scte35-go: ANSI/SCTE 35 Decoder/Encoder

scte35-go is a Go library to supports creating, decorating, and analyzing binary Digital Program Insertion Cueing Messages.

This library is fully compliant and compatible with all versions of the ANSI/SCTE 35 specification up to and including ANSI/SCTE 35 2022b.

This project uses Semantic Versioning and is published as a Go Module.

Getting Started

Get the module:

$ go get github.com/Comcast/scte35-go
go get: added github.com/Comcast/scte35-go v1.2.1

Code Examples

Additional examples can be found in examples.

Decode Signal

Binary signals can be quickly and easily decoded from base-64 or hexadecimal strings.

The results can be output as a:

• String - emulating the table structure used in the SCTE 35 specification.
• XML - compliant with the SCTE 35 XML Schema
• JSON - for integrating with JSON based tools such as jq

decode.go

package main

import (
	"encoding/json"
	"encoding/xml"
	"fmt"
	"os"

	"github.com/Comcast/scte35-go/pkg/scte35"
)

func main() {
	sis, _ := scte35.DecodeBase64("/DA8AAAAAAAAAP///wb+06ACpQAmAiRDVUVJAACcHX//AACky4AMEERJU0NZTVdGMDQ1MjAwMEgxAQEMm4c0")

	// details
	_, _ = fmt.Fprintf(os.Stdout, "\nDetails: \n%s\n", sis)

	// xml
	b, _ := xml.MarshalIndent(sis, "", "\t")
	_, _ = fmt.Fprintf(os.Stdout, "\nXML: \n%s\n", b)

	// json
	b, _ = json.MarshalIndent(sis, "", "\t")
	_, _ = fmt.Fprintf(os.Stdout, "\nJSON: \n%s\n", b)
}

$ go run ./examples/decode.go

Details:
splice_info_section() {
    table_id: 0xfc
    section_syntax_indicator: false
    private_indicator: false
    sap_type: Not Specified
    section_length: 60 bytes
}
protocol_version: 0
encrypted_packet: false
encryption_algorithm: No encryption
pts_adjustment: 0 ticks (0s)
cw_index: 0
tier: 4095
splice_command_length: 5 bytes
splice_command_type: 0x06
time_signal() {
    time_specified_flag: true
    pts_time: 3550479013 ticks (10h57m29.766811111s)
}
descriptor_loop_length: 38 bytes
avail_descriptor() {
    splice_descriptor_tag: 0x02
    descriptor_length: 36 bytes
    identifier: CUEI
    segmentation_event_id: 39965
    segmentation_event_cancel_indicator: false
    program_segmentation_flag: true
    segmentation_duration_flag: true
    delivery_not_restricted_flag: true
    segmentation_duration: 10800000 ticks (2m0s)
    segmentation_upid_length: 16 bytes
    segmentation_upid {
        segmentation_upid_type: MPU() (0x0c)
        format_identifer: DISC
        segmentation_upid: 0x44495343594d57463034353230303048
    }
    segmentation_type_id: Provider Advertisement End (0x31)
    segment_num: 1
    segments_expected: 1
}

XML:
<SpliceInfoSection xmlns="http://www.scte.org/schemas/35" sapType="3" ptsAdjustment="0" protocolVersion="0" tier="4095">
  <TimeSignal xmlns="http://www.scte.org/schemas/35">
    <SpliceTime xmlns="http://www.scte.org/schemas/35" ptsTime="3550479013"></SpliceTime>
  </TimeSignal>
  <SegmentationDescriptor xmlns="http://www.scte.org/schemas/35" segmentationEventId="39965" segmentationEventCancelIndicator="false" segmentationDuration="10800000" segmentationTypeId="49" segmentNum="1" segmentsExpected="1">
    <SegmentationUpid xmlns="http://www.scte.org/schemas/35" segmentationUpidType="12" formatIdentifier="1145656131" format="base-64">WU1XRjA0NTIwMDBI</SegmentationUpid>
  </SegmentationDescriptor>
</SpliceInfoSection>

JSON:
{
  "protocolVersion": 0,
  "ptsAdjustment": 0,
  "sapType": 3,
  "spliceCommand": {
    "type": 6,
    "spliceTime": {
      "ptsTime": 3550479013
    }
  },
  "spliceDescriptors": [
    {
      "type": 2,
      "deliveryRestrictions": null,
      "segmentationUpids": [
        {
          "segmentationUpidType": 12,
          "formatIdentifier": 1145656131,
          "format": "base-64",
          "value": "WU1XRjA0NTIwMDBI"
        }
      ],
      "components": null,
      "segmentationEventId": 39965,
      "segmentationEventCancelIndicator": false,
      "segmentationDuration": 10800000,
      "segmentationTypeId": 49,
      "segmentNum": 1,
      "segmentsExpected": 1,
      "subSegmentNum": null,
      "subSegmentsExpected": null
    }
  ],
  "tier": 4095
}

Encode Signal

Encoding signals is equally simple. You can start from scratch and build a scte35.SpliceInfoSection or decode an existing signal and modify it to suit your needs.

encode.go

package main

import (
	"fmt"
	"os"

	"github.com/Comcast/scte35-go/pkg/scte35"
)

func main() {
	// start with a signal
	sis := scte35.SpliceInfoSection{
		SpliceCommand: scte35.NewTimeSignal(0x072bd0050),
		SpliceDescriptors: []scte35.SpliceDescriptor{
			&scte35.SegmentationDescriptor{
				DeliveryRestrictions: &scte35.DeliveryRestrictions{
					NoRegionalBlackoutFlag: true,
					ArchiveAllowedFlag:     true,
					DeviceRestrictions:     scte35.DeviceRestrictionsNone,
				},
				SegmentationEventID: uint32(0x4800008e),
				SegmentationTypeID:  scte35.SegmentationTypeProviderPOStart,
				SegmentationUPIDs: []scte35.SegmentationUPID{
					scte35.NewSegmentationUPID(scte35.SegmentationUPIDTypeTI, []byte("78511452")),
				},
				SegmentNum: 2,
			},
		},
		EncryptedPacket: scte35.EncryptedPacket{CWIndex: 255},
		Tier:            4095,
		SAPType:         3,
	}

	// encode it
	_, _ = fmt.Fprintf(os.Stdout, "Original:\n")
	_, _ = fmt.Fprintf(os.Stdout, "base-64: %s\n", sis.Base64())
	_, _ = fmt.Fprintf(os.Stdout, "hex    : %s\n", sis.Hex())

	// add a segmentation descriptor
	sis.SpliceDescriptors = append(
		sis.SpliceDescriptors,
		&scte35.DTMFDescriptor{
			DTMFChars: "ABC*",
		},
	)

	// encode it again
	_, _ = fmt.Fprintf(os.Stdout, "\nModified:\n")
	_, _ = fmt.Fprintf(os.Stdout, "base-64: %s\n", sis.Base64())
	_, _ = fmt.Fprintf(os.Stdout, "hex    : %s\n", sis.Hex())
}

$ go run ./examples/encode.go
Original:
base-64: /DAvAAAAAAAA///wBQb+cr0AUAAZAhdDVUVJSAAAjn+PCAg3ODUxMTQ1MjQCADhqB9E=
hex    : fc302f000000000000fffff00506fe72bd005000190217435545494800008e7f8f08083738353131343532340200386a07d1

Modified:
base-64: /DA7AAAAAAAA///wBQb+cr0AUAAlAhdDVUVJSAAAjn+PCAg3ODUxMTQ1MjQCAAEKQ1VFSQCfQUJDKqtwQlQ=
hex    : fc303b000000000000fffff00506fe72bd005000250217435545494800008e7f8f08083738353131343532340200010a43554549009f4142432aab704254

Decoding Non-Compliant Signals

The SCTE 35 decoder will always return a non-nil SpliceInfoSection, even when an error occurs. This is done to help better identify the specific cause of the decoding failure.

bad-signal

package main

import (
	"fmt"
	"os"

	"code.comcast.com/jbaile223/scte35/pkg/scte35"
)

func main() {
	sis, err := scte35.DecodeBase64("FkC1lwP3uTQD0VvxHwVBEH89G6B7VjzaZ9eNuyUF9q8pYAIXsRM9ZpDCczBeDbytQhXkssQstGJVGcvjZ3tiIMULiA4BpRHlzLGFa0q6aVMtzk8ZRUeLcxtKibgVOKBBnkCbOQyhSflFiDkrAAIp+Fk+VRsByTSkPN3RvyK+lWcjHElhwa9hNFcAy4dm3DdeRXnrD3I2mISNc7DkgS0ReotPyp94FV77xMHT4D7SYL48XU20UM4bgg==")
	if err != nil {
		fmt.Fprintf(os.Stdout, "Error: %s\n", err)
	}
	// splice info section contains best-effort decoding
	fmt.Fprintf(os.Stdout, "Signal: %s", sis)
}

As we can see from the output below, the signal has a corrupted component_count, causing the decoder to return a scte.ErrBufferOverflow:

$ go run ./examples/bad_signal.go
Error: splice_insert: buffer overflow
Signal: splice_info_section() {
    table_id: 0xfc
    section_syntax_indicator: false
    private_indicator: false
    sap_type: Type 1
    section_length: 343 bytes
}
protocol_version: 151
encrypted_packet: false
encryption_algorithm: No encryption
pts_adjustment: 8451077123 ticks (26h5m0.856922222s)
cw_index: 209
tier: 1471
splice_command_length: 326 bytes
splice_command_type: 0x05
splice_insert() {
    splice_event_id: 1091600189
    splice_event_cancel_indicator: false
    out_of_network_indicator: true
    program_splice_flag: false
    duration_flag: true
    splice_immediate_flag: false
    component_count: 123
    component[0] {
        component_tag: 86
        time_specified_flag: false
    }

    ... additional components removed

    component[122] {
        component_tag: 0
        time_specified_flag: false
    }
    auto_return: false
    duration: 0 ticks (0s)
    unique_program_id: 0
    avail_num: 0
    avails_expected: 0  
}

CRC_32 Validation

The SCTE 35 decoder performs automatic CRC_32 validation. The returned error can be explicitly ignored if desired.

sis, err := scte35.DecodeBase64("/DA4AAAAAAAAAP/wFAUABDEAf+//mWEhzP4Azf5gAQAAAAATAhFDVUVJAAAAAX+/AQIwNAEAAKeYO3Q=")
if err != nil && !errors.Is(err, scte35.ErrCRC32Invalid) {
  return err
}

Logging

Additional diagnostics can be enabled by redirecting the output of scte35.Logger

scte35.Logger.SetOutput(os.Stderr)

Command Line Interface

This package also provides a simple command line interface that supports encoding and decoding signals from the command line.

$ ./scte35-go --help
SCTE-35 CLI

Usage:
  scte35-go [command]

Available Commands:
  decode      Decode a splice_info_section from binary
  encode      Encode a splice_info_section to binary
  help        Help about any command

Flags:
  -h, --help   help for scte35-go

License

scte35-go is licensed under Apache License 2.0.

Code of Conduct

We take our code of conduct very seriously. Please abide by it.

Contributing

Please read our contributing guide for details on how to contribute to our project.

Releases

• Change Log