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|
// Copyright 2020 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package testbench
import (
"context"
"encoding/binary"
"fmt"
"net"
"syscall"
"testing"
"time"
pb "gvisor.dev/gvisor/test/packetimpact/proto/posix_server_go_proto"
"golang.org/x/sys/unix"
"google.golang.org/grpc"
"google.golang.org/grpc/keepalive"
)
// DUT communicates with the DUT to force it to make POSIX calls.
type DUT struct {
conn *grpc.ClientConn
posixServer POSIXClient
Net *DUTTestNet
}
// NewDUT creates a new connection with the DUT over gRPC.
func NewDUT(t *testing.T) DUT {
t.Helper()
n := GetDUTTestNet()
dut := n.ConnectToDUT(t)
t.Cleanup(func() {
dut.TearDownConnection()
dut.Net.Release()
})
return dut
}
// ConnectToDUT connects to DUT through gRPC.
func (n *DUTTestNet) ConnectToDUT(t *testing.T) DUT {
t.Helper()
posixServerAddress := net.JoinHostPort(n.POSIXServerIP.String(), fmt.Sprintf("%d", n.POSIXServerPort))
conn, err := grpc.Dial(posixServerAddress, grpc.WithInsecure(), grpc.WithKeepaliveParams(keepalive.ClientParameters{Timeout: RPCKeepalive}))
if err != nil {
t.Fatalf("failed to grpc.Dial(%s): %s", posixServerAddress, err)
}
posixServer := NewPOSIXClient(conn)
return DUT{
conn: conn,
posixServer: posixServer,
Net: n,
}
}
// TearDownConnection closes the underlying connection.
func (dut *DUT) TearDownConnection() {
dut.conn.Close()
}
func (dut *DUT) sockaddrToProto(t *testing.T, sa unix.Sockaddr) *pb.Sockaddr {
t.Helper()
switch s := sa.(type) {
case *unix.SockaddrInet4:
return &pb.Sockaddr{
Sockaddr: &pb.Sockaddr_In{
In: &pb.SockaddrIn{
Family: unix.AF_INET,
Port: uint32(s.Port),
Addr: s.Addr[:],
},
},
}
case *unix.SockaddrInet6:
return &pb.Sockaddr{
Sockaddr: &pb.Sockaddr_In6{
In6: &pb.SockaddrIn6{
Family: unix.AF_INET6,
Port: uint32(s.Port),
Flowinfo: 0,
ScopeId: s.ZoneId,
Addr: s.Addr[:],
},
},
}
}
t.Fatalf("can't parse Sockaddr struct: %+v", sa)
return nil
}
func (dut *DUT) protoToSockaddr(t *testing.T, sa *pb.Sockaddr) unix.Sockaddr {
t.Helper()
switch s := sa.Sockaddr.(type) {
case *pb.Sockaddr_In:
ret := unix.SockaddrInet4{
Port: int(s.In.GetPort()),
}
copy(ret.Addr[:], s.In.GetAddr())
return &ret
case *pb.Sockaddr_In6:
ret := unix.SockaddrInet6{
Port: int(s.In6.GetPort()),
ZoneId: s.In6.GetScopeId(),
}
copy(ret.Addr[:], s.In6.GetAddr())
return &ret
}
t.Fatalf("can't parse Sockaddr proto: %#v", sa)
return nil
}
// CreateBoundSocket makes a new socket on the DUT, with type typ and protocol
// proto, and bound to the IP address addr. Returns the new file descriptor and
// the port that was selected on the DUT.
func (dut *DUT) CreateBoundSocket(t *testing.T, typ, proto int32, addr net.IP) (int32, uint16) {
t.Helper()
var fd int32
if addr.To4() != nil {
fd = dut.Socket(t, unix.AF_INET, typ, proto)
sa := unix.SockaddrInet4{}
copy(sa.Addr[:], addr.To4())
dut.Bind(t, fd, &sa)
} else if addr.To16() != nil {
fd = dut.Socket(t, unix.AF_INET6, typ, proto)
sa := unix.SockaddrInet6{}
copy(sa.Addr[:], addr.To16())
sa.ZoneId = dut.Net.RemoteDevID
dut.Bind(t, fd, &sa)
} else {
t.Fatalf("invalid IP address: %s", addr)
}
sa := dut.GetSockName(t, fd)
var port int
switch s := sa.(type) {
case *unix.SockaddrInet4:
port = s.Port
case *unix.SockaddrInet6:
port = s.Port
default:
t.Fatalf("unknown sockaddr type from getsockname: %T", sa)
}
return fd, uint16(port)
}
// CreateListener makes a new TCP connection. If it fails, the test ends.
func (dut *DUT) CreateListener(t *testing.T, typ, proto, backlog int32) (int32, uint16) {
t.Helper()
fd, remotePort := dut.CreateBoundSocket(t, typ, proto, dut.Net.RemoteIPv4)
dut.Listen(t, fd, backlog)
return fd, remotePort
}
// All the functions that make gRPC calls to the POSIX service are below, sorted
// alphabetically.
// Accept calls accept on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is needed, use
// AcceptWithErrno.
func (dut *DUT) Accept(t *testing.T, sockfd int32) (int32, unix.Sockaddr) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
fd, sa, err := dut.AcceptWithErrno(ctx, t, sockfd)
if fd < 0 {
t.Fatalf("failed to accept: %s", err)
}
return fd, sa
}
// AcceptWithErrno calls accept on the DUT.
func (dut *DUT) AcceptWithErrno(ctx context.Context, t *testing.T, sockfd int32) (int32, unix.Sockaddr, error) {
t.Helper()
req := &pb.AcceptRequest{
Sockfd: sockfd,
}
resp, err := dut.posixServer.Accept(ctx, req)
if err != nil {
t.Fatalf("failed to call Accept: %s", err)
}
return resp.GetFd(), dut.protoToSockaddr(t, resp.GetAddr()), syscall.Errno(resp.GetErrno_())
}
// Bind calls bind on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is
// needed, use BindWithErrno.
func (dut *DUT) Bind(t *testing.T, fd int32, sa unix.Sockaddr) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.BindWithErrno(ctx, t, fd, sa)
if ret != 0 {
t.Fatalf("failed to bind socket: %s", err)
}
}
// BindWithErrno calls bind on the DUT.
func (dut *DUT) BindWithErrno(ctx context.Context, t *testing.T, fd int32, sa unix.Sockaddr) (int32, error) {
t.Helper()
req := &pb.BindRequest{
Sockfd: fd,
Addr: dut.sockaddrToProto(t, sa),
}
resp, err := dut.posixServer.Bind(ctx, req)
if err != nil {
t.Fatalf("failed to call Bind: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// Close calls close on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is needed, use
// CloseWithErrno.
func (dut *DUT) Close(t *testing.T, fd int32) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.CloseWithErrno(ctx, t, fd)
if ret != 0 {
t.Fatalf("failed to close: %s", err)
}
}
// CloseWithErrno calls close on the DUT.
func (dut *DUT) CloseWithErrno(ctx context.Context, t *testing.T, fd int32) (int32, error) {
t.Helper()
req := &pb.CloseRequest{
Fd: fd,
}
resp, err := dut.posixServer.Close(ctx, req)
if err != nil {
t.Fatalf("failed to call Close: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// Connect calls connect on the DUT and causes a fatal test failure if it
// doesn't succeed. If more control over the timeout or error handling is
// needed, use ConnectWithErrno.
func (dut *DUT) Connect(t *testing.T, fd int32, sa unix.Sockaddr) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.ConnectWithErrno(ctx, t, fd, sa)
// Ignore 'operation in progress' error that can be returned when the socket
// is non-blocking.
if err != syscall.Errno(unix.EINPROGRESS) && ret != 0 {
t.Fatalf("failed to connect socket: %s", err)
}
}
// ConnectWithErrno calls bind on the DUT.
func (dut *DUT) ConnectWithErrno(ctx context.Context, t *testing.T, fd int32, sa unix.Sockaddr) (int32, error) {
t.Helper()
req := &pb.ConnectRequest{
Sockfd: fd,
Addr: dut.sockaddrToProto(t, sa),
}
resp, err := dut.posixServer.Connect(ctx, req)
if err != nil {
t.Fatalf("failed to call Connect: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// GetSockName calls getsockname on the DUT and causes a fatal test failure if
// it doesn't succeed. If more control over the timeout or error handling is
// needed, use GetSockNameWithErrno.
func (dut *DUT) GetSockName(t *testing.T, sockfd int32) unix.Sockaddr {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, sa, err := dut.GetSockNameWithErrno(ctx, t, sockfd)
if ret != 0 {
t.Fatalf("failed to getsockname: %s", err)
}
return sa
}
// GetSockNameWithErrno calls getsockname on the DUT.
func (dut *DUT) GetSockNameWithErrno(ctx context.Context, t *testing.T, sockfd int32) (int32, unix.Sockaddr, error) {
t.Helper()
req := &pb.GetSockNameRequest{
Sockfd: sockfd,
}
resp, err := dut.posixServer.GetSockName(ctx, req)
if err != nil {
t.Fatalf("failed to call Bind: %s", err)
}
return resp.GetRet(), dut.protoToSockaddr(t, resp.GetAddr()), syscall.Errno(resp.GetErrno_())
}
func (dut *DUT) getSockOpt(ctx context.Context, t *testing.T, sockfd, level, optname, optlen int32, typ pb.GetSockOptRequest_SockOptType) (int32, *pb.SockOptVal, error) {
t.Helper()
req := &pb.GetSockOptRequest{
Sockfd: sockfd,
Level: level,
Optname: optname,
Optlen: optlen,
Type: typ,
}
resp, err := dut.posixServer.GetSockOpt(ctx, req)
if err != nil {
t.Fatalf("failed to call GetSockOpt: %s", err)
}
optval := resp.GetOptval()
if optval == nil {
t.Fatalf("GetSockOpt response does not contain a value")
}
return resp.GetRet(), optval, syscall.Errno(resp.GetErrno_())
}
// GetSockOpt calls getsockopt on the DUT and causes a fatal test failure if it
// doesn't succeed. If more control over the timeout or error handling is
// needed, use GetSockOptWithErrno. Because endianess and the width of values
// might differ between the testbench and DUT architectures, prefer to use a
// more specific GetSockOptXxx function.
func (dut *DUT) GetSockOpt(t *testing.T, sockfd, level, optname, optlen int32) []byte {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, optval, err := dut.GetSockOptWithErrno(ctx, t, sockfd, level, optname, optlen)
if ret != 0 {
t.Fatalf("failed to GetSockOpt: %s", err)
}
return optval
}
// GetSockOptWithErrno calls getsockopt on the DUT. Because endianess and the
// width of values might differ between the testbench and DUT architectures,
// prefer to use a more specific GetSockOptXxxWithErrno function.
func (dut *DUT) GetSockOptWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname, optlen int32) (int32, []byte, error) {
t.Helper()
ret, optval, errno := dut.getSockOpt(ctx, t, sockfd, level, optname, optlen, pb.GetSockOptRequest_BYTES)
bytesval, ok := optval.Val.(*pb.SockOptVal_Bytesval)
if !ok {
t.Fatalf("GetSockOpt got value type: %T, want bytes", optval.Val)
}
return ret, bytesval.Bytesval, errno
}
// GetSockOptInt calls getsockopt on the DUT and causes a fatal test failure
// if it doesn't succeed. If more control over the int optval or error handling
// is needed, use GetSockOptIntWithErrno.
func (dut *DUT) GetSockOptInt(t *testing.T, sockfd, level, optname int32) int32 {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, intval, err := dut.GetSockOptIntWithErrno(ctx, t, sockfd, level, optname)
if ret != 0 {
t.Fatalf("failed to GetSockOptInt: %s", err)
}
return intval
}
// GetSockOptIntWithErrno calls getsockopt with an integer optval.
func (dut *DUT) GetSockOptIntWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32) (int32, int32, error) {
t.Helper()
ret, optval, errno := dut.getSockOpt(ctx, t, sockfd, level, optname, 0, pb.GetSockOptRequest_INT)
intval, ok := optval.Val.(*pb.SockOptVal_Intval)
if !ok {
t.Fatalf("GetSockOpt got value type: %T, want int", optval.Val)
}
return ret, intval.Intval, errno
}
// GetSockOptTimeval calls getsockopt on the DUT and causes a fatal test failure
// if it doesn't succeed. If more control over the timeout or error handling is
// needed, use GetSockOptTimevalWithErrno.
func (dut *DUT) GetSockOptTimeval(t *testing.T, sockfd, level, optname int32) unix.Timeval {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, timeval, err := dut.GetSockOptTimevalWithErrno(ctx, t, sockfd, level, optname)
if ret != 0 {
t.Fatalf("failed to GetSockOptTimeval: %s", err)
}
return timeval
}
// GetSockOptTimevalWithErrno calls getsockopt and returns a timeval.
func (dut *DUT) GetSockOptTimevalWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32) (int32, unix.Timeval, error) {
t.Helper()
ret, optval, errno := dut.getSockOpt(ctx, t, sockfd, level, optname, 0, pb.GetSockOptRequest_TIME)
tv, ok := optval.Val.(*pb.SockOptVal_Timeval)
if !ok {
t.Fatalf("GetSockOpt got value type: %T, want timeval", optval.Val)
}
timeval := unix.Timeval{
Sec: tv.Timeval.Seconds,
Usec: tv.Timeval.Microseconds,
}
return ret, timeval, errno
}
// Listen calls listen on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is needed, use
// ListenWithErrno.
func (dut *DUT) Listen(t *testing.T, sockfd, backlog int32) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.ListenWithErrno(ctx, t, sockfd, backlog)
if ret != 0 {
t.Fatalf("failed to listen: %s", err)
}
}
// ListenWithErrno calls listen on the DUT.
func (dut *DUT) ListenWithErrno(ctx context.Context, t *testing.T, sockfd, backlog int32) (int32, error) {
t.Helper()
req := &pb.ListenRequest{
Sockfd: sockfd,
Backlog: backlog,
}
resp, err := dut.posixServer.Listen(ctx, req)
if err != nil {
t.Fatalf("failed to call Listen: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// PollOne calls poll on the DUT and asserts that the expected event must be
// signaled on the given fd within the given timeout.
func (dut *DUT) PollOne(t *testing.T, fd int32, events int16, timeout time.Duration) {
t.Helper()
pfds := dut.Poll(t, []unix.PollFd{{Fd: fd, Events: events}}, timeout)
if n := len(pfds); n != 1 {
t.Fatalf("Poll returned %d ready file descriptors, expected 1", n)
}
if readyFd := pfds[0].Fd; readyFd != fd {
t.Fatalf("Poll returned an fd %d that was not requested (%d)", readyFd, fd)
}
if got, want := pfds[0].Revents, int16(events); got&want == 0 {
t.Fatalf("Poll returned no events in our interest, got: %#b, want: %#b", got, want)
}
}
// Poll calls poll on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over error handling is needed, use PollWithErrno.
// Only pollfds with non-empty revents are returned, the only way to tie the
// response back to the original request is using the fd number.
func (dut *DUT) Poll(t *testing.T, pfds []unix.PollFd, timeout time.Duration) []unix.PollFd {
t.Helper()
ctx := context.Background()
var cancel context.CancelFunc
if timeout >= 0 {
ctx, cancel = context.WithTimeout(ctx, timeout+RPCTimeout)
defer cancel()
}
ret, result, err := dut.PollWithErrno(ctx, t, pfds, timeout)
if ret < 0 {
t.Fatalf("failed to poll: %s", err)
}
return result
}
// PollWithErrno calls poll on the DUT.
func (dut *DUT) PollWithErrno(ctx context.Context, t *testing.T, pfds []unix.PollFd, timeout time.Duration) (int32, []unix.PollFd, error) {
t.Helper()
req := &pb.PollRequest{
TimeoutMillis: int32(timeout.Milliseconds()),
}
for _, pfd := range pfds {
req.Pfds = append(req.Pfds, &pb.PollFd{
Fd: pfd.Fd,
Events: uint32(pfd.Events),
})
}
resp, err := dut.posixServer.Poll(ctx, req)
if err != nil {
t.Fatalf("failed to call Poll: %s", err)
}
if ret, npfds := resp.GetRet(), len(resp.GetPfds()); ret >= 0 && int(ret) != npfds {
t.Fatalf("nonsensical poll response: ret(%d) != len(pfds)(%d)", ret, npfds)
}
var result []unix.PollFd
for _, protoPfd := range resp.GetPfds() {
result = append(result, unix.PollFd{
Fd: protoPfd.GetFd(),
Revents: int16(protoPfd.GetEvents()),
})
}
return resp.GetRet(), result, syscall.Errno(resp.GetErrno_())
}
// Send calls send on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is needed, use
// SendWithErrno.
func (dut *DUT) Send(t *testing.T, sockfd int32, buf []byte, flags int32) int32 {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.SendWithErrno(ctx, t, sockfd, buf, flags)
if ret == -1 {
t.Fatalf("failed to send: %s", err)
}
return ret
}
// SendWithErrno calls send on the DUT.
func (dut *DUT) SendWithErrno(ctx context.Context, t *testing.T, sockfd int32, buf []byte, flags int32) (int32, error) {
t.Helper()
req := &pb.SendRequest{
Sockfd: sockfd,
Buf: buf,
Flags: flags,
}
resp, err := dut.posixServer.Send(ctx, req)
if err != nil {
t.Fatalf("failed to call Send: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// SendTo calls sendto on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is needed, use
// SendToWithErrno.
func (dut *DUT) SendTo(t *testing.T, sockfd int32, buf []byte, flags int32, destAddr unix.Sockaddr) int32 {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.SendToWithErrno(ctx, t, sockfd, buf, flags, destAddr)
if ret == -1 {
t.Fatalf("failed to sendto: %s", err)
}
return ret
}
// SendToWithErrno calls sendto on the DUT.
func (dut *DUT) SendToWithErrno(ctx context.Context, t *testing.T, sockfd int32, buf []byte, flags int32, destAddr unix.Sockaddr) (int32, error) {
t.Helper()
req := &pb.SendToRequest{
Sockfd: sockfd,
Buf: buf,
Flags: flags,
DestAddr: dut.sockaddrToProto(t, destAddr),
}
resp, err := dut.posixServer.SendTo(ctx, req)
if err != nil {
t.Fatalf("failed to call SendTo: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// SetNonBlocking will set O_NONBLOCK flag for fd if nonblocking
// is true, otherwise it will clear the flag.
func (dut *DUT) SetNonBlocking(t *testing.T, fd int32, nonblocking bool) {
t.Helper()
req := &pb.SetNonblockingRequest{
Fd: fd,
Nonblocking: nonblocking,
}
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
resp, err := dut.posixServer.SetNonblocking(ctx, req)
if err != nil {
t.Fatalf("failed to call SetNonblocking: %s", err)
}
if resp.GetRet() == -1 {
t.Fatalf("fcntl(%d, %s) failed: %s", fd, resp.GetCmd(), syscall.Errno(resp.GetErrno_()))
}
}
func (dut *DUT) setSockOpt(ctx context.Context, t *testing.T, sockfd, level, optname int32, optval *pb.SockOptVal) (int32, error) {
t.Helper()
req := &pb.SetSockOptRequest{
Sockfd: sockfd,
Level: level,
Optname: optname,
Optval: optval,
}
resp, err := dut.posixServer.SetSockOpt(ctx, req)
if err != nil {
t.Fatalf("failed to call SetSockOpt: %s", err)
}
return resp.GetRet(), syscall.Errno(resp.GetErrno_())
}
// SetSockOpt calls setsockopt on the DUT and causes a fatal test failure if it
// doesn't succeed. If more control over the timeout or error handling is
// needed, use SetSockOptWithErrno. Because endianess and the width of values
// might differ between the testbench and DUT architectures, prefer to use a
// more specific SetSockOptXxx function.
func (dut *DUT) SetSockOpt(t *testing.T, sockfd, level, optname int32, optval []byte) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.SetSockOptWithErrno(ctx, t, sockfd, level, optname, optval)
if ret != 0 {
t.Fatalf("failed to SetSockOpt: %s", err)
}
}
// SetSockOptWithErrno calls setsockopt on the DUT. Because endianess and the
// width of values might differ between the testbench and DUT architectures,
// prefer to use a more specific SetSockOptXxxWithErrno function.
func (dut *DUT) SetSockOptWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32, optval []byte) (int32, error) {
t.Helper()
return dut.setSockOpt(ctx, t, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Bytesval{optval}})
}
// SetSockOptInt calls setsockopt on the DUT and causes a fatal test failure
// if it doesn't succeed. If more control over the int optval or error handling
// is needed, use SetSockOptIntWithErrno.
func (dut *DUT) SetSockOptInt(t *testing.T, sockfd, level, optname, optval int32) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.SetSockOptIntWithErrno(ctx, t, sockfd, level, optname, optval)
if ret != 0 {
t.Fatalf("failed to SetSockOptInt: %s", err)
}
}
// SetSockOptIntWithErrno calls setsockopt with an integer optval.
func (dut *DUT) SetSockOptIntWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname, optval int32) (int32, error) {
t.Helper()
return dut.setSockOpt(ctx, t, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Intval{optval}})
}
// SetSockOptTimeval calls setsockopt on the DUT and causes a fatal test failure
// if it doesn't succeed. If more control over the timeout or error handling is
// needed, use SetSockOptTimevalWithErrno.
func (dut *DUT) SetSockOptTimeval(t *testing.T, sockfd, level, optname int32, tv *unix.Timeval) {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, err := dut.SetSockOptTimevalWithErrno(ctx, t, sockfd, level, optname, tv)
if ret != 0 {
t.Fatalf("failed to SetSockOptTimeval: %s", err)
}
}
// SetSockOptTimevalWithErrno calls setsockopt with the timeval converted to
// bytes.
func (dut *DUT) SetSockOptTimevalWithErrno(ctx context.Context, t *testing.T, sockfd, level, optname int32, tv *unix.Timeval) (int32, error) {
t.Helper()
timeval := pb.Timeval{
Seconds: int64(tv.Sec),
Microseconds: int64(tv.Usec),
}
return dut.setSockOpt(ctx, t, sockfd, level, optname, &pb.SockOptVal{Val: &pb.SockOptVal_Timeval{&timeval}})
}
// Socket calls socket on the DUT and returns the file descriptor. If socket
// fails on the DUT, the test ends.
func (dut *DUT) Socket(t *testing.T, domain, typ, proto int32) int32 {
t.Helper()
fd, err := dut.SocketWithErrno(t, domain, typ, proto)
if fd < 0 {
t.Fatalf("failed to create socket: %s", err)
}
return fd
}
// SocketWithErrno calls socket on the DUT and returns the fd and errno.
func (dut *DUT) SocketWithErrno(t *testing.T, domain, typ, proto int32) (int32, error) {
t.Helper()
req := &pb.SocketRequest{
Domain: domain,
Type: typ,
Protocol: proto,
}
ctx := context.Background()
resp, err := dut.posixServer.Socket(ctx, req)
if err != nil {
t.Fatalf("failed to call Socket: %s", err)
}
return resp.GetFd(), syscall.Errno(resp.GetErrno_())
}
// Recv calls recv on the DUT and causes a fatal test failure if it doesn't
// succeed. If more control over the timeout or error handling is needed, use
// RecvWithErrno.
func (dut *DUT) Recv(t *testing.T, sockfd, len, flags int32) []byte {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
ret, buf, err := dut.RecvWithErrno(ctx, t, sockfd, len, flags)
if ret == -1 {
t.Fatalf("failed to recv: %s", err)
}
return buf
}
// RecvWithErrno calls recv on the DUT.
func (dut *DUT) RecvWithErrno(ctx context.Context, t *testing.T, sockfd, len, flags int32) (int32, []byte, error) {
t.Helper()
req := &pb.RecvRequest{
Sockfd: sockfd,
Len: len,
Flags: flags,
}
resp, err := dut.posixServer.Recv(ctx, req)
if err != nil {
t.Fatalf("failed to call Recv: %s", err)
}
return resp.GetRet(), resp.GetBuf(), syscall.Errno(resp.GetErrno_())
}
// SetSockLingerOption sets SO_LINGER socket option on the DUT.
func (dut *DUT) SetSockLingerOption(t *testing.T, sockfd int32, timeout time.Duration, enable bool) {
var linger unix.Linger
if enable {
linger.Onoff = 1
}
linger.Linger = int32(timeout / time.Second)
buf := make([]byte, 8)
binary.LittleEndian.PutUint32(buf, uint32(linger.Onoff))
binary.LittleEndian.PutUint32(buf[4:], uint32(linger.Linger))
dut.SetSockOpt(t, sockfd, unix.SOL_SOCKET, unix.SO_LINGER, buf)
}
// Shutdown calls shutdown on the DUT and causes a fatal test failure if it
// doesn't succeed. If more control over the timeout or error handling is
// needed, use ShutdownWithErrno.
func (dut *DUT) Shutdown(t *testing.T, fd, how int32) error {
t.Helper()
ctx, cancel := context.WithTimeout(context.Background(), RPCTimeout)
defer cancel()
return dut.ShutdownWithErrno(ctx, t, fd, how)
}
// ShutdownWithErrno calls shutdown on the DUT.
func (dut *DUT) ShutdownWithErrno(ctx context.Context, t *testing.T, fd, how int32) error {
t.Helper()
req := &pb.ShutdownRequest{
Fd: fd,
How: how,
}
resp, err := dut.posixServer.Shutdown(ctx, req)
if err != nil {
t.Fatalf("failed to call Shutdown: %s", err)
}
return syscall.Errno(resp.GetErrno_())
}
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