//! Acceptance tests for `BfldPipeline::process_to_frame`. ADR-118 ยง2.1 wire-bytes path. #![cfg(feature = "std")] use wifi_densepose_bfld::coherence_gate::DEBOUNCE_NS; use wifi_densepose_bfld::{ BfldConfig, BfldFrame, BfldFrameHeader, BfldPayload, BfldPipeline, IdentityEmbedding, PrivacyClass, SensingInputs, EMBEDDING_DIM, }; fn inputs(timestamp_ns: u64, risk: [f32; 4]) -> SensingInputs { let [sep, stab, consist, risk_conf] = risk; SensingInputs { timestamp_ns, presence: true, motion: 0.4, person_count: 1, sensing_confidence: 0.9, sep, stab, consist, risk_conf, rf_signature_hash: None, } } fn embedding() -> IdentityEmbedding { IdentityEmbedding::from_raw([0.05; EMBEDDING_DIM]) } fn header_template() -> BfldFrameHeader { let mut h = BfldFrameHeader::empty(); h.ap_hash = [0xA1; 16]; h.sta_hash = [0xA2; 16]; h.session_id = [0xA3; 16]; h.channel = 36; h.bandwidth_mhz = 80; h.n_subcarriers = 234; h.n_tx = 2; h.n_rx = 2; h } fn typed_payload() -> BfldPayload { BfldPayload { compressed_angle_matrix: vec![0x11; 32], amplitude_proxy: vec![0x22; 16], phase_proxy: vec![0x33; 16], snr_vector: vec![0x44; 8], csi_delta: None, vendor_extension: vec![], } } #[test] fn process_to_frame_emits_frame_under_low_risk() { let mut p = BfldPipeline::new(BfldConfig::new("seed-01")); let frame = p .process_to_frame( inputs(1_700_000_000_000_000_000, [0.2, 0.2, 0.2, 0.2]), header_template(), typed_payload(), Some(embedding()), ) .expect("low-risk frame must be emitted"); assert_eq!({ frame.header.timestamp_ns }, 1_700_000_000_000_000_000); assert_eq!({ frame.header.privacy_class }, PrivacyClass::Anonymous.as_u8()); } #[test] fn process_to_frame_returns_none_under_sustained_high_risk() { let mut p = BfldPipeline::new(BfldConfig::new("seed-01")); // Push gate into Reject via two consecutive high-risk evaluations. let _ = p.process_to_frame( inputs(0, [1.0, 1.0, 1.0, 0.8]), header_template(), typed_payload(), Some(embedding()), ); let after = p.process_to_frame( inputs(DEBOUNCE_NS, [1.0, 1.0, 1.0, 0.8]), header_template(), typed_payload(), Some(embedding()), ); assert!(after.is_none(), "Reject gate must drop the frame"); } #[test] fn process_to_frame_round_trips_through_bytes() { let mut p = BfldPipeline::new(BfldConfig::new("seed-01")); let frame = p .process_to_frame( inputs(1_700_000_000_000_000_000, [0.1, 0.1, 0.1, 0.1]), header_template(), typed_payload(), Some(embedding()), ) .unwrap(); let bytes = frame.to_bytes(); let parsed = BfldFrame::from_bytes(&bytes).expect("frame must round-trip"); let parsed_payload = parsed.parse_payload().expect("payload must round-trip"); assert_eq!(parsed_payload, typed_payload()); } #[test] fn process_to_frame_overrides_class_in_privacy_mode() { let mut p = BfldPipeline::new( BfldConfig::new("seed-01").with_privacy_class(PrivacyClass::Anonymous), ); p.enable_privacy_mode(); let frame = p .process_to_frame( inputs(0, [0.1, 0.1, 0.1, 0.1]), header_template(), typed_payload(), Some(embedding()), ) .unwrap(); assert_eq!( { frame.header.privacy_class }, PrivacyClass::Restricted.as_u8(), "privacy_mode must override into the frame header byte too", ); } #[test] fn process_to_frame_preserves_header_template_identity_fields() { let mut p = BfldPipeline::new(BfldConfig::new("seed-01")); let frame = p .process_to_frame( inputs(0, [0.1, 0.1, 0.1, 0.1]), header_template(), typed_payload(), Some(embedding()), ) .unwrap(); assert_eq!(frame.header.ap_hash, [0xA1; 16]); assert_eq!(frame.header.sta_hash, [0xA2; 16]); assert_eq!(frame.header.session_id, [0xA3; 16]); assert_eq!({ frame.header.channel }, 36); } #[test] fn process_to_frame_uses_input_timestamp_not_template_timestamp() { let mut p = BfldPipeline::new(BfldConfig::new("seed-01")); let mut tmpl = header_template(); tmpl.timestamp_ns = 12345; // sentinel that must be overridden let frame = p .process_to_frame( inputs(9_999_999_999_999_999, [0.1, 0.1, 0.1, 0.1]), tmpl, typed_payload(), Some(embedding()), ) .unwrap(); assert_eq!({ frame.header.timestamp_ns }, 9_999_999_999_999_999); }