openssl/ssl/ssl_ciph.c

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/* ssl/ssl_ciph.c */
/* Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com)
* All rights reserved.
*
* This package is an SSL implementation written
* by Eric Young (eay@cryptsoft.com).
* The implementation was written so as to conform with Netscapes SSL.
*
* This library is free for commercial and non-commercial use as long as
* the following conditions are aheared to. The following conditions
* apply to all code found in this distribution, be it the RC4, RSA,
* lhash, DES, etc., code; not just the SSL code. The SSL documentation
* included with this distribution is covered by the same copyright terms
* except that the holder is Tim Hudson (tjh@cryptsoft.com).
*
* Copyright remains Eric Young's, and as such any Copyright notices in
* the code are not to be removed.
* If this package is used in a product, Eric Young should be given attribution
* as the author of the parts of the library used.
* This can be in the form of a textual message at program startup or
* in documentation (online or textual) provided with the package.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* "This product includes cryptographic software written by
* Eric Young (eay@cryptsoft.com)"
* The word 'cryptographic' can be left out if the rouines from the library
* being used are not cryptographic related :-).
* 4. If you include any Windows specific code (or a derivative thereof) from
* the apps directory (application code) you must include an acknowledgement:
* "This product includes software written by Tim Hudson (tjh@cryptsoft.com)"
*
* THIS SOFTWARE IS PROVIDED BY ERIC YOUNG ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* The licence and distribution terms for any publically available version or
* derivative of this code cannot be changed. i.e. this code cannot simply be
* copied and put under another distribution licence
* [including the GNU Public Licence.]
*/
#include <stdio.h>
#include <openssl/objects.h>
#include <openssl/comp.h>
#include "ssl_locl.h"
#define SSL_ENC_DES_IDX 0
#define SSL_ENC_3DES_IDX 1
#define SSL_ENC_RC4_IDX 2
#define SSL_ENC_RC2_IDX 3
#define SSL_ENC_IDEA_IDX 4
#define SSL_ENC_eFZA_IDX 5
#define SSL_ENC_NULL_IDX 6
#define SSL_ENC_NUM_IDX 7
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static const EVP_CIPHER *ssl_cipher_methods[SSL_ENC_NUM_IDX]={
NULL,NULL,NULL,NULL,NULL,NULL,
};
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static STACK_OF(SSL_COMP) *ssl_comp_methods=NULL;
#define SSL_MD_MD5_IDX 0
#define SSL_MD_SHA1_IDX 1
#define SSL_MD_NUM_IDX 2
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static const EVP_MD *ssl_digest_methods[SSL_MD_NUM_IDX]={
NULL,NULL,
};
typedef struct cipher_sort_st
{
SSL_CIPHER *cipher;
int pref;
} CIPHER_SORT;
#define CIPHER_ADD 1
#define CIPHER_KILL 2
#define CIPHER_DEL 3
#define CIPHER_ORD 4
typedef struct cipher_choice_st
{
int type;
unsigned long algorithms;
unsigned long mask;
long top;
} CIPHER_CHOICE;
typedef struct cipher_order_st
{
SSL_CIPHER *cipher;
int active;
int dead;
struct cipher_order_st *next,*prev;
} CIPHER_ORDER;
static SSL_CIPHER cipher_aliases[]={
/* Don't include eNULL unless specifically enabled */
{0,SSL_TXT_ALL, 0,SSL_ALL & ~SSL_eNULL, 0,SSL_ALL}, /* must be first */
{0,SSL_TXT_kRSA,0,SSL_kRSA, 0,SSL_MKEY_MASK},
{0,SSL_TXT_kDHr,0,SSL_kDHr, 0,SSL_MKEY_MASK},
{0,SSL_TXT_kDHd,0,SSL_kDHd, 0,SSL_MKEY_MASK},
{0,SSL_TXT_kEDH,0,SSL_kEDH, 0,SSL_MKEY_MASK},
{0,SSL_TXT_kFZA,0,SSL_kFZA, 0,SSL_MKEY_MASK},
{0,SSL_TXT_DH, 0,SSL_DH, 0,SSL_MKEY_MASK},
{0,SSL_TXT_EDH, 0,SSL_EDH, 0,SSL_MKEY_MASK|SSL_AUTH_MASK},
{0,SSL_TXT_aRSA,0,SSL_aRSA, 0,SSL_AUTH_MASK},
{0,SSL_TXT_aDSS,0,SSL_aDSS, 0,SSL_AUTH_MASK},
{0,SSL_TXT_aFZA,0,SSL_aFZA, 0,SSL_AUTH_MASK},
{0,SSL_TXT_aNULL,0,SSL_aNULL,0,SSL_AUTH_MASK},
{0,SSL_TXT_aDH, 0,SSL_aDH, 0,SSL_AUTH_MASK},
{0,SSL_TXT_DSS, 0,SSL_DSS, 0,SSL_AUTH_MASK},
{0,SSL_TXT_DES, 0,SSL_DES, 0,SSL_ENC_MASK},
{0,SSL_TXT_3DES,0,SSL_3DES, 0,SSL_ENC_MASK},
{0,SSL_TXT_RC4, 0,SSL_RC4, 0,SSL_ENC_MASK},
{0,SSL_TXT_RC2, 0,SSL_RC2, 0,SSL_ENC_MASK},
{0,SSL_TXT_IDEA,0,SSL_IDEA, 0,SSL_ENC_MASK},
{0,SSL_TXT_eNULL,0,SSL_eNULL,0,SSL_ENC_MASK},
{0,SSL_TXT_eFZA,0,SSL_eFZA, 0,SSL_ENC_MASK},
{0,SSL_TXT_MD5, 0,SSL_MD5, 0,SSL_MAC_MASK},
{0,SSL_TXT_SHA1,0,SSL_SHA1, 0,SSL_MAC_MASK},
{0,SSL_TXT_SHA, 0,SSL_SHA, 0,SSL_MAC_MASK},
{0,SSL_TXT_NULL,0,SSL_NULL, 0,SSL_ENC_MASK},
{0,SSL_TXT_RSA, 0,SSL_RSA, 0,SSL_AUTH_MASK|SSL_MKEY_MASK},
{0,SSL_TXT_ADH, 0,SSL_ADH, 0,SSL_AUTH_MASK|SSL_MKEY_MASK},
{0,SSL_TXT_FZA, 0,SSL_FZA, 0,SSL_AUTH_MASK|SSL_MKEY_MASK|SSL_ENC_MASK},
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{0,SSL_TXT_EXP40, 0,SSL_EXP40, 0,SSL_EXP_MASK},
{0,SSL_TXT_EXPORT,0,SSL_EXP40, 0,SSL_EXP_MASK},
{0,SSL_TXT_EXP56, 0,SSL_EXP56, 0,SSL_EXP_MASK},
{0,SSL_TXT_SSLV2, 0,SSL_SSLV2, 0,SSL_SSL_MASK},
{0,SSL_TXT_SSLV3, 0,SSL_SSLV3, 0,SSL_SSL_MASK},
{0,SSL_TXT_TLSV1, 0,SSL_TLSV1, 0,SSL_SSL_MASK},
{0,SSL_TXT_LOW, 0,SSL_LOW, 0,SSL_STRONG_MASK},
{0,SSL_TXT_MEDIUM,0,SSL_MEDIUM,0,SSL_STRONG_MASK},
{0,SSL_TXT_HIGH, 0,SSL_HIGH, 0,SSL_STRONG_MASK},
};
static int init_ciphers=1;
static void load_ciphers();
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static int cmp_by_name(SSL_CIPHER **a, SSL_CIPHER **b)
{
return(strcmp((*a)->name,(*b)->name));
}
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static void load_ciphers(void)
{
init_ciphers=0;
ssl_cipher_methods[SSL_ENC_DES_IDX]=
EVP_get_cipherbyname(SN_des_cbc);
ssl_cipher_methods[SSL_ENC_3DES_IDX]=
EVP_get_cipherbyname(SN_des_ede3_cbc);
ssl_cipher_methods[SSL_ENC_RC4_IDX]=
EVP_get_cipherbyname(SN_rc4);
ssl_cipher_methods[SSL_ENC_RC2_IDX]=
EVP_get_cipherbyname(SN_rc2_cbc);
ssl_cipher_methods[SSL_ENC_IDEA_IDX]=
EVP_get_cipherbyname(SN_idea_cbc);
ssl_digest_methods[SSL_MD_MD5_IDX]=
EVP_get_digestbyname(SN_md5);
ssl_digest_methods[SSL_MD_SHA1_IDX]=
EVP_get_digestbyname(SN_sha1);
}
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int ssl_cipher_get_evp(SSL_SESSION *s, const EVP_CIPHER **enc,
const EVP_MD **md, SSL_COMP **comp)
{
int i;
SSL_CIPHER *c;
c=s->cipher;
if (c == NULL) return(0);
if (comp != NULL)
{
SSL_COMP ctmp;
if (s->compress_meth == 0)
*comp=NULL;
else if (ssl_comp_methods == NULL)
{
/* bad */
*comp=NULL;
}
else
{
ctmp.id=s->compress_meth;
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i=sk_SSL_COMP_find(ssl_comp_methods,&ctmp);
if (i >= 0)
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*comp=sk_SSL_COMP_value(ssl_comp_methods,i);
else
*comp=NULL;
}
}
if ((enc == NULL) || (md == NULL)) return(0);
switch (c->algorithms & SSL_ENC_MASK)
{
case SSL_DES:
i=SSL_ENC_DES_IDX;
break;
case SSL_3DES:
i=SSL_ENC_3DES_IDX;
break;
case SSL_RC4:
i=SSL_ENC_RC4_IDX;
break;
case SSL_RC2:
i=SSL_ENC_RC2_IDX;
break;
case SSL_IDEA:
i=SSL_ENC_IDEA_IDX;
break;
case SSL_eNULL:
i=SSL_ENC_NULL_IDX;
break;
default:
i= -1;
break;
}
if ((i < 0) || (i > SSL_ENC_NUM_IDX))
*enc=NULL;
else
{
if (i == SSL_ENC_NULL_IDX)
*enc=EVP_enc_null();
else
*enc=ssl_cipher_methods[i];
}
switch (c->algorithms & SSL_MAC_MASK)
{
case SSL_MD5:
i=SSL_MD_MD5_IDX;
break;
case SSL_SHA1:
i=SSL_MD_SHA1_IDX;
break;
default:
i= -1;
break;
}
if ((i < 0) || (i > SSL_MD_NUM_IDX))
*md=NULL;
else
*md=ssl_digest_methods[i];
if ((*enc != NULL) && (*md != NULL))
return(1);
else
return(0);
}
#define ITEM_SEP(a) \
(((a) == ':') || ((a) == ' ') || ((a) == ';') || ((a) == ','))
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static void ll_append_tail(CIPHER_ORDER **head, CIPHER_ORDER *curr,
CIPHER_ORDER **tail)
{
if (curr == *tail) return;
if (curr == *head)
*head=curr->next;
if (curr->prev != NULL)
curr->prev->next=curr->next;
if (curr->next != NULL) /* should always be true */
curr->next->prev=curr->prev;
(*tail)->next=curr;
curr->prev= *tail;
curr->next=NULL;
*tail=curr;
}
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STACK_OF(SSL_CIPHER) *ssl_create_cipher_list(SSL_METHOD *ssl_method,
STACK_OF(SSL_CIPHER) **cipher_list,
STACK_OF(SSL_CIPHER) **cipher_list_by_id,
char *str)
{
SSL_CIPHER *c;
char *l;
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STACK_OF(SSL_CIPHER) *ret=NULL,*ok=NULL;
#define CL_BUF 40
char buf[CL_BUF];
char *tmp_str=NULL;
unsigned long mask,algorithms,ma;
char *start;
int i,j,k,num=0,ch,multi;
unsigned long al;
STACK *ca_list=NULL;
int current_x,num_x;
CIPHER_CHOICE *ops=NULL;
CIPHER_ORDER *list=NULL,*head=NULL,*tail=NULL,*curr,*tail2,*curr2;
int list_num;
int type;
SSL_CIPHER c_tmp,*cp;
if (str == NULL) return(NULL);
if (strncmp(str,"DEFAULT",7) == 0)
{
i=strlen(str)+2+strlen(SSL_DEFAULT_CIPHER_LIST);
if ((tmp_str=Malloc(i)) == NULL)
{
SSLerr(SSL_F_SSL_CREATE_CIPHER_LIST,ERR_R_MALLOC_FAILURE);
goto err;
}
strcpy(tmp_str,SSL_DEFAULT_CIPHER_LIST);
strcat(tmp_str,":");
strcat(tmp_str,&(str[7]));
str=tmp_str;
}
if (init_ciphers) load_ciphers();
num=ssl_method->num_ciphers();
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if ((ret=sk_SSL_CIPHER_new(NULL)) == NULL) goto err;
if ((ca_list=(STACK *)sk_new(cmp_by_name)) == NULL) goto err;
mask =SSL_kFZA;
#ifdef NO_RSA
mask|=SSL_aRSA|SSL_kRSA;
#endif
#ifdef NO_DSA
mask|=SSL_aDSS;
#endif
#ifdef NO_DH
mask|=SSL_kDHr|SSL_kDHd|SSL_kEDH|SSL_aDH;
#endif
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#ifdef SSL_FORBID_ENULL
mask|=SSL_eNULL;
#endif
mask|=(ssl_cipher_methods[SSL_ENC_DES_IDX ] == NULL)?SSL_DES :0;
mask|=(ssl_cipher_methods[SSL_ENC_3DES_IDX] == NULL)?SSL_3DES:0;
mask|=(ssl_cipher_methods[SSL_ENC_RC4_IDX ] == NULL)?SSL_RC4 :0;
mask|=(ssl_cipher_methods[SSL_ENC_RC2_IDX ] == NULL)?SSL_RC2 :0;
mask|=(ssl_cipher_methods[SSL_ENC_IDEA_IDX] == NULL)?SSL_IDEA:0;
mask|=(ssl_cipher_methods[SSL_ENC_eFZA_IDX] == NULL)?SSL_eFZA:0;
mask|=(ssl_digest_methods[SSL_MD_MD5_IDX ] == NULL)?SSL_MD5 :0;
mask|=(ssl_digest_methods[SSL_MD_SHA1_IDX] == NULL)?SSL_SHA1:0;
if ((list=(CIPHER_ORDER *)Malloc(sizeof(CIPHER_ORDER)*num)) == NULL)
goto err;
/* Get the initial list of ciphers */
list_num=0;
for (i=0; i<num; i++)
{
c=ssl_method->get_cipher((unsigned int)i);
/* drop those that use any of that is not available */
if ((c != NULL) && c->valid && !(c->algorithms & mask))
{
list[list_num].cipher=c;
list[list_num].next=NULL;
list[list_num].prev=NULL;
list[list_num].active=0;
list_num++;
if (!sk_push(ca_list,(char *)c)) goto err;
}
}
for (i=1; i<list_num-1; i++)
{
list[i].prev= &(list[i-1]);
list[i].next= &(list[i+1]);
}
if (list_num > 0)
{
head= &(list[0]);
head->prev=NULL;
head->next= &(list[1]);
tail= &(list[list_num-1]);
tail->prev= &(list[list_num-2]);
tail->next=NULL;
}
/* special case */
cipher_aliases[0].algorithms &= ~mask;
/* get the aliases */
k=sizeof(cipher_aliases)/sizeof(SSL_CIPHER);
for (j=0; j<k; j++)
{
al=cipher_aliases[j].algorithms;
/* Drop those that are not relevent */
if ((al & mask) == al) continue;
if (!sk_push(ca_list,(char *)&(cipher_aliases[j]))) goto err;
}
/* ca_list now holds a 'stack' of SSL_CIPHERS, some real, some
* 'aliases' */
/* how many parameters are there? */
num=1;
for (l=str; *l; l++)
if (ITEM_SEP(*l))
num++;
ops=(CIPHER_CHOICE *)Malloc(sizeof(CIPHER_CHOICE)*num);
if (ops == NULL) goto err;
memset(ops,0,sizeof(CIPHER_CHOICE)*num);
/* we now parse the input string and create our operations */
l=str;
i=0;
current_x=0;
for (;;)
{
ch= *l;
if (ch == '\0') break;
if (ch == '-')
{ j=CIPHER_DEL; l++; }
else if (ch == '+')
{ j=CIPHER_ORD; l++; }
else if (ch == '!')
{ j=CIPHER_KILL; l++; }
else
{ j=CIPHER_ADD; }
if (ITEM_SEP(ch))
{
l++;
continue;
}
ops[current_x].type=j;
ops[current_x].algorithms=0;
ops[current_x].mask=0;
start=l;
for (;;)
{
ch= *l;
i=0;
while ( ((ch >= 'A') && (ch <= 'Z')) ||
((ch >= '0') && (ch <= '9')) ||
((ch >= 'a') && (ch <= 'z')) ||
(ch == '-'))
{
buf[i]=ch;
ch= *(++l);
i++;
if (i >= (CL_BUF-2)) break;
}
buf[i]='\0';
/* check for multi-part specification */
if (ch == '+')
{
multi=1;
l++;
}
else
multi=0;
c_tmp.name=buf;
j=sk_find(ca_list,(char *)&c_tmp);
if (j < 0)
goto end_loop;
cp=(SSL_CIPHER *)sk_value(ca_list,j);
ops[current_x].algorithms|=cp->algorithms;
/* We add the SSL_SSL_MASK so we can match the
* SSLv2 and SSLv3 versions of RC4-MD5 */
ops[current_x].mask|=cp->mask;
if (!multi) break;
}
current_x++;
if (ch == '\0') break;
end_loop:
/* Make sure we scan until the next valid start point */
while ((*l != '\0') && ITEM_SEP(*l))
l++;
}
num_x=current_x;
current_x=0;
/* We will now process the list of ciphers, once for each category, to
* decide what we should do with it. */
for (j=0; j<num_x; j++)
{
algorithms=ops[j].algorithms;
type=ops[j].type;
mask=ops[j].mask;
curr=head;
curr2=head;
tail2=tail;
for (;;)
{
if ((curr == NULL) || (curr == tail2)) break;
curr=curr2;
curr2=curr->next;
cp=curr->cipher;
ma=mask & cp->algorithms;
if ((ma == 0) || ((ma & algorithms) != ma))
{
/* does not apply */
continue;
}
/* add the cipher if it has not been added yet. */
if (type == CIPHER_ADD)
{
if (!curr->active)
{
ll_append_tail(&head,curr,&tail);
curr->active=1;
}
}
/* Move the added cipher to this location */
else if (type == CIPHER_ORD)
{
if (curr->active)
{
ll_append_tail(&head,curr,&tail);
}
}
else if (type == CIPHER_DEL)
curr->active=0;
if (type == CIPHER_KILL)
{
if (head == curr)
head=curr->next;
else
curr->prev->next=curr->next;
if (tail == curr)
tail=curr->prev;
curr->active=0;
if (curr->next != NULL)
curr->next->prev=curr->prev;
if (curr->prev != NULL)
curr->prev->next=curr->next;
curr->next=NULL;
curr->prev=NULL;
}
}
}
for (curr=head; curr != NULL; curr=curr->next)
{
if (curr->active)
{
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sk_SSL_CIPHER_push(ret,curr->cipher);
#ifdef CIPHER_DEBUG
printf("<%s>\n",curr->cipher->name);
#endif
}
}
if (cipher_list != NULL)
{
if (*cipher_list != NULL)
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sk_SSL_CIPHER_free(*cipher_list);
*cipher_list=ret;
}
if (cipher_list_by_id != NULL)
{
if (*cipher_list_by_id != NULL)
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sk_SSL_CIPHER_free(*cipher_list_by_id);
*cipher_list_by_id=sk_SSL_CIPHER_dup(ret);
}
if ( (cipher_list_by_id == NULL) ||
(*cipher_list_by_id == NULL) ||
(cipher_list == NULL) ||
(*cipher_list == NULL))
goto err;
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sk_SSL_CIPHER_set_cmp_func(*cipher_list_by_id,ssl_cipher_ptr_id_cmp);
ok=ret;
ret=NULL;
err:
if (tmp_str) Free(tmp_str);
if (ops != NULL) Free(ops);
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if (ret != NULL) sk_SSL_CIPHER_free(ret);
if (ca_list != NULL) sk_free(ca_list);
if (list != NULL) Free(list);
return(ok);
}
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char *SSL_CIPHER_description(SSL_CIPHER *cipher, char *buf, int len)
{
int is_export,pkl,kl;
char *ver,*exp;
char *kx,*au,*enc,*mac;
unsigned long alg,alg2;
static char *format="%-23s %s Kx=%-8s Au=%-4s Enc=%-9s Mac=%-4s%s\n";
alg=cipher->algorithms;
alg2=cipher->algorithm2;
is_export=SSL_IS_EXPORT(alg);
pkl=SSL_EXPORT_PKEYLENGTH(alg);
kl=SSL_EXPORT_KEYLENGTH(alg);
exp=is_export?" export":"";
if (alg & SSL_SSLV2)
ver="SSLv2";
else if (alg & SSL_SSLV3)
ver="SSLv3";
else
ver="unknown";
switch (alg&SSL_MKEY_MASK)
{
case SSL_kRSA:
kx=is_export?(pkl == 512 ? "RSA(512)" : "RSA(1024)"):"RSA";
break;
case SSL_kDHr:
kx="DH/RSA";
break;
case SSL_kDHd:
kx="DH/DSS";
break;
case SSL_kFZA:
kx="Fortezza";
break;
case SSL_kEDH:
kx=is_export?(pkl == 512 ? "DH(512)" : "DH(1024)"):"DH";
break;
default:
kx="unknown";
}
switch (alg&SSL_AUTH_MASK)
{
case SSL_aRSA:
au="RSA";
break;
case SSL_aDSS:
au="DSS";
break;
case SSL_aDH:
au="DH";
break;
case SSL_aFZA:
case SSL_aNULL:
au="None";
break;
default:
au="unknown";
break;
}
switch (alg&SSL_ENC_MASK)
{
case SSL_DES:
enc=(is_export && kl == 5)?"DES(40)":"DES(56)";
break;
case SSL_3DES:
enc="3DES(168)";
break;
case SSL_RC4:
enc=is_export?(kl == 5 ? "RC4(40)" : "RC4(56)")
:((alg2&SSL2_CF_8_BYTE_ENC)?"RC4(64)":"RC4(128)");
break;
case SSL_RC2:
enc=is_export?(kl == 5 ? "RC2(40)" : "RC2(56)"):"RC2(128)";
break;
case SSL_IDEA:
enc="IDEA(128)";
break;
case SSL_eFZA:
enc="Fortezza";
break;
case SSL_eNULL:
enc="None";
break;
default:
enc="unknown";
break;
}
switch (alg&SSL_MAC_MASK)
{
case SSL_MD5:
mac="MD5";
break;
case SSL_SHA1:
mac="SHA1";
break;
default:
mac="unknown";
break;
}
if (buf == NULL)
{
buf=Malloc(128);
if (buf == NULL) return("Malloc Error");
}
else if (len < 128)
return("Buffer too small");
sprintf(buf,format,cipher->name,ver,kx,au,enc,mac,exp);
return(buf);
}
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char *SSL_CIPHER_get_version(SSL_CIPHER *c)
{
int i;
if (c == NULL) return("(NONE)");
i=(int)(c->id>>24L);
if (i == 3)
return("TLSv1/SSLv3");
else if (i == 2)
return("SSLv2");
else
return("unknown");
}
/* return the actual cipher being used */
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const char *SSL_CIPHER_get_name(SSL_CIPHER *c)
{
if (c != NULL)
return(c->name);
return("(NONE)");
}
/* number of bits for symetric cipher */
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int SSL_CIPHER_get_bits(SSL_CIPHER *c, int *alg_bits)
{
int ret=0,a=0;
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const EVP_CIPHER *enc;
const EVP_MD *md;
SSL_SESSION ss;
if (c != NULL)
{
ss.cipher=c;
if (!ssl_cipher_get_evp(&ss,&enc,&md,NULL))
return(0);
a=EVP_CIPHER_key_length(enc)*8;
if (SSL_C_IS_EXPORT(c))
{
ret=SSL_C_EXPORT_KEYLENGTH(c)*8;
}
else
{
if (c->algorithm2 & SSL2_CF_8_BYTE_ENC)
ret=64;
else
ret=a;
}
}
if (alg_bits != NULL) *alg_bits=a;
return(ret);
}
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SSL_COMP *ssl3_comp_find(STACK_OF(SSL_COMP) *sk, int n)
{
SSL_COMP *ctmp;
int i,nn;
if ((n == 0) || (sk == NULL)) return(NULL);
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nn=sk_SSL_COMP_num(sk);
for (i=0; i<nn; i++)
{
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ctmp=sk_SSL_COMP_value(sk,i);
if (ctmp->id == n)
return(ctmp);
}
return(NULL);
}
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static int sk_comp_cmp(SSL_COMP **a,SSL_COMP **b)
{
return((*a)->id-(*b)->id);
}
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STACK_OF(SSL_COMP) *SSL_COMP_get_compression_methods(void)
{
return(ssl_comp_methods);
}
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int SSL_COMP_add_compression_method(int id, COMP_METHOD *cm)
{
SSL_COMP *comp;
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STACK_OF(SSL_COMP) *sk;
comp=(SSL_COMP *)Malloc(sizeof(SSL_COMP));
comp->id=id;
comp->method=cm;
if (ssl_comp_methods == NULL)
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sk=ssl_comp_methods=sk_SSL_COMP_new(sk_comp_cmp);
else
sk=ssl_comp_methods;
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if ((sk == NULL) || !sk_SSL_COMP_push(sk,comp))
{
SSLerr(SSL_F_SSL_COMP_ADD_COMPRESSION_METHOD,ERR_R_MALLOC_FAILURE);
return(0);
}
else
return(1);
}