feat: real SCRAM-SHA-256 authentication (Option C)

Security:
- New scram.nim module with full SCRAM-SHA-256 per RFC 7677
  * PBKDF2-HMAC-SHA-256 key derivation
  * HMAC-SHA-256 with multiple overloads for bytes/strings
  * Secure nonce/salt generation via /dev/urandom
  * Client/server message parsing and proof verification

AuthManager updates:
- registerScramUser(): stores salted credentials (salt + iterations + storedKey + serverKey)
- startScram(): initiates challenge-response handshake
- finishScram(): verifies client proof and returns server signature
- Legacy amSCRAMSHA256 path kept for backward compatibility

HTTP endpoints:
- POST /auth/scram/start — accepts client-first-message, returns server-first
- POST /auth/scram/finish — accepts client-final-message, returns server-final

Tests:
- SCRAM-SHA-256 full handshake test (register → start → compute proof → finish)
- SCRAM-SHA-256 invalid proof rejection test

Build: 0 warnings, all tests pass
This commit is contained in:
2026-05-13 09:50:07 +03:00
parent 422df08ab9
commit ac55237b72
7 changed files with 488 additions and 14 deletions
+1 -1
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@@ -107,7 +107,7 @@
1. ~~**Build warnings cleanup**~~ ✅ — implicit `cstring` conversion (wal.nim), `HoleEnumConv` (server.nim), unused `os` import (logging.nim), `ImplicitDefaultValue` (ast.nim)
2. **Threadpool deprecation** — миграция към `malebolgia`/`weave`/`taskpools`
3. **Auth SCRAM-SHA-256** — истински challenge-response със salt + iteration count
3. ~~**Auth SCRAM-SHA-256**~~ — истински challenge-response със salt + iteration count
4. ~~**TLA+ symmetry reduction**~~ ✅ — `SYMMETRY` добавен във всички 9 `.cfg` файла + `Permutations` дефиниции в `.tla` спековете
5. ~~**`crossmodal.tla`**~~ ✅ — cross-modal consistency между document/vector/graph/FTS
6. **Replication data transfer**`writeLsn` да изпраща данни към replicas
+1 -1
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@@ -104,7 +104,7 @@
- Моделира sync между document/vector/graph/FTS индекси
- Резултат: 10-ти TLA+ спек, пълно покритие на core модулите
### Опция C: Auth hardening + SCRAM (3-4 часа)
### Опция C: Auth hardening + SCRAM
- Истински SCRAM-SHA-256 със salt, iteration count, challenge-response
- Резултат: production-grade auth
+46
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@@ -18,6 +18,7 @@ import ../core/mvcc
import ../protocol/wire
import ../core/websocket
import jwt as jwtlib
import ../protocol/auth
type
HttpServer* = ref object
@@ -27,6 +28,7 @@ type
ctx: ExecutionContext
metrics*: Metrics
secretKey*: string
authManager*: AuthManager
ws*: WsServer
Metrics* = ref object
@@ -46,8 +48,10 @@ proc newHttpServer*(config: BaraConfig): HttpServer =
ctx.onChange = proc(ev: ChangeEvent) =
let msg = $ev.kind & " " & ev.table
asyncCheck ws.broadcastToTable(ev.table, msg)
let am = newAuthManager(secret)
HttpServer(config: config, running: false, db: db, ctx: ctx,
secretKey: secret,
authManager: am,
metrics: Metrics(), ws: ws)
# ----------------------------------------------------------------------
@@ -211,6 +215,46 @@ proc authHandler(server: HttpServer): RequestHandler =
"role": "user"
})
proc scramStartHandler(server: HttpServer): RequestHandler =
return proc(request: Request) {.gcsafe.} =
{.cast(gcsafe).}:
let ctx = newContext(request)
let body = parseJson(request.body)
if body == nil or "username" notin body or "clientFirstMessage" notin body:
ctx.json(%*{"error": "Missing username or clientFirstMessage"}, 400)
return
let username = body["username"].getStr()
let clientFirst = body["clientFirstMessage"].getStr()
try:
let serverFirst = server.authManager.startScram(clientFirst)
ctx.json(%*{
"serverFirstMessage": serverFirst,
"status": "continue"
})
except CatchableError as e:
ctx.json(%*{"error": e.msg}, 401)
proc scramFinishHandler(server: HttpServer): RequestHandler =
return proc(request: Request) {.gcsafe.} =
{.cast(gcsafe).}:
let ctx = newContext(request)
let body = parseJson(request.body)
if body == nil or "clientFinalMessage" notin body:
ctx.json(%*{"error": "Missing clientFinalMessage"}, 400)
return
let clientFinal = body["clientFinalMessage"].getStr()
try:
let (ok, serverFinal) = server.authManager.finishScram(clientFinal)
if ok:
ctx.json(%*{
"serverFinalMessage": serverFinal,
"status": "authenticated"
})
else:
ctx.json(%*{"error": serverFinal}, 401)
except CatchableError as e:
ctx.json(%*{"error": e.msg}, 401)
proc openApiHandler(): RequestHandler =
return proc(request: Request) {.gcsafe.} =
let ctx = newContext(request)
@@ -482,6 +526,8 @@ proc run*(server: HttpServer, port: int = 9470) =
router.get("/health", healthHandler())
router.get("/metrics", server.metricsHandler())
router.post("/auth", server.authHandler())
router.post("/auth/scram/start", server.scramStartHandler())
router.post("/auth/scram/finish", server.scramFinishHandler())
router.get("/tables", server.tablesHandler())
router.get("/api", openApiHandler())
+106 -12
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@@ -1,9 +1,10 @@
## Authentication — JWT-based auth with SCRAM-SHA-256
## Authentication — JWT-based auth with real SCRAM-SHA-256
import std/strutils
import std/base64
import std/tables
import std/times
import checksums/sha2
import scram
type
AuthMethod* = enum
@@ -38,10 +39,22 @@ type
AuthManager* = ref object
secretKey*: string
tokens*: seq[string]
users*: Table[string, string] # username -> password hash
users*: Table[string, string] # username -> password hash (legacy)
scramUsers*: Table[string, ScramCredential]
scramSessions*: Table[string, ScramServerState]
proc newAuthManager*(secretKey: string = ""): AuthManager =
AuthManager(secretKey: secretKey, tokens: @[], users: initTable[string, string]())
AuthManager(
secretKey: secretKey,
tokens: @[],
users: initTable[string, string](),
scramUsers: initTable[string, ScramCredential](),
scramSessions: initTable[string, ScramServerState](),
)
# ---------------------------------------------------------------------------
# Base64 URL-safe helpers
# ---------------------------------------------------------------------------
proc base64UrlEncode(data: string): string =
result = encode(data)
@@ -53,6 +66,10 @@ proc base64UrlDecode(data: string): string =
s &= "="
return decode(s)
# ---------------------------------------------------------------------------
# Legacy HMAC-SHA-256 (for JWT signing)
# ---------------------------------------------------------------------------
proc hmacSha256(key, message: string): string =
var k = key
if k.len > 64:
@@ -81,6 +98,18 @@ proc hmacSha256(key, message: string): string =
return $outerHash
proc constantTimeCompare(a, b: string): bool =
if a.len != b.len:
return false
var diff = 0
for i in 0..<a.len:
diff = diff or (ord(a[i]) xor ord(b[i]))
return diff == 0
# ---------------------------------------------------------------------------
# JWT token helpers
# ---------------------------------------------------------------------------
proc createToken*(am: AuthManager, claims: JWTClaims): string =
let header = base64UrlEncode("{\"alg\":\"HS256\",\"typ\":\"JWT\"}")
var payloadJson = "{\"sub\":\"" & claims.sub & "\",\"role\":\"" & claims.role &
@@ -98,14 +127,6 @@ proc createToken*(am: AuthManager, claims: JWTClaims): string =
am.tokens.add(data & "." & base64UrlEncode(signature))
return am.tokens[^1]
proc constantTimeCompare(a, b: string): bool =
if a.len != b.len:
return false
var result = 0
for i in 0..<a.len:
result = result or (ord(a[i]) xor ord(b[i]))
return result == 0
proc verifyToken*(am: AuthManager, token: string): (bool, JWTClaims) =
let parts = token.split(".")
if parts.len != 3:
@@ -167,6 +188,73 @@ proc verifyToken*(am: AuthManager, token: string): (bool, JWTClaims) =
return (false, JWTClaims())
return (true, claims)
# ---------------------------------------------------------------------------
# SCRAM-SHA-256 challenge-response
# ---------------------------------------------------------------------------
proc registerScramUser*(am: AuthManager, username, password: string,
iterationCount: int = DefaultIterationCount) =
## Register a user with real SCRAM-SHA-256 credentials.
let cred = createScramCredential(password, iterationCount = iterationCount)
am.scramUsers[username] = cred
proc startScram*(am: AuthManager, clientFirstMessage: string): string =
## Start SCRAM authentication. Returns server-first-message.
let (_, username, clientNonce) = parseClientFirst(clientFirstMessage)
if username notin am.scramUsers:
raise newException(ValueError, "Unknown user: " & username)
let cred = am.scramUsers[username]
let serverNonce = generateNonce()
let combinedNonce = clientNonce & serverNonce
let serverFirst = buildServerFirst(combinedNonce, cred.salt, cred.iterationCount)
# Compute authMessage for later verification
let clientFirstMessageBare = "n=" & username & ",r=" & clientNonce
let authMessage = clientFirstMessageBare & "," & serverFirst
var state = ScramServerState(
username: username,
clientFirstMessageBare: clientFirstMessageBare,
serverFirstMessage: serverFirst,
authMessage: authMessage,
clientNonce: clientNonce,
serverNonce: serverNonce,
salt: cred.salt,
iterationCount: cred.iterationCount,
storedKey: cred.storedKey,
serverKey: cred.serverKey,
)
# Store session keyed by combined nonce
am.scramSessions[combinedNonce] = state
return serverFirst
proc finishScram*(am: AuthManager, clientFinalMessage: string): (bool, string) =
## Finish SCRAM authentication. Returns (success, server-final-message).
let (cbind, nonce, clientProof) = parseClientFinal(clientFinalMessage)
if nonce notin am.scramSessions:
return (false, "e=invalid-nonce")
var state = am.scramSessions[nonce]
am.scramSessions.del(nonce)
# Update authMessage with client-final-message-without-proof
let clientFinalWithoutProof = "c=" & cbind & ",r=" & nonce
state.authMessage = state.authMessage & "," & clientFinalWithoutProof
if not verifyClientProof(state, clientProof):
return (false, "e=invalid-proof")
let serverSignature = computeServerSignature(state)
return (true, buildServerFinal(serverSignature))
# ---------------------------------------------------------------------------
# Credential validation dispatcher
# ---------------------------------------------------------------------------
proc validateCredentials*(am: AuthManager, creds: AuthCredentials): AuthResult =
case creds.authMethod
of amNone:
@@ -180,15 +268,20 @@ proc validateCredentials*(am: AuthManager, creds: AuthCredentials): AuthResult =
role: claims.role, database: claims.database)
return AuthResult(authenticated: false, error: "Invalid token")
of amSCRAMSHA256:
## Legacy fallback: simple hash comparison for backward compatibility.
## Real SCRAM should use startScram() / finishScram().
if creds.username in am.users:
let stored = am.users[creds.username]
# SCRAM-SHA-256: client sends SHA-256(password) as payload
let clientHash = if creds.payload.len > 0: creds.payload else: hmacSha256(am.secretKey, "")
if stored == clientHash or stored == hmacSha256(am.secretKey, creds.payload):
return AuthResult(authenticated: true, username: creds.username,
role: "user", database: "default")
return AuthResult(authenticated: false, error: "Invalid SCRAM credentials")
# ---------------------------------------------------------------------------
# Token / user management
# ---------------------------------------------------------------------------
proc addToken*(am: var AuthManager, token: string) =
am.tokens.add(token)
@@ -200,4 +293,5 @@ proc revokeToken*(am: var AuthManager, token: string) =
proc isAuthenticated*(r: AuthResult): bool = r.authenticated
proc addScramUser*(am: var AuthManager, username, passwordHash: string) =
## Legacy helper: stores raw hash. Use registerScramUser() for real SCRAM.
am.users[username] = passwordHash
BIN
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+251
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@@ -0,0 +1,251 @@
## SCRAM-SHA-256 implementation per RFC 7677
## Provides: PBKDF2, HMAC-SHA-256, nonce generation, SCRAM message parsing
import std/strutils
import std/base64
import std/endians
import checksums/sha2
const
DefaultIterationCount* = 4096
NonceBytes = 24
type
ScramCredential* = object
salt*: string
iterationCount*: int
storedKey*: array[32, byte]
serverKey*: array[32, byte]
ScramServerState* = object
username*: string
clientFirstMessageBare*: string
serverFirstMessage*: string
authMessage*: string
clientNonce*: string
serverNonce*: string
salt*: string
iterationCount*: int
storedKey*: array[32, byte]
serverKey*: array[32, byte]
# ---------------------------------------------------------------------------
# Cryptographic primitives
# ---------------------------------------------------------------------------
proc hmacSha256*(key, message: string): array[32, byte] =
## HMAC-SHA-256 returning raw 32-byte digest.
var k = key
if k.len > 64:
var ctx = initSha_256()
ctx.update(k.toOpenArray(0, k.len-1))
let hash = ctx.digest()
k = $hash
while k.len < 64:
k &= "\x00"
var ipad = newString(64)
var opad = newString(64)
for i in 0..<64:
ipad[i] = chr(ord(k[i]) xor 0x36)
opad[i] = chr(ord(k[i]) xor 0x5c)
var innerCtx = initSha_256()
innerCtx.update(ipad.toOpenArray(0, ipad.len-1))
innerCtx.update(message.toOpenArray(0, message.len-1))
let innerHash = innerCtx.digest()
var outerCtx = initSha_256()
outerCtx.update(opad.toOpenArray(0, opad.len-1))
outerCtx.update(innerHash.toOpenArray(0, innerHash.len-1))
return cast[array[32, byte]](outerCtx.digest())
proc hmacSha256*(key: openArray[byte], message: string): array[32, byte] =
let keyStr = newString(key.len)
if key.len > 0:
copyMem(addr keyStr[0], unsafeAddr key[0], key.len)
return hmacSha256(keyStr, message)
proc hmacSha256*(key, message: openArray[byte]): array[32, byte] =
let keyStr = newString(key.len)
if key.len > 0:
copyMem(addr keyStr[0], unsafeAddr key[0], key.len)
let msgStr = newString(message.len)
if message.len > 0:
copyMem(addr msgStr[0], unsafeAddr message[0], message.len)
return hmacSha256(keyStr, msgStr)
proc hmacSha256*(key: string, message: openArray[byte]): array[32, byte] =
let msgStr = newString(message.len)
if message.len > 0:
copyMem(addr msgStr[0], unsafeAddr message[0], message.len)
return hmacSha256(key, msgStr)
proc sha256*(data: string): array[32, byte] =
var ctx = initSha_256()
ctx.update(data.toOpenArray(0, data.len-1))
return cast[array[32, byte]](ctx.digest())
proc sha256*(data: openArray[byte]): array[32, byte] =
var s = newString(data.len)
if data.len > 0:
copyMem(addr s[0], unsafeAddr data[0], data.len)
return sha256(s)
proc xorBytes*(a, b: openArray[byte]): seq[byte] =
result = newSeq[byte](a.len)
for i in 0..<a.len:
result[i] = a[i] xor b[i]
proc pbkdf2HmacSha256*(password, salt: string, iterations: int): array[32, byte] =
## PBKDF2-HMAC-SHA-256 with 32-byte output length.
var u: array[32, byte]
var t: array[32, byte]
# U_1 = HMAC(password, salt || BE32(1))
var msg = salt
var counterVal = 1'u32
var counter: array[4, byte]
bigEndian32(addr counter, unsafeAddr counterVal)
var counterStr = newString(4)
copyMem(addr counterStr[0], addr counter[0], 4)
msg.add(counterStr)
u = hmacSha256(password, msg)
for i in 0..<32:
t[i] = u[i]
for i in 2..iterations:
u = hmacSha256(password, u)
for j in 0..<32:
t[j] = t[j] xor u[j]
return t
# ---------------------------------------------------------------------------
# Random & encoding helpers
# ---------------------------------------------------------------------------
proc generateNonce*(): string =
## Generate a cryptographically secure random nonce (base64-encoded).
when defined(linux) or defined(macosx) or defined(bsd):
let f = open("/dev/urandom")
defer: f.close()
var bytes = newString(NonceBytes)
let readLen = f.readBuffer(addr bytes[0], NonceBytes)
if readLen < NonceBytes:
raise newException(IOError, "Failed to read enough random bytes")
result = encode(bytes)
# Strip padding for GS2 / SCRAM compatibility
while result.endsWith("="):
result.setLen(result.len - 1)
result = result.replace("+", "-").replace("/", "_")
else:
# Fallback — NOT cryptographically secure, should not be used in production
raise newException(IOError, "Secure random not available on this platform")
proc generateSalt*(): string =
## Generate a random salt (raw bytes).
when defined(linux) or defined(macosx) or defined(bsd):
let f = open("/dev/urandom")
defer: f.close()
result = newString(NonceBytes)
let readLen = f.readBuffer(addr result[0], NonceBytes)
if readLen < NonceBytes:
raise newException(IOError, "Failed to read enough random bytes")
else:
raise newException(IOError, "Secure random not available on this platform")
proc toHex*(data: openArray[byte]): string =
const hexChars = "0123456789abcdef"
result = newString(data.len * 2)
for i, b in data:
result[i * 2] = hexChars[int(b shr 4)]
result[i * 2 + 1] = hexChars[int(b and 0x0f)]
# ---------------------------------------------------------------------------
# SCRAM credential generation
# ---------------------------------------------------------------------------
proc createScramCredential*(password: string, salt: string = "",
iterationCount: int = DefaultIterationCount): ScramCredential =
let actualSalt = if salt.len > 0: salt else: generateSalt()
let saltedPassword = pbkdf2HmacSha256(password, actualSalt, iterationCount)
let clientKey = hmacSha256(saltedPassword, "Client Key")
let storedKey = sha256(clientKey)
let serverKey = hmacSha256(saltedPassword, "Server Key")
ScramCredential(
salt: actualSalt,
iterationCount: iterationCount,
storedKey: storedKey,
serverKey: serverKey,
)
# ---------------------------------------------------------------------------
# SCRAM message parsing / building
# ---------------------------------------------------------------------------
proc parseClientFirst*(msg: string): (string, string, string) =
## Parse client-first-message: gs2-header,username,nonce
## Returns: (gs2_header, username, nonce)
var parts = msg.split(",")
if parts.len < 3:
raise newException(ValueError, "Invalid client-first-message")
var gs2 = parts[0]
var username = ""
var nonce = ""
for i in 1..<parts.len:
let p = parts[i]
if p.startsWith("n="):
username = p[2..^1]
elif p.startsWith("r="):
nonce = p[2..^1]
if username.len == 0 or nonce.len == 0:
raise newException(ValueError, "Missing username or nonce in client-first-message")
return (gs2, username, nonce)
proc parseClientFinal*(msg: string): (string, string, seq[byte]) =
## Parse client-final-message: channel-binding,nonce,proof
## Returns: (channel_binding, nonce, proof_bytes)
var cbind = ""
var nonce = ""
var proofHex = ""
for p in msg.split(","):
if p.startsWith("c="):
cbind = p[2..^1]
elif p.startsWith("r="):
nonce = p[2..^1]
elif p.startsWith("p="):
proofHex = p[2..^1]
if nonce.len == 0 or proofHex.len == 0:
raise newException(ValueError, "Missing nonce or proof in client-final-message")
# proof is base64-encoded
var proof = decode(proofHex)
var proofBytes = newSeq[byte](proof.len)
if proof.len > 0:
copyMem(addr proofBytes[0], addr proof[0], proof.len)
return (cbind, nonce, proofBytes)
proc buildServerFirst*(nonce, salt: string, iterationCount: int): string =
"r=" & nonce & ",s=" & encode(salt) & ",i=" & $iterationCount
proc buildServerFinal*(serverSignature: openArray[byte]): string =
var sigStr = newString(serverSignature.len)
if serverSignature.len > 0:
copyMem(addr sigStr[0], unsafeAddr serverSignature[0], serverSignature.len)
"v=" & encode(sigStr)
# ---------------------------------------------------------------------------
# SCRAM server-side verification
# ---------------------------------------------------------------------------
proc verifyClientProof*(state: ScramServerState, clientProof: openArray[byte]): bool =
let clientKey = xorBytes(clientProof, @(hmacSha256(state.storedKey, state.authMessage)))
let computedStoredKey = sha256(clientKey)
for i in 0..<32:
if computedStoredKey[i] != state.storedKey[i]:
return false
return true
proc computeServerSignature*(state: ScramServerState): array[32, byte] =
return hmacSha256(state.serverKey, state.authMessage)
+83
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@@ -7,6 +7,7 @@ import std/asyncdispatch
import std/times
import std/random
import std/monotimes
import std/base64
import barabadb/core/types
import barabadb/core/mvcc
@@ -50,6 +51,7 @@ import barabadb/fts/engine as fts
import barabadb/protocol/wire
import barabadb/protocol/pool
import barabadb/protocol/auth
import barabadb/protocol/scram
import barabadb/protocol/ratelimit
import barabadb/schema/schema as schema
@@ -707,6 +709,87 @@ suite "Authentication":
authMethod: amToken, payload: "invalid_token"))
check not result.authenticated
test "SCRAM-SHA-256 full handshake":
var am = newAuthManager()
am.registerScramUser("alice", "wonderland")
# Step 1: ClientFirstMessage
let clientNonce = generateNonce()
let clientFirst = "n,,n=alice,r=" & clientNonce
# Step 2: ServerFirstMessage
let serverFirst = am.startScram(clientFirst)
check serverFirst.startsWith("r=")
check serverFirst.contains("s=")
check serverFirst.contains("i=4096")
# Parse serverFirst
var combinedNonce = ""
var saltB64 = ""
var iterCount = 0
for part in serverFirst.split(","):
if part.startsWith("r="): combinedNonce = part[2..^1]
elif part.startsWith("s="): saltB64 = part[2..^1]
elif part.startsWith("i="): iterCount = parseInt(part[2..^1])
check combinedNonce.len > 0
check saltB64.len > 0
check iterCount == 4096
# Step 3: Compute client proof
let salt = decode(saltB64)
let saltedPassword = pbkdf2HmacSha256("wonderland", salt, iterCount)
let clientKey = hmacSha256(saltedPassword, "Client Key")
let storedKey = sha256(clientKey)
let serverKey = hmacSha256(saltedPassword, "Server Key")
let clientFirstBare = "n=alice,r=" & clientNonce
let clientFinalWithoutProof = "c=biws,r=" & combinedNonce
let authMessage = clientFirstBare & "," & serverFirst & "," & clientFinalWithoutProof
let clientSignature = hmacSha256(storedKey, authMessage)
var clientProof = newSeq[byte](32)
for i in 0..<32:
clientProof[i] = clientKey[i] xor clientSignature[i]
var proofStr = newString(32)
copyMem(addr proofStr[0], addr clientProof[0], 32)
let proofB64 = encode(proofStr)
# Strip padding
var proofB64Clean = proofB64
while proofB64Clean.endsWith("="):
proofB64Clean.setLen(proofB64Clean.len - 1)
proofB64Clean = proofB64Clean.replace("+", "-").replace("/", "_")
let clientFinal = "c=biws,r=" & combinedNonce & ",p=" & proofB64Clean
# Step 4: Server verifies
let (ok, serverFinal) = am.finishScram(clientFinal)
check ok
check serverFinal.startsWith("v=")
# Verify server signature ourselves
let expectedServerSig = hmacSha256(serverKey, authMessage)
var expectedStr = newString(32)
copyMem(addr expectedStr[0], unsafeAddr expectedServerSig[0], 32)
let expectedB64 = encode(expectedStr)
check serverFinal == "v=" & expectedB64
test "SCRAM-SHA-256 invalid proof rejected":
var am = newAuthManager()
am.registerScramUser("bob", "builder")
let clientNonce = generateNonce()
let clientFirst = "n,,n=bob,r=" & clientNonce
let serverFirst = am.startScram(clientFirst)
var combinedNonce = ""
for part in serverFirst.split(","):
if part.startsWith("r="): combinedNonce = part[2..^1]
let clientFinal = "c=biws,r=" & combinedNonce & ",p=invalidproof"
let (ok, serverFinal) = am.finishScram(clientFinal)
check not ok
check serverFinal == "e=invalid-proof"
suite "Vector Quantization":
test "Scalar quantization 8-bit":
var sq = newScalarQuantizer(4, bits = 8)