src/crypto/mschapv2.c - ipxe - Git at Google

 /*
  * Copyright (C) 2024 Michael Brown <mbrown@fensystems.co.uk>.
  *
  * This program is free software; you can redistribute it and/or
  * modify it under the terms of the GNU General Public License as
  * published by the Free Software Foundation; either version 2 of the
  * License, or any later version.
  *
  * This program is distributed in the hope that it will be useful, but
  * WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
  * 02110-1301, USA.
  *
  * You can also choose to distribute this program under the terms of
  * the Unmodified Binary Distribution Licence (as given in the file
  * COPYING.UBDL), provided that you have satisfied its requirements.
  */

 FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

 /** @file
  *
  * MS-CHAPv2 authentication
  *
  * The algorithms used for MS-CHAPv2 authentication are defined in
  * RFC 2759 section 8.
  */

 #include <stdio.h>
 #include <string.h>
 #include <byteswap.h>
 #include <ipxe/md4.h>
 #include <ipxe/sha1.h>
 #include <ipxe/des.h>
 #include <ipxe/mschapv2.h>

 /**
  * MS-CHAPv2 context block
  *
  * For no particularly discernible reason, MS-CHAPv2 uses two
  * different digest algorithms and one block cipher.  The uses do not
  * overlap, so share the context storage between these to reduce stack
  * usage.
  */
 union mschapv2_context {
 	/** SHA-1 digest context */
 	uint8_t sha1[SHA1_CTX_SIZE];
 	/** MD4 digest context */
 	uint8_t md4[MD4_CTX_SIZE];
 	/** DES cipher context */
 	uint8_t des[DES_CTX_SIZE];
 };

 /**
  * MS-CHAPv2 challenge hash
  *
  * MS-CHAPv2 calculates the SHA-1 digest of the peer challenge, the
  * authenticator challenge, and the username, and then uses only the
  * first 8 bytes of the result (as a DES plaintext block).
  */
 union mschapv2_challenge_hash {
 	/** SHA-1 digest */
 	uint8_t sha1[SHA1_DIGEST_SIZE];
 	/** DES plaintext block */
 	uint8_t des[DES_BLOCKSIZE];
 };

 /**
  * MS-CHAPv2 password hash
  *
  * MS-CHAPv2 calculates the MD4 digest of an unspecified two-byte
  * little-endian Unicode encoding (presumably either UCS-2LE or
  * UTF-16LE) of the password.
  *
  * For constructing the challenge response, the MD4 digest is then
  * zero-padded to 21 bytes and used as three separate 56-bit DES keys.
  *
  * For constructing the authenticator response, the MD4 digest is then
  * used as an input to a SHA-1 digest along with the NT response and a
  * magic constant.
  */
 union mschapv2_password_hash {
 	/** MD4 digest */
 	uint8_t md4[MD4_DIGEST_SIZE];
 	/** SHA-1 digest */
 	uint8_t sha1[SHA1_DIGEST_SIZE];
 	/** DES keys */
 	uint8_t des[3][DES_BLOCKSIZE];
 	/** DES key expansion */
 	uint8_t expand[ 3 * DES_BLOCKSIZE ];
 };

 /** MS-CHAPv2 magic constant 1 */
 static const char mschapv2_magic1[39] =
 	"Magic server to client signing constant";

 /** MS-CHAPv2 magic constant 2 */
 static const char mschapv2_magic2[41] =
 	"Pad to make it do more than one iteration";

 /**
  * Calculate MS-CHAPv2 challenge hash
  *
  * @v ctx		Context block
  * @v challenge		Authenticator challenge
  * @v peer		Peer challenge
  * @v username		User name (or NULL to use empty string)
  * @v chash		Challenge hash to fill in
  *
  * This is the ChallengeHash() function as documented in RFC 2759
  * section 8.2.
  */
 static void
 mschapv2_challenge_hash ( union mschapv2_context *ctx,
 			  const struct mschapv2_challenge *challenge,
 			  const struct mschapv2_challenge *peer,
 			  const char *username,
 			  union mschapv2_challenge_hash *chash ) {
 	struct digest_algorithm *sha1 = &sha1_algorithm;

 	/* Calculate SHA-1 hash of challenges and username */
 	digest_init ( sha1, ctx->sha1 );
 	digest_update ( sha1, ctx->sha1, peer, sizeof ( *peer ) );
 	digest_update ( sha1, ctx->sha1, challenge, sizeof ( *challenge ) );
 	if ( username ) {
 		digest_update ( sha1, ctx->sha1, username,
 				strlen ( username ) );
 	}
 	digest_final ( sha1, ctx->sha1, chash->sha1 );
 	DBGC ( ctx, "MSCHAPv2 authenticator challenge:\n" );
 	DBGC_HDA ( ctx, 0, challenge, sizeof ( *challenge ) );
 	DBGC ( ctx, "MSCHAPv2 peer challenge:\n" );
 	DBGC_HDA ( ctx, 0, peer, sizeof ( *peer ) );
 	DBGC ( ctx, "MSCHAPv2 challenge hash:\n" );
 	DBGC_HDA ( ctx, 0, chash->des, sizeof ( chash->des ) );
 }

 /**
  * Calculate MS-CHAPv2 password hash
  *
  * @v ctx		Context block
  * @v password		Password (or NULL to use empty string)
  * @v phash		Password hash to fill in
  *
  * This is the NtPasswordHash() function as documented in RFC 2759
  * section 8.3.
  */
 static void mschapv2_password_hash ( union mschapv2_context *ctx,
 				     const char *password,
 				     union mschapv2_password_hash *phash ) {
 	struct digest_algorithm *md4 = &md4_algorithm;
 	uint16_t wc;
 	uint8_t c;

 	/* Construct zero-padded MD4 hash of encoded password */
 	memset ( phash, 0, sizeof ( *phash ) );
 	digest_init ( md4, ctx->md4 );
 	if ( password ) {
 		while ( ( c = *(password++) ) ) {
 			wc = cpu_to_le16 ( c );
 			digest_update ( md4, ctx->md4, &wc, sizeof ( wc ) );
 		}
 	}
 	digest_final ( md4, ctx->md4, phash->md4 );
 	DBGC ( ctx, "MSCHAPv2 password hash:\n" );
 	DBGC_HDA ( ctx, 0, phash->md4, sizeof ( phash->md4 ) );
 }

 /**
  * Hash the MS-CHAPv2 password hash
  *
  * @v ctx		Context block
  * @v phash		Password hash to be rehashed
  *
  * This is the HashNtPasswordHash() function as documented in RFC 2759
  * section 8.4.
  */
 static void mschapv2_hash_hash ( union mschapv2_context *ctx,
 				 union mschapv2_password_hash *phash ) {
 	struct digest_algorithm *md4 = &md4_algorithm;

 	/* Calculate MD4 hash of existing MD4 hash */
 	digest_init ( md4, ctx->md4 );
 	digest_update ( md4, ctx->md4, phash->md4, sizeof ( phash->md4 ) );
 	digest_final ( md4, ctx->md4, phash->md4 );
 	DBGC ( ctx, "MSCHAPv2 password hash hash:\n" );
 	DBGC_HDA ( ctx, 0, phash->md4, sizeof ( phash->md4 ) );
 }

 /**
  * Expand MS-CHAPv2 password hash by inserting DES dummy parity bits
  *
  * @v ctx		Context block
  * @v phash		Password hash to expand
  *
  * This is part of the DesEncrypt() function as documented in RFC 2759
  * section 8.6.
  */
 static void mschapv2_expand_hash ( union mschapv2_context *ctx,
 				   union mschapv2_password_hash *phash ) {
 	uint8_t *dst;
 	uint8_t *src;
 	unsigned int i;

 	/* Expand password hash by inserting (unused) DES parity bits */
 	for ( i = ( sizeof ( phash->expand ) - 1 ) ; i > 0 ; i-- ) {
 		dst = &phash->expand[i];
 		src = ( dst - ( i / 8 ) );
 		*dst = ( ( ( src[-1] << 8 ) | src[0] ) >> ( i % 8 ) );
 	}
 	DBGC ( ctx, "MSCHAPv2 expanded password hash:\n" );
 	DBGC_HDA ( ctx, 0, phash->expand, sizeof ( phash->expand ) );
 }

 /**
  * Calculate MS-CHAPv2 challenge response
  *
  * @v ctx		Context block
  * @v chash		Challenge hash
  * @v phash		Password hash (after expansion)
  * @v nt		NT response to fill in
  *
  * This is the ChallengeResponse() function as documented in RFC 2759
  * section 8.5.
  */
 static void
 mschapv2_challenge_response ( union mschapv2_context *ctx,
 			      const union mschapv2_challenge_hash *chash,
 			      const union mschapv2_password_hash *phash,
 			      struct mschapv2_nt_response *nt ) {
 	struct cipher_algorithm *des = &des_algorithm;
 	unsigned int i;
 	int rc;

 	/* Construct response.  The design of the algorithm here is
 	 * interesting, suggesting that an intern at Microsoft had
 	 * heard the phrase "Triple DES" and hazarded a blind guess at
 	 * what it might mean.
 	 */
 	for ( i = 0 ; i < ( sizeof ( phash->des ) /
 			    sizeof ( phash->des[0] ) ) ; i++ ) {
 		rc = cipher_setkey ( des, ctx->des, phash->des[i],
 				     sizeof ( phash->des[i] ) );
 		assert ( rc == 0 ); /* no failure mode exists */
 		cipher_encrypt ( des, ctx->des, chash->des, nt->block[i],
 				 sizeof ( chash->des ) );
 	}
 	DBGC ( ctx, "MSCHAPv2 NT response:\n" );
 	DBGC_HDA ( ctx, 0, nt, sizeof ( *nt ) );
 }

 /**
  * Calculate MS-CHAPv2 challenge response
  *
  * @v username		User name (or NULL to use empty string)
  * @v password		Password (or NULL to use empty string)
  * @v challenge		Authenticator challenge
  * @v peer		Peer challenge
  * @v response		Challenge response to fill in
  *
  * This is essentially the GenerateNTResponse() function as documented
  * in RFC 2759 section 8.1.
  */
 void mschapv2_response ( const char *username, const char *password,
 			 const struct mschapv2_challenge *challenge,
 			 const struct mschapv2_challenge *peer,
 			 struct mschapv2_response *response ) {
 	union mschapv2_context ctx;
 	union mschapv2_challenge_hash chash;
 	union mschapv2_password_hash phash;

 	/* Zero reserved fields */
 	memset ( response, 0, sizeof ( *response ) );

 	/* Copy peer challenge to response */
 	memcpy ( &response->peer, peer, sizeof ( response->peer ) );

 	/* Construct challenge hash */
 	mschapv2_challenge_hash ( &ctx, challenge, peer, username, &chash );

 	/* Construct expanded password hash */
 	mschapv2_password_hash ( &ctx, password, &phash );
 	mschapv2_expand_hash ( &ctx, &phash );

 	/* Construct NT response */
 	mschapv2_challenge_response ( &ctx, &chash, &phash, &response->nt );
 	DBGC ( &ctx, "MSCHAPv2 challenge response:\n" );
 	DBGC_HDA ( &ctx, 0, response, sizeof ( *response ) );
 }

 /**
  * Calculate MS-CHAPv2 authenticator response
  *
  * @v username		User name (or NULL to use empty string)
  * @v password		Password (or NULL to use empty string)
  * @v challenge		Authenticator challenge
  * @v response		Challenge response
  * @v auth		Authenticator response to fill in
  *
  * This is essentially the GenerateAuthenticatorResponse() function as
  * documented in RFC 2759 section 8.7.
  */
 void mschapv2_auth ( const char *username, const char *password,
 		     const struct mschapv2_challenge *challenge,
 		     const struct mschapv2_response *response,
 		     struct mschapv2_auth *auth ) {
 	struct digest_algorithm *sha1 = &sha1_algorithm;
 	union mschapv2_context ctx;
 	union mschapv2_challenge_hash chash;
 	union mschapv2_password_hash phash;
 	char tmp[3];
 	char *wtf;
 	unsigned int i;

 	/* Construct hash of password hash */
 	mschapv2_password_hash ( &ctx, password, &phash );
 	mschapv2_hash_hash ( &ctx, &phash );

 	/* Construct unnamed intermediate hash */
 	digest_init ( sha1, ctx.sha1 );
 	digest_update ( sha1, ctx.sha1, phash.md4, sizeof ( phash.md4 ) );
 	digest_update ( sha1, ctx.sha1, &response->nt,
 			sizeof ( response->nt ) );
 	digest_update ( sha1, ctx.sha1, mschapv2_magic1,
 			sizeof ( mschapv2_magic1 ) );
 	digest_final ( sha1, ctx.sha1, phash.sha1 );
 	DBGC ( &ctx, "MSCHAPv2 NT response:\n" );
 	DBGC_HDA ( &ctx, 0, &response->nt, sizeof ( response->nt ) );
 	DBGC ( &ctx, "MSCHAPv2 unnamed intermediate hash:\n" );
 	DBGC_HDA ( &ctx, 0, phash.sha1, sizeof ( phash.sha1 ) );

 	/* Construct challenge hash */
 	mschapv2_challenge_hash ( &ctx, challenge, &response->peer,
 				  username, &chash );

 	/* Construct authenticator response hash */
 	digest_init ( sha1, ctx.sha1 );
 	digest_update ( sha1, ctx.sha1, phash.sha1, sizeof ( phash.sha1 ) );
 	digest_update ( sha1, ctx.sha1, chash.des, sizeof ( chash.des ) );
 	digest_update ( sha1, ctx.sha1, mschapv2_magic2,
 			sizeof ( mschapv2_magic2 ) );
 	digest_final ( sha1, ctx.sha1, phash.sha1 );
 	DBGC ( &ctx, "MSCHAPv2 authenticator response hash:\n" );
 	DBGC_HDA ( &ctx, 0, phash.sha1, sizeof ( phash.sha1 ) );

 	/* Encode authenticator response hash */
 	wtf = auth->wtf;
 	*(wtf++) = 'S';
 	*(wtf++) = '=';
 	DBGC ( &ctx, "MSCHAPv2 authenticator response: S=" );
 	for ( i = 0 ; i < sizeof ( phash.sha1 ) ; i++ ) {
 		snprintf ( tmp, sizeof ( tmp ), "%02X", phash.sha1[i] );
 		*(wtf++) = tmp[0];
 		*(wtf++) = tmp[1];
 		DBGC ( &ctx, "%s", tmp );
 	}
 	DBGC ( &ctx, "\n" );
 }
	/*
	* Copyright (C) 2024 Michael Brown <mbrown@fensystems.co.uk>.
	*
	* This program is free software; you can redistribute it and/or
	* modify it under the terms of the GNU General Public License as
	* published by the Free Software Foundation; either version 2 of the
	* License, or any later version.
	*
	* This program is distributed in the hope that it will be useful, but
	* WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
	* 02110-1301, USA.
	*
	* You can also choose to distribute this program under the terms of
	* the Unmodified Binary Distribution Licence (as given in the file
	* COPYING.UBDL), provided that you have satisfied its requirements.
	*/

	FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

	/** @file
	*
	* MS-CHAPv2 authentication
	*
	* The algorithms used for MS-CHAPv2 authentication are defined in
	* RFC 2759 section 8.
	*/

	#include <stdio.h>
	#include <string.h>
	#include <byteswap.h>
	#include <ipxe/md4.h>
	#include <ipxe/sha1.h>
	#include <ipxe/des.h>
	#include <ipxe/mschapv2.h>

	/**
	* MS-CHAPv2 context block
	*
	* For no particularly discernible reason, MS-CHAPv2 uses two
	* different digest algorithms and one block cipher. The uses do not
	* overlap, so share the context storage between these to reduce stack
	* usage.
	*/
	union mschapv2_context {
	/** SHA-1 digest context */
	uint8_t sha1[SHA1_CTX_SIZE];
	/** MD4 digest context */
	uint8_t md4[MD4_CTX_SIZE];
	/** DES cipher context */
	uint8_t des[DES_CTX_SIZE];
	};

	/**
	* MS-CHAPv2 challenge hash
	*
	* MS-CHAPv2 calculates the SHA-1 digest of the peer challenge, the
	* authenticator challenge, and the username, and then uses only the
	* first 8 bytes of the result (as a DES plaintext block).
	*/
	union mschapv2_challenge_hash {
	/** SHA-1 digest */
	uint8_t sha1[SHA1_DIGEST_SIZE];
	/** DES plaintext block */
	uint8_t des[DES_BLOCKSIZE];
	};

	/**
	* MS-CHAPv2 password hash
	*
	* MS-CHAPv2 calculates the MD4 digest of an unspecified two-byte
	* little-endian Unicode encoding (presumably either UCS-2LE or
	* UTF-16LE) of the password.
	*
	* For constructing the challenge response, the MD4 digest is then
	* zero-padded to 21 bytes and used as three separate 56-bit DES keys.
	*
	* For constructing the authenticator response, the MD4 digest is then
	* used as an input to a SHA-1 digest along with the NT response and a
	* magic constant.
	*/
	union mschapv2_password_hash {
	/** MD4 digest */
	uint8_t md4[MD4_DIGEST_SIZE];
	/** SHA-1 digest */
	uint8_t sha1[SHA1_DIGEST_SIZE];
	/** DES keys */
	uint8_t des[3][DES_BLOCKSIZE];
	/** DES key expansion */
	uint8_t expand[ 3 * DES_BLOCKSIZE ];
	};

	/** MS-CHAPv2 magic constant 1 */
	static const char mschapv2_magic1[39] =
	"Magic server to client signing constant";

	/** MS-CHAPv2 magic constant 2 */
	static const char mschapv2_magic2[41] =
	"Pad to make it do more than one iteration";

	/**
	* Calculate MS-CHAPv2 challenge hash
	*
	* @v ctx Context block
	* @v challenge Authenticator challenge
	* @v peer Peer challenge
	* @v username User name (or NULL to use empty string)
	* @v chash Challenge hash to fill in
	*
	* This is the ChallengeHash() function as documented in RFC 2759
	* section 8.2.
	*/
	static void
	mschapv2_challenge_hash ( union mschapv2_context *ctx,
	const struct mschapv2_challenge *challenge,
	const struct mschapv2_challenge *peer,
	const char *username,
	union mschapv2_challenge_hash *chash ) {
	struct digest_algorithm *sha1 = &sha1_algorithm;

	/* Calculate SHA-1 hash of challenges and username */
	digest_init ( sha1, ctx->sha1 );
	digest_update ( sha1, ctx->sha1, peer, sizeof ( *peer ) );
	digest_update ( sha1, ctx->sha1, challenge, sizeof ( *challenge ) );
	if ( username ) {
	digest_update ( sha1, ctx->sha1, username,
	strlen ( username ) );
	}
	digest_final ( sha1, ctx->sha1, chash->sha1 );
	DBGC ( ctx, "MSCHAPv2 authenticator challenge:\n" );
	DBGC_HDA ( ctx, 0, challenge, sizeof ( *challenge ) );
	DBGC ( ctx, "MSCHAPv2 peer challenge:\n" );
	DBGC_HDA ( ctx, 0, peer, sizeof ( *peer ) );
	DBGC ( ctx, "MSCHAPv2 challenge hash:\n" );
	DBGC_HDA ( ctx, 0, chash->des, sizeof ( chash->des ) );
	}

	/**
	* Calculate MS-CHAPv2 password hash
	*
	* @v ctx Context block
	* @v password Password (or NULL to use empty string)
	* @v phash Password hash to fill in
	*
	* This is the NtPasswordHash() function as documented in RFC 2759
	* section 8.3.
	*/
	static void mschapv2_password_hash ( union mschapv2_context *ctx,
	const char *password,
	union mschapv2_password_hash *phash ) {
	struct digest_algorithm *md4 = &md4_algorithm;
	uint16_t wc;
	uint8_t c;

	/* Construct zero-padded MD4 hash of encoded password */
	memset ( phash, 0, sizeof ( *phash ) );
	digest_init ( md4, ctx->md4 );
	if ( password ) {
	while ( ( c = *(password++) ) ) {
	wc = cpu_to_le16 ( c );
	digest_update ( md4, ctx->md4, &wc, sizeof ( wc ) );
	}
	}
	digest_final ( md4, ctx->md4, phash->md4 );
	DBGC ( ctx, "MSCHAPv2 password hash:\n" );
	DBGC_HDA ( ctx, 0, phash->md4, sizeof ( phash->md4 ) );
	}

	/**
	* Hash the MS-CHAPv2 password hash
	*
	* @v ctx Context block
	* @v phash Password hash to be rehashed
	*
	* This is the HashNtPasswordHash() function as documented in RFC 2759
	* section 8.4.
	*/
	static void mschapv2_hash_hash ( union mschapv2_context *ctx,
	union mschapv2_password_hash *phash ) {
	struct digest_algorithm *md4 = &md4_algorithm;

	/* Calculate MD4 hash of existing MD4 hash */
	digest_init ( md4, ctx->md4 );
	digest_update ( md4, ctx->md4, phash->md4, sizeof ( phash->md4 ) );
	digest_final ( md4, ctx->md4, phash->md4 );
	DBGC ( ctx, "MSCHAPv2 password hash hash:\n" );
	DBGC_HDA ( ctx, 0, phash->md4, sizeof ( phash->md4 ) );
	}

	/**
	* Expand MS-CHAPv2 password hash by inserting DES dummy parity bits
	*
	* @v ctx Context block
	* @v phash Password hash to expand
	*
	* This is part of the DesEncrypt() function as documented in RFC 2759
	* section 8.6.
	*/
	static void mschapv2_expand_hash ( union mschapv2_context *ctx,
	union mschapv2_password_hash *phash ) {
	uint8_t *dst;
	uint8_t *src;
	unsigned int i;

	/* Expand password hash by inserting (unused) DES parity bits */
	for ( i = ( sizeof ( phash->expand ) - 1 ) ; i > 0 ; i-- ) {
	dst = &phash->expand[i];
	src = ( dst - ( i / 8 ) );
	*dst = ( ( ( src[-1] << 8 ) \| src[0] ) >> ( i % 8 ) );
	}
	DBGC ( ctx, "MSCHAPv2 expanded password hash:\n" );
	DBGC_HDA ( ctx, 0, phash->expand, sizeof ( phash->expand ) );
	}

	/**
	* Calculate MS-CHAPv2 challenge response
	*
	* @v ctx Context block
	* @v chash Challenge hash
	* @v phash Password hash (after expansion)
	* @v nt NT response to fill in
	*
	* This is the ChallengeResponse() function as documented in RFC 2759
	* section 8.5.
	*/
	static void
	mschapv2_challenge_response ( union mschapv2_context *ctx,
	const union mschapv2_challenge_hash *chash,
	const union mschapv2_password_hash *phash,
	struct mschapv2_nt_response *nt ) {
	struct cipher_algorithm *des = &des_algorithm;
	unsigned int i;
	int rc;

	/* Construct response. The design of the algorithm here is
	* interesting, suggesting that an intern at Microsoft had
	* heard the phrase "Triple DES" and hazarded a blind guess at
	* what it might mean.
	*/
	for ( i = 0 ; i < ( sizeof ( phash->des ) /
	sizeof ( phash->des[0] ) ) ; i++ ) {
	rc = cipher_setkey ( des, ctx->des, phash->des[i],
	sizeof ( phash->des[i] ) );
	assert ( rc == 0 ); /* no failure mode exists */
	cipher_encrypt ( des, ctx->des, chash->des, nt->block[i],
	sizeof ( chash->des ) );
	}
	DBGC ( ctx, "MSCHAPv2 NT response:\n" );
	DBGC_HDA ( ctx, 0, nt, sizeof ( *nt ) );
	}

	/**
	* Calculate MS-CHAPv2 challenge response
	*
	* @v username User name (or NULL to use empty string)
	* @v password Password (or NULL to use empty string)
	* @v challenge Authenticator challenge
	* @v peer Peer challenge
	* @v response Challenge response to fill in
	*
	* This is essentially the GenerateNTResponse() function as documented
	* in RFC 2759 section 8.1.
	*/
	void mschapv2_response ( const char username, const char password,
	const struct mschapv2_challenge *challenge,
	const struct mschapv2_challenge *peer,
	struct mschapv2_response *response ) {
	union mschapv2_context ctx;
	union mschapv2_challenge_hash chash;
	union mschapv2_password_hash phash;

	/* Zero reserved fields */
	memset ( response, 0, sizeof ( *response ) );

	/* Copy peer challenge to response */
	memcpy ( &response->peer, peer, sizeof ( response->peer ) );

	/* Construct challenge hash */
	mschapv2_challenge_hash ( &ctx, challenge, peer, username, &chash );

	/* Construct expanded password hash */
	mschapv2_password_hash ( &ctx, password, &phash );
	mschapv2_expand_hash ( &ctx, &phash );

	/* Construct NT response */
	mschapv2_challenge_response ( &ctx, &chash, &phash, &response->nt );
	DBGC ( &ctx, "MSCHAPv2 challenge response:\n" );
	DBGC_HDA ( &ctx, 0, response, sizeof ( *response ) );
	}

	/**
	* Calculate MS-CHAPv2 authenticator response
	*
	* @v username User name (or NULL to use empty string)
	* @v password Password (or NULL to use empty string)
	* @v challenge Authenticator challenge
	* @v response Challenge response
	* @v auth Authenticator response to fill in
	*
	* This is essentially the GenerateAuthenticatorResponse() function as
	* documented in RFC 2759 section 8.7.
	*/
	void mschapv2_auth ( const char username, const char password,
	const struct mschapv2_challenge *challenge,
	const struct mschapv2_response *response,
	struct mschapv2_auth *auth ) {
	struct digest_algorithm *sha1 = &sha1_algorithm;
	union mschapv2_context ctx;
	union mschapv2_challenge_hash chash;
	union mschapv2_password_hash phash;
	char tmp[3];
	char *wtf;
	unsigned int i;

	/* Construct hash of password hash */
	mschapv2_password_hash ( &ctx, password, &phash );
	mschapv2_hash_hash ( &ctx, &phash );

	/* Construct unnamed intermediate hash */
	digest_init ( sha1, ctx.sha1 );
	digest_update ( sha1, ctx.sha1, phash.md4, sizeof ( phash.md4 ) );
	digest_update ( sha1, ctx.sha1, &response->nt,
	sizeof ( response->nt ) );
	digest_update ( sha1, ctx.sha1, mschapv2_magic1,
	sizeof ( mschapv2_magic1 ) );
	digest_final ( sha1, ctx.sha1, phash.sha1 );
	DBGC ( &ctx, "MSCHAPv2 NT response:\n" );
	DBGC_HDA ( &ctx, 0, &response->nt, sizeof ( response->nt ) );
	DBGC ( &ctx, "MSCHAPv2 unnamed intermediate hash:\n" );
	DBGC_HDA ( &ctx, 0, phash.sha1, sizeof ( phash.sha1 ) );

	/* Construct challenge hash */
	mschapv2_challenge_hash ( &ctx, challenge, &response->peer,
	username, &chash );

	/* Construct authenticator response hash */
	digest_init ( sha1, ctx.sha1 );
	digest_update ( sha1, ctx.sha1, phash.sha1, sizeof ( phash.sha1 ) );
	digest_update ( sha1, ctx.sha1, chash.des, sizeof ( chash.des ) );
	digest_update ( sha1, ctx.sha1, mschapv2_magic2,
	sizeof ( mschapv2_magic2 ) );
	digest_final ( sha1, ctx.sha1, phash.sha1 );
	DBGC ( &ctx, "MSCHAPv2 authenticator response hash:\n" );
	DBGC_HDA ( &ctx, 0, phash.sha1, sizeof ( phash.sha1 ) );

	/* Encode authenticator response hash */
	wtf = auth->wtf;
	*(wtf++) = 'S';
	*(wtf++) = '=';
	DBGC ( &ctx, "MSCHAPv2 authenticator response: S=" );
	for ( i = 0 ; i < sizeof ( phash.sha1 ) ; i++ ) {
	snprintf ( tmp, sizeof ( tmp ), "%02X", phash.sha1[i] );
	*(wtf++) = tmp[0];
	*(wtf++) = tmp[1];
	DBGC ( &ctx, "%s", tmp );
	}
	DBGC ( &ctx, "\n" );
	}