c/ooni-probe-cli
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
64bffbd941
ooni-probe-cli/internal/measurex/resolver.go
Simone Basso 8f7e3803eb
feat(netxlite): implement DNSTransport wrapping (#776) 
Acknowledge that transports MAY be used in isolation (i.e., outside
of a Resolver) and add support for wrapping.

Ensure that every factory that creates an unwrapped type is named
accordingly to hopefully ensure there are no surprises.

Implement DNSTransport wrapping and use a technique similar to the
one used by Dialer to customize the DNSTransport while constructing
more complex data types (e.g., a specific resolver).

Ensure that the stdlib resolver's own "getaddrinfo" transport (1)
is wrapped and (2) could be extended during construction.

This work is part of my ongoing effort to bring to this repository
websteps-illustrated changes relative to netxlite.

Ref issue: https://github.com/ooni/probe/issues/2096
2022-06-01 11:10:08 +02:00

188 lines
4.8 KiB
Go
Raw Blame History

package measurex
//
// Resolver
//
// Wrappers for Resolver to store events into a WritableDB.
//
import (
"context"
"strings"
"time"
"github.com/ooni/probe-cli/v3/internal/model"
"github.com/ooni/probe-cli/v3/internal/netxlite"
)
// WrapResolver creates a new Resolver that saves events into the WritableDB.
func (mx *Measurer) WrapResolver(db WritableDB, r model.Resolver) model.Resolver {
return WrapResolver(mx.Begin, db, r)
}
// WrapResolver wraps a resolver.
func WrapResolver(begin time.Time, db WritableDB, r model.Resolver) model.Resolver {
return &resolverDB{Resolver: r, db: db, begin: begin}
}
// NewResolverSystem creates a system resolver and then wraps
// it using the WrapResolver function.
func (mx *Measurer) NewResolverSystem(db WritableDB, logger model.Logger) model.Resolver {
return mx.WrapResolver(db, netxlite.NewResolverStdlib(logger))
}
// NewResolverUDP is a convenience factory for creating a Resolver
// using UDP that saves measurements into the DB.
//
// Arguments:
//
// - db is where to save events;
//
// - logger is the logger;
//
// - address is the resolver address (e.g., "1.1.1.1:53").
func (mx *Measurer) NewResolverUDP(db WritableDB, logger model.Logger, address string) model.Resolver {
return mx.WrapResolver(db, netxlite.WrapResolver(
logger, netxlite.NewUnwrappedSerialResolver(
mx.WrapDNSXRoundTripper(db, netxlite.NewUnwrappedDNSOverUDPTransport(
mx.NewDialerWithSystemResolver(db, logger),
address,
)))),
)
}
type resolverDB struct {
model.Resolver
begin time.Time
db WritableDB
}
// DNSLookupEvent contains the results of a DNS lookup.
type DNSLookupEvent struct {
Network string
Failure *string
Domain string
QueryType string
Address string
Finished float64
Started float64
Oddity Oddity
A []string
AAAA []string
ALPN []string
}
// SupportsHTTP3 returns true if this query is for HTTPS and
// the answer contains an ALPN for "h3"
func (ev *DNSLookupEvent) SupportsHTTP3() bool {
if ev.QueryType != "HTTPS" {
return false
}
for _, alpn := range ev.ALPN {
if alpn == "h3" {
return true
}
}
return false
}
// Addrs returns all the IPv4/IPv6 addresses
func (ev *DNSLookupEvent) Addrs() (out []string) {
out = append(out, ev.A...)
out = append(out, ev.AAAA...)
return
}
func (r *resolverDB) LookupHost(ctx context.Context, domain string) ([]string, error) {
started := time.Since(r.begin).Seconds()
addrs, err := r.Resolver.LookupHost(ctx, domain)
finished := time.Since(r.begin).Seconds()
r.saveLookupResults(domain, started, finished, err, addrs, "A")
r.saveLookupResults(domain, started, finished, err, addrs, "AAAA")
return addrs, err
}
func (r *resolverDB) saveLookupResults(domain string, started, finished float64,
err error, addrs []string, qtype string) {
ev := &DNSLookupEvent{
Network: r.Resolver.Network(),
Address: r.Resolver.Address(),
Failure: NewFailure(err),
Domain: domain,
QueryType: qtype,
Finished: finished,
Started: started,
}
for _, addr := range addrs {
if qtype == "A" && !strings.Contains(addr, ":") {
ev.A = append(ev.A, addr)
continue
}
if qtype == "AAAA" && strings.Contains(addr, ":") {
ev.AAAA = append(ev.AAAA, addr)
continue
}
}
switch qtype {
case "A":
ev.Oddity = r.computeOddityLookupHost(ev.A, err)
case "AAAA":
ev.Oddity = r.computeOddityLookupHost(ev.AAAA, err)
}
r.db.InsertIntoLookupHost(ev)
}
func (r *resolverDB) computeOddityLookupHost(addrs []string, err error) Oddity {
if err != nil {
switch err.Error() {
case netxlite.FailureGenericTimeoutError:
return OddityDNSLookupTimeout
case netxlite.FailureDNSNXDOMAINError:
return OddityDNSLookupNXDOMAIN
case netxlite.FailureDNSRefusedError:
return OddityDNSLookupRefused
default:
return OddityDNSLookupOther
}
}
for _, addr := range addrs {
if netxlite.IsBogon(addr) {
return OddityDNSLookupBogon
}
}
return ""
}
func (r *resolverDB) LookupHTTPS(ctx context.Context, domain string) (*model.HTTPSSvc, error) {
started := time.Since(r.begin).Seconds()
https, err := r.Resolver.LookupHTTPS(ctx, domain)
finished := time.Since(r.begin).Seconds()
ev := &DNSLookupEvent{
Network: r.Resolver.Network(),
Address: r.Resolver.Address(),
Domain: domain,
QueryType: "HTTPS",
Started: started,
Finished: finished,
Failure: NewFailure(err),
Oddity: Oddity(r.computeOddityHTTPSSvc(https, err)),
}
if err == nil {
ev.A = append(ev.A, https.IPv4...)
ev.AAAA = append(ev.AAAA, https.IPv6...)
ev.ALPN = append(ev.ALPN, https.ALPN...)
}
r.db.InsertIntoLookupHTTPSSvc(ev)
return https, err
}
func (r *resolverDB) computeOddityHTTPSSvc(https *model.HTTPSSvc, err error) Oddity {
if err != nil {
return r.computeOddityLookupHost(nil, err)
}
var addrs []string
addrs = append(addrs, https.IPv4...)
addrs = append(addrs, https.IPv6...)
return r.computeOddityLookupHost(addrs, nil)
}
Reference in New Issue View Git Blame Copy Permalink