test(e2e): add resolver module e2e test suite

Verifies that a configured resolver drives the proxy's outbound DNS
resolution. A gost HTTP proxy uses a resolver whose only nameserver is a
test responder answering echo.test with the real echo server IP and
NXDOMAIN for everything else. A request to echo.test is resolved by the
custom resolver and reaches the echo server; an unmapped host fails to
resolve. Adds a parametrized DNS responder script and container helper.
master
ginuerzh 2026-07-13 19:06:30 +08:00
parent 1fd69ac704
commit 20f1e4a0b9
4 changed files with 219 additions and 0 deletions

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@ -0,0 +1,91 @@
package e2e
import (
"context"
"fmt"
"io"
"testing"
"github.com/stretchr/testify/suite"
"github.com/testcontainers/testcontainers-go"
)
// ResolverSuite verifies that a configured resolver drives the proxy's
// outbound DNS resolution. A gost HTTP proxy uses a resolver whose only
// nameserver is a test responder: it answers echo.test with the real echo
// server IP and NXDOMAIN for everything else. A request to echo.test is
// resolved by the custom resolver and reaches the echo server; a request to an
// unmapped host fails to resolve.
type ResolverSuite struct {
suite.Suite
ctx context.Context
echoC testcontainers.Container
echoIP string
dnsC testcontainers.Container
proxyC testcontainers.Container
}
func (s *ResolverSuite) SetupSuite() {
s.ctx = context.Background()
echoC, err := RunEchoContainer(s.ctx, SharedNetworkName)
s.Require().NoError(err)
s.echoC = echoC
echoIP, err := echoC.ContainerIP(s.ctx)
s.Require().NoError(err)
s.echoIP = echoIP
dnsC, err := RunResolverResponderContainer(s.ctx, SharedNetworkName, s.echoIP)
s.Require().NoError(err)
s.dnsC = dnsC
proxyC, err := RunGostContainerWithOptions(s.ctx, SharedNetworkName,
"testdata/resolver/server.yaml", []string{"gost-proxy"}, []string{"8080/tcp"})
s.Require().NoError(err)
s.proxyC = proxyC
}
func (s *ResolverSuite) TearDownSuite() {
for _, c := range []testcontainers.Container{s.proxyC, s.dnsC, s.echoC} {
if c != nil {
c.Terminate(s.ctx)
}
}
}
// proxyRequest sends an HTTP GET to the given host through the gost proxy. When
// waitResolve is true it retries until the resolver/responder is ready (the
// resolved-host happy path); otherwise it makes a single attempt. Returns the
// response body.
func (s *ResolverSuite) proxyRequest(host string, waitResolve bool) string {
loop := "for i in $(seq 1 30); do "
if !waitResolve {
loop = "for i in 1; do "
}
cmd := []string{
"sh", "-c",
fmt.Sprintf("%sbody=$(curl -s -x http://gost-proxy:8080 http://%s:5678/); echo \"$body\" | grep -q hello-gost && { echo \"$body\"; exit 0; }; sleep 1; done; echo \"$body\"", loop, host),
}
_, out, err := s.echoC.Exec(s.ctx, cmd)
s.Require().NoError(err)
body, err := io.ReadAll(out)
s.Require().NoError(err)
return string(body)
}
// TestResolvedHostname verifies that the custom resolver resolves echo.test to
// the echo server IP, so the proxied request reaches the echo server.
func (s *ResolverSuite) TestResolvedHostname() {
s.Require().Contains(s.proxyRequest("echo.test", true), "hello-gost")
}
// TestUnresolvedHostname verifies that a host absent from the resolver gets
// NXDOMAIN and never reaches the echo server.
func (s *ResolverSuite) TestUnresolvedHostname() {
s.Require().NotContains(s.proxyRequest("nomapped.test", false), "hello-gost")
}
func TestResolverSuite(t *testing.T) {
suite.Run(t, new(ResolverSuite))
}

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"""DNS responder for resolver e2e tests.
Returns the target IP (argv[1]) for an A query of "echo.test" and
NXDOMAIN for every other query. This lets a gost proxy configured with
this server as its resolver resolve a made-up hostname to a reachable
echo server, proving the resolver drives outbound dialing.
Listens on UDP port argv[2] (default 5353).
"""
import socketserver
import struct
import socket
import sys
TARGET_IP = sys.argv[1] if len(sys.argv) > 1 else "10.0.0.1"
PORT = int(sys.argv[2]) if len(sys.argv) > 2 else 5353
MATCH_NAME = "echo.test"
def decode_name(data, offset):
labels = []
while True:
length = data[offset]
if length == 0:
offset += 1
break
if length & 0xC0:
offset += 2
break
offset += 1
labels.append(data[offset:offset + length].decode())
offset += length
return '.'.join(labels), offset
class DNSResponder(socketserver.DatagramRequestHandler):
def handle(self):
data = self.rfile.read(512)
if len(data) < 12:
return
tid = struct.unpack(">H", data[:2])[0]
qdcount = struct.unpack(">H", data[4:6])[0]
if qdcount == 0:
return
qname, pos = decode_name(data, 12)
qtype = struct.unpack(">H", data[pos:pos + 2])[0]
qclass = struct.unpack(">H", data[pos + 2:pos + 4])[0]
if qname == MATCH_NAME and qtype == 1:
rcode, ancount = 0, 1
rtype, ttl, rdata = 1, 300, socket.inet_aton(TARGET_IP)
else:
rcode, ancount = 3, 0 # NXDOMAIN
rtype, ttl, rdata = 0, 0, b""
flags = 0x8000 | 0x0400 | rcode # QR=1, AA=1, rcode
header = struct.pack(">HHHHHH", tid, flags, qdcount, ancount, 0, 0)
question = data[12:pos + 4]
answer = b""
if ancount:
answer = (
struct.pack(">HH", 0xC00C, rtype) # NAME pointer + TYPE
+ struct.pack(">HI", qclass, ttl) # CLASS + TTL
+ struct.pack(">H", len(rdata)) + rdata # RDLENGTH + RDATA
)
self.wfile.write(header + question + answer)
if __name__ == "__main__":
socketserver.ThreadingUDPServer.allow_reuse_address = True
with socketserver.ThreadingUDPServer(("0.0.0.0", PORT), DNSResponder) as srv:
srv.serve_forever()

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# HTTP proxy whose outbound dialing uses a custom resolver. The resolver's
# only nameserver is the test DNS responder, which answers echo.test with the
# real echo server IP and NXDOMAIN for everything else. A request to
# echo.test:5678 is therefore resolved by the custom resolver and reaches the
# echo server; a request to an unmapped host fails to resolve.
services:
- name: proxy
addr: ":8080"
resolver: resolver-0
handler:
type: http
listener:
type: tcp
resolvers:
- name: resolver-0
nameservers:
- addr: dns-responder:5353
timeout: 3s

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@ -192,6 +192,41 @@ func RunTCPDNSResponderContainer(ctx context.Context, networkName string) (testc
})
}
// RunResolverResponderContainer starts a UDP DNS responder that answers A
// queries for "echo.test" with targetIP (an echo server's address) and returns
// NXDOMAIN for all other names. It is used to prove the resolver module drives
// outbound dialing: a gost proxy pointed at this responder resolves echo.test
// to a reachable address. The container is aliased "dns-responder".
func RunResolverResponderContainer(ctx context.Context, networkName, targetIP string) (testcontainers.Container, error) {
req := testcontainers.ContainerRequest{
FromDockerfile: testcontainers.FromDockerfile{
Context: ".",
Dockerfile: "Dockerfile",
Repo: "gost-e2e",
Tag: "latest",
KeepImage: true,
BuildOptionsModifier: func(opts *client.ImageBuildOptions) {
opts.NetworkMode = "host"
},
},
Networks: []string{networkName},
NetworkAliases: map[string][]string{
networkName: {"dns-responder"},
},
Files: []testcontainers.ContainerFile{
{HostFilePath: "scripts/dns_resolver_responder.py", ContainerFilePath: "/scripts/dns_server.py", FileMode: 0644},
},
ExposedPorts: []string{"5353/udp"},
Cmd: []string{"python3", "/scripts/dns_server.py", targetIP, "5353"},
WaitingFor: wait.ForExposedPort().SkipInternalCheck(),
}
return testcontainers.GenericContainer(ctx, testcontainers.GenericContainerRequest{
ContainerRequest: req,
Started: true,
})
}
func RunGostContainer(ctx context.Context, networkName, yamlPath string) (testcontainers.Container, error) {
return runGostContainer(ctx, networkName, yamlPath, nil, nil, nil)
}