ooni-probe-cli/internal/engine/legacy/oonitemplates/oonitemplates.go

// Package oonitemplates contains templates for experiments.
//
// Every experiment should possibly be based on code inside of
// this package. In the future we should perhaps unify the code
// in here with the code in oonidatamodel.
//
// This has been forked from ooni/netx/x/porcelain because it was
// causing too much changes to keep this code in there.
package oonitemplates

import (
	"context"
	"io"
	"io/ioutil"
	"math/rand"
	"net"
	"net/http"
	"net/url"
	"sync"
	"time"

	goptlib "git.torproject.org/pluggable-transports/goptlib.git"
	"github.com/ooni/probe-cli/v3/internal/atomicx"
	"github.com/ooni/probe-cli/v3/internal/engine/legacy/netx"
	"github.com/ooni/probe-cli/v3/internal/engine/legacy/netx/handlers"
	"github.com/ooni/probe-cli/v3/internal/engine/legacy/netx/modelx"
	"github.com/ooni/probe-cli/v3/internal/iox"
	"github.com/ooni/probe-cli/v3/internal/runtimex"
	"gitlab.com/yawning/obfs4.git/transports"
	obfs4base "gitlab.com/yawning/obfs4.git/transports/base"
)

type channelHandler struct {
	ch         chan<- modelx.Measurement
	lateWrites *atomicx.Int64
}

func newChannelHandler(ch chan<- modelx.Measurement) *channelHandler {
	return &channelHandler{
		ch:         ch,
		lateWrites: &atomicx.Int64{},
	}
}

func (h *channelHandler) OnMeasurement(m modelx.Measurement) {
	// Implementation note: when we're closing idle connections it
	// may be that they're closed once we have stopped reading
	// therefore (1) we MUST NOT close the channel to signal that
	// we're done BECAUSE THIS IS A LIE and (2) we MUST instead
	// arrange here for non-blocking sends.
	select {
	case h.ch <- m:
	case <-time.After(100 * time.Millisecond):
		h.lateWrites.Add(1)
	}
}

// Results contains the results of every operation that we care
// about and information on the number of bytes received and sent.
// When counting the number of bytes sent and received, we do not
// take into account domain name resolutions performed using the
// system resolver. We estimated that using heuristics with MK but
// we currently don't have a good solution. TODO(bassosimone): this
// can be improved by emitting estimates when we know that we are
// using the system resolver, so we can pick up estimates here.
type Results struct {
	Connects      []*modelx.ConnectEvent
	HTTPRequests  []*modelx.HTTPRoundTripDoneEvent
	NetworkEvents []*modelx.Measurement
	Resolves      []*modelx.ResolveDoneEvent
	TLSHandshakes []*modelx.TLSHandshakeDoneEvent
}

func (r *Results) onMeasurement(m modelx.Measurement, lowLevel bool) {
	if m.Connect != nil {
		r.Connects = append(r.Connects, m.Connect)
		if lowLevel {
			r.NetworkEvents = append(r.NetworkEvents, &m)
		}
	}
	if m.HTTPRoundTripDone != nil {
		r.HTTPRequests = append(r.HTTPRequests, m.HTTPRoundTripDone)
	}
	if m.ResolveDone != nil {
		r.Resolves = append(r.Resolves, m.ResolveDone)
	}
	if m.TLSHandshakeDone != nil {
		r.TLSHandshakes = append(r.TLSHandshakes, m.TLSHandshakeDone)
	}
	if m.Read != nil {
		if lowLevel {
			r.NetworkEvents = append(r.NetworkEvents, &m)
		}
	}
	if m.Write != nil {
		if lowLevel {
			r.NetworkEvents = append(r.NetworkEvents, &m)
		}
	}
}

func (r *Results) collect(
	output <-chan modelx.Measurement,
	handler modelx.Handler,
	main func(),
	lowLevel bool,
) {
	if handler == nil {
		handler = handlers.NoHandler
	}
	done := make(chan interface{})
	go func() {
		defer close(done)
		main()
	}()
	for {
		select {
		case m := <-output:
			handler.OnMeasurement(m)
			r.onMeasurement(m, lowLevel)
		case <-done:
			return
		}
	}
}

type dnsFallback struct {
	network, address string
}

func configureDNS(seed int64, network, address string) (modelx.DNSResolver, error) {
	resolver, err := netx.NewResolver(network, address)
	if err != nil {
		return nil, err
	}
	fallbacks := []dnsFallback{
		{
			network: "doh",
			address: "https://cloudflare-dns.com/dns-query",
		},
		{
			network: "doh",
			address: "https://dns.google/dns-query",
		},
		{
			network: "dot",
			address: "8.8.8.8:853",
		},
		{
			network: "dot",
			address: "8.8.4.4:853",
		},
		{
			network: "dot",
			address: "1.1.1.1:853",
		},
		{
			network: "dot",
			address: "9.9.9.9:853",
		},
	}
	random := rand.New(rand.NewSource(seed))
	random.Shuffle(len(fallbacks), func(i, j int) {
		fallbacks[i], fallbacks[j] = fallbacks[j], fallbacks[i]
	})
	var configured int
	for i := 0; configured < 2 && i < len(fallbacks); i++ {
		if fallbacks[i].network == network {
			continue
		}
		var fallback modelx.DNSResolver
		fallback, err = netx.NewResolver(fallbacks[i].network, fallbacks[i].address)
		runtimex.PanicOnError(err, "porcelain: invalid fallbacks table")
		resolver = netx.ChainResolvers(resolver, fallback)
		configured++
	}
	return resolver, nil
}

// DNSLookupConfig contains DNSLookup settings.
type DNSLookupConfig struct {
	Beginning     time.Time
	Handler       modelx.Handler
	Hostname      string
	ServerAddress string
	ServerNetwork string
}

// DNSLookupResults contains the results of a DNSLookup
type DNSLookupResults struct {
	TestKeys  Results
	Addresses []string
	Error     error
}

// DNSLookup performs a DNS lookup.
func DNSLookup(
	ctx context.Context, config DNSLookupConfig,
) *DNSLookupResults {
	var (
		mu      sync.Mutex
		results = new(DNSLookupResults)
	)
	if config.Beginning.IsZero() {
		config.Beginning = time.Now()
	}
	channel := make(chan modelx.Measurement)
	root := &modelx.MeasurementRoot{
		Beginning: config.Beginning,
		Handler:   newChannelHandler(channel),
	}
	ctx = modelx.WithMeasurementRoot(ctx, root)
	resolver, err := netx.NewResolver(config.ServerNetwork, config.ServerAddress)
	if err != nil {
		results.Error = err
		return results
	}
	results.TestKeys.collect(channel, config.Handler, func() {
		addrs, err := resolver.LookupHost(ctx, config.Hostname)
		mu.Lock()
		defer mu.Unlock()
		results.Addresses, results.Error = addrs, err
	}, false)
	return results
}

// HTTPDoConfig contains HTTPDo settings.
type HTTPDoConfig struct {
	Accept             string
	AcceptLanguage     string
	Beginning          time.Time
	Body               []byte
	DNSServerAddress   string
	DNSServerNetwork   string
	Handler            modelx.Handler
	InsecureSkipVerify bool
	Method             string
	ProxyFunc          func(*http.Request) (*url.URL, error)
	URL                string
	UserAgent          string

	// MaxEventsBodySnapSize controls the snap size that
	// we're using for bodies returned as modelx.Measurement.
	//
	// Same rules as modelx.MeasurementRoot.MaxBodySnapSize.
	MaxEventsBodySnapSize int64

	// MaxResponseBodySnapSize controls the snap size that
	// we're using for the HTTPDoResults.BodySnap.
	//
	// Same rules as modelx.MeasurementRoot.MaxBodySnapSize.
	MaxResponseBodySnapSize int64
}

// HTTPDoResults contains the results of a HTTPDo
type HTTPDoResults struct {
	TestKeys   Results
	StatusCode int64
	Headers    http.Header
	BodySnap   []byte
	Error      error
}

// HTTPDo performs a HTTP request
func HTTPDo(
	origCtx context.Context, config HTTPDoConfig,
) *HTTPDoResults {
	var (
		mu      sync.Mutex
		results = new(HTTPDoResults)
	)
	if config.Beginning.IsZero() {
		config.Beginning = time.Now()
	}
	channel := make(chan modelx.Measurement)
	// TODO(bassosimone): tell client to use specific CA bundle?
	root := &modelx.MeasurementRoot{
		Beginning:       config.Beginning,
		Handler:         newChannelHandler(channel),
		MaxBodySnapSize: config.MaxEventsBodySnapSize,
	}
	ctx := modelx.WithMeasurementRoot(origCtx, root)
	client := netx.NewHTTPClientWithProxyFunc(config.ProxyFunc)
	resolver, err := configureDNS(
		time.Now().UnixNano(),
		config.DNSServerNetwork,
		config.DNSServerAddress,
	)
	if err != nil {
		results.Error = err
		return results
	}
	client.SetResolver(resolver)
	if config.InsecureSkipVerify {
		client.ForceSkipVerify()
	}
	// TODO(bassosimone): implement sending body
	req, err := http.NewRequest(config.Method, config.URL, nil)
	if err != nil {
		results.Error = err
		return results
	}
	if config.Accept != "" {
		req.Header.Set("Accept", config.Accept)
	}
	if config.AcceptLanguage != "" {
		req.Header.Set("Accept-Language", config.AcceptLanguage)
	}
	req.Header.Set("User-Agent", config.UserAgent)
	req = req.WithContext(ctx)
	results.TestKeys.collect(channel, config.Handler, func() {
		defer client.HTTPClient.CloseIdleConnections()
		resp, err := client.HTTPClient.Do(req)
		if err != nil {
			mu.Lock()
			results.Error = err
			mu.Unlock()
			return
		}
		mu.Lock()
		results.StatusCode = int64(resp.StatusCode)
		results.Headers = resp.Header
		mu.Unlock()
		defer resp.Body.Close()
		reader := io.LimitReader(
			resp.Body, modelx.ComputeBodySnapSize(
				config.MaxResponseBodySnapSize,
			),
		)
		data, err := iox.ReadAllContext(ctx, reader)
		mu.Lock()
		results.BodySnap, results.Error = data, err
		mu.Unlock()
	}, false)
	return results
}

// TLSConnectConfig contains TLSConnect settings.
type TLSConnectConfig struct {
	Address            string
	Beginning          time.Time
	DNSServerAddress   string
	DNSServerNetwork   string
	Handler            modelx.Handler
	InsecureSkipVerify bool
	SNI                string
}

// TLSConnectResults contains the results of a TLSConnect
type TLSConnectResults struct {
	TestKeys Results
	Error    error
}

// TLSConnect performs a TLS connect.
func TLSConnect(
	ctx context.Context, config TLSConnectConfig,
) *TLSConnectResults {
	var (
		mu      sync.Mutex
		results = new(TLSConnectResults)
	)
	if config.Beginning.IsZero() {
		config.Beginning = time.Now()
	}
	channel := make(chan modelx.Measurement)
	root := &modelx.MeasurementRoot{
		Beginning: config.Beginning,
		Handler:   newChannelHandler(channel),
	}
	ctx = modelx.WithMeasurementRoot(ctx, root)
	dialer := netx.NewDialer()
	// TODO(bassosimone): tell dialer to use specific CA bundle?
	resolver, err := configureDNS(
		time.Now().UnixNano(),
		config.DNSServerNetwork,
		config.DNSServerAddress,
	)
	if err != nil {
		results.Error = err
		return results
	}
	dialer.SetResolver(resolver)
	if config.InsecureSkipVerify {
		dialer.ForceSkipVerify()
	}
	// TODO(bassosimone): can this call really fail?
	dialer.ForceSpecificSNI(config.SNI)
	results.TestKeys.collect(channel, config.Handler, func() {
		conn, err := dialer.DialTLSContext(ctx, "tcp", config.Address)
		if conn != nil {
			defer conn.Close()
		}
		mu.Lock()
		defer mu.Unlock()
		results.Error = err
	}, true)
	return results
}

// TCPConnectConfig contains TCPConnect settings.
type TCPConnectConfig struct {
	Address          string
	Beginning        time.Time
	DNSServerAddress string
	DNSServerNetwork string
	Handler          modelx.Handler
}

// TCPConnectResults contains the results of a TCPConnect
type TCPConnectResults struct {
	TestKeys Results
	Error    error
}

// TCPConnect performs a TCP connect.
func TCPConnect(
	ctx context.Context, config TCPConnectConfig,
) *TCPConnectResults {
	var (
		mu      sync.Mutex
		results = new(TCPConnectResults)
	)
	if config.Beginning.IsZero() {
		config.Beginning = time.Now()
	}
	channel := make(chan modelx.Measurement)
	root := &modelx.MeasurementRoot{
		Beginning: config.Beginning,
		Handler:   newChannelHandler(channel),
	}
	ctx = modelx.WithMeasurementRoot(ctx, root)
	dialer := netx.NewDialer()
	// TODO(bassosimone): tell dialer to use specific CA bundle?
	resolver, err := configureDNS(
		time.Now().UnixNano(),
		config.DNSServerNetwork,
		config.DNSServerAddress,
	)
	if err != nil {
		results.Error = err
		return results
	}
	dialer.SetResolver(resolver)
	results.TestKeys.collect(channel, config.Handler, func() {
		conn, err := dialer.DialContext(ctx, "tcp", config.Address)
		if conn != nil {
			defer conn.Close()
		}
		mu.Lock()
		defer mu.Unlock()
		results.Error = err
	}, false)
	return results
}

func init() {
	runtimex.PanicOnError(transports.Init(), "transport.Init() failed")
}

// OBFS4ConnectConfig contains OBFS4Connect settings.
type OBFS4ConnectConfig struct {
	Address          string
	Beginning        time.Time
	DNSServerAddress string
	DNSServerNetwork string
	Handler          modelx.Handler
	Params           goptlib.Args
	StateBaseDir     string
	Timeout          time.Duration
	ioutilTempDir    func(dir string, prefix string) (string, error)
	transportsGet    func(name string) obfs4base.Transport
	setDeadline      func(net.Conn, time.Time) error
}

// OBFS4ConnectResults contains the results of a OBFS4Connect
type OBFS4ConnectResults struct {
	TestKeys Results
	Error    error
}

// OBFS4Connect performs a TCP connect.
func OBFS4Connect(
	ctx context.Context, config OBFS4ConnectConfig,
) *OBFS4ConnectResults {
	var (
		mu      sync.Mutex
		results = new(OBFS4ConnectResults)
	)
	if config.Beginning.IsZero() {
		config.Beginning = time.Now()
	}
	channel := make(chan modelx.Measurement)
	root := &modelx.MeasurementRoot{
		Beginning: config.Beginning,
		Handler:   newChannelHandler(channel),
	}
	ctx = modelx.WithMeasurementRoot(ctx, root)
	dialer := netx.NewDialer()
	// TODO(bassosimone): tell dialer to use specific CA bundle?
	resolver, err := configureDNS(
		time.Now().UnixNano(),
		config.DNSServerNetwork,
		config.DNSServerAddress,
	)
	if err != nil {
		results.Error = err
		return results
	}
	dialer.SetResolver(resolver)
	transportsGet := config.transportsGet
	if transportsGet == nil {
		transportsGet = transports.Get
	}
	txp := transportsGet("obfs4")
	ioutilTempDir := config.ioutilTempDir
	if ioutilTempDir == nil {
		ioutilTempDir = ioutil.TempDir
	}
	dirname, err := ioutilTempDir(config.StateBaseDir, "obfs4")
	if err != nil {
		results.Error = err
		return results
	}
	factory, err := txp.ClientFactory(dirname)
	if err != nil {
		results.Error = err
		return results
	}
	parsedargs, err := factory.ParseArgs(&config.Params)
	if err != nil {
		results.Error = err
		return results
	}
	results.TestKeys.collect(channel, config.Handler, func() {
		dialfunc := func(network, address string) (net.Conn, error) {
			conn, err := dialer.DialContext(ctx, network, address)
			if err != nil {
				return nil, err
			}
			// I didn't immediately see an API for limiting in time the
			// duration of the handshake, so let's set a deadline.
			timeout := config.Timeout
			if timeout == 0 {
				timeout = 30 * time.Second
			}
			setDeadline := config.setDeadline
			if setDeadline == nil {
				setDeadline = func(conn net.Conn, t time.Time) error {
					return conn.SetDeadline(t)
				}
			}
			if err := setDeadline(conn, time.Now().Add(timeout)); err != nil {
				conn.Close()
				return nil, err
			}
			return conn, nil
		}
		conn, err := factory.Dial("tcp", config.Address, dialfunc, parsedargs)
		if conn != nil {
			defer conn.Close()
		}
		mu.Lock()
		defer mu.Unlock()
		results.Error = err
	}, true)
	return results
}