Commit Graph

5 Commits

Author SHA1 Message Date
7228bebb78 feat(enc): Encaps E7 - c2 = byteEncode_dv(Compress_dv(v)) + end-to-end KAT
Reuses the E5 bit-packer FSM for ST_ENC_C2, generalized over region:
- coeff source: cp_coeff_src = bank_t[UPSUM] (v) for C2, bank_se (u) for C1
- bit width: cp_d already = dv_rt for C2 else du_rt
- poly count: cp_poly_max = 1 (single v) for C2, K for C1
- ct write pointer cp_wa CONTINUES from c1_bytes into C2 (not reset), so c2
  lands right after c1. c1 ends on a whole-byte/poly boundary (256*du/8
  integral), so cp_buf/nbits are empty at the C1->C2 handoff.

FSM tail: ST_ENC_V -> ST_ENC_C2 -> ST_DONE.

TB: verify_e7 compares the full ct (c1||c2, CTB bytes) to KAT.ct byte-exact
via the dbg_ct tap. Combined with the E0 ss==KAT.ss check this is the full
end-to-end Encaps KAT (ct==KAT.ct && ss==KAT.ss).

Verified end-to-end for K=2/3/4, cases 0-2 (K2) / 0-1 (K3,K4):
ct==KAT.ct && ss==KAT.ss. ML-KEM Encaps complete. KeyGen unregressed.
2026-06-29 11:18:58 +08:00
e114bec5ee feat(enc): Encaps E6 - v = INTT(sum t_hat o y_hat) + e2 + mu
Storage choreography (per plan risk notes):
- TDEC now decodes t_hat[j] into bank_a slot j*K (was bank_t). This makes
  V's MAC reuse E4's u_aslot=u_j*K+u_row addressing with u_row=0, no mux
  change. bank_t has no room for K=4 (t_hat would fill all 4 slots vs
  psum's UPSUM slot), hence bank_a (16 slots, A_hat dead after E4).
- New ST_ENC_E2MV state relocates e2 (bank_t[0]) -> bank_a[1] so V-ADD
  reads psum (bank_t) and e2 (bank_a) from different banks (no port
  conflict). bank_se (y_hat + u) stays intact -> verify_e2/e3/e4 unaffected.
- V reuses the u_* MAC/INTT/ADD machine with u_row tied to 0 (u_row_max=1).
  ADD computes psum + e2 + mu mod Q -> bank_t[UPSUM] in place;
  mu[w] = m_r[w] ? 1665 : 0 (Decompress_1). FSM: C1->TDEC->E2MV->V->DONE.

Bug found+fixed during bring-up: e2 relocation was off-by-one (wrote
e2[i+1] into slot i) because em_we/em_widx were registered an extra cycle
past the bram read. Fixed: em_widx==em_ridx, write scheduled for the cycle
bt_rd_data presents e2[em_ridx].

TB: verify_e6 compares v (bank_t dbg slot 9, K=2) to ml-kem-r golden.
verify_e1 dropped (TDEC overwrites bank_a A_hat slots; A_hat transitively
verified by E4). Verified: K=2 E2/E3/E4/E6 == golden, E5 c1 == KAT prefix;
K=3/4 E0+E5 pass; KeyGen K=2 unregressed.
2026-06-29 11:03:33 +08:00
3bc46f9640 feat(enc): Encaps E5 - c1 = byteEncode_du(Compress_du(u))
ST_ENC_C1: per-coeff Compress_du via comp_decomp_sync (mode 0) then
LSB-first byte packing into ct_bram. 5-phase micro-seq reads u[cp_poly]
from bank_se (rel K+poly), feeds the compressor (1-cyc pipe), appends du
bits to cp_buf, and drains whole bytes. Each poly = 256*du bits (whole
bytes) so the bit buffer empties at every poly boundary.

ST_ENC_U now advances to ST_ENC_C1 (was ST_DONE).

TB: verify_e5 compares ct_bram[0..c1_bytes-1] to the KAT.ct prefix via
the dbg_ct tap. run_enc.sh: encaps TB runner (compiles comp_decomp_sync
which the KeyGen tcl omits).

Verified K=2/3/4 c1 == KAT.ct prefix (640/960/1408 B; K=4 du=11
cross-byte path), K=2 cases 0-2.
2026-06-29 02:59:12 +08:00
0a8b3dae69 feat(enc): Encaps E0 - op_i/msg_i/ek-load scaffold + H(ek)+G(m||H(ek))
Extend mlkem_top with a runtime op_i select (0=KeyGen, 1=Encaps) and the
first Encaps stages, reusing the shared keccak_core and the ST_H multi-block
SHA3-256 machinery:
  ST_ENC_H: H(ek) over preloaded ek_bram (same FSM as KeyGen ST_H)
  ST_ENC_G: (K,r) = G(m||H(ek)) via new 64-byte single-block SHA3-512

- sha3_top_shared: add mode=2'b11 = SHA3-512 over a full 512-bit message
  (g512_pad). Standalone tb_sha3_g512 confirms it byte-exact.
- mlkem_top: new ports op_i, msg_i, ek_in_{we,addr,byte} (ek preload), ss_o,
  dbg_ct_*, dbg_r_o/dbg_hek_o. st widened 4->5 bits; ST_ENC_* states added.
  Renamed message port to msg_i to avoid collision with ST_M counter m_i.
- TB tb_mlkem_enc_katK + gen_encaps_vectors.py (per-byte ek/m/ct/ss vectors).

Verified ss==KAT.ss for K=2/3/4, cases 0-2 (all PASS). KeyGen unaffected
(K=2 c0 still ek==pk, dk==sk byte-exact).
2026-06-29 01:00:47 +08:00
4d3adc6b57 refactor(kg): split polymem into 3 banks {a, se, t} (async, stage 2a)
Replace the single async-read polymem[0:28*256-1] with 3 polynomial-indexed
banks (bank_a A_hat / bank_se s_hat||e_hat / bank_t t_hat), addressed by
abs_slot - base_slot. Still async-read here -- a pure refactor that validates
bank sizing and base-relative addressing with zero timing change before
stage 2b converts them to registered sd_bram + read-ahead pipelines.

11/11 KAT PASS, byte-exact, 0 file-not-found.
2026-06-28 15:55:26 +08:00