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457 lines
10 KiB
C
457 lines
10 KiB
C
/**
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ssl_rec.c
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Copyright (C) 1999-2000 RTFM, Inc.
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All Rights Reserved
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This package is a SSLv3/TLS protocol analyzer written by Eric Rescorla
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<ekr@rtfm.com> and licensed by RTFM, Inc.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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1. Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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3. All advertising materials mentioning features or use of this software
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must display the following acknowledgement:
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This product includes software developed by Eric Rescorla for
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RTFM, Inc.
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4. Neither the name of RTFM, Inc. nor the name of Eric Rescorla may be
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used to endorse or promote products derived from this
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software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY ERIC RESCORLA AND RTFM, INC. ``AS IS'' AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY SUCH DAMAGE.
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$Id: ssl_rec.c,v 1.3 2000/11/03 06:38:06 ekr Exp $
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ekr@rtfm.com Wed Aug 18 15:46:57 1999
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*/
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static char *RCSSTRING="$Id: ssl_rec.c,v 1.3 2000/11/03 06:38:06 ekr Exp $";
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#include "network.h"
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#include "ssl_h.h"
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#include "sslprint.h"
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#include "ssl.enums.h"
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#ifdef OPENSSL
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#include <openssl/ssl.h>
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#include <openssl/hmac.h>
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#include <openssl/evp.h>
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#endif
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#include "ssldecode.h"
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#include "ssl_rec.h"
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struct ssl_rec_decoder_ {
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SSL_CipherSuite *cs;
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Data *mac_key;
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Data *implicit_iv; /* for AEAD ciphers */
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Data *write_key; /* for AEAD ciphers */
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#ifdef OPENSSL
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EVP_CIPHER_CTX *evp;
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#endif
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UINT4 seq;
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};
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char *digests[]={
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"MD5",
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"SHA1",
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"SHA224",
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"SHA256",
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"SHA384",
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"SHA512",
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NULL
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};
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char *ciphers[]={
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"DES",
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"3DES",
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"RC4",
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"RC2",
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"IDEA",
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"AES128",
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"AES256",
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"CAMELLIA128",
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"CAMELLIA256",
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"SEED",
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NULL,
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"aes-128-gcm",
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"aes-256-gcm"
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};
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static int tls_check_mac PROTO_LIST((ssl_rec_decoder *d,int ct,
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int ver,UCHAR *data,UINT4 datalen,UCHAR *iv,UINT4 ivlen,UCHAR *mac));
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static int fmt_seq PROTO_LIST((UINT4 num,UCHAR *buf));
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int ssl_create_rec_decoder(dp,cs,mk,sk,iv)
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ssl_rec_decoder **dp;
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SSL_CipherSuite *cs;
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UCHAR *mk;
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UCHAR *sk;
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UCHAR *iv;
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{
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int r,_status;
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ssl_rec_decoder *dec=0;
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#ifdef OPENSSL
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const EVP_CIPHER *ciph=0;
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/* Find the SSLeay cipher */
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if(cs->enc!=ENC_NULL){
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ciph=(EVP_CIPHER *)EVP_get_cipherbyname(ciphers[cs->enc-0x30]);
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if(!ciph)
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ABORT(R_INTERNAL);
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}
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else {
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ciph=EVP_enc_null();
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}
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if(!(dec=(ssl_rec_decoder *)calloc(1,sizeof(ssl_rec_decoder))))
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ABORT(R_NO_MEMORY);
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dec->cs=cs;
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if(r=r_data_alloc(&dec->mac_key,cs->dig_len))
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ABORT(r);
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if(r=r_data_alloc(&dec->implicit_iv,cs->block))
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ABORT(r);
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memcpy(dec->implicit_iv->data,iv,cs->block);
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if(r=r_data_create(&dec->write_key,sk,cs->eff_bits/8))
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ABORT(r);
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/*
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This is necessary for AEAD ciphers, because we must wait to fully initialize the cipher
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in order to include the implicit IV
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*/
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if(IS_AEAD_CIPHER(cs)){
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sk=NULL;
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iv=NULL;
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}
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else
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memcpy(dec->mac_key->data,mk,cs->dig_len);
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if(!(dec->evp=EVP_CIPHER_CTX_new()))
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ABORT(R_NO_MEMORY);
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EVP_CIPHER_CTX_init(dec->evp);
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EVP_CipherInit(dec->evp,ciph,sk,iv,0);
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#endif
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*dp=dec;
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_status=0;
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abort:
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if(_status){
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ssl_destroy_rec_decoder(&dec);
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}
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return(_status);
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}
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int ssl_destroy_rec_decoder(dp)
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ssl_rec_decoder **dp;
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{
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ssl_rec_decoder *d;
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if(!dp || !*dp)
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return(0);
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d=*dp;
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r_data_destroy(&d->mac_key);
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r_data_destroy(&d->implicit_iv);
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r_data_destroy(&d->write_key);
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#ifdef OPENSSL
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if(d->evp){
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EVP_CIPHER_CTX_free(d->evp);
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}
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free(*dp);
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#endif
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*dp=0;
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return(0);
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}
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#define MSB(a) ((a>>8)&0xff)
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#define LSB(a) (a&0xff)
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int ssl_decode_rec_data(ssl,d,ct,version,in,inl,out,outl)
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ssl_obj *ssl;
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ssl_rec_decoder *d;
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int ct;
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int version;
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UCHAR *in;
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int inl;
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UCHAR *out;
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int *outl;
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{
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#ifdef OPENSSL
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int pad;
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int r,encpadl,x;
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UCHAR *mac,*iv,aead_tag[13],aead_nonce[12];
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CRDUMP("Ciphertext",in,inl);
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if(IS_AEAD_CIPHER(d->cs)){
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memcpy(aead_nonce,d->implicit_iv->data,d->implicit_iv->len);
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memcpy(aead_nonce+d->implicit_iv->len,in,12-d->implicit_iv->len);
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in+=12-d->implicit_iv->len;
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inl-=12-d->implicit_iv->len;
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EVP_DecryptInit(d->evp,
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NULL,
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d->write_key->data,
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aead_nonce);
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/*
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Then tag is always 16 bytes, as per:
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https://tools.ietf.org/html/rfc5116#section-5.2
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*/
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EVP_CIPHER_CTX_ctrl(d->evp,EVP_CTRL_GCM_SET_TAG,16,in+(inl-16));
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inl-=16;
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fmt_seq(d->seq,aead_tag);
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d->seq++;
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aead_tag[8]=ct;
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aead_tag[9]=MSB(version);
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aead_tag[10]=LSB(version);
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aead_tag[11]=MSB(inl);
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aead_tag[12]=LSB(inl);
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EVP_DecryptUpdate(d->evp,NULL,outl,aead_tag,13);
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EVP_DecryptUpdate(d->evp,out,outl,in,inl);
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if (!(x=EVP_DecryptFinal(d->evp,NULL,&x)))
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ERETURN(SSL_BAD_MAC);
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}
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/*
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Encrypt-then-MAC is not used with AEAD ciphers, as per:
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https://tools.ietf.org/html/rfc7366#section-3
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*/
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else if(ssl->extensions->encrypt_then_mac==2){
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*outl=inl;
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/* First strip off the MAC */
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*outl-=d->cs->dig_len;
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mac=in+(*outl);
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encpadl=*outl;
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/* Now decrypt */
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EVP_Cipher(d->evp,out,in,*outl);
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CRDUMP("Plaintext",out,*outl);
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/* And then strip off the padding*/
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if(d->cs->block>1){
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pad=out[*outl-1];
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*outl-=(pad+1);
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}
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/* TLS 1.1 and beyond: remove explicit IV, only used with
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* non-stream ciphers. */
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if (ssl->version>=0x0302 && ssl->cs->block > 1) {
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UINT4 blk = ssl->cs->block;
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if (blk <= *outl) {
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*outl-=blk;
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memmove(out, out+blk, *outl);
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}
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else {
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DBG((0,"Block size greater than Plaintext!"));
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ERETURN(SSL_BAD_MAC);
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}
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if(r=tls_check_mac(d,ct,version,in+blk,encpadl,in,blk,mac))
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ERETURN(r);
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}
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else
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if(r=tls_check_mac(d,ct,version,in,encpadl,NULL,0,mac))
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ERETURN(r);
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}
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else {
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/* First decrypt*/
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EVP_Cipher(d->evp,out,in,inl);
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CRDUMP("Plaintext",out,inl);
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*outl=inl;
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/* Now strip off the padding*/
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if(d->cs->block>1){
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pad=out[inl-1];
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*outl-=(pad+1);
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}
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/* And the MAC */
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*outl-=d->cs->dig_len;
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mac=out+(*outl);
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CRDUMP("Record data",out,*outl);
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/* Now check the MAC */
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if(ssl->version==0x300){
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if(r=ssl3_check_mac(d,ct,version,out,*outl,mac))
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ERETURN(r);
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}
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else{
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/* TLS 1.1 and beyond: remove explicit IV, only used with
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* non-stream ciphers. */
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if (ssl->version>=0x0302 && ssl->cs->block > 1) {
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UINT4 blk = ssl->cs->block;
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if (blk <= *outl) {
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*outl-=blk;
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memmove(out, out+blk, *outl);
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}
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else {
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DBG((0,"Block size greater than Plaintext!"));
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ERETURN(SSL_BAD_MAC);
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}
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}
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if(r=tls_check_mac(d,ct,version,out,*outl,NULL,0,mac))
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ERETURN(r);
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}
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}
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#endif
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return(0);
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}
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#ifdef OPENSSL
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/* This should go to 2^128, but we're never really going to see
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more than 2^64, so we cheat*/
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static int fmt_seq(num,buf)
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UINT4 num;
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UCHAR *buf;
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{
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UINT4 netnum;
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memset(buf,0,8);
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netnum=htonl(num);
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memcpy(buf+4,&netnum,4);
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return(0);
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}
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static int tls_check_mac(d,ct,ver,data,datalen,iv,ivlen,mac)
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ssl_rec_decoder *d;
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int ct;
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int ver;
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UCHAR *data;
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UINT4 datalen;
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UCHAR *iv;
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UINT4 ivlen;
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UCHAR *mac;
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{
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HMAC_CTX *hm = HMAC_CTX_new();
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if(!hm)
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ERETURN(R_NO_MEMORY);
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const EVP_MD *md;
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UINT4 l;
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UCHAR buf[128];
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md=EVP_get_digestbyname(digests[d->cs->dig-0x40]);
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HMAC_Init(hm,d->mac_key->data,d->mac_key->len,md);
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fmt_seq(d->seq,buf);
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d->seq++;
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HMAC_Update(hm,buf,8);
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buf[0]=ct;
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HMAC_Update(hm,buf,1);
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buf[0]=MSB(ver);
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buf[1]=LSB(ver);
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HMAC_Update(hm,buf,2);
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buf[0]=MSB(datalen);
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buf[1]=LSB(datalen);
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HMAC_Update(hm,buf,2);
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/* for encrypt-then-mac with an explicit IV */
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if(ivlen && iv){
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HMAC_Update(hm,iv,ivlen);
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HMAC_Update(hm,data,datalen-ivlen);
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}
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else
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HMAC_Update(hm,data,datalen);
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HMAC_Final(hm,buf,&l);
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if(memcmp(mac,buf,l))
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ERETURN(SSL_BAD_MAC);
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HMAC_CTX_free(hm);
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return(0);
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}
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int ssl3_check_mac(d,ct,ver,data,datalen,mac)
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ssl_rec_decoder *d;
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int ct;
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int ver;
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UCHAR *data;
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UINT4 datalen;
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UCHAR *mac;
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{
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EVP_MD_CTX *mc = EVP_MD_CTX_new();
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const EVP_MD *md;
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UINT4 l;
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UCHAR buf[64],dgst[20];
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int pad_ct;
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pad_ct=(d->cs->dig==DIG_SHA)?40:48;
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md=EVP_get_digestbyname(digests[d->cs->dig-0x40]);
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EVP_DigestInit(mc,md);
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EVP_DigestUpdate(mc,d->mac_key->data,d->mac_key->len);
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memset(buf,0x36,pad_ct);
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EVP_DigestUpdate(mc,buf,pad_ct);
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fmt_seq(d->seq,buf);
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d->seq++;
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EVP_DigestUpdate(mc,buf,8);
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buf[0]=ct;
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EVP_DigestUpdate(mc,buf,1);
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buf[0]=MSB(datalen);
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buf[1]=LSB(datalen);
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EVP_DigestUpdate(mc,buf,2);
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EVP_DigestUpdate(mc,data,datalen);
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EVP_DigestFinal(mc,dgst,&l);
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EVP_DigestInit(mc,md);
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EVP_DigestUpdate(mc,d->mac_key->data,d->mac_key->len);
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memset(buf,0x5c,pad_ct);
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EVP_DigestUpdate(mc,buf,pad_ct);
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EVP_DigestUpdate(mc,dgst,l);
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EVP_DigestFinal(mc,dgst,&l);
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if(memcmp(mac,dgst,l))
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ERETURN(SSL_BAD_MAC);
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EVP_MD_CTX_free(mc);
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return(0);
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}
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#endif
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