iBoot/lib/pki/libgRSA/libgRSA.h

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2023-07-08 13:03:17 -07:00
/* Copyright (c) 2005-2007 Apple Inc. All Rights Reserved. */
/*
* libgRSA.h - public API for RSA library based on libGiants
*/
#ifndef _LIBGRSA_LIBRSA_H_
#define _LIBGRSA_LIBRSA_H_
#include <libgRSA/rsaTypes.h>
#include <libgRSA/rsaGiantKey.h>
#ifdef __cplusplus
extern "C" {
#endif
/*
* This file declares the main public functions in the libgRSA library.
* Keys for all of these functions are expressed in "RSAGiantKey" format,
* defined in rsaGiantKey.h. This is the native key format for this
* library. RSAGiantKeys can be obtained in one of two ways:
*
* -- from DER-encoded, PKCS1-style key blobs, using the interface in
* libgRSA_DER.h.
* -- from raw byte strings representing individual key components, using
* the interface in rsaRawKey.h.
*/
/*
* RSA_SIG_SHARE_GIANT, when true, is an optimization to reduce the stack
* requirements when performing an RSA_Sign operation. When true, caller
* allocates an RSASignBuffer union which contains both a sratch giant
* for use by lower level code and the buffer into which a signature
* will be written at the completion of RSA_Sign(). The input,
* dataToSign, can also be in this RSASignBuffer (i.e., dataToSign
* can equal RSASignBuffer.signature).
*/
#define RSA_SIG_SHARE_GIANT 0
#if RSA_SIG_SHARE_GIANT
typedef union {
lgiant g;
gi_uint8 signature[MAX_PRIME_SIZE_BYTES];
} RSASignBuffer;
#endif /* RSA_SIG_SHARE_GIANT */
/*
* Given a private key and data to sign, generate a digital signature.
*
* If the padding argument is RP_PKCS1, PKCS1 padding will be performed
* prior to signing. If this argument is RP_None, the incoming data
* will be signed "as is". (OAEP padding is not supported for signing.)
* Note when PKCS1 padding is performed, the maximum length of data that
* can be signed is RSAKey.nLen-11 where RSAKey.nLen is the length of
* the modulus.
*
* NOTE: using RP_None will not work if the first byte of dataToSign
* is zero; there is no way to verify leading zeroes as they got chopped
* off during the calculation.
*
* If you want a proper PKCS1 style signature, with DER encoding of the
* incoming data - and the data is a SHA1 digest - use RSA_EncodeDigest
* to format the data in an encoded DigestInfo struct before calling
* this routine.
*
* If RSA_SIG_SHARE_GIANT is zero, caller allocates sig, the output buffer,
* into which the signature will be written. This must be at least as large
* as the key's modulus. On input, *sigLen is the size of the available buffer.
* On output it's the size of the signature actually written to sig.
*
* If RSA_SIG_SHARE_GIANT is nonzero, caller allocates the signBuffer of
* type RSASignBuffer; the signature will be written into
* signBuffer->signature and *sigLen will equal the size of the
* signature actually written to signBuffer->signature.
*
* When memory usage is a critical issue, note that the input buffer
* (dataToSign) can be the same as the output buffer (sig, or
* signBuffer->signature, depending on RSA_SIG_SHARE_GIANT).
*
* Returns an RSAStatus as described in libgRSA.h.
*/
#if RSA_SIG_SHARE_GIANT
extern RSAStatus RSA_Sign(
RSAPrivGiantKey *privKey, /* private key */
RSAPadding padding, /* RP_None or RP_PKCS1 */
const gi_uint8 *dataToSign, /* signature over this data */
gi_uint16 dataToSignLen, /* length of dataToSign */
RSASignBuffer *signBuffer, /* signature RETURNED here */
gi_uint16 *sigLen); /* signature RETURNED here */
#else /* !RSA_SIG_SHARE_GIANT */
extern RSAStatus RSA_Sign(
RSAPrivGiantKey *privKey, /* private key */
RSAPadding padding, /* RP_None or RP_PKCS1 */
const gi_uint8 *dataToSign, /* signature over this data */
gi_uint16 dataToSignLen, /* length of dataToSign */
gi_uint8 *sig, /* signature, RETURNED */
gi_uint16 *sigLen); /* IN/OUT */
#endif /* RSA_SIG_SHARE_GIANT */
/*
* Given a public key, data which has been signed, and a signature,
* verify the signature.
*
* If the padding argument is RP_PKCS1, PKCS1 padding will be performed
* prior to verification. If this argument is RP_None, the incoming data
* will be verified "as is". (OAEP padding is not supported for verifying.)
* Note when PKCS1 padding is performed, the maximum length of data that
* can be signed and verified is RSAKey.nLen-11 where RSAKey.nLen is the
* length of the modulus.
*
* If you are verifying a proper PKCS1 style signature, with DER encoding
* of the incoming data - and the data is a SHA1 digest - use
* DEREncodeSHA1DigestInfo to format the data in an encoded DigestInfo
* struct before calling this routine.
*
* Returns an RSAStatus as described above.
*/
extern RSAStatus RSA_SigVerify(
RSAPubGiantKey *pubKey, /* public key */
RSAPadding padding, /* RP_None or RP_PKCS1 */
const gi_uint8 *signedData, /* signature over this data */
gi_uint16 signedDataLen, /* length of dataToSign */
const gi_uint8 *sig, /* signature */
gi_uint16 sigLen); /* length of signature */
/*
* Encrypt a block of plaintext with a public key.
* Resulting ciphertext is the same size as the key's modulus
* (RSAKey.nLen) and is allocated by the caller.
* The cipherTextLen argument, on input, specifies how much
* space is available for the ciphertext; on return, it
* is the actual number of ciphertext bytes written.
*
* When performing RP_PKCS1 or RP_OAEP padding, you must supply
* a callback to a pseudorandom number generator via the rngFcn
* argument.
*
* When memory usage is a critical issue, note that the input buffer
* (plainText) can be the same as the output buffer (cipherText).
*
* Returns an RSAStatus as described above.
*/
extern RSAStatus RSA_Encrypt(
RSAPubGiantKey *pubKey, /* public key */
RSAPadding padding, /* RP_None, RP_PKCS1, RP_OAEP */
RSARngCallback *rngCallback, /* required for RP_PKCS1, RP_OAEP */
const gi_uint8 *plainText,
gi_uint16 plainTextLen, /* length of plainText */
gi_uint8 *cipherText,
gi_uint16 *cipherTextLen); /* IN/OUT */
/*
* Decrypt a block of ciphertext with a private key. The
* ciphertext must be equal in length to the size of the
* key's modulus. The plaintext buffer is allocated by
* the caller' en entry, *plainTextLen is the size of the
* available plaintext buffer; on return, it is the number
* of plaintext bytes actually written.
*
* When memory usage is a critical issue, note that the input buffer
* (cipherText) can be the same as the output buffer (plainText).
*
* Returns an RSAStatus as described above.
*/
extern RSAStatus RSA_Decrypt(
RSAPrivGiantKey *privKey, /* private key */
RSAPadding padding, /* RP_None, RP_PKCS1, RP_OAEP */
const gi_uint8 *cipherText,
gi_uint16 cipherTextLen, /* length of cipherText */
gi_uint8 *plainText,
gi_uint16 *plainTextLen); /* IN/OUT */
#ifdef __cplusplus
}
#endif
#endif /* _LIBRSA_LIBRSA_H_ */