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+/********************************************************************************/
+/* */
+/* TPM X509 RSA */
+/* Written by Ken Goldman */
+/* IBM Thomas J. Watson Research Center */
+/* $Id: X509_RSA.c 1658 2021-01-22 23:14:01Z kgoldman $ */
+/* */
+/* Licenses and Notices */
+/* */
+/* 1. Copyright Licenses: */
+/* */
+/* - Trusted Computing Group (TCG) grants to the user of the source code in */
+/* this specification (the "Source Code") a worldwide, irrevocable, */
+/* nonexclusive, royalty free, copyright license to reproduce, create */
+/* derivative works, distribute, display and perform the Source Code and */
+/* derivative works thereof, and to grant others the rights granted herein. */
+/* */
+/* - The TCG grants to the user of the other parts of the specification */
+/* (other than the Source Code) the rights to reproduce, distribute, */
+/* display, and perform the specification solely for the purpose of */
+/* developing products based on such documents. */
+/* */
+/* 2. Source Code Distribution Conditions: */
+/* */
+/* - Redistributions of Source Code must retain the above copyright licenses, */
+/* this list of conditions and the following disclaimers. */
+/* */
+/* - Redistributions in binary form must reproduce the above copyright */
+/* licenses, this list of conditions and the following disclaimers in the */
+/* documentation and/or other materials provided with the distribution. */
+/* */
+/* 3. Disclaimers: */
+/* */
+/* - THE COPYRIGHT LICENSES SET FORTH ABOVE DO NOT REPRESENT ANY FORM OF */
+/* LICENSE OR WAIVER, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, WITH */
+/* RESPECT TO PATENT RIGHTS HELD BY TCG MEMBERS (OR OTHER THIRD PARTIES) */
+/* THAT MAY BE NECESSARY TO IMPLEMENT THIS SPECIFICATION OR OTHERWISE. */
+/* Contact TCG Administration (admin@trustedcomputinggroup.org) for */
+/* information on specification licensing rights available through TCG */
+/* membership agreements. */
+/* */
+/* - THIS SPECIFICATION IS PROVIDED "AS IS" WITH NO EXPRESS OR IMPLIED */
+/* WARRANTIES WHATSOEVER, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR */
+/* FITNESS FOR A PARTICULAR PURPOSE, ACCURACY, COMPLETENESS, OR */
+/* NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS, OR ANY WARRANTY */
+/* OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATION OR SAMPLE. */
+/* */
+/* - Without limitation, TCG and its members and licensors disclaim all */
+/* liability, including liability for infringement of any proprietary */
+/* rights, relating to use of information in this specification and to the */
+/* implementation of this specification, and TCG disclaims all liability for */
+/* cost of procurement of substitute goods or services, lost profits, loss */
+/* of use, loss of data or any incidental, consequential, direct, indirect, */
+/* or special damages, whether under contract, tort, warranty or otherwise, */
+/* arising in any way out of use or reliance upon this specification or any */
+/* information herein. */
+/* */
+/* (c) Copyright IBM Corp. and others, 2019 - 2021 */
+/* */
+/********************************************************************************/
+
+/* 10.2.25 X509_RSA.c */
+/* 10.2.25.1 Includes */
+#include "Tpm.h"
+#include "X509.h"
+#include "TpmAsn1_fp.h"
+#include "X509_RSA_fp.h"
+#include "X509_spt_fp.h"
+#include "CryptHash_fp.h"
+#include "CryptRsa_fp.h"
+
+/* 10.2.25.2 Functions */
+#if ALG_RSA
+/* 10.2.25.2.1 X509AddSigningAlgorithmRSA() */
+/* This creates the singing algorithm data. */
+/* Return Value Meaning */
+/* > 0 number of bytes added */
+/* == 0 failure */
+INT16
+X509AddSigningAlgorithmRSA(
+ OBJECT *signKey,
+ TPMT_SIG_SCHEME *scheme,
+ ASN1MarshalContext *ctx
+ )
+{
+ TPM_ALG_ID hashAlg = scheme->details.any.hashAlg;
+ PHASH_DEF hashDef = CryptGetHashDef(hashAlg);
+ //
+ NOT_REFERENCED(signKey);
+ // return failure if hash isn't implemented
+ if(hashDef->hashAlg != hashAlg)
+ return 0;
+ switch(scheme->scheme)
+ {
+ case TPM_ALG_RSASSA:
+ {
+ // if the hash is implemented but there is no PKCS1 OID defined
+ // then this is not a valid signing combination.
+ if(hashDef->PKCS1[0] != ASN1_OBJECT_IDENTIFIER)
+ break;
+ if(ctx == NULL)
+ return 1;
+ return X509PushAlgorithmIdentifierSequence(ctx, hashDef->PKCS1);
+ }
+ case TPM_ALG_RSAPSS:
+ // leave if this is just an implementation check
+ if(ctx == NULL)
+ return 1;
+ // In the case of SHA1, everything is default and RFC4055 says that
+ // implementations that do signature generation MUST omit the parameter
+ // when defaults are used. )-:
+ if(hashDef->hashAlg == TPM_ALG_SHA1)
+ {
+ return X509PushAlgorithmIdentifierSequence(ctx, OID_RSAPSS);
+ }
+ else
+ {
+ // Going to build something that looks like:
+ // SEQUENCE (2 elem)
+ // OBJECT IDENTIFIER 1.2.840.113549.1.1.10 rsaPSS (PKCS #1)
+ // SEQUENCE (3 elem)
+ // [0] (1 elem)
+ // SEQUENCE (2 elem)
+ // OBJECT IDENTIFIER 2.16.840.1.101.3.4.2.1 sha-256
+ // NULL
+ // [1] (1 elem)
+ // SEQUENCE (2 elem)
+ // OBJECT IDENTIFIER 1.2.840.113549.1.1.8 pkcs1-MGF
+ // SEQUENCE (2 elem)
+ // OBJECT IDENTIFIER 2.16.840.1.101.3.4.2.1 sha-256
+ // NULL
+ // [2] (1 elem) salt length
+ // INTEGER 32
+
+ // The indentation is just to keep track of where we are in the
+ // structure
+ ASN1StartMarshalContext(ctx); // SEQUENCE (2 elements)
+ {
+ ASN1StartMarshalContext(ctx); // SEQUENCE (3 elements)
+ {
+ // [2] (1 elem) salt length
+ // INTEGER 32
+ ASN1StartMarshalContext(ctx);
+ {
+ INT16 saltSize =
+ CryptRsaPssSaltSize((INT16)hashDef->digestSize,
+ (INT16)signKey->publicArea.unique.rsa.t.size);
+ ASN1PushUINT(ctx, saltSize);
+ }
+ ASN1EndEncapsulation(ctx, ASN1_APPLICAIION_SPECIFIC + 2);
+
+ // Add the mask generation algorithm
+ // [1] (1 elem)
+ // SEQUENCE (2 elem) 1st
+ // OBJECT IDENTIFIER 1.2.840.113549.1.1.8 pkcs1-MGF
+ // SEQUENCE (2 elem) 2nd
+ // OBJECT IDENTIFIER 2.16.840.1.101.3.4.2.1 sha-256
+ // NULL
+ ASN1StartMarshalContext(ctx); // mask context [1] (1 elem)
+ {
+ ASN1StartMarshalContext(ctx); // SEQUENCE (2 elem) 1st
+ // Handle the 2nd Sequence (sequence (object, null))
+ {
+ // This adds a NULL, then an OID and a SEQUENCE
+ // wrapper.
+ X509PushAlgorithmIdentifierSequence(ctx,
+ hashDef->OID);
+ // add the pkcs1-MGF OID
+ ASN1PushOID(ctx, OID_MGF1);
+ }
+ // End outer sequence
+ ASN1EndEncapsulation(ctx, ASN1_CONSTRUCTED_SEQUENCE);
+ }
+ // End the [1]
+ ASN1EndEncapsulation(ctx, ASN1_APPLICAIION_SPECIFIC + 1);
+
+ // Add the hash algorithm
+ // [0] (1 elem)
+ // SEQUENCE (2 elem) (done by
+ // X509PushAlgorithmIdentifierSequence)
+ // OBJECT IDENTIFIER 2.16.840.1.101.3.4.2.1 sha-256 (NIST)
+ // NULL
+ ASN1StartMarshalContext(ctx); // [0] (1 elem)
+ {
+ X509PushAlgorithmIdentifierSequence(ctx, hashDef->OID);
+ }
+ ASN1EndEncapsulation(ctx, (ASN1_APPLICAIION_SPECIFIC + 0));
+ }
+ // SEQUENCE (3 elements) end
+ ASN1EndEncapsulation(ctx, ASN1_CONSTRUCTED_SEQUENCE);
+
+ // RSA PSS OID
+ // OBJECT IDENTIFIER 1.2.840.113549.1.1.10 rsaPSS (PKCS #1)
+ ASN1PushOID(ctx, OID_RSAPSS);
+ }
+ // End Sequence (2 elements)
+ return ASN1EndEncapsulation(ctx, ASN1_CONSTRUCTED_SEQUENCE);
+ }
+ default:
+ break;
+ }
+ return 0;
+}
+/* 10.2.25.2.2 X509AddPublicRSA() */
+/* This function will add the publicKey description to the DER data. If fillPtr is NULL, then no
+ data is transferred and this function will indicate if the TPM has the values for DER-encoding of
+ the public key. */
+/* Return Value Meaning */
+/* > 0 number of bytes added */
+/* == 0 failure */
+INT16
+X509AddPublicRSA(
+ OBJECT *object,
+ ASN1MarshalContext *ctx
+ )
+{
+ UINT32 exp = object->publicArea.parameters.rsaDetail.exponent;
+ //
+ // If this is a check to see if the key can be encoded, it can.
+ // Need to mark the end sequence
+ if(ctx == NULL)
+ return 1;
+ ASN1StartMarshalContext(ctx); // SEQUENCE (2 elem) 1st
+ ASN1StartMarshalContext(ctx); // BIT STRING
+ ASN1StartMarshalContext(ctx); // SEQUENCE *(2 elem) 3rd
+
+ // Get public exponent in big-endian byte order.
+ if(exp == 0)
+ exp = RSA_DEFAULT_PUBLIC_EXPONENT;
+
+ // Push a 4 byte integer. This might get reduced if there are leading zeros or
+ // extended if the high order byte is negative.
+ ASN1PushUINT(ctx, exp);
+ // Push the public key as an integer
+ ASN1PushInteger(ctx, object->publicArea.unique.rsa.t.size,
+ object->publicArea.unique.rsa.t.buffer);
+ // Embed this in a SEQUENCE tag and length in for the key, exponent sequence
+ ASN1EndEncapsulation(ctx, ASN1_CONSTRUCTED_SEQUENCE); // SEQUENCE (3rd)
+
+ // Embed this in a BIT STRING
+ ASN1EndEncapsulation(ctx, ASN1_BITSTRING);
+
+ // Now add the formatted SEQUENCE for the RSA public key OID. This is a
+ // fully constructed value so it doesn't need to have a context started
+ X509PushAlgorithmIdentifierSequence(ctx, OID_PKCS1_PUB);
+
+ return ASN1EndEncapsulation(ctx, ASN1_CONSTRUCTED_SEQUENCE);
+}
+#endif // ALG_RSA
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