, filter := range config.Filters {
if !filter.Enabled {
continue
}
f := dnsfilter.Filter{
ID: filter.ID,
FilePath: filter.Path(),
}
filters = append(filters, f)
}
for _, filter := range config.WhitelistFilters {
if !filter.Enabled {
continue
}
f := dnsfilter.Filter{
ID: filter.ID,
FilePath: filter.Path(),
}
whiteFilters = append(whiteFilters, f)
}
}
_ = Context.dnsFilter.SetFilters(filters, whiteFilters, async)
}