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Standard Encoding - T1132.001
(ATT&CK® Technique)
Definition
Adversaries may encode data with a standard data encoding system to make the content of command and control traffic more difficult to detect. Command and control (C2) information can be encoded using a standard data encoding system that adheres to existing protocol specifications. Common data encoding schemes include ASCII, Unicode, hexadecimal, Base64, and MIME. Some data encoding systems may also result in data compression, such as gzip.
D3FEND Inferred Relationships
Browse the D3FEND knowledge graph by clicking on the nodes below.
graph LR;
T1132001["Standard Encoding"] --> |produces| OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"]; class T1132001 OffensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode; click OutboundInternetNetworkTraffic href "/dao/artifact/d3f:OutboundInternetNetworkTraffic";
click T1132001 href "/offensive-technique/attack/T1132.001/"; click OutboundInternetNetworkTraffic href "/dao/artifact/d3f:OutboundInternetNetworkTraffic";Client-serverPayloadProfiling["Client-server Payload Profiling"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
Client-serverPayloadProfiling["Client-server Payload Profiling"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class Client-serverPayloadProfiling DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click Client-serverPayloadProfiling href "/technique/d3f:Client-serverPayloadProfiling"; NetworkTrafficCommunityDeviation["Network Traffic Community Deviation"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
NetworkTrafficCommunityDeviation["Network Traffic Community Deviation"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class NetworkTrafficCommunityDeviation DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click NetworkTrafficCommunityDeviation href "/technique/d3f:NetworkTrafficCommunityDeviation"; PerHostDownload-UploadRatioAnalysis["Per Host Download-Upload Ratio Analysis"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
PerHostDownload-UploadRatioAnalysis["Per Host Download-Upload Ratio Analysis"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class PerHostDownload-UploadRatioAnalysis DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click PerHostDownload-UploadRatioAnalysis href "/technique/d3f:PerHostDownload-UploadRatioAnalysis"; ProtocolMetadataAnomalyDetection["Protocol Metadata Anomaly Detection"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
ProtocolMetadataAnomalyDetection["Protocol Metadata Anomaly Detection"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class ProtocolMetadataAnomalyDetection DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click ProtocolMetadataAnomalyDetection href "/technique/d3f:ProtocolMetadataAnomalyDetection"; RelayPatternAnalysis["Relay Pattern Analysis"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
RelayPatternAnalysis["Relay Pattern Analysis"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class RelayPatternAnalysis DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click RelayPatternAnalysis href "/technique/d3f:RelayPatternAnalysis"; RemoteTerminalSessionDetection["Remote Terminal Session Detection"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
RemoteTerminalSessionDetection["Remote Terminal Session Detection"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class RemoteTerminalSessionDetection DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click RemoteTerminalSessionDetection href "/technique/d3f:RemoteTerminalSessionDetection"; NetworkTrafficSignatureAnalysis["Network Traffic Signature Analysis"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
NetworkTrafficSignatureAnalysis["Network Traffic Signature Analysis"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class NetworkTrafficSignatureAnalysis DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click NetworkTrafficSignatureAnalysis href "/technique/d3f:NetworkTrafficSignatureAnalysis"; UserGeolocationLogonPatternAnalysis["User Geolocation Logon Pattern Analysis"] -->
| analyzes | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
UserGeolocationLogonPatternAnalysis["User Geolocation Logon Pattern Analysis"] -.->
| may-detect | T1132001["Standard Encoding"] ;
class UserGeolocationLogonPatternAnalysis DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click UserGeolocationLogonPatternAnalysis href "/technique/d3f:UserGeolocationLogonPatternAnalysis"; NetworkTrafficFiltering["Network Traffic Filtering"] -->
| filters | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
NetworkTrafficFiltering["Network Traffic Filtering"] -.->
| may-isolate | T1132001["Standard Encoding"] ;
class NetworkTrafficFiltering DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click NetworkTrafficFiltering href "/technique/d3f:NetworkTrafficFiltering"; OutboundTrafficFiltering["Outbound Traffic Filtering"] -->
| filters | OutboundInternetNetworkTraffic["Outbound Internet Network Traffic"];
OutboundTrafficFiltering["Outbound Traffic Filtering"] -.->
| may-isolate | T1132001["Standard Encoding"] ;
class OutboundTrafficFiltering DefensiveTechniqueNode;
class OutboundInternetNetworkTraffic ArtifactNode;
click OutboundTrafficFiltering href "/technique/d3f:OutboundTrafficFiltering";