package conf import ( "encoding/json" "fmt" "net" gourl "net/url" "reflect" "regexp" "strings" "time" "github.com/bluenviron/gortsplib/v4/pkg/base" ) var rePathName = regexp.MustCompile(`^[0-9a-zA-Z_\-/\.~]+$`) func isValidPathName(name string) error { if name == "" { return fmt.Errorf("cannot be empty") } if name[0] == '/' { return fmt.Errorf("can't begin with a slash") } if name[len(name)-1] == '/' { return fmt.Errorf("can't end with a slash") } if !rePathName.MatchString(name) { return fmt.Errorf("can contain only alphanumeric characters, underscore, dot, tilde, minus or slash") } return nil } func srtCheckPassphrase(passphrase string) error { switch { case len(passphrase) < 10 || len(passphrase) > 79: return fmt.Errorf("must be between 10 and 79 characters") default: return nil } } // FindPathConf returns the configuration corresponding to the given path name. func FindPathConf(pathConfs map[string]*Path, name string) (string, *Path, []string, error) { err := isValidPathName(name) if err != nil { return "", nil, nil, fmt.Errorf("invalid path name: %w (%s)", err, name) } // normal path if pathConf, ok := pathConfs[name]; ok { return name, pathConf, nil, nil } // regular expression-based path for pathConfName, pathConf := range pathConfs { if pathConf.Regexp != nil && pathConfName != "all" && pathConfName != "all_others" { m := pathConf.Regexp.FindStringSubmatch(name) if m != nil { return pathConfName, pathConf, m, nil } } } // all_others for pathConfName, pathConf := range pathConfs { if pathConfName == "all" || pathConfName == "all_others" { m := pathConf.Regexp.FindStringSubmatch(name) if m != nil { return pathConfName, pathConf, m, nil } } } return "", nil, nil, fmt.Errorf("path '%s' is not configured", name) } // Path is a path configuration. // WARNING: Avoid using slices directly due to https://github.com/golang/go/issues/21092 type Path struct { Regexp *regexp.Regexp `json:"-"` // filled by Check() Name string `json:"name"` // filled by Check() // General Source string `json:"source"` SourceFingerprint string `json:"sourceFingerprint"` SourceOnDemand bool `json:"sourceOnDemand"` SourceOnDemandStartTimeout StringDuration `json:"sourceOnDemandStartTimeout"` SourceOnDemandCloseAfter StringDuration `json:"sourceOnDemandCloseAfter"` MaxReaders int `json:"maxReaders"` SRTReadPassphrase string `json:"srtReadPassphrase"` Fallback string `json:"fallback"` // Record Record bool `json:"record"` Playback *bool `json:"playback,omitempty"` // deprecated RecordPath string `json:"recordPath"` RecordFormat RecordFormat `json:"recordFormat"` RecordPartDuration StringDuration `json:"recordPartDuration"` RecordSegmentDuration StringDuration `json:"recordSegmentDuration"` RecordDeleteAfter StringDuration `json:"recordDeleteAfter"` // Authentication (deprecated) PublishUser *Credential `json:"publishUser,omitempty"` // deprecated PublishPass *Credential `json:"publishPass,omitempty"` // deprecated PublishIPs *IPNetworks `json:"publishIPs,omitempty"` // deprecated ReadUser *Credential `json:"readUser,omitempty"` // deprecated ReadPass *Credential `json:"readPass,omitempty"` // deprecated ReadIPs *IPNetworks `json:"readIPs,omitempty"` // deprecated // Publisher source OverridePublisher bool `json:"overridePublisher"` DisablePublisherOverride *bool `json:"disablePublisherOverride,omitempty"` // deprecated SRTPublishPassphrase string `json:"srtPublishPassphrase"` // RTSP source RTSPTransport RTSPTransport `json:"rtspTransport"` RTSPAnyPort bool `json:"rtspAnyPort"` SourceProtocol *RTSPTransport `json:"sourceProtocol,omitempty"` // deprecated SourceAnyPortEnable *bool `json:"sourceAnyPortEnable,omitempty"` // deprecated RTSPRangeType RTSPRangeType `json:"rtspRangeType"` RTSPRangeStart string `json:"rtspRangeStart"` // Redirect source SourceRedirect string `json:"sourceRedirect"` // Raspberry Pi Camera source RPICameraCamID int `json:"rpiCameraCamID"` RPICameraWidth int `json:"rpiCameraWidth"` RPICameraHeight int `json:"rpiCameraHeight"` RPICameraHFlip bool `json:"rpiCameraHFlip"` RPICameraVFlip bool `json:"rpiCameraVFlip"` RPICameraBrightness float64 `json:"rpiCameraBrightness"` RPICameraContrast float64 `json:"rpiCameraContrast"` RPICameraSaturation float64 `json:"rpiCameraSaturation"` RPICameraSharpness float64 `json:"rpiCameraSharpness"` RPICameraExposure string `json:"rpiCameraExposure"` RPICameraAWB string `json:"rpiCameraAWB"` RPICameraAWBGains []float64 `json:"rpiCameraAWBGains"` RPICameraDenoise string `json:"rpiCameraDenoise"` RPICameraShutter int `json:"rpiCameraShutter"` RPICameraMetering string `json:"rpiCameraMetering"` RPICameraGain float64 `json:"rpiCameraGain"` RPICameraEV float64 `json:"rpiCameraEV"` RPICameraROI string `json:"rpiCameraROI"` RPICameraHDR bool `json:"rpiCameraHDR"` RPICameraTuningFile string `json:"rpiCameraTuningFile"` RPICameraMode string `json:"rpiCameraMode"` RPICameraFPS float64 `json:"rpiCameraFPS"` RPICameraIDRPeriod int `json:"rpiCameraIDRPeriod"` RPICameraBitrate int `json:"rpiCameraBitrate"` RPICameraProfile string `json:"rpiCameraProfile"` RPICameraLevel string `json:"rpiCameraLevel"` RPICameraAfMode string `json:"rpiCameraAfMode"` RPICameraAfRange string `json:"rpiCameraAfRange"` RPICameraAfSpeed string `json:"rpiCameraAfSpeed"` RPICameraLensPosition float64 `json:"rpiCameraLensPosition"` RPICameraAfWindow string `json:"rpiCameraAfWindow"` RPICameraTextOverlayEnable bool `json:"rpiCameraTextOverlayEnable"` RPICameraTextOverlay string `json:"rpiCameraTextOverlay"` // Hooks RunOnInit string `json:"runOnInit"` RunOnInitRestart bool `json:"runOnInitRestart"` RunOnDemand string `json:"runOnDemand"` RunOnDemandRestart bool `json:"runOnDemandRestart"` RunOnDemandStartTimeout StringDuration `json:"runOnDemandStartTimeout"` RunOnDemandCloseAfter StringDuration `json:"runOnDemandCloseAfter"` RunOnUnDemand string `json:"runOnUnDemand"` RunOnReady string `json:"runOnReady"` RunOnReadyRestart bool `json:"runOnReadyRestart"` RunOnNotReady string `json:"runOnNotReady"` RunOnRead string `json:"runOnRead"` RunOnReadRestart bool `json:"runOnReadRestart"` RunOnUnread string `json:"runOnUnread"` RunOnRecordSegmentCreate string `json:"runOnRecordSegmentCreate"` RunOnRecordSegmentComplete string `json:"runOnRecordSegmentComplete"` } func (pconf *Path) setDefaults() { // General pconf.Source = "publisher" pconf.SourceOnDemandStartTimeout = 10 * StringDuration(time.Second) pconf.SourceOnDemandCloseAfter = 10 * StringDuration(time.Second) // Record pconf.RecordPath = "./recordings/%path/%Y-%m-%d_%H-%M-%S-%f" pconf.RecordFormat = RecordFormatFMP4 pconf.RecordPartDuration = StringDuration(1 * time.Second) pconf.RecordSegmentDuration = 3600 * StringDuration(time.Second) pconf.RecordDeleteAfter = 24 * 3600 * StringDuration(time.Second) // Publisher source pconf.OverridePublisher = true // Raspberry Pi Camera source pconf.RPICameraWidth = 1920 pconf.RPICameraHeight = 1080 pconf.RPICameraContrast = 1 pconf.RPICameraSaturation = 1 pconf.RPICameraSharpness = 1 pconf.RPICameraExposure = "normal" pconf.RPICameraAWB = "auto" pconf.RPICameraAWBGains = []float64{0, 0} pconf.RPICameraDenoise = "off" pconf.RPICameraMetering = "centre" pconf.RPICameraFPS = 30 pconf.RPICameraIDRPeriod = 60 pconf.RPICameraBitrate = 1000000 pconf.RPICameraProfile = "main" pconf.RPICameraLevel = "4.1" pconf.RPICameraAfMode = "continuous" pconf.RPICameraAfRange = "normal" pconf.RPICameraAfSpeed = "normal" pconf.RPICameraTextOverlay = "%Y-%m-%d %H:%M:%S - MediaMTX" // Hooks pconf.RunOnDemandStartTimeout = 10 * StringDuration(time.Second) pconf.RunOnDemandCloseAfter = 10 * StringDuration(time.Second) } func newPath(defaults *Path, partial *OptionalPath) *Path { pconf := &Path{} copyStructFields(pconf, defaults) copyStructFields(pconf, partial.Values) return pconf } // Clone clones the configuration. func (pconf Path) Clone() *Path { enc, err := json.Marshal(pconf) if err != nil { panic(err) } var dest Path err = json.Unmarshal(enc, &dest) if err != nil { panic(err) } dest.Regexp = pconf.Regexp return &dest } func (pconf *Path) validate( conf *Conf, name string, deprecatedCredentialsMode bool, ) error { pconf.Name = name switch { case name == "all_others", name == "all": pconf.Regexp = regexp.MustCompile("^.*$") case name == "" || name[0] != '~': // normal path err := isValidPathName(name) if err != nil { return fmt.Errorf("invalid path name '%s': %w", name, err) } default: // regular expression-based path regexp, err := regexp.Compile(name[1:]) if err != nil { return fmt.Errorf("invalid regular expression: %s", name[1:]) } pconf.Regexp = regexp } // General if pconf.Source != "publisher" && pconf.Source != "redirect" && pconf.Regexp != nil && !pconf.SourceOnDemand { return fmt.Errorf("a path with a regular expression (or path 'all') and a static source" + " must have 'sourceOnDemand' set to true") } switch { case pconf.Source == "publisher": case strings.HasPrefix(pconf.Source, "rtsp://") || strings.HasPrefix(pconf.Source, "rtsps://"): _, err := base.ParseURL(pconf.Source) if err != nil { return fmt.Errorf("'%s' is not a valid URL", pconf.Source) } case strings.HasPrefix(pconf.Source, "rtmp://") || strings.HasPrefix(pconf.Source, "rtmps://"): u, err := gourl.Parse(pconf.Source) if err != nil { return fmt.Errorf("'%s' is not a valid URL", pconf.Source) } if u.User != nil { pass, _ := u.User.Password() user := u.User.Username() if user != "" && pass == "" || user == "" && pass != "" { return fmt.Errorf("username and password must be both provided") } } case strings.HasPrefix(pconf.Source, "http://") || strings.HasPrefix(pconf.Source, "https://"): u, err := gourl.Parse(pconf.Source) if err != nil { return fmt.Errorf("'%s' is not a valid URL", pconf.Source) } if u.Scheme != "http" && u.Scheme != "https" { return fmt.Errorf("'%s' is not a valid URL", pconf.Source) } if u.User != nil { pass, _ := u.User.Password() user := u.User.Username() if user != "" && pass == "" || user == "" && pass != "" { return fmt.Errorf("username and password must be both provided") } } case strings.HasPrefix(pconf.Source, "udp://"): _, _, err := net.SplitHostPort(pconf.Source[len("udp://"):]) if err != nil { return fmt.Errorf("'%s' is not a valid UDP URL", pconf.Source) } case strings.HasPrefix(pconf.Source, "srt://"): _, err := gourl.Parse(pconf.Source) if err != nil { return fmt.Errorf("'%s' is not a valid URL", pconf.Source) } case strings.HasPrefix(pconf.Source, "whep://") || strings.HasPrefix(pconf.Source, "wheps://"): _, err := gourl.Parse(pconf.Source) if err != nil { return fmt.Errorf("'%s' is not a valid URL", pconf.Source) } case pconf.Source == "redirect": case pconf.Source == "rpiCamera": default: return fmt.Errorf("invalid source: '%s'", pconf.Source) } if pconf.SourceOnDemand { if pconf.Source == "publisher" { return fmt.Errorf("'sourceOnDemand' is useless when source is 'publisher'") } } if pconf.SRTReadPassphrase != "" { err := srtCheckPassphrase(pconf.SRTReadPassphrase) if err != nil { return fmt.Errorf("invalid 'readRTPassphrase': %w", err) } } if pconf.Fallback != "" { if strings.HasPrefix(pconf.Fallback, "/") { err := isValidPathName(pconf.Fallback[1:]) if err != nil { return fmt.Errorf("'%s': %w", pconf.Fallback, err) } } else { _, err := base.ParseURL(pconf.Fallback) if err != nil { return fmt.Errorf("'%s' is not a valid RTSP URL", pconf.Fallback) } } } // Record if conf.Playback { if !strings.Contains(pconf.RecordPath, "%Y") || !strings.Contains(pconf.RecordPath, "%m") || !strings.Contains(pconf.RecordPath, "%d") || !strings.Contains(pconf.RecordPath, "%H") || !strings.Contains(pconf.RecordPath, "%M") || !strings.Contains(pconf.RecordPath, "%S") || !strings.Contains(pconf.RecordPath, "%f") { return fmt.Errorf("record path '%s' is missing one of the mandatory elements"+ " for the playback server to work: %%Y %%m %%d %%H %%M %%S %%f", pconf.RecordPath) } } // Authentication (deprecated) if deprecatedCredentialsMode { func() { var user Credential = "any" if credentialIsNotEmpty(pconf.PublishUser) { user = *pconf.PublishUser } var pass Credential if credentialIsNotEmpty(pconf.PublishPass) { pass = *pconf.PublishPass } ips := IPNetworks{mustParseCIDR("0.0.0.0/0")} if ipNetworkIsNotEmpty(pconf.PublishIPs) { ips = *pconf.PublishIPs } pathName := name if name == "all_others" || name == "all" { pathName = "~^.*$" } conf.AuthInternalUsers = append(conf.AuthInternalUsers, AuthInternalUser{ User: user, Pass: pass, IPs: ips, Permissions: []AuthInternalUserPermission{{ Action: AuthActionPublish, Path: pathName, }}, }) }() func() { var user Credential = "any" if credentialIsNotEmpty(pconf.ReadUser) { user = *pconf.ReadUser } var pass Credential if credentialIsNotEmpty(pconf.ReadPass) { pass = *pconf.ReadPass } ips := IPNetworks{mustParseCIDR("0.0.0.0/0")} if ipNetworkIsNotEmpty(pconf.ReadIPs) { ips = *pconf.ReadIPs } pathName := name if name == "all_others" || name == "all" { pathName = "~^.*$" } conf.AuthInternalUsers = append(conf.AuthInternalUsers, AuthInternalUser{ User: user, Pass: pass, IPs: ips, Permissions: []AuthInternalUserPermission{{ Action: AuthActionRead, Path: pathName, }}, }) }() } // Publisher source if pconf.DisablePublisherOverride != nil { pconf.OverridePublisher = !*pconf.DisablePublisherOverride } if pconf.SRTPublishPassphrase != "" { if pconf.Source != "publisher" { return fmt.Errorf("'srtPublishPassphase' can only be used when source is 'publisher'") } err := srtCheckPassphrase(pconf.SRTPublishPassphrase) if err != nil { return fmt.Errorf("invalid 'srtPublishPassphrase': %w", err) } } // RTSP source if pconf.SourceProtocol != nil { pconf.RTSPTransport = *pconf.SourceProtocol } if pconf.SourceAnyPortEnable != nil { pconf.RTSPAnyPort = *pconf.SourceAnyPortEnable } // Redirect source if pconf.Source == "redirect" { if pconf.SourceRedirect == "" { return fmt.Errorf("source redirect must be filled") } _, err := base.ParseURL(pconf.SourceRedirect) if err != nil { return fmt.Errorf("'%s' is not a valid RTSP URL", pconf.SourceRedirect) } } // Raspberry Pi Camera source if pconf.Source == "rpiCamera" { for otherName, otherPath := range conf.Paths { if otherPath != pconf && otherPath != nil && otherPath.Source == "rpiCamera" && otherPath.RPICameraCamID == pconf.RPICameraCamID { return fmt.Errorf("'rpiCamera' with same camera ID %d is used as source in two paths, '%s' and '%s'", pconf.RPICameraCamID, name, otherName) } } } switch pconf.RPICameraExposure { case "normal", "short", "long", "custom": default: return fmt.Errorf("invalid 'rpiCameraExposure' value") } switch pconf.RPICameraAWB { case "auto", "incandescent", "tungsten", "fluorescent", "indoor", "daylight", "cloudy", "custom": default: return fmt.Errorf("invalid 'rpiCameraAWB' value") } if len(pconf.RPICameraAWBGains) != 2 { return fmt.Errorf("invalid 'rpiCameraAWBGains' value") } switch pconf.RPICameraDenoise { case "off", "cdn_off", "cdn_fast", "cdn_hq": default: return fmt.Errorf("invalid 'rpiCameraDenoise' value") } switch pconf.RPICameraMetering { case "centre", "spot", "matrix", "custom": default: return fmt.Errorf("invalid 'rpiCameraMetering' value") } switch pconf.RPICameraAfMode { case "auto", "manual", "continuous": default: return fmt.Errorf("invalid 'rpiCameraAfMode' value") } switch pconf.RPICameraAfRange { case "normal", "macro", "full": default: return fmt.Errorf("invalid 'rpiCameraAfRange' value") } switch pconf.RPICameraAfSpeed { case "normal", "fast": default: return fmt.Errorf("invalid 'rpiCameraAfSpeed' value") } // Hooks if pconf.RunOnInit != "" && pconf.Regexp != nil { return fmt.Errorf("a path with a regular expression (or path 'all')" + " does not support option 'runOnInit'; use another path") } if (pconf.RunOnDemand != "" || pconf.RunOnUnDemand != "") && pconf.Source != "publisher" { return fmt.Errorf("'runOnDemand' and 'runOnUnDemand' can be used only when source is 'publisher'") } return nil } // Equal checks whether two Paths are equal. func (pconf *Path) Equal(other *Path) bool { return reflect.DeepEqual(pconf, other) } // HasStaticSource checks whether the path has a static source. func (pconf Path) HasStaticSource() bool { return strings.HasPrefix(pconf.Source, "rtsp://") || strings.HasPrefix(pconf.Source, "rtsps://") || strings.HasPrefix(pconf.Source, "rtmp://") || strings.HasPrefix(pconf.Source, "rtmps://") || strings.HasPrefix(pconf.Source, "http://") || strings.HasPrefix(pconf.Source, "https://") || strings.HasPrefix(pconf.Source, "udp://") || strings.HasPrefix(pconf.Source, "srt://") || strings.HasPrefix(pconf.Source, "whep://") || strings.HasPrefix(pconf.Source, "wheps://") || pconf.Source == "rpiCamera" } // HasOnDemandStaticSource checks whether the path has a on demand static source. func (pconf Path) HasOnDemandStaticSource() bool { return pconf.HasStaticSource() && pconf.SourceOnDemand } // HasOnDemandPublisher checks whether the path has a on-demand publisher. func (pconf Path) HasOnDemandPublisher() bool { return pconf.RunOnDemand != "" }