feat(dec): Decaps D3+D4 - w = v'-INTT(s.u_hat) + m' recovery
Completes K-PKE.Decrypt (FIPS 203 Alg 15) in hardware: m' is recovered. D3 (ST_DEC_W) reuses the Encaps V MAC/INTT machine (u_row tied to 0): - MAC s_hat[j] (bank_a slot j*K) o u_hat[j] (bank_se rel j) -> psum bank_t[UPSUM] -- identical addressing to Encaps V (t_hat[j] o y_hat[j]), so free reuse. - INTT(psum) in place. - SUB: w = v' - psum mod Q (negative -> +Q), written to bank_t[UPSUM]. To read v' and psum in parallel during SUB (one read port per bank), D1's v' write was relocated from bank_t to bank_a slot DEC_VASLOT=1 (always free: s_hat occupies j*K, slot 1 is unused for K>=2). This mirrors V-ADD reading psum (bank_t) + e2 (bank_a) simultaneously. D4 (ST_DEC_MENC): m' = byteEncode_1(Compress_1(w)). Compress_1(w)=1 iff 832 < w <= 2496 (Q=3329); bits packed LSB-first into mprime_r, exposed on dbg_mprime_o (was a placeholder tied to m_r). Added ST_DEC_W to the u_* machine muxes/sub-phases and the FSM chain NTT->W->MENC->DONE. TB verify_d3 checks w (bank_t UPSUM); verify_d4 checks the 32-byte m' against golden (== the KAT-decrypted m == original message). Verified: dec D1-D4 K=2/3/4 all cases PASS; KeyGen + Encaps unregressed.
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- **D0 — 脚手架 + dk/c 载入 + 解析** ✅:op_i 加宽 2-bit(00 KG/01 Enc/10 Dec),ST_DEC_LOAD(D0 暂直接→DONE)。dk 流入按 region 路由:dk_pke→dkp_bram、ek_pke→ek_bram、h→hek_r、z→z_r;ct→c_in_bram(独立于 ct_bram)。dbg 验证 h/z/ek_pke/dk_pke。**踩坑1:载入路由用 k_r 但 k_r 在 start_i 才锁存 → 预载期 region 边界全 0,路由全错。改用 LIVE k_i 边界(dkp_bytes_ld 等)。踩坑2:旧 KG/Enc TB 未接新端口(dk_in_*/c_in_*/dbg_*)→ X 漂入 write mux,KeyGen/Encaps 超时回归。补 tie-off 0。** runner = `./run_tb.sh dec [K] [CASE]`。K=2/3/4 D0 全过,KG/Enc 回归通过。
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- **D1 — byteDecode_d + Decompress → u'/v'** ✅:复用 comp_decomp(改 mode 可选:Encaps C1/C2 compress mode=0,Decaps DECOMP mode=1)。ST_DEC_DECOMP 内联 byteDecode 走子机:逐字节读 c_in_bram,LSB-first 累进 bit buffer,凑够 d 位抽符号→comp_decomp 解压→写 bank。c1(K 多项式,d=du)→u'[i] bank_se rel i;c2(1 多项式,d=dv)→v' bank_t rel DEC_VSLOT=2(避开 UPSUM=1)。dbg_slot_i 加宽 4→6 bit(K=4 v' 在 slot 26)。dump_decaps.rs(ml-kem-r 工作树)产 u'/v'/s_hat/u_hat/w/m' golden 到 vectors/decgold/。**踩坑:dbg coeff 读回延迟 = bank(1)+dbg_coeff_r(1),TB rdcoeff 等 2 拍少一拍 → 数据整体错位一格;改 3 拍修正。** K=2/3/4 全过,KG/Enc 回归通过。
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- **D2 — s_hat 解码 + u_hat = NTT(u')** ✅:复用 Encaps TDEC 机(ST_DEC_SDEC),字节源从 ek 切到 dkp_bram(td_byte mux + dkp_rd_addr 在 SDEC 走 td_ekaddr),s_hat 写 bank_a slot j*K(与 t_hat 同布局,D3 MAC 可直接读)。复用前向 NTT 机(ST_DEC_NTT,n_slot_max=k_r)对 bank_se rel 0..K-1 的 u' 原地变换成 u_hat。**踩坑:NTT 原地覆盖 u' → verify_d1 复查 u' 必失败;改为 verify_d1 只查 v'(bank_t 未动),u' 正确性由 u_hat==NTT(u') golden 传递性证明。** K=2/3/4 全过,KG/Enc 回归通过。
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- **D3 — w = v' − INTT(Σ s∘u_hat)**:V 机器 SUB 变体。dbg 对 w。
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- **D4 — m' = byteEncode₁(Compress₁(w))**:打包器 d=1。dbg 对 m'(== KAT 解密的 m')。
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- **D3 — w = v' − INTT(Σ s∘u_hat)** ✅:复用 Encaps V 机(ST_DEC_W,u_row=0 单多项式)。MAC s_hat[j](bank_a slot j*K)∘ u_hat[j](bank_se rel j)→psum bank_t[UPSUM],与 V MAC 完全同址,免改。INTT 原地。SUB:w = v' − psum,(v'−psum) 负则 +Q。**关键:v'/psum 读口冲突 → D1 把 v' 落到 bank_a slot DEC_VASLOT=1(s_hat 在 j*K,slot 1 恒空 K≥2),SUB 时 psum(bank_t)+v'(bank_a)并行读,正如 V-ADD 并读 psum+e2。** K=2/3/4 w 全过。
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- **D4 — m' = byteEncode₁(Compress₁(w))** ✅:ST_DEC_MENC,逐系数读 bank_t[UPSUM] 的 w,Compress₁(w)=1 iff 832<w≤2496(Q=3329),LSB-first 打包进 mprime_r[255:0],经 dbg_mprime_o 暴露。TB verify_d4 对 32 字节 golden(== KAT 解密的 m'==原始 m)。K=2/3/4 全过,KG/Enc 回归通过。K-PKE.Decrypt 硬件全链路打通。
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- **D5 — G(m'‖h) → (K',r') + J(z‖c) → K̄**:G 复用、J 多块(0x1F pad)。dbg 对 K'/r'/K̄。
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- **D6 — c' = Encrypt(ek_pke,m',r')**:复用 Encaps E1–E7 写 ct_bram。dbg 对 c'==KAT.ct(有效 ct 时)。
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- **D7 — 比较 + 拒绝 mux + 端到端 KAT**:c'==c 常量时间比较,ss=mux。干净 TB:
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