Detection of failed authentication attempts on spacecraft systems potentially caused by RF or EMI interference. This indicator focuses on identifying anomalies in the RF communication environment, such as signal strength variations that do not correspond with legitimate communication patterns. Such anomalies may indicate an attempt to spoof communication signals or interfere with the authentication process to gain unauthorized access. Monitoring these failed attempts, especially when correlated with suspicious RF activity, helps in identifying and mitigating potential security threats.
| ID | Name | Description | |
| IA-0004 | Secondary/Backup Communication Channel | Adversaries pursue alternative paths to the spacecraft that differ from the primary TT&C in configuration, monitoring, or authentication. Examples include backup MOC/ground networks, contingency TT&C chains, maintenance or recovery consoles, low-rate emergency beacons, and secondary receivers or antennas on the vehicle. These channels exist to preserve commandability during outages, safing, or maintenance; they may use different vendors, legacy settings, or simplified procedures. Initial access typically pairs reconnaissance of failover rules with actions that steer operations onto the backup path, natural events, induced denial on the primary, or simple patience until scheduled tests and handovers occur. Once traffic flows over the alternate path, the attacker leverages its distinct procedures, dictionaries, or rate/size limits to introduce commands or data that would be harder to inject on the primary. | |
| IA-0004.01 | Ground Station | Threat actors may target the backup ground segment, standby MOC sites, alternate commercial stations, or contingency chains held in reserve. Threat actors establish presence on the backup path (operator accounts, scheduler/orchestration, modem profiles, antenna control) and then exploit moments when operations shift: planned exercises, maintenance at the primary site, weather diversions, or failover during anomalies. They may also shape conditions so traffic is re-routed, e.g., by saturating the primary’s RF front end or consuming its schedules, without revealing their involvement. Once on the backup, prepositioned procedures, macros, or configuration sets allow command injection, manipulation of pass timelines, or quiet collection of downlink telemetry. | |
| IA-0007 | Compromise Ground System | Compromising the ground segment gives an adversary the most direct path to first execution against a spacecraft. Ground systems encompass operator workstations and mission control mission control software, scheduling/orchestration services, front-end processors and modems, antenna control, key-loading tools and HSMs, data gateways (SLE/CSP), identity providers, and cloud-hosted mission services. Once inside, a threat actor can prepare on-orbit updates, craft and queue valid telecommands, replay captured traffic within acceptance windows, or manipulate authentication material and counters to pass checks. The same foothold enables deep reconnaissance: enumerating mission networks and enclaves, discovering which satellites are operated from a site, mapping logical topology between MOC and stations, identifying in-band “birds” reachable from a given aperture, and learning pass plans, dictionaries, and automation hooks. From there, initial access to the spacecraft is a matter of timing and presentation, injecting commands, procedures, or update packages that align with expected operations so the first execution event appears indistinguishable from normal activity. | |
| PER-0003 | Ground System Presence | The adversary maintains long-lived access by residing within mission ground infrastructure that already has end-to-end reach to the spacecraft. Persistence can exist in operator workstations and mission control software, schedulers/orchestrators, station control (antenna/mount, modem/baseband), automation scripts and procedure libraries, identity and ticketing systems, and cloud-hosted mission services. With this foothold, the actor can repeatedly queue commands, updates, or file transfers during routine passes; mirror legitimate operator behavior to blend in; and refresh their tooling as software is upgraded. Presence on the ground also supports durable reconnaissance (pass plans, dictionaries, key/counter states) and continuous staging so each window to the vehicle can be exploited without re-establishing access. | |