## Nim-Libp2p ## Copyright (c) 2018 Status Research & Development GmbH ## Licensed under either of ## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE)) ## * MIT license ([LICENSE-MIT](LICENSE-MIT)) ## at your option. ## This file may not be copied, modified, or distributed except according to ## those terms. ## This module implements RSA PKCS#1.5 DSA. import nimcrypto/utils import common, minasn1 export Asn1Status const DefaultPublicExponent* = 3'u32 ## Default value for RSA public exponent. MinKeySize* = 512 ## Minimal allowed RSA key size in bits. DefaultKeySize* = 2048 ## Default RSA key size in bits. RsaOidSha1* = [ 0x05'u8, 0x2B'u8, 0x0E'u8, 0x03'u8, 0x02'u8, 0x1A'u8 ] ## RSA PKCS#1.5 SHA-1 hash object identifier. RsaOidSha224* = [ 0x09'u8, 0x60'u8, 0x86'u8, 0x48'u8, 0x01'u8, 0x65'u8, 0x03'u8, 0x04'u8, 0x02'u8, 0x04'u8 ] ## RSA PKCS#1.5 SHA-224 hash object identifier. RsaOidSha256* = [ 0x09'u8, 0x60'u8, 0x86'u8, 0x48'u8, 0x01'u8, 0x65'u8, 0x03'u8, 0x04'u8, 0x02'u8, 0x01'u8 ] ## RSA PKCS#1.5 SHA-256 hash object identifier. RsaOidSha384* = [ 0x09'u8, 0x60'u8, 0x86'u8, 0x48'u8, 0x01'u8, 0x65'u8, 0x03'u8, 0x04'u8, 0x02'u8, 0x02'u8 ] ## RSA PKCS#1.5 SHA-384 hash object identifier. RsaOidSha512* = [ 0x09'u8, 0x60'u8, 0x86'u8, 0x48'u8, 0x01'u8, 0x65'u8, 0x03'u8, 0x04'u8, 0x02'u8, 0x03'u8 ] ## RSA PKCS#1.5 SHA-512 hash object identifier. type RsaPrivateKey* = ref object buffer*: seq[byte] seck*: BrRsaPrivateKey pubk*: BrRsaPublicKey pexp*: ptr cuchar pexplen*: int RsaPublicKey* = ref object buffer*: seq[byte] key*: BrRsaPublicKey RsaKeyPair* = RsaPrivateKey RsaSignature* = ref object buffer*: seq[byte] RsaPKI* = RsaPrivateKey | RsaPublicKey | RsaSignature RsaKP* = RsaPrivateKey | RsaKeyPair RsaError = object of Exception RsaRngError = object of RsaError RsaGenError = object of RsaError RsaKeyIncorrectError = object of RsaError RsaSignatureError = object of RsaError template getStart(bs, os, ls: untyped): untyped = let p = cast[uint](os) let s = cast[uint](unsafeAddr bs[0]) var so = 0 if p >= s: so = cast[int](p - s) so template getFinish(bs, os, ls: untyped): untyped = let p = cast[uint](os) let s = cast[uint](unsafeAddr bs[0]) var eo = -1 if p >= s: let so = cast[int](p - s) if so + ls <= len(bs): eo = so + ls - 1 eo template getArray*(bs, os, ls: untyped): untyped = toOpenArray(bs, getStart(bs, os, ls), getFinish(bs, os, ls)) template trimZeroes(b: seq[byte], pt, ptlen: untyped) = var length = ptlen for i in 0.. 0: let length = key.seck.plen + key.seck.qlen + key.seck.dplen + key.seck.dqlen + key.seck.iqlen + key.pubk.nlen + key.pubk.elen + key.pexplen result = new RsaPrivateKey result.buffer = newSeq[byte](length) let po = 0 let qo = po + key.seck.plen let dpo = qo + key.seck.qlen let dqo = dpo + key.seck.dplen let iqo = dqo + key.seck.dqlen let no = iqo + key.seck.iqlen let eo = no + key.pubk.nlen let peo = eo + key.pubk.elen copyMem(addr result.buffer[po], key.seck.p, key.seck.plen) copyMem(addr result.buffer[qo], key.seck.q, key.seck.qlen) copyMem(addr result.buffer[dpo], key.seck.dp, key.seck.dplen) copyMem(addr result.buffer[dqo], key.seck.dq, key.seck.dqlen) copyMem(addr result.buffer[iqo], key.seck.iq, key.seck.iqlen) copyMem(addr result.buffer[no], key.pubk.n, key.pubk.nlen) copyMem(addr result.buffer[eo], key.pubk.e, key.pubk.elen) copyMem(addr result.buffer[peo], key.pexp, key.pexplen) result.seck.p = cast[ptr cuchar](addr result.buffer[po]) result.seck.q = cast[ptr cuchar](addr result.buffer[qo]) result.seck.dp = cast[ptr cuchar](addr result.buffer[dpo]) result.seck.dq = cast[ptr cuchar](addr result.buffer[dqo]) result.seck.iq = cast[ptr cuchar](addr result.buffer[iqo]) result.pubk.n = cast[ptr cuchar](addr result.buffer[no]) result.pubk.e = cast[ptr cuchar](addr result.buffer[eo]) result.pexp = cast[ptr cuchar](addr result.buffer[peo]) result.seck.plen = key.seck.plen result.seck.qlen = key.seck.qlen result.seck.dplen = key.seck.dplen result.seck.dqlen = key.seck.dqlen result.seck.iqlen = key.seck.iqlen result.pubk.nlen = key.pubk.nlen result.pubk.elen = key.pubk.elen result.pexplen = key.pexplen result.seck.nBitlen = key.seck.nBitlen elif T is RsaPublicKey: if len(key.buffer) > 0: let length = key.key.nlen + key.key.elen result = new RsaPublicKey result.buffer = newSeq[byte](length) let no = 0 let eo = no + key.key.nlen copyMem(addr result.buffer[no], key.key.n, key.key.nlen) copyMem(addr result.buffer[eo], key.key.e, key.key.elen) result.key.n = cast[ptr cuchar](addr result.buffer[no]) result.key.e = cast[ptr cuchar](addr result.buffer[eo]) result.key.nlen = key.key.nlen result.key.elen = key.key.elen elif T is RsaSignature: if len(key.buffer) > 0: result = new RsaSignature result.buffer = key.buffer proc getKey*(key: RsaPrivateKey): RsaPublicKey = ## Get RSA public key from RSA private key. let length = key.pubk.nlen + key.pubk.elen result = new RsaPublicKey result.buffer = newSeq[byte](length) result.key.n = cast[ptr cuchar](addr result.buffer[0]) result.key.e = cast[ptr cuchar](addr result.buffer[key.pubk.nlen]) copyMem(addr result.buffer[0], cast[pointer](key.pubk.n), key.pubk.nlen) copyMem(addr result.buffer[key.pubk.nlen], cast[pointer](key.pubk.e), key.pubk.elen) result.key.nlen = key.pubk.nlen result.key.elen = key.pubk.elen proc seckey*(pair: RsaKeyPair): RsaPrivateKey {.inline.} = ## Get RSA private key from pair ``pair``. result = cast[RsaPrivateKey](pair).copy() proc pubkey*(pair: RsaKeyPair): RsaPublicKey {.inline.} = ## Get RSA public key from pair ``pair``. result = cast[RsaPrivateKey](pair).getKey() proc clear*[T: RsaPKI|RsaKeyPair](pki: var T) = ## Wipe and clear EC private key, public key or scalar object. when T is RsaPrivateKey: burnMem(pki.buffer) pki.buffer.setLen(0) pki.seckey.p = nil pki.seckey.q = nil pki.seckey.dp = nil pki.seckey.dq = nil pki.seckey.iq = nil pki.seckey.plen = 0 pki.seckey.qlen = 0 pki.seckey.dplen = 0 pki.seckey.dqlen = 0 pki.seckey.iqlen = 0 pki.seckey.nBitlen = 0 pki.pubkey.n = nil pki.pubkey.e = nil pki.pubkey.nlen = 0 pki.pubkey.elen = 0 elif T is RsaPublicKey: burnMem(pki.buffer) pki.buffer.setLen(0) pki.key.n = nil pki.key.e = nil pki.key.nlen = 0 pki.key.elen = 0 elif T is RsaSignature: burnMem(pki.buffer) pki.buffer.setLen(0) proc toBytes*(key: RsaPrivateKey, data: var openarray[byte]): int = ## Serialize RSA private key ``key`` to ASN.1 DER binary form and store it ## to ``data``. ## ## Procedure returns number of bytes (octets) needed to store RSA private key, ## or `0` if private key is is incorrect. if len(key.buffer) > 0: var b = Asn1Buffer.init() var p = Asn1Composite.init(Asn1Tag.Sequence) p.write(0'u64) p.write(Asn1Tag.Integer, getArray(key.buffer, key.pubk.n, key.pubk.nlen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.pubk.e, key.pubk.elen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.pexp, key.pexplen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.seck.p, key.seck.plen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.seck.q, key.seck.qlen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.seck.dp, key.seck.dplen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.seck.dq, key.seck.dqlen)) p.write(Asn1Tag.Integer, getArray(key.buffer, key.seck.iq, key.seck.iqlen)) p.finish() b.write(p) b.finish() result = len(b) if len(data) >= result: copyMem(addr data[0], addr b.buffer[0], result) proc toBytes*(key: RsaPublicKey, data: var openarray[byte]): int = ## Serialize RSA public key ``key`` to ASN.1 DER binary form and store it ## to ``data``. ## ## Procedure returns number of bytes (octets) needed to store RSA public key, ## or `0` if public key is incorrect. if len(key.buffer) > 0: var b = Asn1Buffer.init() var p = Asn1Composite.init(Asn1Tag.Sequence) var c0 = Asn1Composite.init(Asn1Tag.Sequence) var c1 = Asn1Composite.init(Asn1Tag.BitString) var c10 = Asn1Composite.init(Asn1Tag.Sequence) c0.write(Asn1Tag.Oid, Asn1OidRsaEncryption) c0.write(Asn1Tag.Null) c0.finish() c10.write(Asn1Tag.Integer, getArray(key.buffer, key.key.n, key.key.nlen)) c10.write(Asn1Tag.Integer, getArray(key.buffer, key.key.e, key.key.elen)) c10.finish() c1.write(c10) c1.finish() p.write(c0) p.write(c1) p.finish() b.write(p) b.finish() result = len(b) if len(data) >= result: copyMem(addr data[0], addr b.buffer[0], result) proc toBytes*(sig: RsaSignature, data: var openarray[byte]): int = ## Serialize RSA signature ``sig`` to raw binary form and store it ## to ``data``. ## ## Procedure returns number of bytes (octets) needed to store RSA public key, ## or `0` if public key is incorrect. result = len(sig.buffer) if len(data) >= result: copyMem(addr data[0], addr sig.buffer[0], result) proc getBytes*(key: RsaPrivateKey): seq[byte] = ## Serialize RSA private key ``key`` to ASN.1 DER binary form and ## return it. result = newSeq[byte](4096) let length = key.toBytes(result) if length > 0: result.setLen(length) else: raise newException(RsaKeyIncorrectError, "Incorrect private key") proc getBytes*(key: RsaPublicKey): seq[byte] = ## Serialize RSA public key ``key`` to ASN.1 DER binary form and ## return it. result = newSeq[byte](4096) let length = key.toBytes(result) if length > 0: result.setLen(length) else: raise newException(RsaKeyIncorrectError, "Incorrect private key") proc getBytes*(sig: RsaSignature): seq[byte] = ## Serialize RSA signature ``sig`` to raw binary form and return it. result = newSeq[byte](4096) let length = sig.toBytes(result) if length > 0: result.setLen(length) else: raise newException(RsaSignatureError, "Incorrect signature") proc init*(key: var RsaPrivateKey, data: openarray[byte]): Asn1Status = ## Initialize RSA private key ``key`` from ASN.1 DER binary representation ## ``data``. ## ## Procedure returns ``Asn1Status``. var field, rawn, rawpube, rawprie, rawp, rawq, rawdp, rawdq, rawiq: Asn1Field version: uint64 var ab = Asn1Buffer.init(data) result = ab.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Sequence: return Asn1Status.Incorrect var ib = field.getBuffer() result = ib.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Integer: return Asn1Status.Incorrect if field.vint != 0'u64: return Asn1Status.Incorrect result = ib.read(rawn) if result != Asn1Status.Success: return if rawn.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawpube) if result != Asn1Status.Success: return if rawpube.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawprie) if result != Asn1Status.Success: return if rawprie.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawp) if result != Asn1Status.Success: return if rawp.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawq) if result != Asn1Status.Success: return if rawq.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawdp) if result != Asn1Status.Success: return if rawdp.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawdq) if result != Asn1Status.Success: return if rawdq.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = ib.read(rawiq) if result != Asn1Status.Success: return if rawiq.kind != Asn1Tag.Integer: return Asn1Status.Incorrect if len(rawn) >= (MinKeySize shr 3) and len(rawp) > 0 and len(rawq) > 0 and len(rawdp) > 0 and len(rawdq) > 0 and len(rawiq) > 0: key = new RsaPrivateKey key.buffer = @data key.pubk.n = cast[ptr cuchar](addr key.buffer[rawn.offset]) key.pubk.e = cast[ptr cuchar](addr key.buffer[rawpube.offset]) key.seck.p = cast[ptr cuchar](addr key.buffer[rawp.offset]) key.seck.q = cast[ptr cuchar](addr key.buffer[rawq.offset]) key.seck.dp = cast[ptr cuchar](addr key.buffer[rawdp.offset]) key.seck.dq = cast[ptr cuchar](addr key.buffer[rawdq.offset]) key.seck.iq = cast[ptr cuchar](addr key.buffer[rawiq.offset]) key.pexp = cast[ptr cuchar](addr key.buffer[rawprie.offset]) key.pubk.nlen = len(rawn) key.pubk.elen = len(rawpube) key.seck.plen = len(rawp) key.seck.qlen = len(rawq) key.seck.dplen = len(rawdp) key.seck.dqlen = len(rawdq) key.seck.iqlen = len(rawiq) key.pexplen = len(rawprie) key.seck.nBitlen = cast[uint32](len(rawn) shl 3) result = Asn1Status.Success else: result = Asn1Status.Incorrect proc init*(key: var RsaPublicKey, data: openarray[byte]): Asn1Status = ## Initialize RSA public key ``key`` from ASN.1 DER binary representation ## ``data``. ## ## Procedure returns ``Asn1Status``. var field, rawn, rawe, oid: Asn1Field var ab = Asn1Buffer.init(data) result = ab.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Sequence: return Asn1Status.Incorrect var ib = field.getBuffer() result = ib.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Sequence: return Asn1Status.Incorrect var ob = field.getBuffer() result = ob.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Oid: return Asn1Status.Incorrect if field != Asn1OidRsaEncryption: return Asn1Status.Incorrect result = ob.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Null: return Asn1Status.Incorrect result = ib.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.BitString: return Asn1Status.Incorrect var vb = field.getBuffer() result = vb.read(field) if result != Asn1Status.Success: return if field.kind != Asn1Tag.Sequence: return Asn1Status.Incorrect var sb = field.getBuffer() result = sb.read(rawn) if result != Asn1Status.Success: return if rawn.kind != Asn1Tag.Integer: return Asn1Status.Incorrect result = sb.read(rawe) if result != Asn1Status.Success: return if rawn.kind != Asn1Tag.Integer: return Asn1Status.Incorrect if len(rawn) >= (MinKeySize shr 3) and len(rawe) > 0: key = new RsaPublicKey key.buffer = @data key.key.n = cast[ptr cuchar](addr key.buffer[rawn.offset]) key.key.e = cast[ptr cuchar](addr key.buffer[rawe.offset]) key.key.nlen = len(rawn) key.key.elen = len(rawe) result = Asn1Status.Success else: result = Asn1Status.Incorrect proc init*(sig: var RsaSignature, data: openarray[byte]): Asn1Status = ## Initialize RSA signature ``sig`` from ASN.1 DER binary representation ## ``data``. ## ## Procedure returns ``Asn1Status``. result = Asn1Status.Incorrect if len(data) > 0: sig = new RsaSignature sig.buffer = @data result = Asn1Status.Success proc init*[T: RsaPKI](sospk: var T, data: string): Asn1Status {.inline.} = ## Initialize EC `private key`, `public key` or `scalar` ``sospk`` from ## hexadecimal string representation ``data``. ## ## Procedure returns ``Asn1Status``. result = sospk.init(fromHex(data)) proc init*(t: typedesc[RsaPrivateKey], data: openarray[byte]): RsaPrivateKey = ## Initialize RSA private key from ASN.1 DER binary representation ``data`` ## and return constructed object. let res = result.init(data) if res != Asn1Status.Success: raise newException(RsaKeyIncorrectError, "Incorrect private key (" & $res & ")") proc init*(t: typedesc[RsaPublicKey], data: openarray[byte]): RsaPublicKey = ## Initialize RSA public key from ASN.1 DER binary representation ``data`` ## and return constructed object. let res = result.init(data) if res != Asn1Status.Success: raise newException(RsaKeyIncorrectError, "Incorrect public key (" & $res & ")") proc init*(t: typedesc[RsaSignature], data: openarray[byte]): RsaSignature = ## Initialize RSA signature from raw binary representation ``data`` and ## return constructed object. let res = result.init(data) if res != Asn1Status.Success: raise newException(RsaKeyIncorrectError, "Incorrect signature (" & $res & ")") proc init*[T: RsaPKI](t: typedesc[T], data: string): T {.inline.} = ## Initialize RSA `private key`, `public key` or `signature` from hexadecimal ## string representation ``data`` and return constructed object. result = t.init(fromHex(data)) proc `$`*(key: RsaPrivateKey): string = ## Return string representation of RSA private key. if len(key.buffer) == 0: result = "Empty RSA key" else: result = "RSA key (" result.add($key.seck.nBitlen) result.add(" bits)\n") result.add("p = ") result.add(toHex(getArray(key.buffer, key.seck.p, key.seck.plen))) result.add("\nq = ") result.add(toHex(getArray(key.buffer, key.seck.q, key.seck.qlen))) result.add("\ndp = ") result.add(toHex(getArray(key.buffer, key.seck.dp, key.seck.dplen))) result.add("\ndq = ") result.add(toHex(getArray(key.buffer, key.seck.dq, key.seck.dqlen))) result.add("\niq = ") result.add(toHex(getArray(key.buffer, key.seck.iq, key.seck.iqlen))) result.add("\npre = ") result.add(toHex(getArray(key.buffer, key.pexp, key.pexplen))) result.add("\nm = ") result.add(toHex(getArray(key.buffer, key.pubk.n, key.pubk.nlen))) result.add("\npue = ") result.add(toHex(getArray(key.buffer, key.pubk.e, key.pubk.elen))) result.add("\n") proc `$`*(key: RsaPublicKey): string = ## Return string representation of RSA public key. if len(key.buffer) == 0: result = "Empty RSA key" else: let nbitlen = key.key.nlen shl 3 result = "RSA key (" result.add($nbitlen) result.add(" bits)\nn = ") result.add(toHex(getArray(key.buffer, key.key.n, key.key.nlen))) result.add("\ne = ") result.add(toHex(getArray(key.buffer, key.key.e, key.key.elen))) result.add("\n") proc `$`*(sig: RsaSignature): string = ## Return string representation of RSA signature. if len(sig.buffer) == 0: result = "Empty RSA signature" else: result = "RSA signature (" result.add(toHex(sig.buffer)) result.add(")") proc cmp(a: openarray[byte], b: openarray[byte]): bool = let alen = len(a) let blen = len(b) if alen == blen: if alen == 0: result = true else: var n = alen var res, diff: int while n > 0: dec(n) diff = int(a[n]) - int(b[n]) res = (res and -not(diff)) or diff result = (res == 0) proc `==`*(a, b: RsaPrivateKey): bool = ## Compare two RSA private keys for equality. if a.seck.nBitlen == b.seck.nBitlen: if cast[int](a.seck.nBitlen) > 0: let r1 = cmp(getArray(a.buffer, a.seck.p, a.seck.plen), getArray(b.buffer, b.seck.p, b.seck.plen)) let r2 = cmp(getArray(a.buffer, a.seck.q, a.seck.qlen), getArray(b.buffer, b.seck.q, b.seck.qlen)) let r3 = cmp(getArray(a.buffer, a.seck.dp, a.seck.dplen), getArray(b.buffer, b.seck.dp, b.seck.dplen)) let r4 = cmp(getArray(a.buffer, a.seck.dq, a.seck.dqlen), getArray(b.buffer, b.seck.dq, b.seck.dqlen)) let r5 = cmp(getArray(a.buffer, a.seck.iq, a.seck.iqlen), getArray(b.buffer, b.seck.iq, b.seck.iqlen)) let r6 = cmp(getArray(a.buffer, a.pexp, a.pexplen), getArray(b.buffer, b.pexp, b.pexplen)) let r7 = cmp(getArray(a.buffer, a.pubk.n, a.pubk.nlen), getArray(b.buffer, b.pubk.n, b.pubk.nlen)) let r8 = cmp(getArray(a.buffer, a.pubk.e, a.pubk.elen), getArray(b.buffer, b.pubk.e, b.pubk.elen)) result = r1 and r2 and r3 and r4 and r5 and r6 and r7 and r8 else: result = true proc `==`*(a, b: RsaSignature): bool = ## Compare two RSA signatures for equality. result = (a.buffer == b.buffer) proc `==`*(a, b: RsaPublicKey): bool = ## Compare two RSA public keys for equality. let r1 = cmp(getArray(a.buffer, a.key.n, a.key.nlen), getArray(b.buffer, b.key.n, b.key.nlen)) let r2 = cmp(getArray(a.buffer, a.key.e, a.key.elen), getArray(b.buffer, b.key.e, b.key.elen)) result = r1 and r2 proc sign*[T: byte|char](key: RsaPrivateKey, message: openarray[T]): RsaSignature = ## Get RSA PKCS1.5 signature of data ``message`` using SHA256 and private ## key ``key``. var hc: BrHashCompatContext var hash: array[32, byte] var impl = BrRsaPkcs1SignGetDefault() result = new RsaSignature result.buffer = newSeq[byte]((key.seck.nBitlen + 7) shr 3) var kv = addr sha256Vtable kv.init(addr hc.vtable) if len(message) > 0: kv.update(addr hc.vtable, unsafeAddr message[0], len(message)) else: kv.update(addr hc.vtable, nil, 0) kv.output(addr hc.vtable, addr hash[0]) var oid = RsaOidSha256 let res = impl(cast[ptr cuchar](addr oid[0]), cast[ptr cuchar](addr hash[0]), len(hash), addr key.seck, cast[ptr cuchar](addr result.buffer[0])) if res == 0: raise newException(RsaSignatureError, "Signature generation error") proc verify*[T: byte|char](sig: RsaSignature, message: openarray[T], pubkey: RsaPublicKey): bool {.inline.} = ## Verify RSA signature ``sig`` using public key ``pubkey`` and data ## ``message``. ## ## Return ``true`` if message verification succeeded, ``false`` if ## verification failed. if len(sig.buffer) > 0: var hc: BrHashCompatContext var hash: array[32, byte] var check: array[32, byte] var impl = BrRsaPkcs1VrfyGetDefault() var kv = addr sha256Vtable kv.init(addr hc.vtable) if len(message) > 0: kv.update(addr hc.vtable, unsafeAddr message[0], len(message)) else: kv.update(addr hc.vtable, nil, 0) kv.output(addr hc.vtable, addr hash[0]) var oid = RsaOidSha256 let res = impl(cast[ptr cuchar](addr sig.buffer[0]), len(sig.buffer), cast[ptr cuchar](addr oid[0]), len(check), addr pubkey.key, cast[ptr cuchar](addr check[0])) if res == 1: result = equalMem(addr check[0], addr hash[0], len(hash))