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/*
 * Verification stuff.
 *
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include <stdio.h>
#include "cryptohi.h"
#include "sechash.h"
#include "keyhi.h"
#include "secasn1.h"
#include "secoid.h"
#include "pk11func.h"
#include "pkcs1sig.h"
#include "secdig.h"
#include "secerr.h"
#include "keyi.h"

/*
** Recover the DigestInfo from an RSA PKCS#1 signature.
**
** If givenDigestAlg != SEC_OID_UNKNOWN, copy givenDigestAlg to digestAlgOut.
** Otherwise, parse the DigestInfo structure and store the decoded digest
** algorithm into digestAlgOut.
**
** Store the encoded DigestInfo into digestInfo.
** Store the DigestInfo length into digestInfoLen.
**
** This function does *not* verify that the AlgorithmIdentifier in the
** DigestInfo identifies givenDigestAlg or that the DigestInfo is encoded
** correctly; verifyPKCS1DigestInfo does that.
**
** XXX this is assuming that the signature algorithm has WITH_RSA_ENCRYPTION
*/
static SECStatus
recoverPKCS1DigestInfo(SECOidTag givenDigestAlg,
                       /*out*/ SECOidTag *digestAlgOut,
                       /*out*/ unsigned char **digestInfo,
                       /*out*/ unsigned int *digestInfoLen,
                       SECKEYPublicKey *key,
                       const SECItem *sig, void *wincx)
{
    SGNDigestInfo *di = NULL;
    SECItem it;
    PRBool rv = SECSuccess;

    PORT_Assert(digestAlgOut);
    PORT_Assert(digestInfo);
    PORT_Assert(digestInfoLen);
    PORT_Assert(key);
    PORT_Assert(key->keyType == rsaKey);
    PORT_Assert(sig);

    it.data = NULL;
    it.len = SECKEY_PublicKeyStrength(key);
    if (it.len != 0) {
        it.data = (unsigned char *)PORT_Alloc(it.len);
    }
    if (it.len == 0 || it.data == NULL) {
        rv = SECFailure;
    }

    if (rv == SECSuccess) {
        /* decrypt the block */
        rv = PK11_VerifyRecover(key, sig, &it, wincx);
    }

    if (rv == SECSuccess) {
        if (givenDigestAlg != SEC_OID_UNKNOWN) {
            /* We don't need to parse the DigestInfo if the caller gave us the
             * digest algorithm to use. Later verifyPKCS1DigestInfo will verify
             * that the DigestInfo identifies the given digest algorithm and
             * that the DigestInfo is encoded absolutely correctly.
             */
            *digestInfoLen = it.len;
            *digestInfo = (unsigned char *)it.data;
            *digestAlgOut = givenDigestAlg;
            return SECSuccess;
        }
    }

    if (rv == SECSuccess) {
        /* The caller didn't specify a digest algorithm to use, so choose the
         * digest algorithm by parsing the AlgorithmIdentifier within the
         * DigestInfo.
         */
        di = SGN_DecodeDigestInfo(&it);
        if (!di) {
            rv = SECFailure;
        }
    }

    if (rv == SECSuccess) {
        *digestAlgOut = SECOID_GetAlgorithmTag(&di->digestAlgorithm);
        if (*digestAlgOut == SEC_OID_UNKNOWN) {
            rv = SECFailure;
        }
    }

    if (di) {
        SGN_DestroyDigestInfo(di);
    }

    if (rv == SECSuccess) {
        *digestInfoLen = it.len;
        *digestInfo = (unsigned char *)it.data;
    } else {
        if (it.data) {
            PORT_Free(it.data);
        }
        *digestInfo = NULL;
        *digestInfoLen = 0;
        PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
    }

    return rv;
}

struct VFYContextStr {
    SECOidTag hashAlg; /* the hash algorithm */
    SECKEYPublicKey *key;
    /*
     * This buffer holds either the digest or the full signature
     * depending on the type of the signature (key->keyType).  It is
     * defined as a union to make sure it always has enough space.
     *
     * Use the "buffer" union member to reference the buffer.
     * Note: do not take the size of the "buffer" union member.  Take
     * the size of the union or some other union member instead.
     */
    union {
        unsigned char buffer[1];

        /* the full DSA signature... 40 bytes */
        unsigned char dsasig[DSA_MAX_SIGNATURE_LEN];
        /* the full ECDSA signature */
        unsigned char ecdsasig[2 * MAX_ECKEY_LEN];
    } u;
    unsigned int pkcs1RSADigestInfoLen;
    /* the encoded DigestInfo from a RSA PKCS#1 signature */
    unsigned char *pkcs1RSADigestInfo;
    void *wincx;
    void *hashcx;
    const SECHashObject *hashobj;
    SECOidTag encAlg;    /* enc alg */
    PRBool hasSignature; /* true if the signature was provided in the
                          * VFY_CreateContext call.  If false, the
                          * signature must be provided with a
                          * VFY_EndWithSignature call. */
};

static SECStatus
verifyPKCS1DigestInfo(const VFYContext *cx, const SECItem *digest)
{
    SECItem pkcs1DigestInfo;
    pkcs1DigestInfo.data = cx->pkcs1RSADigestInfo;
    pkcs1DigestInfo.len = cx->pkcs1RSADigestInfoLen;
    return _SGN_VerifyPKCS1DigestInfo(
        cx->hashAlg, digest, &pkcs1DigestInfo,
        PR_TRUE /*XXX: unsafeAllowMissingParameters*/);
}

/*
 * decode the ECDSA or DSA signature from it's DER wrapping.
 * The unwrapped/raw signature is placed in the buffer pointed
 * to by dsig and has enough room for len bytes.
 */
static SECStatus
decodeECorDSASignature(SECOidTag algid, const SECItem *sig, unsigned char *dsig,
                       unsigned int len)
{
    SECItem *dsasig = NULL; /* also used for ECDSA */
    SECStatus rv = SECSuccess;

    if ((algid != SEC_OID_ANSIX9_DSA_SIGNATURE) &&
        (algid != SEC_OID_ANSIX962_EC_PUBLIC_KEY)) {
        if (sig->len != len) {
            PORT_SetError(SEC_ERROR_BAD_DER);
            return SECFailure;
        }

        PORT_Memcpy(dsig, sig->data, sig->len);
        return SECSuccess;
    }

    if (algid == SEC_OID_ANSIX962_EC_PUBLIC_KEY) {
        if (len > MAX_ECKEY_LEN * 2) {
            PORT_SetError(SEC_ERROR_BAD_DER);
            return SECFailure;
        }
    }
    dsasig = DSAU_DecodeDerSigToLen((SECItem *)sig, len);

    if ((dsasig == NULL) || (dsasig->len != len)) {
        rv = SECFailure;
    } else {
        PORT_Memcpy(dsig, dsasig->data, dsasig->len);
    }

    if (dsasig != NULL)
        SECITEM_FreeItem(dsasig, PR_TRUE);
    if (rv == SECFailure)
        PORT_SetError(SEC_ERROR_BAD_DER);
    return rv;
}

const SEC_ASN1Template hashParameterTemplate[] =
    {
      { SEC_ASN1_SEQUENCE, 0, NULL, sizeof(SECItem) },
      { SEC_ASN1_OBJECT_ID, 0 },
      { SEC_ASN1_SKIP_REST },
      { 0 }
    };

/*
 * Pulls the hash algorithm, signing algorithm, and key type out of a
 * composite algorithm.
 *
 * sigAlg: the composite algorithm to dissect.
 * hashalg: address of a SECOidTag which will be set with the hash algorithm.
 * encalg: address of a SECOidTag which will be set with the signing alg.
 *
 * Returns: SECSuccess if the algorithm was acceptable, SECFailure if the
 *	algorithm was not found or was not a signing algorithm.
 */
SECStatus
sec_DecodeSigAlg(const SECKEYPublicKey *key, SECOidTag sigAlg,
                 const SECItem *param, SECOidTag *encalg, SECOidTag *hashalg)
{
    int len;
    PLArenaPool *arena;
    SECStatus rv;
    SECItem oid;

    PR_ASSERT(hashalg != NULL);
    PR_ASSERT(encalg != NULL);

    switch (sigAlg) {
        /* We probably shouldn't be generating MD2 signatures either */
        case SEC_OID_PKCS1_MD2_WITH_RSA_ENCRYPTION:
            *hashalg = SEC_OID_MD2;
            break;
        case SEC_OID_PKCS1_MD5_WITH_RSA_ENCRYPTION:
            *hashalg = SEC_OID_MD5;
            break;
        case SEC_OID_PKCS1_SHA1_WITH_RSA_ENCRYPTION:
        case SEC_OID_ISO_SHA_WITH_RSA_SIGNATURE:
        case SEC_OID_ISO_SHA1_WITH_RSA_SIGNATURE:
            *hashalg = SEC_OID_SHA1;
            break;
        case SEC_OID_PKCS1_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_RSA_PSS_SIGNATURE:
            *hashalg = SEC_OID_UNKNOWN; /* get it from the RSA signature */
            break;

        case SEC_OID_ANSIX962_ECDSA_SHA224_SIGNATURE:
        case SEC_OID_PKCS1_SHA224_WITH_RSA_ENCRYPTION:
        case SEC_OID_NIST_DSA_SIGNATURE_WITH_SHA224_DIGEST:
            *hashalg = SEC_OID_SHA224;
            break;
        case SEC_OID_ANSIX962_ECDSA_SHA256_SIGNATURE:
        case SEC_OID_PKCS1_SHA256_WITH_RSA_ENCRYPTION:
        case SEC_OID_NIST_DSA_SIGNATURE_WITH_SHA256_DIGEST:
            *hashalg = SEC_OID_SHA256;
            break;
        case SEC_OID_ANSIX962_ECDSA_SHA384_SIGNATURE:
        case SEC_OID_PKCS1_SHA384_WITH_RSA_ENCRYPTION:
            *hashalg = SEC_OID_SHA384;
            break;
        case SEC_OID_ANSIX962_ECDSA_SHA512_SIGNATURE:
        case SEC_OID_PKCS1_SHA512_WITH_RSA_ENCRYPTION:
            *hashalg = SEC_OID_SHA512;
            break;

        /* what about normal DSA? */
        case SEC_OID_ANSIX9_DSA_SIGNATURE_WITH_SHA1_DIGEST:
        case SEC_OID_BOGUS_DSA_SIGNATURE_WITH_SHA1_DIGEST:
        case SEC_OID_ANSIX962_ECDSA_SHA1_SIGNATURE:
            *hashalg = SEC_OID_SHA1;
            break;
        case SEC_OID_MISSI_DSS:
        case SEC_OID_MISSI_KEA_DSS:
        case SEC_OID_MISSI_KEA_DSS_OLD:
        case SEC_OID_MISSI_DSS_OLD:
            *hashalg = SEC_OID_SHA1;
            break;
        case SEC_OID_ANSIX962_ECDSA_SIGNATURE_RECOMMENDED_DIGEST:
            /* This is an EC algorithm. Recommended means the largest
             * hash algorithm that is not reduced by the keysize of
             * the EC algorithm. Note that key strength is in bytes and
             * algorithms are specified in bits. Never use an algorithm
             * weaker than sha1. */
            len = SECKEY_PublicKeyStrength(key);
            if (len < 28) { /* 28 bytes == 224 bits */
                *hashalg = SEC_OID_SHA1;
            } else if (len < 32) { /* 32 bytes == 256 bits */
                *hashalg = SEC_OID_SHA224;
            } else if (len < 48) { /* 48 bytes == 384 bits */
                *hashalg = SEC_OID_SHA256;
            } else if (len < 64) { /* 48 bytes == 512 bits */
                *hashalg = SEC_OID_SHA384;
            } else {
                /* use the largest in this case */
                *hashalg = SEC_OID_SHA512;
            }
            break;
        case SEC_OID_ANSIX962_ECDSA_SIGNATURE_SPECIFIED_DIGEST:
            if (param == NULL) {
                PORT_SetError(SEC_ERROR_INVALID_ALGORITHM);
                return SECFailure;
            }
            arena = PORT_NewArena(DER_DEFAULT_CHUNKSIZE);
            if (arena == NULL) {
                return SECFailure;
            }
            rv = SEC_QuickDERDecodeItem(arena, &oid, hashParameterTemplate, param);
            if (rv == SECSuccess) {
                *hashalg = SECOID_FindOIDTag(&oid);
            }
            PORT_FreeArena(arena, PR_FALSE);
            if (rv != SECSuccess) {
                return rv;
            }
            /* only accept hash algorithms */
            if (HASH_GetHashTypeByOidTag(*hashalg) == HASH_AlgNULL) {
                /* error set by HASH_GetHashTypeByOidTag */
                return SECFailure;
            }
            break;
        /* we don't implement MD4 hashes */
        case SEC_OID_PKCS1_MD4_WITH_RSA_ENCRYPTION:
        default:
            PORT_SetError(SEC_ERROR_INVALID_ALGORITHM);
            return SECFailure;
    }
    /* get the "encryption" algorithm */
    switch (sigAlg) {
        case SEC_OID_PKCS1_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_MD2_WITH_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_MD5_WITH_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_SHA1_WITH_RSA_ENCRYPTION:
        case SEC_OID_ISO_SHA_WITH_RSA_SIGNATURE:
        case SEC_OID_ISO_SHA1_WITH_RSA_SIGNATURE:
        case SEC_OID_PKCS1_SHA224_WITH_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_SHA256_WITH_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_SHA384_WITH_RSA_ENCRYPTION:
        case SEC_OID_PKCS1_SHA512_WITH_RSA_ENCRYPTION:
            *encalg = SEC_OID_PKCS1_RSA_ENCRYPTION;
            break;
        case SEC_OID_PKCS1_RSA_PSS_SIGNATURE:
            *encalg = SEC_OID_PKCS1_RSA_PSS_SIGNATURE;
            break;

        /* what about normal DSA? */
        case SEC_OID_ANSIX9_DSA_SIGNATURE_WITH_SHA1_DIGEST:
        case SEC_OID_BOGUS_DSA_SIGNATURE_WITH_SHA1_DIGEST:
        case SEC_OID_NIST_DSA_SIGNATURE_WITH_SHA224_DIGEST:
        case SEC_OID_NIST_DSA_SIGNATURE_WITH_SHA256_DIGEST:
            *encalg = SEC_OID_ANSIX9_DSA_SIGNATURE;
            break;
        case SEC_OID_MISSI_DSS:
        case SEC_OID_MISSI_KEA_DSS:
        case SEC_OID_MISSI_KEA_DSS_OLD:
        case SEC_OID_MISSI_DSS_OLD:
            *encalg = SEC_OID_MISSI_DSS;
            break;
        case SEC_OID_ANSIX962_ECDSA_SHA1_SIGNATURE:
        case SEC_OID_ANSIX962_ECDSA_SHA224_SIGNATURE:
        case SEC_OID_ANSIX962_ECDSA_SHA256_SIGNATURE:
        case SEC_OID_ANSIX962_ECDSA_SHA384_SIGNATURE:
        case SEC_OID_ANSIX962_ECDSA_SHA512_SIGNATURE:
        case SEC_OID_ANSIX962_ECDSA_SIGNATURE_RECOMMENDED_DIGEST:
        case SEC_OID_ANSIX962_ECDSA_SIGNATURE_SPECIFIED_DIGEST:
            *encalg = SEC_OID_ANSIX962_EC_PUBLIC_KEY;
            break;
        /* we don't implement MD4 hashes */
        case SEC_OID_PKCS1_MD4_WITH_RSA_ENCRYPTION:
        default:
            PORT_SetError(SEC_ERROR_INVALID_ALGORITHM);
            return SECFailure;
    }
    return SECSuccess;
}

/*
 * we can verify signatures that come from 2 different sources:
 *  one in with the signature contains a signature oid, and the other
 *  in which the signature is managed by a Public key (encAlg) oid
 *  and a hash oid. The latter is the more basic, so that's what
 *  our base vfyCreate function takes.
 *
 * There is one noteworthy corner case, if we are using an RSA key, and the
 * signature block is provided, then the hashAlg can be specified as
 * SEC_OID_UNKNOWN. In this case, verify will use the hash oid supplied
 * in the RSA signature block.
 */
static VFYContext *
vfy_CreateContext(const SECKEYPublicKey *key, const SECItem *sig,
                  SECOidTag encAlg, SECOidTag hashAlg, SECOidTag *hash, void *wincx)
{
    VFYContext *cx;
    SECStatus rv;
    unsigned int sigLen;
    KeyType type;

    /* make sure the encryption algorithm matches the key type */
    /* RSA-PSS algorithm can be used with both rsaKey and rsaPssKey */
    type = seckey_GetKeyType(encAlg);
    if ((key->keyType != type) &&
        ((key->keyType != rsaKey) || (type != rsaPssKey))) {
        PORT_SetError(SEC_ERROR_PKCS7_KEYALG_MISMATCH);
        return NULL;
    }

    cx = (VFYContext *)PORT_ZAlloc(sizeof(VFYContext));
    if (cx == NULL) {
        goto loser;
    }

    cx->wincx = wincx;
    cx->hasSignature = (sig != NULL);
    cx->encAlg = encAlg;
    cx->hashAlg = hashAlg;
    cx->key = SECKEY_CopyPublicKey(key);
    cx->pkcs1RSADigestInfo = NULL;
    rv = SECSuccess;
    if (sig) {
        switch (type) {
            case rsaKey:
                rv = recoverPKCS1DigestInfo(hashAlg, &cx->hashAlg,
                                            &cx->pkcs1RSADigestInfo,
                                            &cx->pkcs1RSADigestInfoLen,
                                            cx->key,
                                            sig, wincx);
                break;
            case dsaKey:
            case ecKey:
                sigLen = SECKEY_SignatureLen(key);
                if (sigLen == 0) {
                    /* error set by SECKEY_SignatureLen */
                    rv = SECFailure;
                    break;
                }
                rv = decodeECorDSASignature(encAlg, sig, cx->u.buffer, sigLen);
                break;
            default:
                rv = SECFailure;
                PORT_SetError(SEC_ERROR_UNSUPPORTED_KEYALG);
                break;
        }
    }

    if (rv)
        goto loser;

    /* check hash alg again, RSA may have changed it.*/
    if (HASH_GetHashTypeByOidTag(cx->hashAlg) == HASH_AlgNULL) {
        /* error set by HASH_GetHashTypeByOidTag */
        goto loser;
    }

    if (hash) {
        *hash = cx->hashAlg;
    }
    return cx;

loser:
    if (cx) {
        VFY_DestroyContext(cx, PR_TRUE);
    }
    return 0;
}

VFYContext *
VFY_CreateContext(SECKEYPublicKey *key, SECItem *sig, SECOidTag sigAlg,
                  void *wincx)
{
    SECOidTag encAlg, hashAlg;
    SECStatus rv = sec_DecodeSigAlg(key, sigAlg, NULL, &encAlg, &hashAlg);
    if (rv != SECSuccess) {
        return NULL;
    }
    return vfy_CreateContext(key, sig, encAlg, hashAlg, NULL, wincx);
}

VFYContext *
VFY_CreateContextDirect(const SECKEYPublicKey *key, const SECItem *sig,
                        SECOidTag encAlg, SECOidTag hashAlg,
                        SECOidTag *hash, void *wincx)
{
    return vfy_CreateContext(key, sig, encAlg, hashAlg, hash, wincx);
}

VFYContext *
VFY_CreateContextWithAlgorithmID(const SECKEYPublicKey *key, const SECItem *sig,
                                 const SECAlgorithmID *sigAlgorithm, SECOidTag *hash, void *wincx)
{
    SECOidTag encAlg, hashAlg;
    SECStatus rv = sec_DecodeSigAlg(key,
                                    SECOID_GetAlgorithmTag((SECAlgorithmID *)sigAlgorithm),
                                    &sigAlgorithm->parameters, &encAlg, &hashAlg);
    if (rv != SECSuccess) {
        return NULL;
    }
    return vfy_CreateContext(key, sig, encAlg, hashAlg, hash, wincx);
}

void
VFY_DestroyContext(VFYContext *cx, PRBool freeit)
{
    if (cx) {
        if (cx->hashcx != NULL) {
            (*cx->hashobj->destroy)(cx->hashcx, PR_TRUE);
            cx->hashcx = NULL;
        }
        if (cx->key) {
            SECKEY_DestroyPublicKey(cx->key);
        }
        if (cx->pkcs1RSADigestInfo) {
            PORT_Free(cx->pkcs1RSADigestInfo);
        }
        if (freeit) {
            PORT_ZFree(cx, sizeof(VFYContext));
        }
    }
}

SECStatus
VFY_Begin(VFYContext *cx)
{
    if (cx->hashcx != NULL) {
        (*cx->hashobj->destroy)(cx->hashcx, PR_TRUE);
        cx->hashcx = NULL;
    }

    cx->hashobj = HASH_GetHashObjectByOidTag(cx->hashAlg);
    if (!cx->hashobj)
        return SECFailure; /* error code is set */

    cx->hashcx = (*cx->hashobj->create)();
    if (cx->hashcx == NULL)
        return SECFailure;

    (*cx->hashobj->begin)(cx->hashcx);
    return SECSuccess;
}

SECStatus
VFY_Update(VFYContext *cx, const unsigned char *input, unsigned inputLen)
{
    if (cx->hashcx == NULL) {
        PORT_SetError(SEC_ERROR_INVALID_ARGS);
        return SECFailure;
    }
    (*cx->hashobj->update)(cx->hashcx, input, inputLen);
    return SECSuccess;
}

SECStatus
VFY_EndWithSignature(VFYContext *cx, SECItem *sig)
{
    unsigned char final[HASH_LENGTH_MAX];
    unsigned part;
    SECItem hash, dsasig; /* dsasig is also used for ECDSA */
    SECStatus rv;

    if ((cx->hasSignature == PR_FALSE) && (sig == NULL)) {
        PORT_SetError(SEC_ERROR_INVALID_ARGS);
        return SECFailure;
    }

    if (cx->hashcx == NULL) {
        PORT_SetError(SEC_ERROR_INVALID_ARGS);
        return SECFailure;
    }
    (*cx->hashobj->end)(cx->hashcx, final, &part, sizeof(final));
    switch (cx->key->keyType) {
        case ecKey:
        case dsaKey:
            dsasig.data = cx->u.buffer;
            dsasig.len = SECKEY_SignatureLen(cx->key);
            if (dsasig.len == 0) {
                return SECFailure;
            }
            if (sig) {
                rv = decodeECorDSASignature(cx->encAlg, sig, dsasig.data,
                                            dsasig.len);
                if (rv != SECSuccess) {
                    PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
                    return SECFailure;
                }
            }
            hash.data = final;
            hash.len = part;
            if (PK11_Verify(cx->key, &dsasig, &hash, cx->wincx) != SECSuccess) {
                PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
                return SECFailure;
            }
            break;
        case rsaKey: {
            SECItem digest;
            digest.data = final;
            digest.len = part;
            if (sig) {
                SECOidTag hashid;
                PORT_Assert(cx->hashAlg != SEC_OID_UNKNOWN);
                rv = recoverPKCS1DigestInfo(cx->hashAlg, &hashid,
                                            &cx->pkcs1RSADigestInfo,
                                            &cx->pkcs1RSADigestInfoLen,
                                            cx->key,
                                            sig, cx->wincx);
                PORT_Assert(cx->hashAlg == hashid);
                if (rv != SECSuccess) {
                    return SECFailure;
                }
            }
            return verifyPKCS1DigestInfo(cx, &digest);
        }
        default:
            PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
            return SECFailure; /* shouldn't happen */
    }
    return SECSuccess;
}

SECStatus
VFY_End(VFYContext *cx)
{
    return VFY_EndWithSignature(cx, NULL);
}

/************************************************************************/
/*
 * Verify that a previously-computed digest matches a signature.
 */
static SECStatus
vfy_VerifyDigest(const SECItem *digest, const SECKEYPublicKey *key,
                 const SECItem *sig, SECOidTag encAlg, SECOidTag hashAlg,
                 void *wincx)
{
    SECStatus rv;
    VFYContext *cx;
    SECItem dsasig; /* also used for ECDSA */

    rv = SECFailure;

    cx = vfy_CreateContext(key, sig, encAlg, hashAlg, NULL, wincx);
    if (cx != NULL) {
        switch (key->keyType) {
            case rsaKey:
                rv = verifyPKCS1DigestInfo(cx, digest);
                break;
            case dsaKey:
            case ecKey:
                dsasig.data = cx->u.buffer;
                dsasig.len = SECKEY_SignatureLen(cx->key);
                if (dsasig.len == 0) {
                    break;
                }
                if (PK11_Verify(cx->key, &dsasig, (SECItem *)digest, cx->wincx) !=
                    SECSuccess) {
                    PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
                } else {
                    rv = SECSuccess;
                }
                break;
            default:
                break;
        }
        VFY_DestroyContext(cx, PR_TRUE);
    }
    return rv;
}

SECStatus
VFY_VerifyDigestDirect(const SECItem *digest, const SECKEYPublicKey *key,
                       const SECItem *sig, SECOidTag encAlg,
                       SECOidTag hashAlg, void *wincx)
{
    return vfy_VerifyDigest(digest, key, sig, encAlg, hashAlg, wincx);
}

SECStatus
VFY_VerifyDigest(SECItem *digest, SECKEYPublicKey *key, SECItem *sig,
                 SECOidTag algid, void *wincx)
{
    SECOidTag encAlg, hashAlg;
    SECStatus rv = sec_DecodeSigAlg(key, algid, NULL, &encAlg, &hashAlg);
    if (rv != SECSuccess) {
        return SECFailure;
    }
    return vfy_VerifyDigest(digest, key, sig, encAlg, hashAlg, wincx);
}

/*
 * this function takes an optional hash oid, which the digest function
 * will be compared with our target hash value.
 */
SECStatus
VFY_VerifyDigestWithAlgorithmID(const SECItem *digest,
                                const SECKEYPublicKey *key, const SECItem *sig,
                                const SECAlgorithmID *sigAlgorithm,
                                SECOidTag hashCmp, void *wincx)
{
    SECOidTag encAlg, hashAlg;
    SECStatus rv = sec_DecodeSigAlg(key,
                                    SECOID_GetAlgorithmTag((SECAlgorithmID *)sigAlgorithm),
                                    &sigAlgorithm->parameters, &encAlg, &hashAlg);
    if (rv != SECSuccess) {
        return rv;
    }
    if (hashCmp != SEC_OID_UNKNOWN &&
        hashAlg != SEC_OID_UNKNOWN &&
        hashCmp != hashAlg) {
        PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
        return SECFailure;
    }
    return vfy_VerifyDigest(digest, key, sig, encAlg, hashAlg, wincx);
}

static SECStatus
vfy_VerifyData(const unsigned char *buf, int len, const SECKEYPublicKey *key,
               const SECItem *sig, SECOidTag encAlg, SECOidTag hashAlg,
               SECOidTag *hash, void *wincx)
{
    SECStatus rv;
    VFYContext *cx;

    cx = vfy_CreateContext(key, sig, encAlg, hashAlg, hash, wincx);
    if (cx == NULL)
        return SECFailure;

    rv = VFY_Begin(cx);
    if (rv == SECSuccess) {
        rv = VFY_Update(cx, (unsigned char *)buf, len);
        if (rv == SECSuccess)
            rv = VFY_End(cx);
    }

    VFY_DestroyContext(cx, PR_TRUE);
    return rv;
}

SECStatus
VFY_VerifyDataDirect(const unsigned char *buf, int len,
                     const SECKEYPublicKey *key, const SECItem *sig,
                     SECOidTag encAlg, SECOidTag hashAlg,
                     SECOidTag *hash, void *wincx)
{
    return vfy_VerifyData(buf, len, key, sig, encAlg, hashAlg, hash, wincx);
}

SECStatus
VFY_VerifyData(const unsigned char *buf, int len, const SECKEYPublicKey *key,
               const SECItem *sig, SECOidTag algid, void *wincx)
{
    SECOidTag encAlg, hashAlg;
    SECStatus rv = sec_DecodeSigAlg(key, algid, NULL, &encAlg, &hashAlg);
    if (rv != SECSuccess) {
        return rv;
    }
    return vfy_VerifyData(buf, len, key, sig, encAlg, hashAlg, NULL, wincx);
}

SECStatus
VFY_VerifyDataWithAlgorithmID(const unsigned char *buf, int len,
                              const SECKEYPublicKey *key,
                              const SECItem *sig,
                              const SECAlgorithmID *sigAlgorithm,
                              SECOidTag *hash, void *wincx)
{
    SECOidTag encAlg, hashAlg;
    SECOidTag sigAlg = SECOID_GetAlgorithmTag((SECAlgorithmID *)sigAlgorithm);
    SECStatus rv = sec_DecodeSigAlg(key, sigAlg,
                                    &sigAlgorithm->parameters, &encAlg, &hashAlg);
    if (rv != SECSuccess) {
        return rv;
    }
    return vfy_VerifyData(buf, len, key, sig, encAlg, hashAlg, hash, wincx);
}