package container import ( "fmt" "io" "os" "runtime" "strings" "testing" "time" "github.com/docker/docker/api/types/container" networktypes "github.com/docker/docker/api/types/network" "github.com/docker/go-connections/nat" "github.com/pkg/errors" "github.com/spf13/pflag" "gotest.tools/v3/assert" is "gotest.tools/v3/assert/cmp" "gotest.tools/v3/skip" ) func TestValidateAttach(t *testing.T) { valid := []string{ "stdin", "stdout", "stderr", "STDIN", "STDOUT", "STDERR", } if _, err := validateAttach("invalid"); err == nil { t.Fatal("Expected error with [valid streams are STDIN, STDOUT and STDERR], got nothing") } for _, attach := range valid { value, err := validateAttach(attach) if err != nil { t.Fatal(err) } if value != strings.ToLower(attach) { t.Fatalf("Expected [%v], got [%v]", attach, value) } } } func parseRun(args []string) (*container.Config, *container.HostConfig, *networktypes.NetworkingConfig, error) { flags, copts := setupRunFlags() if err := flags.Parse(args); err != nil { return nil, nil, nil, err } // TODO: fix tests to accept ContainerConfig containerConfig, err := parse(flags, copts, runtime.GOOS) if err != nil { return nil, nil, nil, err } return containerConfig.Config, containerConfig.HostConfig, containerConfig.NetworkingConfig, err } func setupRunFlags() (*pflag.FlagSet, *containerOptions) { flags := pflag.NewFlagSet("run", pflag.ContinueOnError) flags.SetOutput(io.Discard) flags.Usage = nil copts := addFlags(flags) return flags, copts } func mustParse(t *testing.T, args string) (*container.Config, *container.HostConfig) { t.Helper() config, hostConfig, _, err := parseRun(append(strings.Split(args, " "), "ubuntu", "bash")) assert.NilError(t, err) return config, hostConfig } func TestParseRunLinks(t *testing.T) { if _, hostConfig := mustParse(t, "--link a:b"); len(hostConfig.Links) == 0 || hostConfig.Links[0] != "a:b" { t.Fatalf("Error parsing links. Expected []string{\"a:b\"}, received: %v", hostConfig.Links) } if _, hostConfig := mustParse(t, "--link a:b --link c:d"); len(hostConfig.Links) < 2 || hostConfig.Links[0] != "a:b" || hostConfig.Links[1] != "c:d" { t.Fatalf("Error parsing links. Expected []string{\"a:b\", \"c:d\"}, received: %v", hostConfig.Links) } if _, hostConfig := mustParse(t, ""); len(hostConfig.Links) != 0 { t.Fatalf("Error parsing links. No link expected, received: %v", hostConfig.Links) } } func TestParseRunAttach(t *testing.T) { tests := []struct { input string expected container.Config }{ { input: "", expected: container.Config{ AttachStdout: true, AttachStderr: true, }, }, { input: "-i", expected: container.Config{ AttachStdin: true, AttachStdout: true, AttachStderr: true, }, }, { input: "-a stdin", expected: container.Config{ AttachStdin: true, }, }, { input: "-a stdin -a stdout", expected: container.Config{ AttachStdin: true, AttachStdout: true, }, }, { input: "-a stdin -a stdout -a stderr", expected: container.Config{ AttachStdin: true, AttachStdout: true, AttachStderr: true, }, }, } for _, tc := range tests { tc := tc t.Run(tc.input, func(t *testing.T) { config, _ := mustParse(t, tc.input) assert.Equal(t, config.AttachStdin, tc.expected.AttachStdin) assert.Equal(t, config.AttachStdout, tc.expected.AttachStdout) assert.Equal(t, config.AttachStderr, tc.expected.AttachStderr) }) } } func TestParseRunWithInvalidArgs(t *testing.T) { tests := []struct { args []string error string }{ { args: []string{"-a", "ubuntu", "bash"}, error: `invalid argument "ubuntu" for "-a, --attach" flag: valid streams are STDIN, STDOUT and STDERR`, }, { args: []string{"-a", "invalid", "ubuntu", "bash"}, error: `invalid argument "invalid" for "-a, --attach" flag: valid streams are STDIN, STDOUT and STDERR`, }, { args: []string{"-a", "invalid", "-a", "stdout", "ubuntu", "bash"}, error: `invalid argument "invalid" for "-a, --attach" flag: valid streams are STDIN, STDOUT and STDERR`, }, { args: []string{"-a", "stdout", "-a", "stderr", "-z", "ubuntu", "bash"}, error: `unknown shorthand flag: 'z' in -z`, }, { args: []string{"-a", "stdin", "-z", "ubuntu", "bash"}, error: `unknown shorthand flag: 'z' in -z`, }, { args: []string{"-a", "stdout", "-z", "ubuntu", "bash"}, error: `unknown shorthand flag: 'z' in -z`, }, { args: []string{"-a", "stderr", "-z", "ubuntu", "bash"}, error: `unknown shorthand flag: 'z' in -z`, }, { args: []string{"-z", "--rm", "ubuntu", "bash"}, error: `unknown shorthand flag: 'z' in -z`, }, } flags, _ := setupRunFlags() for _, tc := range tests { t.Run(strings.Join(tc.args, " "), func(t *testing.T) { assert.Error(t, flags.Parse(tc.args), tc.error) }) } } //nolint:gocyclo func TestParseWithVolumes(t *testing.T) { // A single volume arr, tryit := setupPlatformVolume([]string{`/tmp`}, []string{`c:\tmp`}) if config, hostConfig := mustParse(t, tryit); hostConfig.Binds != nil { t.Fatalf("Error parsing volume flags, %q should not mount-bind anything. Received %v", tryit, hostConfig.Binds) } else if _, exists := config.Volumes[arr[0]]; !exists { t.Fatalf("Error parsing volume flags, %q is missing from volumes. Received %v", tryit, config.Volumes) } // Two volumes arr, tryit = setupPlatformVolume([]string{`/tmp`, `/var`}, []string{`c:\tmp`, `c:\var`}) if config, hostConfig := mustParse(t, tryit); hostConfig.Binds != nil { t.Fatalf("Error parsing volume flags, %q should not mount-bind anything. Received %v", tryit, hostConfig.Binds) } else if _, exists := config.Volumes[arr[0]]; !exists { t.Fatalf("Error parsing volume flags, %s is missing from volumes. Received %v", arr[0], config.Volumes) } else if _, exists := config.Volumes[arr[1]]; !exists { t.Fatalf("Error parsing volume flags, %s is missing from volumes. Received %v", arr[1], config.Volumes) } // A single bind mount arr, tryit = setupPlatformVolume([]string{`/hostTmp:/containerTmp`}, []string{os.Getenv("TEMP") + `:c:\containerTmp`}) if config, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || hostConfig.Binds[0] != arr[0] { t.Fatalf("Error parsing volume flags, %q should mount-bind the path before the colon into the path after the colon. Received %v %v", arr[0], hostConfig.Binds, config.Volumes) } // Two bind mounts. arr, tryit = setupPlatformVolume([]string{`/hostTmp:/containerTmp`, `/hostVar:/containerVar`}, []string{os.Getenv("ProgramData") + `:c:\ContainerPD`, os.Getenv("TEMP") + `:c:\containerTmp`}) if _, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || compareRandomizedStrings(hostConfig.Binds[0], hostConfig.Binds[1], arr[0], arr[1]) != nil { t.Fatalf("Error parsing volume flags, `%s and %s` did not mount-bind correctly. Received %v", arr[0], arr[1], hostConfig.Binds) } // Two bind mounts, first read-only, second read-write. // TODO Windows: The Windows version uses read-write as that's the only mode it supports. Can change this post TP4 arr, tryit = setupPlatformVolume( []string{`/hostTmp:/containerTmp:ro`, `/hostVar:/containerVar:rw`}, []string{os.Getenv("TEMP") + `:c:\containerTmp:rw`, os.Getenv("ProgramData") + `:c:\ContainerPD:rw`}) if _, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || compareRandomizedStrings(hostConfig.Binds[0], hostConfig.Binds[1], arr[0], arr[1]) != nil { t.Fatalf("Error parsing volume flags, `%s and %s` did not mount-bind correctly. Received %v", arr[0], arr[1], hostConfig.Binds) } // Similar to previous test but with alternate modes which are only supported by Linux if runtime.GOOS != "windows" { arr, tryit = setupPlatformVolume([]string{`/hostTmp:/containerTmp:ro,Z`, `/hostVar:/containerVar:rw,Z`}, []string{}) if _, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || compareRandomizedStrings(hostConfig.Binds[0], hostConfig.Binds[1], arr[0], arr[1]) != nil { t.Fatalf("Error parsing volume flags, `%s and %s` did not mount-bind correctly. Received %v", arr[0], arr[1], hostConfig.Binds) } arr, tryit = setupPlatformVolume([]string{`/hostTmp:/containerTmp:Z`, `/hostVar:/containerVar:z`}, []string{}) if _, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || compareRandomizedStrings(hostConfig.Binds[0], hostConfig.Binds[1], arr[0], arr[1]) != nil { t.Fatalf("Error parsing volume flags, `%s and %s` did not mount-bind correctly. Received %v", arr[0], arr[1], hostConfig.Binds) } } // One bind mount and one volume arr, tryit = setupPlatformVolume([]string{`/hostTmp:/containerTmp`, `/containerVar`}, []string{os.Getenv("TEMP") + `:c:\containerTmp`, `c:\containerTmp`}) if config, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || len(hostConfig.Binds) > 1 || hostConfig.Binds[0] != arr[0] { t.Fatalf("Error parsing volume flags, %s and %s should only one and only one bind mount %s. Received %s", arr[0], arr[1], arr[0], hostConfig.Binds) } else if _, exists := config.Volumes[arr[1]]; !exists { t.Fatalf("Error parsing volume flags %s and %s. %s is missing from volumes. Received %v", arr[0], arr[1], arr[1], config.Volumes) } // Root to non-c: drive letter (Windows specific) if runtime.GOOS == "windows" { arr, tryit = setupPlatformVolume([]string{}, []string{os.Getenv("SystemDrive") + `\:d:`}) if config, hostConfig := mustParse(t, tryit); hostConfig.Binds == nil || len(hostConfig.Binds) > 1 || hostConfig.Binds[0] != arr[0] || len(config.Volumes) != 0 { t.Fatalf("Error parsing %s. Should have a single bind mount and no volumes", arr[0]) } } } // setupPlatformVolume takes two arrays of volume specs - a Unix style // spec and a Windows style spec. Depending on the platform being unit tested, // it returns one of them, along with a volume string that would be passed // on the docker CLI (e.g. -v /bar -v /foo). func setupPlatformVolume(u []string, w []string) ([]string, string) { var a []string if runtime.GOOS == "windows" { a = w } else { a = u } s := "" for _, v := range a { s = s + "-v " + v + " " } return a, s } // check if (a == c && b == d) || (a == d && b == c) // because maps are randomized func compareRandomizedStrings(a, b, c, d string) error { if a == c && b == d { return nil } if a == d && b == c { return nil } return errors.Errorf("strings don't match") } // Simple parse with MacAddress validation func TestParseWithMacAddress(t *testing.T) { invalidMacAddress := "--mac-address=invalidMacAddress" validMacAddress := "--mac-address=92:d0:c6:0a:29:33" if _, _, _, err := parseRun([]string{invalidMacAddress, "img", "cmd"}); err != nil && err.Error() != "invalidMacAddress is not a valid mac address" { t.Fatalf("Expected an error with %v mac-address, got %v", invalidMacAddress, err) } if config, _ := mustParse(t, validMacAddress); config.MacAddress != "92:d0:c6:0a:29:33" { t.Fatalf("Expected the config to have '92:d0:c6:0a:29:33' as MacAddress, got '%v'", config.MacAddress) } } func TestRunFlagsParseWithMemory(t *testing.T) { flags, _ := setupRunFlags() args := []string{"--memory=invalid", "img", "cmd"} err := flags.Parse(args) assert.ErrorContains(t, err, `invalid argument "invalid" for "-m, --memory" flag`) _, hostconfig := mustParse(t, "--memory=1G") assert.Check(t, is.Equal(int64(1073741824), hostconfig.Memory)) } func TestParseWithMemorySwap(t *testing.T) { flags, _ := setupRunFlags() args := []string{"--memory-swap=invalid", "img", "cmd"} err := flags.Parse(args) assert.ErrorContains(t, err, `invalid argument "invalid" for "--memory-swap" flag`) _, hostconfig := mustParse(t, "--memory-swap=1G") assert.Check(t, is.Equal(int64(1073741824), hostconfig.MemorySwap)) _, hostconfig = mustParse(t, "--memory-swap=-1") assert.Check(t, is.Equal(int64(-1), hostconfig.MemorySwap)) } func TestParseHostname(t *testing.T) { validHostnames := map[string]string{ "hostname": "hostname", "host-name": "host-name", "hostname123": "hostname123", "123hostname": "123hostname", "hostname-of-63-bytes-long-should-be-valid-and-without-any-error": "hostname-of-63-bytes-long-should-be-valid-and-without-any-error", } hostnameWithDomain := "--hostname=hostname.domainname" hostnameWithDomainTld := "--hostname=hostname.domainname.tld" for hostname, expectedHostname := range validHostnames { if config, _ := mustParse(t, fmt.Sprintf("--hostname=%s", hostname)); config.Hostname != expectedHostname { t.Fatalf("Expected the config to have 'hostname' as %q, got %q", expectedHostname, config.Hostname) } } if config, _ := mustParse(t, hostnameWithDomain); config.Hostname != "hostname.domainname" || config.Domainname != "" { t.Fatalf("Expected the config to have 'hostname' as hostname.domainname, got %q", config.Hostname) } if config, _ := mustParse(t, hostnameWithDomainTld); config.Hostname != "hostname.domainname.tld" || config.Domainname != "" { t.Fatalf("Expected the config to have 'hostname' as hostname.domainname.tld, got %q", config.Hostname) } } func TestParseHostnameDomainname(t *testing.T) { validDomainnames := map[string]string{ "domainname": "domainname", "domain-name": "domain-name", "domainname123": "domainname123", "123domainname": "123domainname", "domainname-63-bytes-long-should-be-valid-and-without-any-errors": "domainname-63-bytes-long-should-be-valid-and-without-any-errors", } for domainname, expectedDomainname := range validDomainnames { if config, _ := mustParse(t, "--domainname="+domainname); config.Domainname != expectedDomainname { t.Fatalf("Expected the config to have 'domainname' as %q, got %q", expectedDomainname, config.Domainname) } } if config, _ := mustParse(t, "--hostname=some.prefix --domainname=domainname"); config.Hostname != "some.prefix" || config.Domainname != "domainname" { t.Fatalf("Expected the config to have 'hostname' as 'some.prefix' and 'domainname' as 'domainname', got %q and %q", config.Hostname, config.Domainname) } if config, _ := mustParse(t, "--hostname=another-prefix --domainname=domainname.tld"); config.Hostname != "another-prefix" || config.Domainname != "domainname.tld" { t.Fatalf("Expected the config to have 'hostname' as 'another-prefix' and 'domainname' as 'domainname.tld', got %q and %q", config.Hostname, config.Domainname) } } func TestParseWithExpose(t *testing.T) { invalids := map[string]string{ ":": "invalid port format for --expose: :", "8080:9090": "invalid port format for --expose: 8080:9090", "/tcp": "invalid range format for --expose: /tcp, error: Empty string specified for ports.", "/udp": "invalid range format for --expose: /udp, error: Empty string specified for ports.", "NaN/tcp": `invalid range format for --expose: NaN/tcp, error: strconv.ParseUint: parsing "NaN": invalid syntax`, "NaN-NaN/tcp": `invalid range format for --expose: NaN-NaN/tcp, error: strconv.ParseUint: parsing "NaN": invalid syntax`, "8080-NaN/tcp": `invalid range format for --expose: 8080-NaN/tcp, error: strconv.ParseUint: parsing "NaN": invalid syntax`, "1234567890-8080/tcp": `invalid range format for --expose: 1234567890-8080/tcp, error: strconv.ParseUint: parsing "1234567890": value out of range`, } valids := map[string][]nat.Port{ "8080/tcp": {"8080/tcp"}, "8080/udp": {"8080/udp"}, "8080/ncp": {"8080/ncp"}, "8080-8080/udp": {"8080/udp"}, "8080-8082/tcp": {"8080/tcp", "8081/tcp", "8082/tcp"}, } for expose, expectedError := range invalids { if _, _, _, err := parseRun([]string{fmt.Sprintf("--expose=%v", expose), "img", "cmd"}); err == nil || err.Error() != expectedError { t.Fatalf("Expected error '%v' with '--expose=%v', got '%v'", expectedError, expose, err) } } for expose, exposedPorts := range valids { config, _, _, err := parseRun([]string{fmt.Sprintf("--expose=%v", expose), "img", "cmd"}) if err != nil { t.Fatal(err) } if len(config.ExposedPorts) != len(exposedPorts) { t.Fatalf("Expected %v exposed port, got %v", len(exposedPorts), len(config.ExposedPorts)) } for _, port := range exposedPorts { if _, ok := config.ExposedPorts[port]; !ok { t.Fatalf("Expected %v, got %v", exposedPorts, config.ExposedPorts) } } } // Merge with actual published port config, _, _, err := parseRun([]string{"--publish=80", "--expose=80-81/tcp", "img", "cmd"}) if err != nil { t.Fatal(err) } if len(config.ExposedPorts) != 2 { t.Fatalf("Expected 2 exposed ports, got %v", config.ExposedPorts) } ports := []nat.Port{"80/tcp", "81/tcp"} for _, port := range ports { if _, ok := config.ExposedPorts[port]; !ok { t.Fatalf("Expected %v, got %v", ports, config.ExposedPorts) } } } func TestParseDevice(t *testing.T) { skip.If(t, runtime.GOOS != "linux") // Windows and macOS validate server-side valids := map[string]container.DeviceMapping{ "/dev/snd": { PathOnHost: "/dev/snd", PathInContainer: "/dev/snd", CgroupPermissions: "rwm", }, "/dev/snd:rw": { PathOnHost: "/dev/snd", PathInContainer: "/dev/snd", CgroupPermissions: "rw", }, "/dev/snd:/something": { PathOnHost: "/dev/snd", PathInContainer: "/something", CgroupPermissions: "rwm", }, "/dev/snd:/something:rw": { PathOnHost: "/dev/snd", PathInContainer: "/something", CgroupPermissions: "rw", }, } for device, deviceMapping := range valids { _, hostconfig, _, err := parseRun([]string{fmt.Sprintf("--device=%v", device), "img", "cmd"}) if err != nil { t.Fatal(err) } if len(hostconfig.Devices) != 1 { t.Fatalf("Expected 1 devices, got %v", hostconfig.Devices) } if hostconfig.Devices[0] != deviceMapping { t.Fatalf("Expected %v, got %v", deviceMapping, hostconfig.Devices) } } } func TestParseNetworkConfig(t *testing.T) { tests := []struct { name string flags []string expected map[string]*networktypes.EndpointSettings expectedCfg container.HostConfig expectedErr string }{ { name: "single-network-legacy", flags: []string{"--network", "net1"}, expected: map[string]*networktypes.EndpointSettings{}, expectedCfg: container.HostConfig{NetworkMode: "net1"}, }, { name: "single-network-advanced", flags: []string{"--network", "name=net1"}, expected: map[string]*networktypes.EndpointSettings{}, expectedCfg: container.HostConfig{NetworkMode: "net1"}, }, { name: "single-network-legacy-with-options", flags: []string{ "--ip", "172.20.88.22", "--ip6", "2001:db8::8822", "--link", "foo:bar", "--link", "bar:baz", "--link-local-ip", "169.254.2.2", "--link-local-ip", "fe80::169:254:2:2", "--network", "name=net1", "--network-alias", "web1", "--network-alias", "web2", }, expected: map[string]*networktypes.EndpointSettings{ "net1": { IPAMConfig: &networktypes.EndpointIPAMConfig{ IPv4Address: "172.20.88.22", IPv6Address: "2001:db8::8822", LinkLocalIPs: []string{"169.254.2.2", "fe80::169:254:2:2"}, }, Links: []string{"foo:bar", "bar:baz"}, Aliases: []string{"web1", "web2"}, }, }, expectedCfg: container.HostConfig{NetworkMode: "net1"}, }, { name: "multiple-network-advanced-mixed", flags: []string{ "--ip", "172.20.88.22", "--ip6", "2001:db8::8822", "--link", "foo:bar", "--link", "bar:baz", "--link-local-ip", "169.254.2.2", "--link-local-ip", "fe80::169:254:2:2", "--network", "name=net1,driver-opt=field1=value1", "--network-alias", "web1", "--network-alias", "web2", "--network", "net2", "--network", "name=net3,alias=web3,driver-opt=field3=value3,ip=172.20.88.22,ip6=2001:db8::8822", }, expected: map[string]*networktypes.EndpointSettings{ "net1": { DriverOpts: map[string]string{"field1": "value1"}, IPAMConfig: &networktypes.EndpointIPAMConfig{ IPv4Address: "172.20.88.22", IPv6Address: "2001:db8::8822", LinkLocalIPs: []string{"169.254.2.2", "fe80::169:254:2:2"}, }, Links: []string{"foo:bar", "bar:baz"}, Aliases: []string{"web1", "web2"}, }, "net2": {}, "net3": { DriverOpts: map[string]string{"field3": "value3"}, IPAMConfig: &networktypes.EndpointIPAMConfig{ IPv4Address: "172.20.88.22", IPv6Address: "2001:db8::8822", }, Aliases: []string{"web3"}, }, }, expectedCfg: container.HostConfig{NetworkMode: "net1"}, }, { name: "single-network-advanced-with-options", flags: []string{"--network", "name=net1,alias=web1,alias=web2,driver-opt=field1=value1,driver-opt=field2=value2,ip=172.20.88.22,ip6=2001:db8::8822"}, expected: map[string]*networktypes.EndpointSettings{ "net1": { DriverOpts: map[string]string{ "field1": "value1", "field2": "value2", }, IPAMConfig: &networktypes.EndpointIPAMConfig{ IPv4Address: "172.20.88.22", IPv6Address: "2001:db8::8822", }, Aliases: []string{"web1", "web2"}, }, }, expectedCfg: container.HostConfig{NetworkMode: "net1"}, }, { name: "multiple-networks", flags: []string{"--network", "net1", "--network", "name=net2"}, expected: map[string]*networktypes.EndpointSettings{"net1": {}, "net2": {}}, expectedCfg: container.HostConfig{NetworkMode: "net1"}, }, { name: "conflict-network", flags: []string{"--network", "duplicate", "--network", "name=duplicate"}, expectedErr: `network "duplicate" is specified multiple times`, }, { name: "conflict-options-alias", flags: []string{"--network", "name=net1,alias=web1", "--network-alias", "web1"}, expectedErr: `conflicting options: cannot specify both --network-alias and per-network alias`, }, { name: "conflict-options-ip", flags: []string{"--network", "name=net1,ip=172.20.88.22,ip6=2001:db8::8822", "--ip", "172.20.88.22"}, expectedErr: `conflicting options: cannot specify both --ip and per-network IPv4 address`, }, { name: "conflict-options-ip6", flags: []string{"--network", "name=net1,ip=172.20.88.22,ip6=2001:db8::8822", "--ip6", "2001:db8::8822"}, expectedErr: `conflicting options: cannot specify both --ip6 and per-network IPv6 address`, }, { name: "invalid-mixed-network-types", flags: []string{"--network", "name=host", "--network", "net1"}, expectedErr: `conflicting options: cannot attach both user-defined and non-user-defined network-modes`, }, } for _, tc := range tests { t.Run(tc.name, func(t *testing.T) { _, hConfig, nwConfig, err := parseRun(tc.flags) if tc.expectedErr != "" { assert.Error(t, err, tc.expectedErr) return } assert.NilError(t, err) assert.DeepEqual(t, hConfig.NetworkMode, tc.expectedCfg.NetworkMode) assert.DeepEqual(t, nwConfig.EndpointsConfig, tc.expected) }) } } func TestParseModes(t *testing.T) { // pid ko flags, copts := setupRunFlags() args := []string{"--pid=container:", "img", "cmd"} assert.NilError(t, flags.Parse(args)) _, err := parse(flags, copts, runtime.GOOS) assert.ErrorContains(t, err, "--pid: invalid PID mode") // pid ok _, hostconfig, _, err := parseRun([]string{"--pid=host", "img", "cmd"}) assert.NilError(t, err) if !hostconfig.PidMode.Valid() { t.Fatalf("Expected a valid PidMode, got %v", hostconfig.PidMode) } // uts ko _, _, _, err = parseRun([]string{"--uts=container:", "img", "cmd"}) //nolint:dogsled assert.ErrorContains(t, err, "--uts: invalid UTS mode") // uts ok _, hostconfig, _, err = parseRun([]string{"--uts=host", "img", "cmd"}) assert.NilError(t, err) if !hostconfig.UTSMode.Valid() { t.Fatalf("Expected a valid UTSMode, got %v", hostconfig.UTSMode) } } func TestRunFlagsParseShmSize(t *testing.T) { // shm-size ko flags, _ := setupRunFlags() args := []string{"--shm-size=a128m", "img", "cmd"} expectedErr := `invalid argument "a128m" for "--shm-size" flag: invalid size: 'a128m'` err := flags.Parse(args) assert.ErrorContains(t, err, expectedErr) // shm-size ok _, hostconfig, _, err := parseRun([]string{"--shm-size=128m", "img", "cmd"}) assert.NilError(t, err) if hostconfig.ShmSize != 134217728 { t.Fatalf("Expected a valid ShmSize, got %d", hostconfig.ShmSize) } } func TestParseRestartPolicy(t *testing.T) { invalids := map[string]string{ "always:2:3": "invalid restart policy format", "on-failure:invalid": "maximum retry count must be an integer", } valids := map[string]container.RestartPolicy{ "": {}, "always": { Name: "always", MaximumRetryCount: 0, }, "on-failure:1": { Name: "on-failure", MaximumRetryCount: 1, }, } for restart, expectedError := range invalids { if _, _, _, err := parseRun([]string{fmt.Sprintf("--restart=%s", restart), "img", "cmd"}); err == nil || err.Error() != expectedError { t.Fatalf("Expected an error with message '%v' for %v, got %v", expectedError, restart, err) } } for restart, expected := range valids { _, hostconfig, _, err := parseRun([]string{fmt.Sprintf("--restart=%v", restart), "img", "cmd"}) if err != nil { t.Fatal(err) } if hostconfig.RestartPolicy != expected { t.Fatalf("Expected %v, got %v", expected, hostconfig.RestartPolicy) } } } func TestParseRestartPolicyAutoRemove(t *testing.T) { expected := "Conflicting options: --restart and --rm" _, _, _, err := parseRun([]string{"--rm", "--restart=always", "img", "cmd"}) //nolint:dogsled if err == nil || err.Error() != expected { t.Fatalf("Expected error %v, but got none", expected) } } func TestParseHealth(t *testing.T) { checkOk := func(args ...string) *container.HealthConfig { config, _, _, err := parseRun(args) if err != nil { t.Fatalf("%#v: %v", args, err) } return config.Healthcheck } checkError := func(expected string, args ...string) { config, _, _, err := parseRun(args) if err == nil { t.Fatalf("Expected error, but got %#v", config) } if err.Error() != expected { t.Fatalf("Expected %#v, got %#v", expected, err) } } health := checkOk("--no-healthcheck", "img", "cmd") if health == nil || len(health.Test) != 1 || health.Test[0] != "NONE" { t.Fatalf("--no-healthcheck failed: %#v", health) } health = checkOk("--health-cmd=/check.sh -q", "img", "cmd") if len(health.Test) != 2 || health.Test[0] != "CMD-SHELL" || health.Test[1] != "/check.sh -q" { t.Fatalf("--health-cmd: got %#v", health.Test) } if health.Timeout != 0 { t.Fatalf("--health-cmd: timeout = %s", health.Timeout) } checkError("--no-healthcheck conflicts with --health-* options", "--no-healthcheck", "--health-cmd=/check.sh -q", "img", "cmd") health = checkOk("--health-timeout=2s", "--health-retries=3", "--health-interval=4.5s", "--health-start-period=5s", "img", "cmd") if health.Timeout != 2*time.Second || health.Retries != 3 || health.Interval != 4500*time.Millisecond || health.StartPeriod != 5*time.Second { t.Fatalf("--health-*: got %#v", health) } } func TestParseLoggingOpts(t *testing.T) { // logging opts ko if _, _, _, err := parseRun([]string{"--log-driver=none", "--log-opt=anything", "img", "cmd"}); err == nil || err.Error() != "invalid logging opts for driver none" { t.Fatalf("Expected an error with message 'invalid logging opts for driver none', got %v", err) } // logging opts ok _, hostconfig, _, err := parseRun([]string{"--log-driver=syslog", "--log-opt=something", "img", "cmd"}) if err != nil { t.Fatal(err) } if hostconfig.LogConfig.Type != "syslog" || len(hostconfig.LogConfig.Config) != 1 { t.Fatalf("Expected a 'syslog' LogConfig with one config, got %v", hostconfig.RestartPolicy) } } func TestParseEnvfileVariables(t *testing.T) { e := "open nonexistent: no such file or directory" if runtime.GOOS == "windows" { e = "open nonexistent: The system cannot find the file specified." } // env ko if _, _, _, err := parseRun([]string{"--env-file=nonexistent", "img", "cmd"}); err == nil || err.Error() != e { t.Fatalf("Expected an error with message '%s', got %v", e, err) } // env ok config, _, _, err := parseRun([]string{"--env-file=testdata/valid.env", "img", "cmd"}) if err != nil { t.Fatal(err) } if len(config.Env) != 1 || config.Env[0] != "ENV1=value1" { t.Fatalf("Expected a config with [ENV1=value1], got %v", config.Env) } config, _, _, err = parseRun([]string{"--env-file=testdata/valid.env", "--env=ENV2=value2", "img", "cmd"}) if err != nil { t.Fatal(err) } if len(config.Env) != 2 || config.Env[0] != "ENV1=value1" || config.Env[1] != "ENV2=value2" { t.Fatalf("Expected a config with [ENV1=value1 ENV2=value2], got %v", config.Env) } } func TestParseEnvfileVariablesWithBOMUnicode(t *testing.T) { // UTF8 with BOM config, _, _, err := parseRun([]string{"--env-file=testdata/utf8.env", "img", "cmd"}) if err != nil { t.Fatal(err) } env := []string{"FOO=BAR", "HELLO=" + string([]byte{0xe6, 0x82, 0xa8, 0xe5, 0xa5, 0xbd}), "BAR=FOO"} if len(config.Env) != len(env) { t.Fatalf("Expected a config with %d env variables, got %v: %v", len(env), len(config.Env), config.Env) } for i, v := range env { if config.Env[i] != v { t.Fatalf("Expected a config with [%s], got %v", v, []byte(config.Env[i])) } } // UTF16 with BOM e := "contains invalid utf8 bytes at line" if _, _, _, err := parseRun([]string{"--env-file=testdata/utf16.env", "img", "cmd"}); err == nil || !strings.Contains(err.Error(), e) { t.Fatalf("Expected an error with message '%s', got %v", e, err) } // UTF16BE with BOM if _, _, _, err := parseRun([]string{"--env-file=testdata/utf16be.env", "img", "cmd"}); err == nil || !strings.Contains(err.Error(), e) { t.Fatalf("Expected an error with message '%s', got %v", e, err) } } func TestParseLabelfileVariables(t *testing.T) { e := "open nonexistent: no such file or directory" if runtime.GOOS == "windows" { e = "open nonexistent: The system cannot find the file specified." } // label ko if _, _, _, err := parseRun([]string{"--label-file=nonexistent", "img", "cmd"}); err == nil || err.Error() != e { t.Fatalf("Expected an error with message '%s', got %v", e, err) } // label ok config, _, _, err := parseRun([]string{"--label-file=testdata/valid.label", "img", "cmd"}) if err != nil { t.Fatal(err) } if len(config.Labels) != 1 || config.Labels["LABEL1"] != "value1" { t.Fatalf("Expected a config with [LABEL1:value1], got %v", config.Labels) } config, _, _, err = parseRun([]string{"--label-file=testdata/valid.label", "--label=LABEL2=value2", "img", "cmd"}) if err != nil { t.Fatal(err) } if len(config.Labels) != 2 || config.Labels["LABEL1"] != "value1" || config.Labels["LABEL2"] != "value2" { t.Fatalf("Expected a config with [LABEL1:value1 LABEL2:value2], got %v", config.Labels) } } func TestParseEntryPoint(t *testing.T) { config, _, _, err := parseRun([]string{"--entrypoint=anything", "cmd", "img"}) if err != nil { t.Fatal(err) } if len(config.Entrypoint) != 1 && config.Entrypoint[0] != "anything" { t.Fatalf("Expected entrypoint 'anything', got %v", config.Entrypoint) } } func TestValidateDevice(t *testing.T) { skip.If(t, runtime.GOOS != "linux") // Windows and macOS validate server-side valid := []string{ "/home", "/home:/home", "/home:/something/else", "/with space", "/home:/with space", "relative:/absolute-path", "hostPath:/containerPath:r", "/hostPath:/containerPath:rw", "/hostPath:/containerPath:mrw", } invalid := map[string]string{ "": "bad format for path: ", "./": "./ is not an absolute path", "../": "../ is not an absolute path", "/:../": "../ is not an absolute path", "/:path": "path is not an absolute path", ":": "bad format for path: :", "/tmp:": " is not an absolute path", ":test": "bad format for path: :test", ":/test": "bad format for path: :/test", "tmp:": " is not an absolute path", ":test:": "bad format for path: :test:", "::": "bad format for path: ::", ":::": "bad format for path: :::", "/tmp:::": "bad format for path: /tmp:::", ":/tmp::": "bad format for path: :/tmp::", "path:ro": "ro is not an absolute path", "path:rr": "rr is not an absolute path", "a:/b:ro": "bad mode specified: ro", "a:/b:rr": "bad mode specified: rr", } for _, path := range valid { if _, err := validateDevice(path, runtime.GOOS); err != nil { t.Fatalf("ValidateDevice(`%q`) should succeed: error %q", path, err) } } for path, expectedError := range invalid { if _, err := validateDevice(path, runtime.GOOS); err == nil { t.Fatalf("ValidateDevice(`%q`) should have failed validation", path) } else { if err.Error() != expectedError { t.Fatalf("ValidateDevice(`%q`) error should contain %q, got %q", path, expectedError, err.Error()) } } } } func TestParseSystemPaths(t *testing.T) { tests := []struct { doc string in, out, masked, readonly []string }{ { doc: "not set", in: []string{}, out: []string{}, }, { doc: "not set, preserve other options", in: []string{ "seccomp=unconfined", "apparmor=unconfined", "label=user:USER", "foo=bar", }, out: []string{ "seccomp=unconfined", "apparmor=unconfined", "label=user:USER", "foo=bar", }, }, { doc: "unconfined", in: []string{"systempaths=unconfined"}, out: []string{}, masked: []string{}, readonly: []string{}, }, { doc: "unconfined and other options", in: []string{"foo=bar", "bar=baz", "systempaths=unconfined"}, out: []string{"foo=bar", "bar=baz"}, masked: []string{}, readonly: []string{}, }, { doc: "unknown option", in: []string{"foo=bar", "systempaths=unknown", "bar=baz"}, out: []string{"foo=bar", "systempaths=unknown", "bar=baz"}, }, } for _, tc := range tests { securityOpts, maskedPaths, readonlyPaths := parseSystemPaths(tc.in) assert.DeepEqual(t, securityOpts, tc.out) assert.DeepEqual(t, maskedPaths, tc.masked) assert.DeepEqual(t, readonlyPaths, tc.readonly) } } func TestConvertToStandardNotation(t *testing.T) { valid := map[string][]string{ "20:10/tcp": {"target=10,published=20"}, "40:30": {"40:30"}, "20:20 80:4444": {"20:20", "80:4444"}, "1500:2500/tcp 1400:1300": {"target=2500,published=1500", "1400:1300"}, "1500:200/tcp 90:80/tcp": {"published=1500,target=200", "target=80,published=90"}, } invalid := [][]string{ {"published=1500,target:444"}, {"published=1500,444"}, {"published=1500,target,444"}, } for key, ports := range valid { convertedPorts, err := convertToStandardNotation(ports) if err != nil { assert.NilError(t, err) } assert.DeepEqual(t, strings.Split(key, " "), convertedPorts) } for _, ports := range invalid { if _, err := convertToStandardNotation(ports); err == nil { t.Fatalf("ConvertToStandardNotation(`%q`) should have failed conversion", ports) } } }