// +build !race package ssh import ( "bufio" "bytes" "encoding/base64" "fmt" "io" "io/ioutil" "math/rand" "net" "os" "path/filepath" "regexp" "strconv" "strings" "testing" "time" "github.com/hashicorp/terraform/internal/communicator/remote" "github.com/zclconf/go-cty/cty" "golang.org/x/crypto/ssh" ) // private key for mock server const testServerPrivateKey = `-----BEGIN RSA PRIVATE KEY----- MIIEpAIBAAKCAQEA19lGVsTqIT5iiNYRgnoY1CwkbETW5cq+Rzk5v/kTlf31XpSU 70HVWkbTERECjaYdXM2gGcbb+sxpq6GtXf1M3kVomycqhxwhPv4Cr6Xp4WT/jkFx 9z+FFzpeodGJWjOH6L2H5uX1Cvr9EDdQp9t9/J32/qBFntY8GwoUI/y/1MSTmMiF tupdMODN064vd3gyMKTwrlQ8tZM6aYuyOPsutLlUY7M5x5FwMDYvnPDSeyT/Iw0z s3B+NCyqeeMd2T7YzQFnRATj0M7rM5LoSs7DVqVriOEABssFyLj31PboaoLhOKgc qoM9khkNzr7FHVvi+DhYM2jD0DwvqZLN6NmnLwIDAQABAoIBAQCGVj+kuSFOV1lT +IclQYA6bM6uY5mroqcSBNegVxCNhWU03BxlW//BE9tA/+kq53vWylMeN9mpGZea riEMIh25KFGWXqXlOOioH8bkMsqA8S7sBmc7jljyv+0toQ9vCCtJ+sueNPhxQQxH D2YvUjfzBQ04I9+wn30BByDJ1QA/FoPsunxIOUCcRBE/7jxuLYcpR+JvEF68yYIh atXRld4W4in7T65YDR8jK1Uj9XAcNeDYNpT/M6oFLx1aPIlkG86aCWRO19S1jLPT b1ZAKHHxPMCVkSYW0RqvIgLXQOR62D0Zne6/2wtzJkk5UCjkSQ2z7ZzJpMkWgDgN ifCULFPBAoGBAPoMZ5q1w+zB+knXUD33n1J+niN6TZHJulpf2w5zsW+m2K6Zn62M MXndXlVAHtk6p02q9kxHdgov34Uo8VpuNjbS1+abGFTI8NZgFo+bsDxJdItemwC4 KJ7L1iz39hRN/ZylMRLz5uTYRGddCkeIHhiG2h7zohH/MaYzUacXEEy3AoGBANz8 e/msleB+iXC0cXKwds26N4hyMdAFE5qAqJXvV3S2W8JZnmU+sS7vPAWMYPlERPk1 D8Q2eXqdPIkAWBhrx4RxD7rNc5qFNcQWEhCIxC9fccluH1y5g2M+4jpMX2CT8Uv+ 3z+NoJ5uDTXZTnLCfoZzgZ4nCZVZ+6iU5U1+YXFJAoGBANLPpIV920n/nJmmquMj orI1R/QXR9Cy56cMC65agezlGOfTYxk5Cfl5Ve+/2IJCfgzwJyjWUsFx7RviEeGw 64o7JoUom1HX+5xxdHPsyZ96OoTJ5RqtKKoApnhRMamau0fWydH1yeOEJd+TRHhc XStGfhz8QNa1dVFvENczja1vAoGABGWhsd4VPVpHMc7lUvrf4kgKQtTC2PjA4xoc QJ96hf/642sVE76jl+N6tkGMzGjnVm4P2j+bOy1VvwQavKGoXqJBRd5Apppv727g /SM7hBXKFc/zH80xKBBgP/i1DR7kdjakCoeu4ngeGywvu2jTS6mQsqzkK+yWbUxJ I7mYBsECgYB/KNXlTEpXtz/kwWCHFSYA8U74l7zZbVD8ul0e56JDK+lLcJ0tJffk gqnBycHj6AhEycjda75cs+0zybZvN4x65KZHOGW/O/7OAWEcZP5TPb3zf9ned3Hl NsZoFj52ponUM6+99A2CmezFCN16c4mbA//luWF+k3VVqR6BpkrhKw== -----END RSA PRIVATE KEY-----` // this cert was signed by the key from testCAPublicKey const testServerHostCert = `ssh-rsa-cert-v01@openssh.com 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` const testCAPublicKey = `ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCrozyZIhdEvalCn+eSzHH94cO9ykiywA13ntWI7mJcHBwYTeCYWG8E9zGXyp2iDOjCGudM0Tdt8o0OofKChk9Z/qiUN0G8y1kmaXBlBM3qA5R9NPpvMYMNkYLfX6ivtZCnqrsbzaoqN2Oc/7H2StHzJWh/XCGu9otQZA6vdv1oSmAsZOjw/xIGaGQqDUaLq21J280PP1qSbdJHf76iSHE+TWe3YpqV946JWM5tCh0DykZ10VznvxYpUjzhr07IN3tVKxOXbPnnU7lX6IaLIWgfzLqwSyheeux05c3JLF9iF4sFu8ou4hwQz1iuUTU1jxgwZP0w/bkXgFFs0949lW81` func newMockLineServer(t *testing.T, signer ssh.Signer, pubKey string) string { serverConfig := &ssh.ServerConfig{ PasswordCallback: acceptUserPass("user", "pass"), PublicKeyCallback: acceptPublicKey(pubKey), } var err error if signer == nil { signer, err = ssh.ParsePrivateKey([]byte(testServerPrivateKey)) if err != nil { t.Fatalf("unable to parse private key: %s", err) } } serverConfig.AddHostKey(signer) l, err := net.Listen("tcp", "127.0.0.1:0") if err != nil { t.Fatalf("Unable to listen for connection: %s", err) } go func() { defer l.Close() c, err := l.Accept() if err != nil { t.Errorf("Unable to accept incoming connection: %s", err) } defer c.Close() conn, chans, _, err := ssh.NewServerConn(c, serverConfig) if err != nil { t.Logf("Handshaking error: %v", err) } t.Log("Accepted SSH connection") for newChannel := range chans { channel, requests, err := newChannel.Accept() if err != nil { t.Errorf("Unable to accept channel.") } t.Log("Accepted channel") go func(in <-chan *ssh.Request) { defer channel.Close() for req := range in { // since this channel's requests are serviced serially, // this will block keepalive probes, and can simulate a // hung connection. if bytes.Contains(req.Payload, []byte("sleep")) { time.Sleep(time.Second) } if req.WantReply { req.Reply(true, nil) } } }(requests) } conn.Close() }() return l.Addr().String() } func TestNew_Invalid(t *testing.T) { address := newMockLineServer(t, nil, testClientPublicKey) parts := strings.Split(address, ":") v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal("user"), "password": cty.StringVal("i-am-invalid"), "host": cty.StringVal(parts[0]), "port": cty.StringVal(parts[1]), "timeout": cty.StringVal("30s"), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } err = c.Connect(nil) if err == nil { t.Fatal("should have had an error connecting") } } func TestNew_InvalidHost(t *testing.T) { v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal("user"), "password": cty.StringVal("i-am-invalid"), "port": cty.StringVal("22"), "timeout": cty.StringVal("30s"), }) _, err := New(v) if err == nil { t.Fatal("should have had an error creating communicator") } } func TestStart(t *testing.T) { address := newMockLineServer(t, nil, testClientPublicKey) parts := strings.Split(address, ":") v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal("user"), "password": cty.StringVal("pass"), "host": cty.StringVal(parts[0]), "port": cty.StringVal(parts[1]), "timeout": cty.StringVal("30s"), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "echo foo" cmd.Stdout = stdout err = c.Start(&cmd) if err != nil { t.Fatalf("error executing remote command: %s", err) } } // TestKeepAlives verifies that the keepalive messages don't interfere with // normal operation of the client. func TestKeepAlives(t *testing.T) { ivl := keepAliveInterval keepAliveInterval = 250 * time.Millisecond defer func() { keepAliveInterval = ivl }() address := newMockLineServer(t, nil, testClientPublicKey) parts := strings.Split(address, ":") v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal("user"), "password": cty.StringVal("pass"), "host": cty.StringVal(parts[0]), "port": cty.StringVal(parts[1]), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } if err := c.Connect(nil); err != nil { t.Fatal(err) } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "sleep" cmd.Stdout = stdout // wait a bit before executing the command, so that at least 1 keepalive is sent time.Sleep(500 * time.Millisecond) err = c.Start(&cmd) if err != nil { t.Fatalf("error executing remote command: %s", err) } } // TestDeadConnection verifies that failed keepalive messages will eventually // kill the connection. func TestFailedKeepAlives(t *testing.T) { ivl := keepAliveInterval del := maxKeepAliveDelay maxKeepAliveDelay = 500 * time.Millisecond keepAliveInterval = 250 * time.Millisecond defer func() { keepAliveInterval = ivl maxKeepAliveDelay = del }() address := newMockLineServer(t, nil, testClientPublicKey) parts := strings.Split(address, ":") v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal("user"), "password": cty.StringVal("pass"), "host": cty.StringVal(parts[0]), "port": cty.StringVal(parts[1]), "timeout": cty.StringVal("30s"), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } if err := c.Connect(nil); err != nil { t.Fatal(err) } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "sleep" cmd.Stdout = stdout err = c.Start(&cmd) if err == nil { t.Fatal("expected connection error") } } func TestLostConnection(t *testing.T) { address := newMockLineServer(t, nil, testClientPublicKey) parts := strings.Split(address, ":") v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal("user"), "password": cty.StringVal("pass"), "host": cty.StringVal(parts[0]), "port": cty.StringVal(parts[1]), "timeout": cty.StringVal("30s"), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "echo foo" cmd.Stdout = stdout err = c.Start(&cmd) if err != nil { t.Fatalf("error executing remote command: %s", err) } // The test server can't execute anything, so Wait will block, unless // there's an error. Disconnect the communicator transport, to cause the // command to fail. go func() { time.Sleep(100 * time.Millisecond) c.Disconnect() }() err = cmd.Wait() if err == nil { t.Fatal("expected communicator error") } } func TestHostKey(t *testing.T) { // get the server's public key signer, err := ssh.ParsePrivateKey([]byte(testServerPrivateKey)) if err != nil { t.Fatalf("unable to parse private key: %v", err) } pubKey := fmt.Sprintf("ssh-rsa %s", base64.StdEncoding.EncodeToString(signer.PublicKey().Marshal())) address := newMockLineServer(t, nil, testClientPublicKey) host, p, _ := net.SplitHostPort(address) port, _ := strconv.Atoi(p) connInfo := &connectionInfo{ User: "user", Password: "pass", Host: host, HostKey: pubKey, Port: uint16(port), Timeout: "30s", } cfg, err := prepareSSHConfig(connInfo) if err != nil { t.Fatal(err) } c := &Communicator{ connInfo: connInfo, config: cfg, } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "echo foo" cmd.Stdout = stdout if err := c.Start(&cmd); err != nil { t.Fatal(err) } if err := c.Disconnect(); err != nil { t.Fatal(err) } // now check with the wrong HostKey address = newMockLineServer(t, nil, testClientPublicKey) _, p, _ = net.SplitHostPort(address) port, _ = strconv.Atoi(p) connInfo.HostKey = testClientPublicKey connInfo.Port = uint16(port) cfg, err = prepareSSHConfig(connInfo) if err != nil { t.Fatal(err) } c = &Communicator{ connInfo: connInfo, config: cfg, } err = c.Start(&cmd) if err == nil || !strings.Contains(err.Error(), "mismatch") { t.Fatalf("expected host key mismatch, got error:%v", err) } } func TestHostCert(t *testing.T) { pk, _, _, _, err := ssh.ParseAuthorizedKey([]byte(testServerHostCert)) if err != nil { t.Fatal(err) } signer, err := ssh.ParsePrivateKey([]byte(testServerPrivateKey)) if err != nil { t.Fatal(err) } signer, err = ssh.NewCertSigner(pk.(*ssh.Certificate), signer) if err != nil { t.Fatal(err) } address := newMockLineServer(t, signer, testClientPublicKey) host, p, _ := net.SplitHostPort(address) port, _ := strconv.Atoi(p) connInfo := &connectionInfo{ User: "user", Password: "pass", Host: host, HostKey: testCAPublicKey, Port: uint16(port), Timeout: "30s", } cfg, err := prepareSSHConfig(connInfo) if err != nil { t.Fatal(err) } c := &Communicator{ connInfo: connInfo, config: cfg, } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "echo foo" cmd.Stdout = stdout if err := c.Start(&cmd); err != nil { t.Fatal(err) } if err := c.Disconnect(); err != nil { t.Fatal(err) } // now check with the wrong HostKey address = newMockLineServer(t, signer, testClientPublicKey) _, p, _ = net.SplitHostPort(address) port, _ = strconv.Atoi(p) connInfo.HostKey = testClientPublicKey connInfo.Port = uint16(port) cfg, err = prepareSSHConfig(connInfo) if err != nil { t.Fatal(err) } c = &Communicator{ connInfo: connInfo, config: cfg, } err = c.Start(&cmd) if err == nil || !strings.Contains(err.Error(), "authorities") { t.Fatalf("expected host key mismatch, got error:%v", err) } } const SERVER_PEM = `-----BEGIN RSA PRIVATE KEY----- MIIEpAIBAAKCAQEA8CkDr7uxCFt6lQUVwS8NyPO+fQNxORoGnMnN/XhVJZvpqyKR Uji9R0d8D66bYxUUsabXjP2y4HTVzbZtnvXFZZshk0cOtJjjekpYJaLK2esPR/iX wvSltNkrDQDPN/RmgEEMIevW8AgrPsqrnybFHxTpd7rEUHXBOe4nMNRIg3XHykB6 jZk8q5bBPUe3I/f0DK5TJEBpTc6dO3P/j93u55VUqr39/SPRHnld2mCw+c8v6UOh sssO/DIZFPScD3DYqsk2N+/nz9zXfcOTdWGhawgxuIo1DTokrNQbG3pDrLqcWgqj 13vqJFCmRA0O2CQIwJePd6+Np/XO3Uh/KL6FlQIDAQABAoIBAQCmvQMXNmvCDqk7 30zsVDvw4fHGH+azK3Od1aqTqcEMHISOUbCtckFPxLzIsoSltRQqB1kuRVG07skm Stsu+xny4lLcSwBVuLRuykEK2EyYIc/5Owo6y9pkhkaSf5ZfFes4bnD6+B/BhRpp PRMMq0E+xCkX/G6iIi9mhgdlqm0x/vKtjzQeeshw9+gRcRLUpX+UeKFKXMXcDayx qekr1bAaQKNBhTK+CbZjcqzG4f+BXVGRTZ9nsPAV+yTnWUCU0TghwPmtthHbebqa 9hlkum7qik/bQj/tjJ8/b0vTfHQSVxhtPG/ZV2Tn9ZuL/vrkYqeyMU8XkJ/uaEvH WPyOcB4BAoGBAP5o5JSEtPog+U3JFrLNSRjz5ofZNVkJzice+0XyqlzJDHhX5tF8 mriYQZLLXYhckBm4IdkhTn/dVbXNQTzyy2WVuO5nU8bkCMvGL9CGpW4YGqwGf7NX e4H3emtRjLv8VZpUHe/RUUDhmYvMSt1qmXuskfpROuGfLhQBUd6A4J+BAoGBAPGp UcMKjrxZ5qjYU6DLgS+xeca4Eu70HgdbSQbRo45WubXjyXvTRFij36DrpxJWf1D7 lIsyBifoTra/lAuC1NQXGYWjTCdk2ey8Ll5qOgiXvE6lINHABr+U/Z90/g6LuML2 VzaZbq/QLcT3yVsdyTogKckzCaKsCpusyHE1CXAVAoGAd6kMglKc8N0bhZukgnsN +5+UeacPcY6sGTh4RWErAjNKGzx1A2lROKvcg9gFaULoQECcIw2IZ5nKW5VsLueg BWrTrcaJ4A2XmYjhKnp6SvspaGoyHD90hx/Iw7t6r1yzQsB3yDmytwqldtyjBdvC zynPC2azhDWjraMlR7tka4ECgYAxwvLiHa9sm3qCtCDsUFtmrb3srITBjaUNUL/F 1q8+JR+Sk7gudj9xnTT0VvINNaB71YIt83wPBagHu4VJpYQbtDH+MbUBu6OgOtO1 f1w53rzY2OncJxV8p7pd9mJGLoE6LC2jQY7oRw7Vq0xcJdME1BCmrIrEY3a/vaF8 pjYuTQKBgQCIOH23Xita8KmhH0NdlWxZfcQt1j3AnOcKe6UyN4BsF8hqS7eTA52s WjG5X2IBl7gs1eMM1qkqR8npS9nwfO/pBmZPwjiZoilypXxWj+c+P3vwre2yija4 bXgFVj4KFBwhr1+8KcobxC0SAPEouMvSkxzjjw+gnebozUtPlud9jA== -----END RSA PRIVATE KEY----- ` const CLIENT_CERT_SIGNED_BY_SERVER = `ssh-rsa-cert-v01@openssh.com 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 itbitloaner@MacBook-Pro-4.fios-router.home` const CLIENT_PEM = `-----BEGIN RSA PRIVATE KEY----- MIIEpAIBAAKCAQEAsruexO8yFkchFrmojoopDkmShY28C5KRPX26BXyy7DVCY+M8 PuW2VCbc1ivK6D44C/LNaD53K6OcLk7SNjbuH5KXhStB2996OhMpLLo+DpuPulHp p9UBHG9G2aivGcoPQ4PXXj+y3hNL+/G+f42WnxYMMb/v7DITND0Q9+DQg2HGJpJB 5b0LUFhQHWz1woIITm3nWcmHaKmVboU7IjzFrUEv3HPTOLb+pjzrkJYWbd0fzof5 MFMruOaBkW+W4TuCYnKMxUt6HgpaVPlDG4LJZMwKSasWQVje/jwxUmYSpNhrJcns j+LB9xN9GdNMlYv5UGIJkLAfh4OgpXpjUDDbvwIDAQABAoIBAEu2ctFVyk/pnbi0 uRR4rl+hBvKQUeJNGj2ELvL4Ggs5nIAX2IOEZ7JKLC6FqpSrFq7pEd5g57aSvixX s3DH4CN7w7fj1ShBCNPlHgIWewdRGpeA74vrDWdwNAEsFdDE6aZeCTOhpDGy1vNJ OrtpzS5i9pN0jTvvEneEjtWSZIHiiVlN+0hsFaiwZ6KXON+sDccZPmnP6Fzwj5Rc WS0dKSwnxnx0otWgwWFs8nr306nSeMsNmQkHsS9lz4DEVpp9owdzrX1JmbQvNYAV ohmB3ET4JYFgerqPXJfed9poueGuWCP6MYhsjNeHN35QhofxdO5/0i3JlZfqwZei tNq/0oECgYEA6SqjRqDiIp3ajwyB7Wf0cIQG/P6JZDyN1jl//htgniliIH5UP1Tm uAMG5MincV6X9lOyXyh6Yofu5+NR0yt9SqbDZVJ3ZCxKTun7pxJvQFd7wl5bMkiJ qVfS08k6gQHHDoO+eel+DtpIfWc+e3tvX0aihSU0GZEMqDXYkkphLGECgYEAxDxb +JwJ3N5UEjjkuvFBpuJnmjIaN9HvQkTv3inlx1gLE4iWBZXXsu4aWF8MCUeAAZyP 42hQDSkCYX/A22tYCEn/jfrU6A+6rkWBTjdUlYLvlSkhosSnO+117WEItb5cUE95 hF4UY7LNs1AsDkV4WE87f/EjpxSwUAjB2Lfd/B8CgYAJ/JiHsuZcozQ0Qk3iVDyF ATKnbWOHFozgqw/PW27U92LLj32eRM2o/gAylmGNmoaZt1YBe2NaiwXxiqv7hnZU VzYxRcn1UWxRWvY7Xq/DKrwTRCVVzwOObEOMbKcD1YaoGX50DEso6bKHJH/pnAzW INlfKIvFuI+5OK0w/tyQoQKBgQCf/jpaOxaLfrV62eobRQJrByLDBGB97GsvU7di IjTWz8DQH0d5rE7d8uWF8ZCFrEcAiV6DYZQK9smbJqbd/uoacAKtBro5rkFdPwwK 8m/DKqsdqRhkdgOHh7bjYH7Sdy8ax4Fi27WyB6FQtmgFBrz0+zyetsODwQlzZ4Bs qpSRrwKBgQC0vWHrY5aGIdF+b8EpP0/SSLLALpMySHyWhDyxYcPqdhszYbjDcavv xrrLXNUD2duBHKPVYE+7uVoDkpZXLUQ4x8argo/IwQM6Kh2ma1y83TYMT6XhL1+B 5UPcl6RXZBCkiU7nFIG6/0XKFqVWc3fU8e09X+iJwXIJ5Jatywtg+g== -----END RSA PRIVATE KEY----- ` func TestCertificateBasedAuth(t *testing.T) { signer, err := ssh.ParsePrivateKey([]byte(SERVER_PEM)) if err != nil { t.Fatalf("unable to parse private key: %v", err) } address := newMockLineServer(t, signer, CLIENT_CERT_SIGNED_BY_SERVER) host, p, _ := net.SplitHostPort(address) port, _ := strconv.Atoi(p) connInfo := &connectionInfo{ User: "user", Host: host, PrivateKey: CLIENT_PEM, Certificate: CLIENT_CERT_SIGNED_BY_SERVER, Port: uint16(port), Timeout: "30s", } cfg, err := prepareSSHConfig(connInfo) if err != nil { t.Fatal(err) } c := &Communicator{ connInfo: connInfo, config: cfg, } var cmd remote.Cmd stdout := new(bytes.Buffer) cmd.Command = "echo foo" cmd.Stdout = stdout if err := c.Start(&cmd); err != nil { t.Fatal(err) } if err := c.Disconnect(); err != nil { t.Fatal(err) } } func TestAccUploadFile(t *testing.T) { // use the local ssh server and scp binary to check uploads if ok := os.Getenv("SSH_UPLOAD_TEST"); ok == "" { t.Log("Skipping Upload Acceptance without SSH_UPLOAD_TEST set") t.Skip() } v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "user": cty.StringVal(os.Getenv("USER")), "host": cty.StringVal("127.0.0.1"), "port": cty.StringVal("22"), "timeout": cty.StringVal("30s"), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } tmpDir, err := ioutil.TempDir("", "communicator") if err != nil { t.Fatal(err) } defer os.RemoveAll(tmpDir) content := []byte("this is the file content") source := bytes.NewReader(content) tmpFile := filepath.Join(tmpDir, "tempFile.out") err = c.Upload(tmpFile, source) if err != nil { t.Fatalf("error uploading file: %s", err) } data, err := ioutil.ReadFile(tmpFile) if err != nil { t.Fatal(err) } if !bytes.Equal(data, content) { t.Fatalf("bad: %s", data) } } func TestAccHugeUploadFile(t *testing.T) { // use the local ssh server and scp binary to check uploads if ok := os.Getenv("SSH_UPLOAD_TEST"); ok == "" { t.Log("Skipping Upload Acceptance without SSH_UPLOAD_TEST set") t.Skip() } v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "host": cty.StringVal("127.0.0.1"), "user": cty.StringVal(os.Getenv("USER")), "port": cty.StringVal("22"), "timeout": cty.StringVal("30s"), }) c, err := New(v) if err != nil { t.Fatalf("error creating communicator: %s", err) } // copy 4GB of data, random to prevent compression. size := int64(1 << 32) source := io.LimitReader(rand.New(rand.NewSource(0)), size) dest, err := ioutil.TempFile("", "communicator") if err != nil { t.Fatal(err) } destName := dest.Name() dest.Close() defer os.Remove(destName) t.Log("Uploading to", destName) // bypass the Upload method so we can directly supply the file size // preventing the extra copy of the huge file. targetDir := filepath.Dir(destName) targetFile := filepath.Base(destName) scpFunc := func(w io.Writer, stdoutR *bufio.Reader) error { return scpUploadFile(targetFile, source, w, stdoutR, size) } cmd, err := quoteShell([]string{"scp", "-vt", targetDir}, c.connInfo.TargetPlatform) if err != nil { t.Fatal(err) } err = c.scpSession(cmd, scpFunc) if err != nil { t.Fatal(err) } // check the final file size fs, err := os.Stat(destName) if err != nil { t.Fatal(err) } if fs.Size() != size { t.Fatalf("expected file size of %d, got %d", size, fs.Size()) } } func TestScriptPath(t *testing.T) { cases := []struct { Input string Pattern string }{ { "/tmp/script.sh", `^/tmp/script\.sh$`, }, { "/tmp/script_%RAND%.sh", `^/tmp/script_(\d+)\.sh$`, }, } for _, tc := range cases { v := cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "host": cty.StringVal("127.0.0.1"), "script_path": cty.StringVal(tc.Input), }) comm, err := New(v) if err != nil { t.Fatalf("err: %s", err) } output := comm.ScriptPath() match, err := regexp.Match(tc.Pattern, []byte(output)) if err != nil { t.Fatalf("bad: %s\n\nerr: %s", tc.Input, err) } if !match { t.Fatalf("bad: %s\n\n%s", tc.Input, output) } } } func TestScriptPath_randSeed(t *testing.T) { // Pre GH-4186 fix, this value was the deterministic start the pseudorandom // chain of unseeded math/rand values for Int31(). staticSeedPath := "/tmp/terraform_1298498081.sh" c, err := New(cty.ObjectVal(map[string]cty.Value{ "type": cty.StringVal("ssh"), "host": cty.StringVal("127.0.0.1"), })) if err != nil { t.Fatalf("err: %s", err) } path := c.ScriptPath() if path == staticSeedPath { t.Fatalf("rand not seeded! got: %s", path) } } var testClientPublicKey = `ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQDE6A1c4n+OtEPEFlNKTZf2i03L3NylSYmvmJ8OLmzLuPZmJBJt4G3VZ/60s1aKzwLKrTq20S+ONG4zvnK5zIPoauoNNdUJKbg944hB4OE+HDbrBhk7SH+YWCsCILBoSXwAVdUEic6FWf/SeqBSmTBySHvpuNOw16J+SK6Ardx8k64F2tRkZuC6AmOZijgKa/sQKjWAIVPk34ECM6OLfPc3kKUEfkdpYLvuMfuRMfSTlxn5lFC0b0SovK9aWfNMBH9iXLQkieQ5rXoyzUC7mwgnASgl8cqw1UrToiUuhvneduXBhbQfmC/Upv+tL6dSSk+0DlgVKEHuJmc8s8+/qpdL` func acceptUserPass(goodUser, goodPass string) func(ssh.ConnMetadata, []byte) (*ssh.Permissions, error) { return func(c ssh.ConnMetadata, pass []byte) (*ssh.Permissions, error) { if c.User() == goodUser && string(pass) == goodPass { return nil, nil } return nil, fmt.Errorf("password rejected for %q", c.User()) } } func acceptPublicKey(keystr string) func(ssh.ConnMetadata, ssh.PublicKey) (*ssh.Permissions, error) { return func(_ ssh.ConnMetadata, inkey ssh.PublicKey) (*ssh.Permissions, error) { goodkey, _, _, _, err := ssh.ParseAuthorizedKey([]byte(keystr)) if err != nil { return nil, fmt.Errorf("error parsing key: %v", err) } if bytes.Equal(inkey.Marshal(), goodkey.Marshal()) { return nil, nil } return nil, fmt.Errorf("public key rejected") } }