Mercurial > trustbridge > nss-cmake-static
view nss/lib/pk11wrap/pk11akey.c @ 1:247cffdc9b89
Add a pesodo config file for inlcude directories and library names
author | Andre Heinecke <andre.heinecke@intevation.de> |
---|---|
date | Mon, 28 Jul 2014 13:00:06 +0200 |
parents | 1e5118fa0cb1 |
children |
line wrap: on
line source
/* 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/. */ /* * This file contains functions to manage asymetric keys, (public and * private keys). */ #include "seccomon.h" #include "secmod.h" #include "secmodi.h" #include "secmodti.h" #include "pkcs11.h" #include "pkcs11t.h" #include "pk11func.h" #include "cert.h" #include "key.h" #include "secitem.h" #include "secasn1.h" #include "secoid.h" #include "secerr.h" #include "sslerr.h" #include "sechash.h" #include "secpkcs5.h" #include "blapit.h" static SECItem * pk11_MakeIDFromPublicKey(SECKEYPublicKey *pubKey) { /* set the ID to the public key so we can find it again */ SECItem *pubKeyIndex = NULL; switch (pubKey->keyType) { case rsaKey: pubKeyIndex = &pubKey->u.rsa.modulus; break; case dsaKey: pubKeyIndex = &pubKey->u.dsa.publicValue; break; case dhKey: pubKeyIndex = &pubKey->u.dh.publicValue; break; case ecKey: pubKeyIndex = &pubKey->u.ec.publicValue; break; default: return NULL; } PORT_Assert(pubKeyIndex != NULL); return PK11_MakeIDFromPubKey(pubKeyIndex); } /* * import a public key into the desired slot * * This function takes a public key structure and creates a public key in a * given slot. If isToken is set, then a persistant public key is created. * * Note: it is possible for this function to return a handle for a key which * is persistant, even if isToken is not set. */ CK_OBJECT_HANDLE PK11_ImportPublicKey(PK11SlotInfo *slot, SECKEYPublicKey *pubKey, PRBool isToken) { CK_BBOOL cktrue = CK_TRUE; CK_BBOOL ckfalse = CK_FALSE; CK_OBJECT_CLASS keyClass = CKO_PUBLIC_KEY; CK_KEY_TYPE keyType = CKK_GENERIC_SECRET; CK_OBJECT_HANDLE objectID; CK_ATTRIBUTE theTemplate[11]; CK_ATTRIBUTE *signedattr = NULL; CK_ATTRIBUTE *attrs = theTemplate; SECItem *ckaId = NULL; SECItem *pubValue = NULL; int signedcount = 0; int templateCount = 0; SECStatus rv; /* if we already have an object in the desired slot, use it */ if (!isToken && pubKey->pkcs11Slot == slot) { return pubKey->pkcs11ID; } /* free the existing key */ if (pubKey->pkcs11Slot != NULL) { PK11SlotInfo *oSlot = pubKey->pkcs11Slot; if (!PK11_IsPermObject(pubKey->pkcs11Slot,pubKey->pkcs11ID)) { PK11_EnterSlotMonitor(oSlot); (void) PK11_GETTAB(oSlot)->C_DestroyObject(oSlot->session, pubKey->pkcs11ID); PK11_ExitSlotMonitor(oSlot); } PK11_FreeSlot(oSlot); pubKey->pkcs11Slot = NULL; } PK11_SETATTRS(attrs, CKA_CLASS, &keyClass, sizeof(keyClass) ); attrs++; PK11_SETATTRS(attrs, CKA_KEY_TYPE, &keyType, sizeof(keyType) ); attrs++; PK11_SETATTRS(attrs, CKA_TOKEN, isToken ? &cktrue : &ckfalse, sizeof(CK_BBOOL) ); attrs++; if (isToken) { ckaId = pk11_MakeIDFromPublicKey(pubKey); if (ckaId == NULL) { PORT_SetError( SEC_ERROR_BAD_KEY ); return CK_INVALID_HANDLE; } PK11_SETATTRS(attrs, CKA_ID, ckaId->data, ckaId->len); attrs++; } /* now import the key */ { switch (pubKey->keyType) { case rsaKey: keyType = CKK_RSA; PK11_SETATTRS(attrs, CKA_WRAP, &cktrue, sizeof(CK_BBOOL) ); attrs++; PK11_SETATTRS(attrs, CKA_ENCRYPT, &cktrue, sizeof(CK_BBOOL) ); attrs++; PK11_SETATTRS(attrs, CKA_VERIFY, &cktrue, sizeof(CK_BBOOL)); attrs++; signedattr = attrs; PK11_SETATTRS(attrs, CKA_MODULUS, pubKey->u.rsa.modulus.data, pubKey->u.rsa.modulus.len); attrs++; PK11_SETATTRS(attrs, CKA_PUBLIC_EXPONENT, pubKey->u.rsa.publicExponent.data, pubKey->u.rsa.publicExponent.len); attrs++; break; case dsaKey: keyType = CKK_DSA; PK11_SETATTRS(attrs, CKA_VERIFY, &cktrue, sizeof(CK_BBOOL));attrs++; signedattr = attrs; PK11_SETATTRS(attrs, CKA_PRIME, pubKey->u.dsa.params.prime.data, pubKey->u.dsa.params.prime.len); attrs++; PK11_SETATTRS(attrs,CKA_SUBPRIME,pubKey->u.dsa.params.subPrime.data, pubKey->u.dsa.params.subPrime.len); attrs++; PK11_SETATTRS(attrs, CKA_BASE, pubKey->u.dsa.params.base.data, pubKey->u.dsa.params.base.len); attrs++; PK11_SETATTRS(attrs, CKA_VALUE, pubKey->u.dsa.publicValue.data, pubKey->u.dsa.publicValue.len); attrs++; break; case dhKey: keyType = CKK_DH; PK11_SETATTRS(attrs, CKA_DERIVE, &cktrue, sizeof(CK_BBOOL));attrs++; signedattr = attrs; PK11_SETATTRS(attrs, CKA_PRIME, pubKey->u.dh.prime.data, pubKey->u.dh.prime.len); attrs++; PK11_SETATTRS(attrs, CKA_BASE, pubKey->u.dh.base.data, pubKey->u.dh.base.len); attrs++; PK11_SETATTRS(attrs, CKA_VALUE, pubKey->u.dh.publicValue.data, pubKey->u.dh.publicValue.len); attrs++; break; case ecKey: keyType = CKK_EC; PK11_SETATTRS(attrs, CKA_VERIFY, &cktrue, sizeof(CK_BBOOL));attrs++; PK11_SETATTRS(attrs, CKA_DERIVE, &cktrue, sizeof(CK_BBOOL));attrs++; signedattr = attrs; PK11_SETATTRS(attrs, CKA_EC_PARAMS, pubKey->u.ec.DEREncodedParams.data, pubKey->u.ec.DEREncodedParams.len); attrs++; if (PR_GetEnv("NSS_USE_DECODED_CKA_EC_POINT")) { PK11_SETATTRS(attrs, CKA_EC_POINT, pubKey->u.ec.publicValue.data, pubKey->u.ec.publicValue.len); attrs++; } else { pubValue = SEC_ASN1EncodeItem(NULL, NULL, &pubKey->u.ec.publicValue, SEC_ASN1_GET(SEC_OctetStringTemplate)); if (pubValue == NULL) { if (ckaId) { SECITEM_FreeItem(ckaId,PR_TRUE); } return CK_INVALID_HANDLE; } PK11_SETATTRS(attrs, CKA_EC_POINT, pubValue->data, pubValue->len); attrs++; } break; default: if (ckaId) { SECITEM_FreeItem(ckaId,PR_TRUE); } PORT_SetError( SEC_ERROR_BAD_KEY ); return CK_INVALID_HANDLE; } templateCount = attrs - theTemplate; signedcount = attrs - signedattr; PORT_Assert(templateCount <= (sizeof(theTemplate)/sizeof(CK_ATTRIBUTE))); for (attrs=signedattr; signedcount; attrs++, signedcount--) { pk11_SignedToUnsigned(attrs); } rv = PK11_CreateNewObject(slot, CK_INVALID_SESSION, theTemplate, templateCount, isToken, &objectID); if (ckaId) { SECITEM_FreeItem(ckaId,PR_TRUE); } if (pubValue) { SECITEM_FreeItem(pubValue,PR_TRUE); } if ( rv != SECSuccess) { /* CKR_ATTRIBUTE_VALUE_INVALID is mapped to SEC_ERROR_BAD_DATA */ if (PORT_GetError() == SEC_ERROR_BAD_DATA) { PORT_SetError( SEC_ERROR_BAD_KEY ); } return CK_INVALID_HANDLE; } } pubKey->pkcs11ID = objectID; pubKey->pkcs11Slot = PK11_ReferenceSlot(slot); return objectID; } /* * take an attribute and copy it into a secitem */ static CK_RV pk11_Attr2SecItem(PLArenaPool *arena, const CK_ATTRIBUTE *attr, SECItem *item) { item->data = NULL; (void)SECITEM_AllocItem(arena, item, attr->ulValueLen); if (item->data == NULL) { return CKR_HOST_MEMORY; } PORT_Memcpy(item->data, attr->pValue, item->len); return CKR_OK; } /* * get a curve length from a set of ecParams. * * We need this so we can reliably determine if the ecPoint passed to us * was encoded or not. With out this, for many curves, we would incorrectly * identify an unencoded curve as an encoded curve 1 in 65536 times, and for * a few we would make that same mistake 1 in 32768 times. These are bad * numbers since they are rare enough to pass tests, but common enough to * be tripped over in the field. * * This function will only work for curves we recognized as of March 2009. * The assumption is curves in use after March of 2009 would be supplied by * PKCS #11 modules that already pass the correct encoding to us. * * Point length = (Roundup(curveLenInBits/8)*2+1) */ static int pk11_get_EC_PointLenInBytes(PLArenaPool *arena, const SECItem *ecParams) { SECItem oid; SECOidTag tag; SECStatus rv; /* decode the OID tag */ rv = SEC_QuickDERDecodeItem(arena, &oid, SEC_ASN1_GET(SEC_ObjectIDTemplate), ecParams); if (rv != SECSuccess) { /* could be explict curves, allow them to work if the * PKCS #11 module support them. If we try to parse the * explicit curve value in the future, we may return -1 here * to indicate an invalid parameter if the explicit curve * decode fails. */ return 0; } tag = SECOID_FindOIDTag(&oid); switch (tag) { case SEC_OID_SECG_EC_SECP112R1: case SEC_OID_SECG_EC_SECP112R2: return 29; /* curve len in bytes = 14 bytes */ case SEC_OID_SECG_EC_SECT113R1: case SEC_OID_SECG_EC_SECT113R2: return 31; /* curve len in bytes = 15 bytes */ case SEC_OID_SECG_EC_SECP128R1: case SEC_OID_SECG_EC_SECP128R2: return 33; /* curve len in bytes = 16 bytes */ case SEC_OID_SECG_EC_SECT131R1: case SEC_OID_SECG_EC_SECT131R2: return 35; /* curve len in bytes = 17 bytes */ case SEC_OID_SECG_EC_SECP160K1: case SEC_OID_SECG_EC_SECP160R1: case SEC_OID_SECG_EC_SECP160R2: return 41; /* curve len in bytes = 20 bytes */ case SEC_OID_SECG_EC_SECT163K1: case SEC_OID_SECG_EC_SECT163R1: case SEC_OID_SECG_EC_SECT163R2: case SEC_OID_ANSIX962_EC_C2PNB163V1: case SEC_OID_ANSIX962_EC_C2PNB163V2: case SEC_OID_ANSIX962_EC_C2PNB163V3: return 43; /* curve len in bytes = 21 bytes */ case SEC_OID_ANSIX962_EC_C2PNB176V1: return 45; /* curve len in bytes = 22 bytes */ case SEC_OID_ANSIX962_EC_C2TNB191V1: case SEC_OID_ANSIX962_EC_C2TNB191V2: case SEC_OID_ANSIX962_EC_C2TNB191V3: case SEC_OID_SECG_EC_SECP192K1: case SEC_OID_ANSIX962_EC_PRIME192V1: case SEC_OID_ANSIX962_EC_PRIME192V2: case SEC_OID_ANSIX962_EC_PRIME192V3: return 49; /*curve len in bytes = 24 bytes */ case SEC_OID_SECG_EC_SECT193R1: case SEC_OID_SECG_EC_SECT193R2: return 51; /*curve len in bytes = 25 bytes */ case SEC_OID_ANSIX962_EC_C2PNB208W1: return 53; /*curve len in bytes = 26 bytes */ case SEC_OID_SECG_EC_SECP224K1: case SEC_OID_SECG_EC_SECP224R1: return 57; /*curve len in bytes = 28 bytes */ case SEC_OID_SECG_EC_SECT233K1: case SEC_OID_SECG_EC_SECT233R1: case SEC_OID_SECG_EC_SECT239K1: case SEC_OID_ANSIX962_EC_PRIME239V1: case SEC_OID_ANSIX962_EC_PRIME239V2: case SEC_OID_ANSIX962_EC_PRIME239V3: case SEC_OID_ANSIX962_EC_C2TNB239V1: case SEC_OID_ANSIX962_EC_C2TNB239V2: case SEC_OID_ANSIX962_EC_C2TNB239V3: return 61; /*curve len in bytes = 30 bytes */ case SEC_OID_ANSIX962_EC_PRIME256V1: case SEC_OID_SECG_EC_SECP256K1: return 65; /*curve len in bytes = 32 bytes */ case SEC_OID_ANSIX962_EC_C2PNB272W1: return 69; /*curve len in bytes = 34 bytes */ case SEC_OID_SECG_EC_SECT283K1: case SEC_OID_SECG_EC_SECT283R1: return 73; /*curve len in bytes = 36 bytes */ case SEC_OID_ANSIX962_EC_C2PNB304W1: return 77; /*curve len in bytes = 38 bytes */ case SEC_OID_ANSIX962_EC_C2TNB359V1: return 91; /*curve len in bytes = 45 bytes */ case SEC_OID_ANSIX962_EC_C2PNB368W1: return 93; /*curve len in bytes = 46 bytes */ case SEC_OID_SECG_EC_SECP384R1: return 97; /*curve len in bytes = 48 bytes */ case SEC_OID_SECG_EC_SECT409K1: case SEC_OID_SECG_EC_SECT409R1: return 105; /*curve len in bytes = 52 bytes */ case SEC_OID_ANSIX962_EC_C2TNB431R1: return 109; /*curve len in bytes = 54 bytes */ case SEC_OID_SECG_EC_SECP521R1: return 133; /*curve len in bytes = 66 bytes */ case SEC_OID_SECG_EC_SECT571K1: case SEC_OID_SECG_EC_SECT571R1: return 145; /*curve len in bytes = 72 bytes */ /* unknown or unrecognized OIDs. return unknown length */ default: break; } return 0; } /* * returns the decoded point. In some cases the point may already be decoded. * this function tries to detect those cases and return the point in * publicKeyValue. In other cases it's DER encoded. In those cases the point * is first decoded and returned. Space for the point is allocated out of * the passed in arena. */ static CK_RV pk11_get_Decoded_ECPoint(PLArenaPool *arena, const SECItem *ecParams, const CK_ATTRIBUTE *ecPoint, SECItem *publicKeyValue) { SECItem encodedPublicValue; SECStatus rv; int keyLen; if (ecPoint->ulValueLen == 0) { return CKR_ATTRIBUTE_VALUE_INVALID; } /* * The PKCS #11 spec requires ecPoints to be encoded as a DER OCTET String. * NSS has mistakenly passed unencoded values, and some PKCS #11 vendors * followed that mistake. Now we need to detect which encoding we were * passed in. The task is made more complicated by the fact the the * DER encoding byte (SEC_ASN_OCTET_STRING) is the same as the * EC_POINT_FORM_UNCOMPRESSED byte (0x04), so we can't use that to * determine which curve we are using. */ /* get the expected key length for the passed in curve. * pk11_get_EC_PointLenInBytes only returns valid values for curves * NSS has traditionally recognized. If the curve is not recognized, * it will return '0', and we have to figure out if the key was * encoded or not heuristically. If the ecParams are invalid, it * will return -1 for the keyLen. */ keyLen = pk11_get_EC_PointLenInBytes(arena, ecParams); if (keyLen < 0) { return CKR_ATTRIBUTE_VALUE_INVALID; } /* If the point is uncompressed and the lengths match, it * must be an unencoded point */ if ((*((char *)ecPoint->pValue) == EC_POINT_FORM_UNCOMPRESSED) && (ecPoint->ulValueLen == keyLen)) { return pk11_Attr2SecItem(arena, ecPoint, publicKeyValue); } /* now assume the key passed to us was encoded and decode it */ if (*((char *)ecPoint->pValue) == SEC_ASN1_OCTET_STRING) { /* OK, now let's try to decode it and see if it's valid */ encodedPublicValue.data = ecPoint->pValue; encodedPublicValue.len = ecPoint->ulValueLen; rv = SEC_QuickDERDecodeItem(arena, publicKeyValue, SEC_ASN1_GET(SEC_OctetStringTemplate), &encodedPublicValue); /* it coded correctly & we know the key length (and they match) * then we are done, return the results. */ if (keyLen && rv == SECSuccess && publicKeyValue->len == keyLen) { return CKR_OK; } /* if we know the key length, one of the above tests should have * succeded. If it doesn't the module gave us bad data */ if (keyLen) { return CKR_ATTRIBUTE_VALUE_INVALID; } /* We don't know the key length, so we don't know deterministically * which encoding was used. We now will try to pick the most likely * form that's correct, with a preference for the encoded form if we * can't determine for sure. We do this by checking the key we got * back from SEC_QuickDERDecodeItem for defects. If no defects are * found, we assume the encoded parameter was was passed to us. * our defect tests include: * 1) it didn't decode. * 2) The decode key had an invalid length (must be odd). * 3) The decoded key wasn't an UNCOMPRESSED key. * 4) The decoded key didn't include the entire encoded block * except the DER encoding values. (fixing DER length to one * particular value). */ if ((rv != SECSuccess) || ((publicKeyValue->len & 1) != 1) || (publicKeyValue->data[0] != EC_POINT_FORM_UNCOMPRESSED) || (PORT_Memcmp(&encodedPublicValue.data[encodedPublicValue.len - publicKeyValue->len], publicKeyValue->data, publicKeyValue->len) != 0)) { /* The decoded public key was flawed, the original key must have * already been in decoded form. Do a quick sanity check then * return the original key value. */ if ((encodedPublicValue.len & 1) == 0) { return CKR_ATTRIBUTE_VALUE_INVALID; } return pk11_Attr2SecItem(arena, ecPoint, publicKeyValue); } /* as best we can figure, the passed in key was encoded, and we've * now decoded it. Note: there is a chance this could be wrong if the * following conditions hold: * 1) The first byte or bytes of the X point looks like a valid length * of precisely the right size (2*curveSize -1). this means for curves * less than 512 bits (64 bytes), this will happen 1 in 256 times*. * for curves between 512 and 1024, this will happen 1 in 65,536 times* * for curves between 1024 and 256K this will happen 1 in 16 million* * 2) The length of the 'DER length field' is odd * (making both the encoded and decode * values an odd length. this is true of all curves less than 512, * as well as curves between 1024 and 256K). * 3) The X[length of the 'DER length field'] == 0x04, 1 in 256. * * (* assuming all values are equally likely in the first byte, * This isn't true if the curve length is not a multiple of 8. In these * cases, if the DER length is possible, it's more likely, * if it's not possible, then we have no false decodes). * * For reference here are the odds for the various curves we currently * have support for (and the only curves SSL will negotiate at this * time). NOTE: None of the supported curves will show up here * because we return a valid length for all of these curves. * The only way to get here is to have some application (not SSL) * which supports some unknown curve and have some vendor supplied * PKCS #11 module support that curve. NOTE: in this case, one * presumes that that pkcs #11 module is likely to be using the * correct encodings. * * Prime Curves (GFp): * Bit False Odds of * Size DER Len False Decode Positive * 112 27 1 in 65536 * 128 31 1 in 65536 * 160 39 1 in 65536 * 192 47 1 in 65536 * 224 55 1 in 65536 * 239 59 1 in 32768 (top byte can only be 0-127) * 256 63 1 in 65536 * 521 129,131 0 (decoded value would be even) * * Binary curves (GF2m). * Bit False Odds of * Size DER Len False Decode Positive * 131 33 0 (top byte can only be 0-7) * 163 41 0 (top byte can only be 0-7) * 176 43 1 in 65536 * 191 47 1 in 32768 (top byte can only be 0-127) * 193 49 0 (top byte can only be 0-1) * 208 51 1 in 65536 * 233 59 0 (top byte can only be 0-1) * 239 59 1 in 32768 (top byte can only be 0-127) * 272 67 1 in 65536 * 283 71 0 (top byte can only be 0-7) * 304 75 1 in 65536 * 359 89 1 in 32768 (top byte can only be 0-127) * 368 91 1 in 65536 * 409 103 0 (top byte can only be 0-1) * 431 107 1 in 32768 (top byte can only be 0-127) * 571 129,143 0 (decoded value would be even) * */ return CKR_OK; } /* In theory, we should handle the case where the curve == 0 and * the first byte is EC_POINT_FORM_UNCOMPRESSED, (which would be * handled by doing a santity check on the key length and returning * pk11_Attr2SecItem() to copy the ecPoint to the publicKeyValue). * * This test is unnecessary, however, due to the fact that * EC_POINT_FORM_UNCOMPRESSED == SEC_ASIN1_OCTET_STRING, that case is * handled in the above if. That means if we get here, the initial * byte of our ecPoint value was invalid, so we can safely return. * invalid attribute. */ return CKR_ATTRIBUTE_VALUE_INVALID; } /* * extract a public key from a slot and id */ SECKEYPublicKey * PK11_ExtractPublicKey(PK11SlotInfo *slot,KeyType keyType,CK_OBJECT_HANDLE id) { CK_OBJECT_CLASS keyClass = CKO_PUBLIC_KEY; PLArenaPool *arena; PLArenaPool *tmp_arena; SECKEYPublicKey *pubKey; int templateCount = 0; CK_KEY_TYPE pk11KeyType; CK_RV crv; CK_ATTRIBUTE template[8]; CK_ATTRIBUTE *attrs= template; CK_ATTRIBUTE *modulus,*exponent,*base,*prime,*subprime,*value; CK_ATTRIBUTE *ecparams; /* if we didn't know the key type, get it */ if (keyType== nullKey) { pk11KeyType = PK11_ReadULongAttribute(slot,id,CKA_KEY_TYPE); if (pk11KeyType == CK_UNAVAILABLE_INFORMATION) { return NULL; } switch (pk11KeyType) { case CKK_RSA: keyType = rsaKey; break; case CKK_DSA: keyType = dsaKey; break; case CKK_DH: keyType = dhKey; break; case CKK_EC: keyType = ecKey; break; default: PORT_SetError( SEC_ERROR_BAD_KEY ); return NULL; } } /* now we need to create space for the public key */ arena = PORT_NewArena( DER_DEFAULT_CHUNKSIZE); if (arena == NULL) return NULL; tmp_arena = PORT_NewArena( DER_DEFAULT_CHUNKSIZE); if (tmp_arena == NULL) { PORT_FreeArena (arena, PR_FALSE); return NULL; } pubKey = (SECKEYPublicKey *) PORT_ArenaZAlloc(arena, sizeof(SECKEYPublicKey)); if (pubKey == NULL) { PORT_FreeArena (arena, PR_FALSE); PORT_FreeArena (tmp_arena, PR_FALSE); return NULL; } pubKey->arena = arena; pubKey->keyType = keyType; pubKey->pkcs11Slot = PK11_ReferenceSlot(slot); pubKey->pkcs11ID = id; PK11_SETATTRS(attrs, CKA_CLASS, &keyClass, sizeof(keyClass)); attrs++; PK11_SETATTRS(attrs, CKA_KEY_TYPE, &pk11KeyType, sizeof(pk11KeyType) ); attrs++; switch (pubKey->keyType) { case rsaKey: modulus = attrs; PK11_SETATTRS(attrs, CKA_MODULUS, NULL, 0); attrs++; exponent = attrs; PK11_SETATTRS(attrs, CKA_PUBLIC_EXPONENT, NULL, 0); attrs++; templateCount = attrs - template; PR_ASSERT(templateCount <= sizeof(template)/sizeof(CK_ATTRIBUTE)); crv = PK11_GetAttributes(tmp_arena,slot,id,template,templateCount); if (crv != CKR_OK) break; if ((keyClass != CKO_PUBLIC_KEY) || (pk11KeyType != CKK_RSA)) { crv = CKR_OBJECT_HANDLE_INVALID; break; } crv = pk11_Attr2SecItem(arena,modulus,&pubKey->u.rsa.modulus); if (crv != CKR_OK) break; crv = pk11_Attr2SecItem(arena,exponent,&pubKey->u.rsa.publicExponent); if (crv != CKR_OK) break; break; case dsaKey: prime = attrs; PK11_SETATTRS(attrs, CKA_PRIME, NULL, 0); attrs++; subprime = attrs; PK11_SETATTRS(attrs, CKA_SUBPRIME, NULL, 0); attrs++; base = attrs; PK11_SETATTRS(attrs, CKA_BASE, NULL, 0); attrs++; value = attrs; PK11_SETATTRS(attrs, CKA_VALUE, NULL, 0); attrs++; templateCount = attrs - template; PR_ASSERT(templateCount <= sizeof(template)/sizeof(CK_ATTRIBUTE)); crv = PK11_GetAttributes(tmp_arena,slot,id,template,templateCount); if (crv != CKR_OK) break; if ((keyClass != CKO_PUBLIC_KEY) || (pk11KeyType != CKK_DSA)) { crv = CKR_OBJECT_HANDLE_INVALID; break; } crv = pk11_Attr2SecItem(arena,prime,&pubKey->u.dsa.params.prime); if (crv != CKR_OK) break; crv = pk11_Attr2SecItem(arena,subprime,&pubKey->u.dsa.params.subPrime); if (crv != CKR_OK) break; crv = pk11_Attr2SecItem(arena,base,&pubKey->u.dsa.params.base); if (crv != CKR_OK) break; crv = pk11_Attr2SecItem(arena,value,&pubKey->u.dsa.publicValue); if (crv != CKR_OK) break; break; case dhKey: prime = attrs; PK11_SETATTRS(attrs, CKA_PRIME, NULL, 0); attrs++; base = attrs; PK11_SETATTRS(attrs, CKA_BASE, NULL, 0); attrs++; value =attrs; PK11_SETATTRS(attrs, CKA_VALUE, NULL, 0); attrs++; templateCount = attrs - template; PR_ASSERT(templateCount <= sizeof(template)/sizeof(CK_ATTRIBUTE)); crv = PK11_GetAttributes(tmp_arena,slot,id,template,templateCount); if (crv != CKR_OK) break; if ((keyClass != CKO_PUBLIC_KEY) || (pk11KeyType != CKK_DH)) { crv = CKR_OBJECT_HANDLE_INVALID; break; } crv = pk11_Attr2SecItem(arena,prime,&pubKey->u.dh.prime); if (crv != CKR_OK) break; crv = pk11_Attr2SecItem(arena,base,&pubKey->u.dh.base); if (crv != CKR_OK) break; crv = pk11_Attr2SecItem(arena,value,&pubKey->u.dh.publicValue); if (crv != CKR_OK) break; break; case ecKey: pubKey->u.ec.size = 0; ecparams = attrs; PK11_SETATTRS(attrs, CKA_EC_PARAMS, NULL, 0); attrs++; value =attrs; PK11_SETATTRS(attrs, CKA_EC_POINT, NULL, 0); attrs++; templateCount = attrs - template; PR_ASSERT(templateCount <= sizeof(template)/sizeof(CK_ATTRIBUTE)); crv = PK11_GetAttributes(arena,slot,id,template,templateCount); if (crv != CKR_OK) break; if ((keyClass != CKO_PUBLIC_KEY) || (pk11KeyType != CKK_EC)) { crv = CKR_OBJECT_HANDLE_INVALID; break; } crv = pk11_Attr2SecItem(arena,ecparams, &pubKey->u.ec.DEREncodedParams); if (crv != CKR_OK) break; crv = pk11_get_Decoded_ECPoint(arena, &pubKey->u.ec.DEREncodedParams, value, &pubKey->u.ec.publicValue); break; case fortezzaKey: case nullKey: default: crv = CKR_OBJECT_HANDLE_INVALID; break; } PORT_FreeArena(tmp_arena,PR_FALSE); if (crv != CKR_OK) { PORT_FreeArena(arena,PR_FALSE); PK11_FreeSlot(slot); PORT_SetError( PK11_MapError(crv) ); return NULL; } return pubKey; } /* * Build a Private Key structure from raw PKCS #11 information. */ SECKEYPrivateKey * PK11_MakePrivKey(PK11SlotInfo *slot, KeyType keyType, PRBool isTemp, CK_OBJECT_HANDLE privID, void *wincx) { PLArenaPool *arena; SECKEYPrivateKey *privKey; PRBool isPrivate; SECStatus rv; /* don't know? look it up */ if (keyType == nullKey) { CK_KEY_TYPE pk11Type = CKK_RSA; pk11Type = PK11_ReadULongAttribute(slot,privID,CKA_KEY_TYPE); isTemp = (PRBool)!PK11_HasAttributeSet(slot,privID,CKA_TOKEN,PR_FALSE); switch (pk11Type) { case CKK_RSA: keyType = rsaKey; break; case CKK_DSA: keyType = dsaKey; break; case CKK_DH: keyType = dhKey; break; case CKK_KEA: keyType = fortezzaKey; break; case CKK_EC: keyType = ecKey; break; default: break; } } /* if the key is private, make sure we are authenticated to the * token before we try to use it */ isPrivate = (PRBool)PK11_HasAttributeSet(slot,privID,CKA_PRIVATE,PR_FALSE); if (isPrivate) { rv = PK11_Authenticate(slot, PR_TRUE, wincx); if (rv != SECSuccess) { return NULL; } } /* now we need to create space for the private key */ arena = PORT_NewArena( DER_DEFAULT_CHUNKSIZE); if (arena == NULL) return NULL; privKey = (SECKEYPrivateKey *) PORT_ArenaZAlloc(arena, sizeof(SECKEYPrivateKey)); if (privKey == NULL) { PORT_FreeArena(arena, PR_FALSE); return NULL; } privKey->arena = arena; privKey->keyType = keyType; privKey->pkcs11Slot = PK11_ReferenceSlot(slot); privKey->pkcs11ID = privID; privKey->pkcs11IsTemp = isTemp; privKey->wincx = wincx; return privKey; } PK11SlotInfo * PK11_GetSlotFromPrivateKey(SECKEYPrivateKey *key) { PK11SlotInfo *slot = key->pkcs11Slot; slot = PK11_ReferenceSlot(slot); return slot; } /* * Get the modulus length for raw parsing */ int PK11_GetPrivateModulusLen(SECKEYPrivateKey *key) { CK_ATTRIBUTE theTemplate = { CKA_MODULUS, NULL, 0 }; PK11SlotInfo *slot = key->pkcs11Slot; CK_RV crv; int length; switch (key->keyType) { case rsaKey: crv = PK11_GetAttributes(NULL, slot, key->pkcs11ID, &theTemplate, 1); if (crv != CKR_OK) { PORT_SetError( PK11_MapError(crv) ); return -1; } length = theTemplate.ulValueLen; if ( *(unsigned char *)theTemplate.pValue == 0) { length--; } if (theTemplate.pValue != NULL) PORT_Free(theTemplate.pValue); return (int) length; case fortezzaKey: case dsaKey: case dhKey: default: break; } if (theTemplate.pValue != NULL) PORT_Free(theTemplate.pValue); PORT_SetError( SEC_ERROR_INVALID_KEY ); return -1; } /* * take a private key in one pkcs11 module and load it into another: * NOTE: the source private key is a rare animal... it can't be sensitive. * This is used to do a key gen using one pkcs11 module and storing the * result into another. */ static SECKEYPrivateKey * pk11_loadPrivKeyWithFlags(PK11SlotInfo *slot,SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey, PK11AttrFlags attrFlags) { CK_ATTRIBUTE privTemplate[] = { /* class must be first */ { CKA_CLASS, NULL, 0 }, { CKA_KEY_TYPE, NULL, 0 }, { CKA_ID, NULL, 0 }, /* RSA - the attributes below will be replaced for other * key types. */ { CKA_MODULUS, NULL, 0 }, { CKA_PRIVATE_EXPONENT, NULL, 0 }, { CKA_PUBLIC_EXPONENT, NULL, 0 }, { CKA_PRIME_1, NULL, 0 }, { CKA_PRIME_2, NULL, 0 }, { CKA_EXPONENT_1, NULL, 0 }, { CKA_EXPONENT_2, NULL, 0 }, { CKA_COEFFICIENT, NULL, 0 }, { CKA_DECRYPT, NULL, 0 }, { CKA_DERIVE, NULL, 0 }, { CKA_SIGN, NULL, 0 }, { CKA_SIGN_RECOVER, NULL, 0 }, { CKA_UNWRAP, NULL, 0 }, /* reserve space for the attributes that may be * specified in attrFlags */ { CKA_TOKEN, NULL, 0 }, { CKA_PRIVATE, NULL, 0 }, { CKA_MODIFIABLE, NULL, 0 }, { CKA_SENSITIVE, NULL, 0 }, { CKA_EXTRACTABLE, NULL, 0 }, #define NUM_RESERVED_ATTRS 5 /* number of reserved attributes above */ }; CK_BBOOL cktrue = CK_TRUE; CK_BBOOL ckfalse = CK_FALSE; CK_ATTRIBUTE *attrs = NULL, *ap; const int templateSize = sizeof(privTemplate)/sizeof(privTemplate[0]); PLArenaPool *arena; CK_OBJECT_HANDLE objectID; int i, count = 0; int extra_count = 0; CK_RV crv; SECStatus rv; PRBool token = ((attrFlags & PK11_ATTR_TOKEN) != 0); if (pk11_BadAttrFlags(attrFlags)) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return NULL; } for (i=0; i < templateSize; i++) { if (privTemplate[i].type == CKA_MODULUS) { attrs= &privTemplate[i]; count = i; break; } } PORT_Assert(attrs != NULL); if (attrs == NULL) { PORT_SetError(SEC_ERROR_LIBRARY_FAILURE); return NULL; } ap = attrs; switch (privKey->keyType) { case rsaKey: count = templateSize - NUM_RESERVED_ATTRS; extra_count = count - (attrs - privTemplate); break; case dsaKey: ap->type = CKA_PRIME; ap++; count++; extra_count++; ap->type = CKA_SUBPRIME; ap++; count++; extra_count++; ap->type = CKA_BASE; ap++; count++; extra_count++; ap->type = CKA_VALUE; ap++; count++; extra_count++; ap->type = CKA_SIGN; ap++; count++; extra_count++; break; case dhKey: ap->type = CKA_PRIME; ap++; count++; extra_count++; ap->type = CKA_BASE; ap++; count++; extra_count++; ap->type = CKA_VALUE; ap++; count++; extra_count++; ap->type = CKA_DERIVE; ap++; count++; extra_count++; break; case ecKey: ap->type = CKA_EC_PARAMS; ap++; count++; extra_count++; ap->type = CKA_VALUE; ap++; count++; extra_count++; ap->type = CKA_DERIVE; ap++; count++; extra_count++; ap->type = CKA_SIGN; ap++; count++; extra_count++; break; default: count = 0; extra_count = 0; break; } if (count == 0) { PORT_SetError(SEC_ERROR_LIBRARY_FAILURE); return NULL; } arena = PORT_NewArena( DER_DEFAULT_CHUNKSIZE); if (arena == NULL) return NULL; /* * read out the old attributes. */ crv = PK11_GetAttributes(arena, privKey->pkcs11Slot, privKey->pkcs11ID, privTemplate,count); if (crv != CKR_OK) { PORT_SetError( PK11_MapError(crv) ); PORT_FreeArena(arena, PR_TRUE); return NULL; } /* Set token, private, modifiable, sensitive, and extractable */ count += pk11_AttrFlagsToAttributes(attrFlags, &privTemplate[count], &cktrue, &ckfalse); /* Not everyone can handle zero padded key values, give * them the raw data as unsigned */ for (ap=attrs; extra_count; ap++, extra_count--) { pk11_SignedToUnsigned(ap); } /* now Store the puppies */ rv = PK11_CreateNewObject(slot, CK_INVALID_SESSION, privTemplate, count, token, &objectID); PORT_FreeArena(arena, PR_TRUE); if (rv != SECSuccess) { return NULL; } /* try loading the public key */ if (pubKey) { PK11_ImportPublicKey(slot, pubKey, token); if (pubKey->pkcs11Slot) { PK11_FreeSlot(pubKey->pkcs11Slot); pubKey->pkcs11Slot = NULL; pubKey->pkcs11ID = CK_INVALID_HANDLE; } } /* build new key structure */ return PK11_MakePrivKey(slot, privKey->keyType, !token, objectID, privKey->wincx); } static SECKEYPrivateKey * pk11_loadPrivKey(PK11SlotInfo *slot,SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey, PRBool token, PRBool sensitive) { PK11AttrFlags attrFlags = 0; if (token) { attrFlags |= (PK11_ATTR_TOKEN | PK11_ATTR_PRIVATE); } else { attrFlags |= (PK11_ATTR_SESSION | PK11_ATTR_PUBLIC); } if (sensitive) { attrFlags |= PK11_ATTR_SENSITIVE; } else { attrFlags |= PK11_ATTR_INSENSITIVE; } return pk11_loadPrivKeyWithFlags(slot, privKey, pubKey, attrFlags); } /* * export this for PSM */ SECKEYPrivateKey * PK11_LoadPrivKey(PK11SlotInfo *slot,SECKEYPrivateKey *privKey, SECKEYPublicKey *pubKey, PRBool token, PRBool sensitive) { return pk11_loadPrivKey(slot,privKey,pubKey,token,sensitive); } /* * Use the token to generate a key pair. */ SECKEYPrivateKey * PK11_GenerateKeyPairWithOpFlags(PK11SlotInfo *slot,CK_MECHANISM_TYPE type, void *param, SECKEYPublicKey **pubKey, PK11AttrFlags attrFlags, CK_FLAGS opFlags, CK_FLAGS opFlagsMask, void *wincx) { /* we have to use these native types because when we call PKCS 11 modules * we have to make sure that we are using the correct sizes for all the * parameters. */ CK_BBOOL ckfalse = CK_FALSE; CK_BBOOL cktrue = CK_TRUE; CK_ULONG modulusBits; CK_BYTE publicExponent[4]; CK_ATTRIBUTE privTemplate[] = { { CKA_SENSITIVE, NULL, 0}, { CKA_TOKEN, NULL, 0}, { CKA_PRIVATE, NULL, 0}, { CKA_DERIVE, NULL, 0}, { CKA_UNWRAP, NULL, 0}, { CKA_SIGN, NULL, 0}, { CKA_DECRYPT, NULL, 0}, { CKA_EXTRACTABLE, NULL, 0}, { CKA_MODIFIABLE, NULL, 0}, }; CK_ATTRIBUTE rsaPubTemplate[] = { { CKA_MODULUS_BITS, NULL, 0}, { CKA_PUBLIC_EXPONENT, NULL, 0}, { CKA_TOKEN, NULL, 0}, { CKA_DERIVE, NULL, 0}, { CKA_WRAP, NULL, 0}, { CKA_VERIFY, NULL, 0}, { CKA_VERIFY_RECOVER, NULL, 0}, { CKA_ENCRYPT, NULL, 0}, { CKA_MODIFIABLE, NULL, 0}, }; CK_ATTRIBUTE dsaPubTemplate[] = { { CKA_PRIME, NULL, 0 }, { CKA_SUBPRIME, NULL, 0 }, { CKA_BASE, NULL, 0 }, { CKA_TOKEN, NULL, 0}, { CKA_DERIVE, NULL, 0}, { CKA_WRAP, NULL, 0}, { CKA_VERIFY, NULL, 0}, { CKA_VERIFY_RECOVER, NULL, 0}, { CKA_ENCRYPT, NULL, 0}, { CKA_MODIFIABLE, NULL, 0}, }; CK_ATTRIBUTE dhPubTemplate[] = { { CKA_PRIME, NULL, 0 }, { CKA_BASE, NULL, 0 }, { CKA_TOKEN, NULL, 0}, { CKA_DERIVE, NULL, 0}, { CKA_WRAP, NULL, 0}, { CKA_VERIFY, NULL, 0}, { CKA_VERIFY_RECOVER, NULL, 0}, { CKA_ENCRYPT, NULL, 0}, { CKA_MODIFIABLE, NULL, 0}, }; CK_ATTRIBUTE ecPubTemplate[] = { { CKA_EC_PARAMS, NULL, 0 }, { CKA_TOKEN, NULL, 0}, { CKA_DERIVE, NULL, 0}, { CKA_WRAP, NULL, 0}, { CKA_VERIFY, NULL, 0}, { CKA_VERIFY_RECOVER, NULL, 0}, { CKA_ENCRYPT, NULL, 0}, { CKA_MODIFIABLE, NULL, 0}, }; SECKEYECParams * ecParams; /*CK_ULONG key_size = 0;*/ CK_ATTRIBUTE *pubTemplate; int privCount = 0; int pubCount = 0; PK11RSAGenParams *rsaParams; SECKEYPQGParams *dsaParams; SECKEYDHParams * dhParams; CK_MECHANISM mechanism; CK_MECHANISM test_mech; CK_MECHANISM test_mech2; CK_SESSION_HANDLE session_handle; CK_RV crv; CK_OBJECT_HANDLE privID,pubID; SECKEYPrivateKey *privKey; KeyType keyType; PRBool restore; int peCount,i; CK_ATTRIBUTE *attrs; CK_ATTRIBUTE *privattrs; CK_ATTRIBUTE setTemplate; CK_MECHANISM_INFO mechanism_info; CK_OBJECT_CLASS keyClass; SECItem *cka_id; PRBool haslock = PR_FALSE; PRBool pubIsToken = PR_FALSE; PRBool token = ((attrFlags & PK11_ATTR_TOKEN) != 0); /* subset of attrFlags applicable to the public key */ PK11AttrFlags pubKeyAttrFlags = attrFlags & (PK11_ATTR_TOKEN | PK11_ATTR_SESSION | PK11_ATTR_MODIFIABLE | PK11_ATTR_UNMODIFIABLE); if (pk11_BadAttrFlags(attrFlags)) { PORT_SetError( SEC_ERROR_INVALID_ARGS ); return NULL; } if (!param) { PORT_SetError( SEC_ERROR_INVALID_ARGS ); return NULL; } /* * The opFlags and opFlagMask parameters allow us to control the * settings of the key usage attributes (CKA_ENCRYPT and friends). * opFlagMask is set to one if the flag is specified in opFlags and * zero if it is to take on a default value calculated by * PK11_GenerateKeyPairWithOpFlags. * opFlags specifies the actual value of the flag 1 or 0. * Bits not corresponding to one bits in opFlagMask should be zero. */ /* if we are trying to turn on a flag, it better be in the mask */ PORT_Assert ((opFlags & ~opFlagsMask) == 0); opFlags &= opFlagsMask; PORT_Assert(slot != NULL); if (slot == NULL) { PORT_SetError( SEC_ERROR_NO_MODULE); return NULL; } /* if our slot really doesn't do this mechanism, Generate the key * in our internal token and write it out */ if (!PK11_DoesMechanism(slot,type)) { PK11SlotInfo *int_slot = PK11_GetInternalSlot(); /* don't loop forever looking for a slot */ if (slot == int_slot) { PK11_FreeSlot(int_slot); PORT_SetError(SEC_ERROR_LIBRARY_FAILURE); return NULL; } /* if there isn't a suitable slot, then we can't do the keygen */ if (int_slot == NULL) { PORT_SetError( SEC_ERROR_NO_MODULE ); return NULL; } /* generate the temporary key to load */ privKey = PK11_GenerateKeyPair(int_slot,type, param, pubKey, PR_FALSE, PR_FALSE, wincx); PK11_FreeSlot(int_slot); /* if successful, load the temp key into the new token */ if (privKey != NULL) { SECKEYPrivateKey *newPrivKey = pk11_loadPrivKeyWithFlags(slot, privKey,*pubKey,attrFlags); SECKEY_DestroyPrivateKey(privKey); if (newPrivKey == NULL) { SECKEY_DestroyPublicKey(*pubKey); *pubKey = NULL; } return newPrivKey; } return NULL; } mechanism.mechanism = type; mechanism.pParameter = NULL; mechanism.ulParameterLen = 0; test_mech.pParameter = NULL; test_mech.ulParameterLen = 0; test_mech2.mechanism = CKM_INVALID_MECHANISM; test_mech2.pParameter = NULL; test_mech2.ulParameterLen = 0; /* set up the private key template */ privattrs = privTemplate; privattrs += pk11_AttrFlagsToAttributes(attrFlags, privattrs, &cktrue, &ckfalse); /* set up the mechanism specific info */ switch (type) { case CKM_RSA_PKCS_KEY_PAIR_GEN: case CKM_RSA_X9_31_KEY_PAIR_GEN: rsaParams = (PK11RSAGenParams *)param; if (rsaParams->pe == 0) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return NULL; } modulusBits = rsaParams->keySizeInBits; peCount = 0; /* convert pe to a PKCS #11 string */ for (i=0; i < 4; i++) { if (peCount || (rsaParams->pe & ((unsigned long)0xff000000L >> (i*8)))) { publicExponent[peCount] = (CK_BYTE)((rsaParams->pe >> (3-i)*8) & 0xff); peCount++; } } PORT_Assert(peCount != 0); attrs = rsaPubTemplate; PK11_SETATTRS(attrs, CKA_MODULUS_BITS, &modulusBits, sizeof(modulusBits)); attrs++; PK11_SETATTRS(attrs, CKA_PUBLIC_EXPONENT, publicExponent, peCount);attrs++; pubTemplate = rsaPubTemplate; keyType = rsaKey; test_mech.mechanism = CKM_RSA_PKCS; break; case CKM_DSA_KEY_PAIR_GEN: dsaParams = (SECKEYPQGParams *)param; attrs = dsaPubTemplate; PK11_SETATTRS(attrs, CKA_PRIME, dsaParams->prime.data, dsaParams->prime.len); attrs++; PK11_SETATTRS(attrs, CKA_SUBPRIME, dsaParams->subPrime.data, dsaParams->subPrime.len); attrs++; PK11_SETATTRS(attrs, CKA_BASE, dsaParams->base.data, dsaParams->base.len); attrs++; pubTemplate = dsaPubTemplate; keyType = dsaKey; test_mech.mechanism = CKM_DSA; break; case CKM_DH_PKCS_KEY_PAIR_GEN: dhParams = (SECKEYDHParams *)param; attrs = dhPubTemplate; PK11_SETATTRS(attrs, CKA_PRIME, dhParams->prime.data, dhParams->prime.len); attrs++; PK11_SETATTRS(attrs, CKA_BASE, dhParams->base.data, dhParams->base.len); attrs++; pubTemplate = dhPubTemplate; keyType = dhKey; test_mech.mechanism = CKM_DH_PKCS_DERIVE; break; case CKM_EC_KEY_PAIR_GEN: ecParams = (SECKEYECParams *)param; attrs = ecPubTemplate; PK11_SETATTRS(attrs, CKA_EC_PARAMS, ecParams->data, ecParams->len); attrs++; pubTemplate = ecPubTemplate; keyType = ecKey; /* * ECC supports 2 different mechanism types (unlike RSA, which * supports different usages with the same mechanism). * We may need to query both mechanism types and or the results * together -- but we only do that if either the user has * requested both usages, or not specified any usages. */ if ((opFlags & (CKF_SIGN|CKF_DERIVE)) == (CKF_SIGN|CKF_DERIVE)) { /* We've explicitly turned on both flags, use both mechanism */ test_mech.mechanism = CKM_ECDH1_DERIVE; test_mech2.mechanism = CKM_ECDSA; } else if (opFlags & CKF_SIGN) { /* just do signing */ test_mech.mechanism = CKM_ECDSA; } else if (opFlags & CKF_DERIVE) { /* just do ECDH */ test_mech.mechanism = CKM_ECDH1_DERIVE; } else { /* neither was specified default to both */ test_mech.mechanism = CKM_ECDH1_DERIVE; test_mech2.mechanism = CKM_ECDSA; } break; default: PORT_SetError( SEC_ERROR_BAD_KEY ); return NULL; } /* now query the slot to find out how "good" a key we can generate */ if (!slot->isThreadSafe) PK11_EnterSlotMonitor(slot); crv = PK11_GETTAB(slot)->C_GetMechanismInfo(slot->slotID, test_mech.mechanism,&mechanism_info); /* * EC keys are used in multiple different types of mechanism, if we * are using dual use keys, we need to query the second mechanism * as well. */ if (test_mech2.mechanism != CKM_INVALID_MECHANISM) { CK_MECHANISM_INFO mechanism_info2; CK_RV crv2; if (crv != CKR_OK) { /* the first failed, make sure there is no trash in the * mechanism flags when we or it below */ mechanism_info.flags = 0; } crv2 = PK11_GETTAB(slot)->C_GetMechanismInfo(slot->slotID, test_mech2.mechanism, &mechanism_info2); if (crv2 == CKR_OK) { crv = CKR_OK; /* succeed if either mechnaism info succeeds */ /* combine the 2 sets of mechnanism flags */ mechanism_info.flags |= mechanism_info2.flags; } } if (!slot->isThreadSafe) PK11_ExitSlotMonitor(slot); if ((crv != CKR_OK) || (mechanism_info.flags == 0)) { /* must be old module... guess what it should be... */ switch (test_mech.mechanism) { case CKM_RSA_PKCS: mechanism_info.flags = (CKF_SIGN | CKF_DECRYPT | CKF_WRAP | CKF_VERIFY_RECOVER | CKF_ENCRYPT | CKF_WRAP); break; case CKM_DSA: mechanism_info.flags = CKF_SIGN | CKF_VERIFY; break; case CKM_DH_PKCS_DERIVE: mechanism_info.flags = CKF_DERIVE; break; case CKM_ECDH1_DERIVE: mechanism_info.flags = CKF_DERIVE; if (test_mech2.mechanism == CKM_ECDSA) { mechanism_info.flags |= CKF_SIGN | CKF_VERIFY; } break; case CKM_ECDSA: mechanism_info.flags = CKF_SIGN | CKF_VERIFY; break; default: break; } } /* now adjust our flags according to the user's key usage passed to us */ mechanism_info.flags = (mechanism_info.flags & (~opFlagsMask)) | opFlags; /* set the public key attributes */ attrs += pk11_AttrFlagsToAttributes(pubKeyAttrFlags, attrs, &cktrue, &ckfalse); PK11_SETATTRS(attrs, CKA_DERIVE, mechanism_info.flags & CKF_DERIVE ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); attrs++; PK11_SETATTRS(attrs, CKA_WRAP, mechanism_info.flags & CKF_WRAP ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); attrs++; PK11_SETATTRS(attrs, CKA_VERIFY, mechanism_info.flags & CKF_VERIFY ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); attrs++; PK11_SETATTRS(attrs, CKA_VERIFY_RECOVER, mechanism_info.flags & CKF_VERIFY_RECOVER ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); attrs++; PK11_SETATTRS(attrs, CKA_ENCRYPT, mechanism_info.flags & CKF_ENCRYPT? &cktrue : &ckfalse, sizeof(CK_BBOOL)); attrs++; /* set the private key attributes */ PK11_SETATTRS(privattrs, CKA_DERIVE, mechanism_info.flags & CKF_DERIVE ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); privattrs++; PK11_SETATTRS(privattrs, CKA_UNWRAP, mechanism_info.flags & CKF_UNWRAP ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); privattrs++; PK11_SETATTRS(privattrs, CKA_SIGN, mechanism_info.flags & CKF_SIGN ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); privattrs++; PK11_SETATTRS(privattrs, CKA_DECRYPT, mechanism_info.flags & CKF_DECRYPT ? &cktrue : &ckfalse, sizeof(CK_BBOOL)); privattrs++; if (token) { session_handle = PK11_GetRWSession(slot); haslock = PK11_RWSessionHasLock(slot,session_handle); restore = PR_TRUE; } else { session_handle = slot->session; if (session_handle != CK_INVALID_SESSION) PK11_EnterSlotMonitor(slot); restore = PR_FALSE; haslock = PR_TRUE; } if (session_handle == CK_INVALID_SESSION) { PORT_SetError(SEC_ERROR_BAD_DATA); return NULL; } privCount = privattrs - privTemplate; pubCount = attrs - pubTemplate; crv = PK11_GETTAB(slot)->C_GenerateKeyPair(session_handle, &mechanism, pubTemplate,pubCount,privTemplate,privCount,&pubID,&privID); if (crv != CKR_OK) { if (restore) { PK11_RestoreROSession(slot,session_handle); } else PK11_ExitSlotMonitor(slot); PORT_SetError( PK11_MapError(crv) ); return NULL; } /* This locking code is dangerous and needs to be more thought * out... the real problem is that we're holding the mutex open this long */ if (haslock) { PK11_ExitSlotMonitor(slot); } /* swap around the ID's for older PKCS #11 modules */ keyClass = PK11_ReadULongAttribute(slot,pubID,CKA_CLASS); if (keyClass != CKO_PUBLIC_KEY) { CK_OBJECT_HANDLE tmp = pubID; pubID = privID; privID = tmp; } *pubKey = PK11_ExtractPublicKey(slot, keyType, pubID); if (*pubKey == NULL) { if (restore) { /* we may have to restore the mutex so it get's exited properly * in RestoreROSession */ if (haslock) PK11_EnterSlotMonitor(slot); PK11_RestoreROSession(slot,session_handle); } PK11_DestroyObject(slot,pubID); PK11_DestroyObject(slot,privID); return NULL; } /* set the ID to the public key so we can find it again */ cka_id = pk11_MakeIDFromPublicKey(*pubKey); pubIsToken = (PRBool)PK11_HasAttributeSet(slot,pubID, CKA_TOKEN,PR_FALSE); PK11_SETATTRS(&setTemplate, CKA_ID, cka_id->data, cka_id->len); if (haslock) { PK11_EnterSlotMonitor(slot); } crv = PK11_GETTAB(slot)->C_SetAttributeValue(session_handle, privID, &setTemplate, 1); if (crv == CKR_OK && pubIsToken) { crv = PK11_GETTAB(slot)->C_SetAttributeValue(session_handle, pubID, &setTemplate, 1); } if (restore) { PK11_RestoreROSession(slot,session_handle); } else { PK11_ExitSlotMonitor(slot); } SECITEM_FreeItem(cka_id,PR_TRUE); if (crv != CKR_OK) { PK11_DestroyObject(slot,pubID); PK11_DestroyObject(slot,privID); PORT_SetError( PK11_MapError(crv) ); *pubKey = NULL; return NULL; } privKey = PK11_MakePrivKey(slot,keyType,!token,privID,wincx); if (privKey == NULL) { SECKEY_DestroyPublicKey(*pubKey); PK11_DestroyObject(slot,privID); *pubKey = NULL; return NULL; } return privKey; } SECKEYPrivateKey * PK11_GenerateKeyPairWithFlags(PK11SlotInfo *slot,CK_MECHANISM_TYPE type, void *param, SECKEYPublicKey **pubKey, PK11AttrFlags attrFlags, void *wincx) { return PK11_GenerateKeyPairWithOpFlags(slot,type,param,pubKey,attrFlags, 0, 0, wincx); } /* * Use the token to generate a key pair. */ SECKEYPrivateKey * PK11_GenerateKeyPair(PK11SlotInfo *slot,CK_MECHANISM_TYPE type, void *param, SECKEYPublicKey **pubKey, PRBool token, PRBool sensitive, void *wincx) { PK11AttrFlags attrFlags = 0; if (token) { attrFlags |= PK11_ATTR_TOKEN; } else { attrFlags |= PK11_ATTR_SESSION; } if (sensitive) { attrFlags |= (PK11_ATTR_SENSITIVE | PK11_ATTR_PRIVATE); } else { attrFlags |= (PK11_ATTR_INSENSITIVE | PK11_ATTR_PUBLIC); } return PK11_GenerateKeyPairWithFlags(slot, type, param, pubKey, attrFlags, wincx); } /* build a public KEA key from the public value */ SECKEYPublicKey * PK11_MakeKEAPubKey(unsigned char *keyData,int length) { SECKEYPublicKey *pubk; SECItem pkData; SECStatus rv; PLArenaPool *arena; pkData.data = keyData; pkData.len = length; arena = PORT_NewArena (DER_DEFAULT_CHUNKSIZE); if (arena == NULL) return NULL; pubk = (SECKEYPublicKey *) PORT_ArenaZAlloc(arena, sizeof(SECKEYPublicKey)); if (pubk == NULL) { PORT_FreeArena (arena, PR_FALSE); return NULL; } pubk->arena = arena; pubk->pkcs11Slot = 0; pubk->pkcs11ID = CK_INVALID_HANDLE; pubk->keyType = fortezzaKey; rv = SECITEM_CopyItem(arena, &pubk->u.fortezza.KEAKey, &pkData); if (rv != SECSuccess) { PORT_FreeArena (arena, PR_FALSE); return NULL; } return pubk; } /* * NOTE: This function doesn't return a SECKEYPrivateKey struct to represent * the new private key object. If it were to create a session object that * could later be looked up by its nickname, it would leak a SECKEYPrivateKey. * So isPerm must be true. */ SECStatus PK11_ImportEncryptedPrivateKeyInfo(PK11SlotInfo *slot, SECKEYEncryptedPrivateKeyInfo *epki, SECItem *pwitem, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, KeyType keyType, unsigned int keyUsage, void *wincx) { if (!isPerm) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return SECFailure; } return PK11_ImportEncryptedPrivateKeyInfoAndReturnKey(slot, epki, pwitem, nickname, publicValue, isPerm, isPrivate, keyType, keyUsage, NULL, wincx); } SECStatus PK11_ImportEncryptedPrivateKeyInfoAndReturnKey(PK11SlotInfo *slot, SECKEYEncryptedPrivateKeyInfo *epki, SECItem *pwitem, SECItem *nickname, SECItem *publicValue, PRBool isPerm, PRBool isPrivate, KeyType keyType, unsigned int keyUsage, SECKEYPrivateKey **privk, void *wincx) { CK_MECHANISM_TYPE pbeMechType; SECItem *crypto_param = NULL; PK11SymKey *key = NULL; SECStatus rv = SECSuccess; CK_MECHANISM_TYPE cryptoMechType; SECKEYPrivateKey *privKey = NULL; PRBool faulty3DES = PR_FALSE; int usageCount = 0; CK_KEY_TYPE key_type; CK_ATTRIBUTE_TYPE *usage = NULL; CK_ATTRIBUTE_TYPE rsaUsage[] = { CKA_UNWRAP, CKA_DECRYPT, CKA_SIGN, CKA_SIGN_RECOVER }; CK_ATTRIBUTE_TYPE dsaUsage[] = { CKA_SIGN }; CK_ATTRIBUTE_TYPE dhUsage[] = { CKA_DERIVE }; CK_ATTRIBUTE_TYPE ecUsage[] = { CKA_SIGN, CKA_DERIVE }; if((epki == NULL) || (pwitem == NULL)) return SECFailure; pbeMechType = PK11_AlgtagToMechanism(SECOID_FindOIDTag( &epki->algorithm.algorithm)); switch (keyType) { default: case rsaKey: key_type = CKK_RSA; switch (keyUsage & (KU_KEY_ENCIPHERMENT|KU_DIGITAL_SIGNATURE)) { case KU_KEY_ENCIPHERMENT: usage = rsaUsage; usageCount = 2; break; case KU_DIGITAL_SIGNATURE: usage = &rsaUsage[2]; usageCount = 2; break; case KU_KEY_ENCIPHERMENT|KU_DIGITAL_SIGNATURE: case 0: /* default to everything */ usage = rsaUsage; usageCount = 4; break; } break; case dhKey: key_type = CKK_DH; usage = dhUsage; usageCount = sizeof(dhUsage)/sizeof(dhUsage[0]); break; case dsaKey: key_type = CKK_DSA; usage = dsaUsage; usageCount = sizeof(dsaUsage)/sizeof(dsaUsage[0]); break; case ecKey: key_type = CKK_EC; switch (keyUsage & (KU_DIGITAL_SIGNATURE|KU_KEY_AGREEMENT)) { case KU_DIGITAL_SIGNATURE: usage = ecUsage; usageCount = 1; break; case KU_KEY_AGREEMENT: usage = &ecUsage[1]; usageCount = 1; break; case KU_DIGITAL_SIGNATURE|KU_KEY_AGREEMENT: default: /* default to everything */ usage = ecUsage; usageCount = 2; break; } break; } try_faulty_3des: key = PK11_PBEKeyGen(slot, &epki->algorithm, pwitem, faulty3DES, wincx); if (key == NULL) { rv = SECFailure; goto done; } cryptoMechType = pk11_GetPBECryptoMechanism(&epki->algorithm, &crypto_param, pwitem, faulty3DES); if (cryptoMechType == CKM_INVALID_MECHANISM) { rv = SECFailure; goto done; } cryptoMechType = PK11_GetPadMechanism(cryptoMechType); PORT_Assert(usage != NULL); PORT_Assert(usageCount != 0); privKey = PK11_UnwrapPrivKey(slot, key, cryptoMechType, crypto_param, &epki->encryptedData, nickname, publicValue, isPerm, isPrivate, key_type, usage, usageCount, wincx); if(privKey) { if (privk) { *privk = privKey; } else { SECKEY_DestroyPrivateKey(privKey); } privKey = NULL; rv = SECSuccess; goto done; } /* if we are unable to import the key and the pbeMechType is * CKM_NETSCAPE_PBE_SHA1_TRIPLE_DES_CBC, then it is possible that * the encrypted blob was created with a buggy key generation method * which is described in the PKCS 12 implementation notes. So we * need to try importing via that method. */ if((pbeMechType == CKM_NETSCAPE_PBE_SHA1_TRIPLE_DES_CBC) && (!faulty3DES)) { /* clean up after ourselves before redoing the key generation. */ PK11_FreeSymKey(key); key = NULL; if(crypto_param) { SECITEM_ZfreeItem(crypto_param, PR_TRUE); crypto_param = NULL; } faulty3DES = PR_TRUE; goto try_faulty_3des; } /* key import really did fail */ rv = SECFailure; done: if(crypto_param != NULL) { SECITEM_ZfreeItem(crypto_param, PR_TRUE); } if(key != NULL) { PK11_FreeSymKey(key); } return rv; } SECKEYPrivateKeyInfo * PK11_ExportPrivateKeyInfo(CERTCertificate *cert, void *wincx) { SECKEYPrivateKeyInfo *pki = NULL; SECKEYPrivateKey *pk = PK11_FindKeyByAnyCert(cert, wincx); if (pk != NULL) { pki = PK11_ExportPrivKeyInfo(pk, wincx); SECKEY_DestroyPrivateKey(pk); } return pki; } SECKEYEncryptedPrivateKeyInfo * PK11_ExportEncryptedPrivKeyInfo( PK11SlotInfo *slot, /* optional, encrypt key in this slot */ SECOidTag algTag, /* encrypt key with this algorithm */ SECItem *pwitem, /* password for PBE encryption */ SECKEYPrivateKey *pk, /* encrypt this private key */ int iteration, /* interations for PBE alg */ void *wincx) /* context for password callback ? */ { SECKEYEncryptedPrivateKeyInfo *epki = NULL; PLArenaPool *arena = NULL; SECAlgorithmID *algid; SECOidTag pbeAlgTag = SEC_OID_UNKNOWN; SECItem *crypto_param = NULL; PK11SymKey *key = NULL; SECKEYPrivateKey *tmpPK = NULL; SECStatus rv = SECSuccess; CK_RV crv; CK_ULONG encBufLen; CK_MECHANISM_TYPE pbeMechType; CK_MECHANISM_TYPE cryptoMechType; CK_MECHANISM cryptoMech; if (!pwitem || !pk) { PORT_SetError(SEC_ERROR_INVALID_ARGS); return NULL; } algid = sec_pkcs5CreateAlgorithmID(algTag, SEC_OID_UNKNOWN, SEC_OID_UNKNOWN, &pbeAlgTag, 0, NULL, iteration); if (algid == NULL) { return NULL; } arena = PORT_NewArena(2048); if (arena) epki = PORT_ArenaZNew(arena, SECKEYEncryptedPrivateKeyInfo); if(epki == NULL) { rv = SECFailure; goto loser; } epki->arena = arena; /* if we didn't specify a slot, use the slot the private key was in */ if (!slot) { slot = pk->pkcs11Slot; } /* if we specified a different slot, and the private key slot can do the * pbe key gen, generate the key in the private key slot so we don't have * to move it later */ pbeMechType = PK11_AlgtagToMechanism(pbeAlgTag); if (slot != pk->pkcs11Slot) { if (PK11_DoesMechanism(pk->pkcs11Slot,pbeMechType)) { slot = pk->pkcs11Slot; } } key = PK11_PBEKeyGen(slot, algid, pwitem, PR_FALSE, wincx); if (key == NULL) { rv = SECFailure; goto loser; } cryptoMechType = PK11_GetPBECryptoMechanism(algid, &crypto_param, pwitem); if (cryptoMechType == CKM_INVALID_MECHANISM) { rv = SECFailure; goto loser; } cryptoMech.mechanism = PK11_GetPadMechanism(cryptoMechType); cryptoMech.pParameter = crypto_param ? crypto_param->data : NULL; cryptoMech.ulParameterLen = crypto_param ? crypto_param->len : 0; /* If the key isn't in the private key slot, move it */ if (key->slot != pk->pkcs11Slot) { PK11SymKey *newkey = pk11_CopyToSlot(pk->pkcs11Slot, key->type, CKA_WRAP, key); if (newkey == NULL) { /* couldn't import the wrapping key, try exporting the * private key */ tmpPK = pk11_loadPrivKey(key->slot, pk, NULL, PR_FALSE, PR_TRUE); if (tmpPK == NULL) { rv = SECFailure; goto loser; } pk = tmpPK; } else { /* free the old key and use the new key */ PK11_FreeSymKey(key); key = newkey; } } /* we are extracting an encrypted privateKey structure. * which needs to be freed along with the buffer into which it is * returned. eventually, we should retrieve an encrypted key using * pkcs8/pkcs5. */ encBufLen = 0; PK11_EnterSlotMonitor(pk->pkcs11Slot); crv = PK11_GETTAB(pk->pkcs11Slot)->C_WrapKey(pk->pkcs11Slot->session, &cryptoMech, key->objectID, pk->pkcs11ID, NULL, &encBufLen); PK11_ExitSlotMonitor(pk->pkcs11Slot); if (crv != CKR_OK) { rv = SECFailure; goto loser; } epki->encryptedData.data = PORT_ArenaAlloc(arena, encBufLen); if (!epki->encryptedData.data) { rv = SECFailure; goto loser; } PK11_EnterSlotMonitor(pk->pkcs11Slot); crv = PK11_GETTAB(pk->pkcs11Slot)->C_WrapKey(pk->pkcs11Slot->session, &cryptoMech, key->objectID, pk->pkcs11ID, epki->encryptedData.data, &encBufLen); PK11_ExitSlotMonitor(pk->pkcs11Slot); epki->encryptedData.len = (unsigned int) encBufLen; if(crv != CKR_OK) { rv = SECFailure; goto loser; } if(!epki->encryptedData.len) { rv = SECFailure; goto loser; } rv = SECOID_CopyAlgorithmID(arena, &epki->algorithm, algid); loser: if(crypto_param != NULL) { SECITEM_ZfreeItem(crypto_param, PR_TRUE); crypto_param = NULL; } if(key != NULL) { PK11_FreeSymKey(key); } if (tmpPK != NULL) { SECKEY_DestroyPrivateKey(tmpPK); } SECOID_DestroyAlgorithmID(algid, PR_TRUE); if(rv == SECFailure) { if(arena != NULL) { PORT_FreeArena(arena, PR_TRUE); } epki = NULL; } return epki; } SECKEYEncryptedPrivateKeyInfo * PK11_ExportEncryptedPrivateKeyInfo( PK11SlotInfo *slot, /* optional, encrypt key in this slot */ SECOidTag algTag, /* encrypt key with this algorithm */ SECItem *pwitem, /* password for PBE encryption */ CERTCertificate *cert, /* wrap priv key for this user cert */ int iteration, /* interations for PBE alg */ void *wincx) /* context for password callback ? */ { SECKEYEncryptedPrivateKeyInfo *epki = NULL; SECKEYPrivateKey *pk = PK11_FindKeyByAnyCert(cert, wincx); if (pk != NULL) { epki = PK11_ExportEncryptedPrivKeyInfo(slot, algTag, pwitem, pk, iteration, wincx); SECKEY_DestroyPrivateKey(pk); } return epki; } SECItem* PK11_DEREncodePublicKey(const SECKEYPublicKey *pubk) { return SECKEY_EncodeDERSubjectPublicKeyInfo(pubk); } char * PK11_GetPrivateKeyNickname(SECKEYPrivateKey *privKey) { return PK11_GetObjectNickname(privKey->pkcs11Slot,privKey->pkcs11ID); } char * PK11_GetPublicKeyNickname(SECKEYPublicKey *pubKey) { return PK11_GetObjectNickname(pubKey->pkcs11Slot,pubKey->pkcs11ID); } SECStatus PK11_SetPrivateKeyNickname(SECKEYPrivateKey *privKey, const char *nickname) { return PK11_SetObjectNickname(privKey->pkcs11Slot, privKey->pkcs11ID,nickname); } SECStatus PK11_SetPublicKeyNickname(SECKEYPublicKey *pubKey, const char *nickname) { return PK11_SetObjectNickname(pubKey->pkcs11Slot, pubKey->pkcs11ID,nickname); } SECKEYPQGParams * PK11_GetPQGParamsFromPrivateKey(SECKEYPrivateKey *privKey) { CK_ATTRIBUTE pTemplate[] = { { CKA_PRIME, NULL, 0 }, { CKA_SUBPRIME, NULL, 0 }, { CKA_BASE, NULL, 0 }, }; int pTemplateLen = sizeof(pTemplate)/sizeof(pTemplate[0]); PLArenaPool *arena = NULL; SECKEYPQGParams *params; CK_RV crv; arena = PORT_NewArena(2048); if (arena == NULL) { goto loser; } params=(SECKEYPQGParams *)PORT_ArenaZAlloc(arena,sizeof(SECKEYPQGParams)); if (params == NULL) { goto loser; } crv = PK11_GetAttributes(arena, privKey->pkcs11Slot, privKey->pkcs11ID, pTemplate, pTemplateLen); if (crv != CKR_OK) { PORT_SetError( PK11_MapError(crv) ); goto loser; } params->arena = arena; params->prime.data = pTemplate[0].pValue; params->prime.len = pTemplate[0].ulValueLen; params->subPrime.data = pTemplate[1].pValue; params->subPrime.len = pTemplate[1].ulValueLen; params->base.data = pTemplate[2].pValue; params->base.len = pTemplate[2].ulValueLen; return params; loser: if (arena != NULL) { PORT_FreeArena(arena,PR_FALSE); } return NULL; } SECKEYPrivateKey* PK11_CopyTokenPrivKeyToSessionPrivKey(PK11SlotInfo *destSlot, SECKEYPrivateKey *privKey) { CK_RV crv; CK_OBJECT_HANDLE newKeyID; static const CK_BBOOL ckfalse = CK_FALSE; static const CK_ATTRIBUTE template[1] = { { CKA_TOKEN, (CK_BBOOL *)&ckfalse, sizeof ckfalse } }; if (destSlot && destSlot != privKey->pkcs11Slot) { SECKEYPrivateKey *newKey = pk11_loadPrivKey(destSlot, privKey, NULL, /* pubKey */ PR_FALSE, /* token */ PR_FALSE);/* sensitive */ if (newKey) return newKey; } destSlot = privKey->pkcs11Slot; PK11_Authenticate(destSlot, PR_TRUE, privKey->wincx); PK11_EnterSlotMonitor(destSlot); crv = PK11_GETTAB(destSlot)->C_CopyObject( destSlot->session, privKey->pkcs11ID, (CK_ATTRIBUTE *)template, 1, &newKeyID); PK11_ExitSlotMonitor(destSlot); if (crv != CKR_OK) { PORT_SetError( PK11_MapError(crv) ); return NULL; } return PK11_MakePrivKey(destSlot, privKey->keyType, PR_TRUE /*isTemp*/, newKeyID, privKey->wincx); } SECKEYPrivateKey* PK11_ConvertSessionPrivKeyToTokenPrivKey(SECKEYPrivateKey *privk, void* wincx) { PK11SlotInfo* slot = privk->pkcs11Slot; CK_ATTRIBUTE template[1]; CK_ATTRIBUTE *attrs = template; CK_BBOOL cktrue = CK_TRUE; CK_RV crv; CK_OBJECT_HANDLE newKeyID; CK_SESSION_HANDLE rwsession; PK11_SETATTRS(attrs, CKA_TOKEN, &cktrue, sizeof(cktrue)); attrs++; PK11_Authenticate(slot, PR_TRUE, wincx); rwsession = PK11_GetRWSession(slot); if (rwsession == CK_INVALID_SESSION) { PORT_SetError(SEC_ERROR_BAD_DATA); return NULL; } crv = PK11_GETTAB(slot)->C_CopyObject(rwsession, privk->pkcs11ID, template, 1, &newKeyID); PK11_RestoreROSession(slot, rwsession); if (crv != CKR_OK) { PORT_SetError( PK11_MapError(crv) ); return NULL; } return PK11_MakePrivKey(slot, nullKey /*KeyType*/, PR_FALSE /*isTemp*/, newKeyID, NULL /*wincx*/); } /* * destroy a private key if there are no matching certs. * this function also frees the privKey structure. */ SECStatus PK11_DeleteTokenPrivateKey(SECKEYPrivateKey *privKey, PRBool force) { CERTCertificate *cert=PK11_GetCertFromPrivateKey(privKey); SECStatus rv = SECWouldBlock; if (!cert || force) { /* now, then it's safe for the key to go away */ rv = PK11_DestroyTokenObject(privKey->pkcs11Slot,privKey->pkcs11ID); } if (cert) { CERT_DestroyCertificate(cert); } SECKEY_DestroyPrivateKey(privKey); return rv; } /* * destroy a private key if there are no matching certs. * this function also frees the privKey structure. */ SECStatus PK11_DeleteTokenPublicKey(SECKEYPublicKey *pubKey) { /* now, then it's safe for the key to go away */ if (pubKey->pkcs11Slot == NULL) { return SECFailure; } PK11_DestroyTokenObject(pubKey->pkcs11Slot,pubKey->pkcs11ID); SECKEY_DestroyPublicKey(pubKey); return SECSuccess; } /* * key call back structure. */ typedef struct pk11KeyCallbackStr { SECStatus (* callback)(SECKEYPrivateKey *,void *); void *callbackArg; void *wincx; } pk11KeyCallback; /* * callback to map Object Handles to Private Keys; */ SECStatus pk11_DoKeys(PK11SlotInfo *slot, CK_OBJECT_HANDLE keyHandle, void *arg) { SECStatus rv = SECSuccess; SECKEYPrivateKey *privKey; pk11KeyCallback *keycb = (pk11KeyCallback *) arg; if (!arg) { return SECFailure; } privKey = PK11_MakePrivKey(slot,nullKey,PR_TRUE,keyHandle,keycb->wincx); if (privKey == NULL) { return SECFailure; } if (keycb->callback) { rv = (*keycb->callback)(privKey,keycb->callbackArg); } SECKEY_DestroyPrivateKey(privKey); return rv; } /*********************************************************************** * PK11_TraversePrivateKeysInSlot * * Traverses all the private keys on a slot. * * INPUTS * slot * The PKCS #11 slot whose private keys you want to traverse. * callback * A callback function that will be called for each key. * arg * An argument that will be passed to the callback function. */ SECStatus PK11_TraversePrivateKeysInSlot( PK11SlotInfo *slot, SECStatus(* callback)(SECKEYPrivateKey*, void*), void *arg) { pk11KeyCallback perKeyCB; pk11TraverseSlot perObjectCB; CK_OBJECT_CLASS privkClass = CKO_PRIVATE_KEY; CK_BBOOL ckTrue = CK_TRUE; CK_ATTRIBUTE theTemplate[2]; int templateSize = 2; theTemplate[0].type = CKA_CLASS; theTemplate[0].pValue = &privkClass; theTemplate[0].ulValueLen = sizeof(privkClass); theTemplate[1].type = CKA_TOKEN; theTemplate[1].pValue = &ckTrue; theTemplate[1].ulValueLen = sizeof(ckTrue); if(slot==NULL) { return SECSuccess; } perObjectCB.callback = pk11_DoKeys; perObjectCB.callbackArg = &perKeyCB; perObjectCB.findTemplate = theTemplate; perObjectCB.templateCount = templateSize; perKeyCB.callback = callback; perKeyCB.callbackArg = arg; perKeyCB.wincx = NULL; return PK11_TraverseSlot(slot, &perObjectCB); } /* * return the private key with the given ID */ CK_OBJECT_HANDLE pk11_FindPrivateKeyFromCertID(PK11SlotInfo *slot, SECItem *keyID) { CK_OBJECT_CLASS privKey = CKO_PRIVATE_KEY; CK_ATTRIBUTE theTemplate[] = { { CKA_ID, NULL, 0 }, { CKA_CLASS, NULL, 0 }, }; /* if you change the array, change the variable below as well */ int tsize = sizeof(theTemplate)/sizeof(theTemplate[0]); CK_ATTRIBUTE *attrs = theTemplate; PK11_SETATTRS(attrs, CKA_ID, keyID->data, keyID->len ); attrs++; PK11_SETATTRS(attrs, CKA_CLASS, &privKey, sizeof(privKey)); return pk11_FindObjectByTemplate(slot,theTemplate,tsize); } SECKEYPrivateKey * PK11_FindKeyByKeyID(PK11SlotInfo *slot, SECItem *keyID, void *wincx) { CK_OBJECT_HANDLE keyHandle; SECKEYPrivateKey *privKey; keyHandle = pk11_FindPrivateKeyFromCertID(slot, keyID); if (keyHandle == CK_INVALID_HANDLE) { return NULL; } privKey = PK11_MakePrivKey(slot, nullKey, PR_TRUE, keyHandle, wincx); return privKey; } /* * Generate a CKA_ID from the relevant public key data. The CKA_ID is generated * from the pubKeyData by SHA1_Hashing it to produce a smaller CKA_ID (to make * smart cards happy. */ SECItem * PK11_MakeIDFromPubKey(SECItem *pubKeyData) { PK11Context *context; SECItem *certCKA_ID; SECStatus rv; if (pubKeyData->len <= SHA1_LENGTH) { /* probably an already hashed value. The strongest known public * key values <= 160 bits would be less than 40 bit symetric in * strength. Don't hash them, just return the value. There are * none at the time of this writing supported by previous versions * of NSS, so change is binary compatible safe */ return SECITEM_DupItem(pubKeyData); } context = PK11_CreateDigestContext(SEC_OID_SHA1); if (context == NULL) { return NULL; } rv = PK11_DigestBegin(context); if (rv == SECSuccess) { rv = PK11_DigestOp(context,pubKeyData->data,pubKeyData->len); } if (rv != SECSuccess) { PK11_DestroyContext(context,PR_TRUE); return NULL; } certCKA_ID = (SECItem *)PORT_Alloc(sizeof(SECItem)); if (certCKA_ID == NULL) { PK11_DestroyContext(context,PR_TRUE); return NULL; } certCKA_ID->len = SHA1_LENGTH; certCKA_ID->data = (unsigned char*)PORT_Alloc(certCKA_ID->len); if (certCKA_ID->data == NULL) { PORT_Free(certCKA_ID); PK11_DestroyContext(context,PR_TRUE); return NULL; } rv = PK11_DigestFinal(context,certCKA_ID->data,&certCKA_ID->len, SHA1_LENGTH); PK11_DestroyContext(context,PR_TRUE); if (rv != SECSuccess) { SECITEM_FreeItem(certCKA_ID,PR_TRUE); return NULL; } return certCKA_ID; } /* Looking for PK11_GetKeyIDFromPrivateKey? * Call PK11_GetLowLevelKeyIDForPrivateKey instead. */ SECItem * PK11_GetLowLevelKeyIDForPrivateKey(SECKEYPrivateKey *privKey) { return pk11_GetLowLevelKeyFromHandle(privKey->pkcs11Slot,privKey->pkcs11ID); } static SECStatus privateKeyListCallback(SECKEYPrivateKey *key, void *arg) { SECKEYPrivateKeyList *list = (SECKEYPrivateKeyList*)arg; return SECKEY_AddPrivateKeyToListTail(list, SECKEY_CopyPrivateKey(key)); } SECKEYPrivateKeyList* PK11_ListPrivateKeysInSlot(PK11SlotInfo *slot) { SECStatus status; SECKEYPrivateKeyList *keys; keys = SECKEY_NewPrivateKeyList(); if(keys == NULL) return NULL; status = PK11_TraversePrivateKeysInSlot(slot, privateKeyListCallback, (void*)keys); if( status != SECSuccess ) { SECKEY_DestroyPrivateKeyList(keys); keys = NULL; } return keys; } SECKEYPublicKeyList* PK11_ListPublicKeysInSlot(PK11SlotInfo *slot, char *nickname) { CK_ATTRIBUTE findTemp[4]; CK_ATTRIBUTE *attrs; CK_BBOOL ckTrue = CK_TRUE; CK_OBJECT_CLASS keyclass = CKO_PUBLIC_KEY; int tsize = 0; int objCount = 0; CK_OBJECT_HANDLE *key_ids; SECKEYPublicKeyList *keys; int i,len; attrs = findTemp; PK11_SETATTRS(attrs, CKA_CLASS, &keyclass, sizeof(keyclass)); attrs++; PK11_SETATTRS(attrs, CKA_TOKEN, &ckTrue, sizeof(ckTrue)); attrs++; if (nickname) { len = PORT_Strlen(nickname); PK11_SETATTRS(attrs, CKA_LABEL, nickname, len); attrs++; } tsize = attrs - findTemp; PORT_Assert(tsize <= sizeof(findTemp)/sizeof(CK_ATTRIBUTE)); key_ids = pk11_FindObjectsByTemplate(slot,findTemp,tsize,&objCount); if (key_ids == NULL) { return NULL; } keys = SECKEY_NewPublicKeyList(); if (keys == NULL) { PORT_Free(key_ids); return NULL; } for (i=0; i < objCount ; i++) { SECKEYPublicKey *pubKey = PK11_ExtractPublicKey(slot,nullKey,key_ids[i]); if (pubKey) { SECKEY_AddPublicKeyToListTail(keys, pubKey); } } PORT_Free(key_ids); return keys; } SECKEYPrivateKeyList* PK11_ListPrivKeysInSlot(PK11SlotInfo *slot, char *nickname, void *wincx) { CK_ATTRIBUTE findTemp[4]; CK_ATTRIBUTE *attrs; CK_BBOOL ckTrue = CK_TRUE; CK_OBJECT_CLASS keyclass = CKO_PRIVATE_KEY; int tsize = 0; int objCount = 0; CK_OBJECT_HANDLE *key_ids; SECKEYPrivateKeyList *keys; int i,len; attrs = findTemp; PK11_SETATTRS(attrs, CKA_CLASS, &keyclass, sizeof(keyclass)); attrs++; PK11_SETATTRS(attrs, CKA_TOKEN, &ckTrue, sizeof(ckTrue)); attrs++; if (nickname) { len = PORT_Strlen(nickname); PK11_SETATTRS(attrs, CKA_LABEL, nickname, len); attrs++; } tsize = attrs - findTemp; PORT_Assert(tsize <= sizeof(findTemp)/sizeof(CK_ATTRIBUTE)); key_ids = pk11_FindObjectsByTemplate(slot,findTemp,tsize,&objCount); if (key_ids == NULL) { return NULL; } keys = SECKEY_NewPrivateKeyList(); if (keys == NULL) { PORT_Free(key_ids); return NULL; } for (i=0; i < objCount ; i++) { SECKEYPrivateKey *privKey = PK11_MakePrivKey(slot,nullKey,PR_TRUE,key_ids[i],wincx); SECKEY_AddPrivateKeyToListTail(keys, privKey); } PORT_Free(key_ids); return keys; }