filename
stringlengths 3
146
| content
stringlengths 25
24.6k
| from
stringclasses 1
value |
|---|---|---|
CRYPTO_free
|
void __fastcall CRYPTO_free(void *str, const char *file, __int64 line)
{
if ( !off_14027CC98 || (char *)off_14027CC98 == (char *)CRYPTO_free )
free(str);
else
off_14027CC98(str, file, line);
}
|
openssl
|
CRYPTO_gcm128_tag
|
void __fastcall CRYPTO_gcm128_tag(gcm128_context *ctx, unsigned __int8 *tag, size_t len)
{
size_t v6; // r8
sub_140104790((__int64)ctx, 0i64, 0i64);
v6 = 16i64;
if ( len <= 0x10 )
v6 = len;
memmove(tag, (char *)ctx + 64, v6);
}
|
openssl
|
CRYPTO_malloc
|
void *__fastcall CRYPTO_malloc(size_t num, const char *file, __int64 line)
{
if ( off_14027CC88 && (char *)off_14027CC88 != (char *)CRYPTO_malloc )
return (void *)off_14027CC88(num, file, line);
if ( !num )
return 0i64;
dword_14027CC80 = 0;
return malloc(num);
}
|
openssl
|
CRYPTO_THREAD_get_local_0
|
LPVOID __fastcall CRYPTO_THREAD_get_local_0(unsigned int *key)
{
DWORD LastError; // edi
LPVOID Value; // rbx
LastError = GetLastError();
Value = TlsGetValue(*key);
SetLastError(LastError);
return Value;
}
|
openssl
|
CRYPTO_THREAD_set_local_1
|
_BOOL8 __fastcall CRYPTO_THREAD_set_local_1(unsigned int *key, void *val)
{
return TlsSetValue(*key, val);
}
|
openssl
|
CRYPTO_THREAD_set_local_1_0
|
_BOOL8 __fastcall CRYPTO_THREAD_set_local_1_0(unsigned int *key, void *val)
{
return TlsFree(*key);
}
|
openssl
|
CRYPTO_xts128_encrypt
|
__int64 __fastcall CRYPTO_xts128_encrypt(__int64 *a1, __int64 *a2, char *a3, char *a4, unsigned __int64 a5, int a6)
{
unsigned __int64 v6; // rsi
__int64 v11; // r8
__int64 v12; // r13
unsigned __int64 v13; // r10
__int64 v14; // r8
unsigned __int64 v15; // r8
__int64 v16; // r13
__int64 v17; // r11
__int64 v18; // rdx
unsigned int v19; // r8d
signed __int64 v20; // rbp
signed __int64 v21; // r11
__int64 *v22; // r9
char v23; // dl
__int64 v24; // r8
__int64 v25; // r8
__int64 v26; // rdi
__int64 v27; // rbx
__int64 v28; // r11
__int64 v29; // rax
unsigned int v30; // r8d
__int64 *v31; // rdx
_BYTE *v32; // r9
signed __int64 v33; // rbp
char v34; // cl
__int64 v35; // r8
__int64 v36; // rax
__int64 v37; // [rsp+20h] [rbp-68h] BYREF
__int64 v38; // [rsp+28h] [rbp-60h]
unsigned __int64 v39; // [rsp+30h] [rbp-58h] BYREF
__int64 v40; // [rsp+38h] [rbp-50h]
v6 = a5;
if ( a5 < 0x10 )
return 0xFFFFFFFFi64;
v11 = a1[1];
v39 = *a2;
v40 = a2[1];
((void (__fastcall *)(unsigned __int64 *, unsigned __int64 *, __int64))a1[3])(&v39, &v39, v11);
if ( !a6 && (a5 & 0xF) != 0 )
v6 = a5 - 16;
if ( v6 < 0x10 )
{
v12 = v40;
v13 = v39;
v18 = v38;
v17 = v37;
LABEL_12:
if ( a6 )
{
v19 = 0;
if ( v6 )
{
v20 = a3 - a4;
v21 = a4 - (char *)&v37;
v22 = &v37;
do
{
++v19;
v23 = *((_BYTE *)v22 + v21 + v20);
*((_BYTE *)v22 + v21) = *(_BYTE *)v22;
*(_BYTE *)v22 = v23;
v22 = (__int64 *)((char *)v22 + 1);
}
while ( v19 < v6 );
v18 = v38;
v17 = v37;
}
v24 = *a1;
v38 = v12 ^ v18;
v37 = v13 ^ v17;
((void (__fastcall *)(__int64 *, __int64 *, __int64))a1[2])(&v37, &v37, v24);
v37 ^= v39;
v38 ^= v40;
*((_QWORD *)a4 - 2) = v37;
*((_QWORD *)a4 - 1) = v38;
}
else
{
v25 = *a1;
v26 = (2 * v13) ^ (SHIDWORD(v40) >> 31) & 0x87;
v27 = (2 * v12) | (v13 >> 63);
v37 = v26 ^ *(_QWORD *)a3;
v38 = v27 ^ *((_QWORD *)a3 + 1);
((void (__fastcall *)(__int64 *, __int64 *, __int64))a1[2])(&v37, &v37, v25);
v28 = v26 ^ v37;
v29 = v27 ^ v38;
v30 = 0;
v37 ^= v26;
v38 ^= v27;
if ( v6 )
{
v31 = &v37;
v32 = a4 + 16;
v33 = a3 - a4;
do
{
v34 = v32[v33];
++v30;
*v32 = *(_BYTE *)v31;
*(_BYTE *)v31 = v34;
++v32;
v31 = (__int64 *)((char *)v31 + 1);
}
while ( v30 < v6 );
v29 = v38;
v28 = v37;
}
v35 = *a1;
v37 = v39 ^ v28;
v38 = v40 ^ v29;
((void (__fastcall *)(__int64 *, __int64 *, __int64))a1[2])(&v37, &v37, v35);
v36 = v40 ^ v38;
*(_QWORD *)a4 = v39 ^ v37;
*((_QWORD *)a4 + 1) = v36;
}
}
else
{
v12 = v40;
v13 = v39;
while ( 1 )
{
v14 = *a1;
v37 = v13 ^ *(_QWORD *)a3;
v38 = v12 ^ *((_QWORD *)a3 + 1);
((void (__fastcall *)(__int64 *, __int64 *, __int64))a1[2])(&v37, &v37, v14);
v15 = v39;
v16 = v40;
v17 = v39 ^ v37;
v18 = v40 ^ v38;
a4 += 16;
*((_QWORD *)a4 - 2) = v39 ^ v37;
*((_QWORD *)a4 - 1) = v18;
a3 += 16;
v6 -= 16i64;
v37 = v17;
v38 = v18;
if ( !v6 )
break;
v13 = (2 * v15) ^ (SHIDWORD(v40) >> 31) & 0x87;
v12 = (v15 >> 63) | (2 * v16);
v39 = v13;
v40 = v12;
if ( v6 < 0x10 )
goto LABEL_12;
}
}
return 0i64;
}
|
openssl
|
CRYPTO_zalloc
|
void *__fastcall CRYPTO_zalloc(size_t num, const char *file, __int64 line)
{
void *v4; // rax
void *v6; // rbx
if ( !off_14027CC88 || (char *)off_14027CC88 == (char *)CRYPTO_malloc )
{
if ( !num )
return 0i64;
dword_14027CC80 = 0;
v4 = malloc(num);
}
else
{
v4 = (void *)off_14027CC88(num, file, line);
}
v6 = v4;
if ( v4 )
memset(v4, 0, num);
return v6;
}
|
openssl
|
ctrlevent_capture
|
__int64 __fastcall ctrlevent_capture(DWORD CtrlType)
{
PVOID *v2; // rdi
__int64 v3; // rdx
__int64 v4; // rcx
void (__fastcall *v5)(_QWORD); // rbx
__int64 v6; // r8
__int64 v7; // r9
unsigned int v8; // esi
lock(0i64);
if ( CtrlType )
{
v2 = &qword_1402856A8;
v5 = (void (__fastcall *)(_QWORD))DecodePointer(qword_1402856A8);
v8 = 21;
}
else
{
v2 = &qword_1402856A0;
v5 = (void (__fastcall *)(_QWORD))DecodePointer(qword_1402856A0);
v8 = 2;
}
if ( (unsigned __int64)v5 >= 2 )
*v2 = (PVOID)unknown_libname_5(v4, v3, v6, v7);
unlock(0i64);
if ( !v5 )
return 0i64;
if ( v5 != (void (__fastcall *)(_QWORD))1 )
v5(v8);
return 1i64;
}
|
openssl
|
curve448_scalar_mul
|
void __fastcall curve448_scalar_mul(curve448_scalar_s *out, const curve448_scalar_s *a, const curve448_scalar_s *b)
{
sub_140190300((__int64)out, (unsigned int *)a, (char *)b);
sub_140190300((__int64)out, (unsigned int *)out, asc_140253100);
}
|
openssl
|
curve448_scalar_sub
|
__int64 __fastcall curve448_scalar_sub(__int64 a1, __int64 a2, __int64 a3)
{
return sub_140190210(a1, a2, a3, dword_1402530C8, 0);
}
|
openssl
|
custom_exts_free
|
void __fastcall custom_exts_free(__int64 a1)
{
__int64 v1; // rax
unsigned __int64 v2; // rdi
void **v4; // rbx
v2 = 0i64;
if ( *(_QWORD *)(a1 + 8) )
{
v4 = (void **)(v1 + *(_QWORD *)a1);
do
{
if ( *(v4 - 2) == sub_140057D20 )
{
CRYPTO_free(*v4, "ssl\\statem\\extensions_cust.c", 329);
CRYPTO_free(v4[2], "ssl\\statem\\extensions_cust.c", 330);
}
++v2;
v4 += 7;
}
while ( v2 < *(_QWORD *)(a1 + 8) );
}
CRYPTO_free(*(void **)a1, "ssl\\statem\\extensions_cust.c", 332);
}
|
openssl
|
cvtdate
|
__int64 __fastcall cvtdate(int a1, int a2, int a3, int a4, int a5, int a6, int a7, int a8, int a9, int a10, int a11)
{
int v12; // ebp
__int64 v13; // rsi
int v14; // r10d
int v15; // r10d
int v16; // r8d
int v17; // eax
int v18; // r10d
int v19; // eax
int v20; // r10d
__int64 result; // rax
bool v22; // sf
int v23; // ecx
int v24; // ecx
int Daylight; // [rsp+50h] [rbp+8h] BYREF
Daylight = 0;
if ( a2 == 1 )
{
v12 = a3 % 4;
if ( (a3 % 4 || a3 == 100 * (a3 / 100)) && a3 + 1900 != 400 * ((a3 + 1900) / 400) )
{
v13 = a4;
v14 = dword_140280224[a4];
}
else
{
v13 = a4;
v14 = dword_1402801EC[a4];
}
v15 = v14 + 1;
v16 = (365 * a3 + (a3 + 299) / 400 - (a3 - 1) / 100 + v15 + (a3 - 1) / 4 - 25563) % 7;
v17 = a6 + 7 * a5 - v16;
if ( v16 > a6 )
v18 = v17 + v15;
else
v18 = v15 + v17 - 7;
if ( a5 == 5 )
{
if ( (v12 || a3 == 100 * (a3 / 100)) && a3 + 1900 != 400 * ((a3 + 1900) / 400) )
v19 = dword_140280228[v13];
else
v19 = dword_1402801F0[v13];
if ( v18 > v19 )
v18 -= 7;
}
}
else
{
if ( ((((a3 >> 31) & 3) + (_BYTE)a3) & 3) == ((a3 >> 31) & 3) && a3 != 100 * (a3 / 100)
|| a3 + 1900 == 400 * ((a3 + 1900) / 400) )
{
v20 = dword_1402801EC[a4];
}
else
{
v20 = dword_140280224[a4];
}
v18 = a7 + v20;
}
result = (unsigned int)(a11 + 1000 * (a10 + 60 * (a9 + 60 * a8)));
if ( a1 == 1 )
{
dword_14028046C = v18;
dword_140280470 = a11 + 1000 * (a10 + 60 * (a9 + 60 * a8));
dword_140280468 = a3;
return result;
}
dword_14028047C = v18;
dword_140280480 = a11 + 1000 * (a10 + 60 * (a9 + 60 * a8));
if ( get_daylight_1(&Daylight) )
invoke_watson(0i64, 0i64, 0i64, 0, 0i64);
v22 = 1000 * Daylight + dword_140280480 < 0;
v23 = 1000 * Daylight + dword_140280480;
result = 86400000i64;
dword_140280480 = v23;
if ( v22 )
{
v24 = v23 + 86400000;
--dword_14028047C;
LABEL_32:
dword_140280480 = v24;
goto LABEL_33;
}
if ( v23 >= 86400000 )
{
v24 = v23 - 86400000;
++dword_14028047C;
goto LABEL_32;
}
LABEL_33:
dword_140280478 = a3;
return result;
}
|
openssl
|
d2i_CMS_ContentInfo
|
__int64 __fastcall d2i_CMS_ContentInfo(__int64 *a1, unsigned __int8 **a2, unsigned int a3)
{
__int64 v6; // rax
v6 = sub_140132050();
return sub_140098E90(a1, a2, a3, v6);
}
|
openssl
|
d2i_PKCS7_bio
|
__int64 __fastcall d2i_PKCS7_bio(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400A7EB0();
return sub_1400CAEB0(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_0
|
__int64 __fastcall d2i_PKCS7_bio_0(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400A7EB0();
return sub_1400C9E80(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_1
|
__int64 __fastcall d2i_PKCS7_bio_1(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400B2450();
return sub_1400CAEB0(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_10
|
__int64 __fastcall d2i_PKCS7_bio_10(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_140132050();
return sub_1400CAEB0(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_11
|
__int64 __fastcall d2i_PKCS7_bio_11(__int64 a1, __int64 a2)
{
void *v4; // rax
v4 = sub_1400E9FA0();
return sub_1400C9E80((__int64)v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_12
|
__int64 __fastcall d2i_PKCS7_bio_12(__int64 a1, __int64 *a2)
{
void *v4; // rax
v4 = sub_1400E9FA0();
return sub_1400CAEB0((__int64)v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_2
|
__int64 __fastcall d2i_PKCS7_bio_2(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400B2450();
return sub_1400C9E80(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_3
|
__int64 __fastcall d2i_PKCS7_bio_3(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400C6A40();
return sub_1400CAEB0(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_4
|
__int64 __fastcall d2i_PKCS7_bio_4(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400C6A40();
return sub_1400C9E80(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_5
|
__int64 __fastcall d2i_PKCS7_bio_5(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400B0480();
return sub_1400CAEB0(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_6
|
__int64 __fastcall d2i_PKCS7_bio_6(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_1400B0480();
return sub_1400C9E80(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_7
|
__int64 __fastcall d2i_PKCS7_bio_7(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_14010DEC0();
return sub_1400C9E80(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_8
|
__int64 __fastcall d2i_PKCS7_bio_8(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_14010DED0();
return sub_1400CAEB0(v4, a1, a2);
}
|
openssl
|
d2i_PKCS7_bio_9
|
__int64 __fastcall d2i_PKCS7_bio_9(__int64 a1, __int64 a2)
{
__int64 v4; // rax
v4 = sub_14010DED0();
return sub_1400C9E80(v4, a1, a2);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(sub_1400D3190, sub_1400E2AD0, fp, a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_0
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_0(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(sub_1400D3190, sub_1400D27E0, fp, a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_1
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_1(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(sub_1400ED5D0, sub_1400ED590, fp, a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_2
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_2(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(sub_1400ED400, sub_1400ED3C0, fp, a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_3
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_3(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(sub_1400A8430, sub_140126E90, fp, a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_4
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_4(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(sub_1400A8430, sub_1400E2830, fp, a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_5
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_5(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(
(__int64)sub_14010EF10,
(__int64 (__fastcall *)(__int64, __int64 *, _QWORD))sub_14010EED0,
(__int64)fp,
(__int64)a);
}
|
openssl
|
d2i_TS_MSG_IMPRINT_fp_1_9_6
|
TS_msg_imprint_st *__fastcall d2i_TS_MSG_IMPRINT_fp_1_9_6(_iobuf *fp, TS_msg_imprint_st **a)
{
return (TS_msg_imprint_st *)sub_1400CAE30(
(__int64)sub_14010F160,
(__int64 (__fastcall *)(__int64, __int64 *, _QWORD))sub_14010F120,
(__int64)fp,
(__int64)a);
}
|
openssl
|
DecodePointer
|
// attributes: thunk
PVOID __stdcall DecodePointer(PVOID Ptr)
{
return __imp_DecodePointer(Ptr);
}
|
openssl
|
def_destroy_data
|
__int64 __fastcall def_destroy_data(conf_st *conf)
{
if ( !conf )
return 0i64;
sub_14012C290();
return 1i64;
}
|
openssl
|
def_dump
|
__int64 __fastcall def_dump(const conf_st *conf, bio_st *out)
{
sub_1400E8350(*((_QWORD *)conf + 2), (void (__fastcall *)(_QWORD, __int64))sub_14012AA60, (__int64)out);
return 1i64;
}
|
openssl
|
def_generate_session_id
|
__int64 __fastcall def_generate_session_id(const ssl_st *ssl, char *id, unsigned int *id_len)
{
int v6; // ebx
v6 = 0;
while ( 1 )
{
if ( (int)sub_1400DADB0(id, *id_len) <= 0 )
return 0i64;
if ( !sub_14004CAF0((__int64)ssl, id, *id_len) )
break;
if ( (unsigned int)++v6 >= 0xA )
return 0i64;
}
return 1i64;
}
|
openssl
|
desx_cbc_init_key
|
__int64 __fastcall desx_cbc_init_key(evp_cipher_ctx_st *ctx, char *key, const char *iv, int enc)
{
struct Concurrency::details::SchedulingRing *OwningRing; // rax
OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(ctx);
DES_set_key_unchecked((unsigned __int8 *)key, (__int64)OwningRing);
*((_QWORD *)Concurrency::details::VirtualProcessor::GetOwningRing(ctx) + 16) = *((_QWORD *)key + 1);
*((_QWORD *)Concurrency::details::VirtualProcessor::GetOwningRing(ctx) + 17) = *((_QWORD *)key + 2);
return 1i64;
}
|
openssl
|
DES_cfb64_encrypt
|
char __fastcall DES_cfb64_encrypt(char *a1, __int64 a2, int a3, _DWORD *a4, unsigned __int16 *a5, int *a6, int a7)
{
int *v7; // r14
int v9; // edi
int v10; // esi
unsigned __int16 *v13; // r13
int v14; // edx
int v15; // eax
__int16 v16; // ecx^2
char v17; // al
int v18; // ecx
__int64 v19; // rcx
char result; // al
unsigned __int16 *v21; // r13
int v22; // edx
int v23; // eax
__int16 v24; // ecx^2
char v25; // al
int v26; // ecx
char v27; // dl
char v28; // cl
v7 = a6;
v9 = *a6;
v10 = a3;
if ( a7 )
{
if ( a3 )
{
v13 = a5;
do
{
--v10;
if ( !v9 )
{
v14 = *((unsigned __int8 *)v13 + 4);
v15 = *((unsigned __int8 *)v13 + 5);
LODWORD(a5) = (*((unsigned __int8 *)v13 + 3) << 24) | (*((unsigned __int8 *)v13 + 2) << 16) | *v13;
HIDWORD(a5) = (v15 << 8) | v14 | (v13[3] << 16);
sub_1400FF740(&a5, a4, 1);
v16 = WORD1(a5);
*v13 = (unsigned __int16)a5;
*((_BYTE *)v13 + 2) = v16;
v17 = BYTE4(a5);
*((_BYTE *)v13 + 3) = HIBYTE(v16);
v18 = HIDWORD(a5);
*((_BYTE *)v13 + 4) = v17;
*((_BYTE *)v13 + 5) = BYTE1(v18);
*((_BYTE *)v13 + 6) = BYTE2(v18);
*((_BYTE *)v13 + 7) = HIBYTE(v18);
}
v19 = v9;
++a2;
result = *((_BYTE *)v13 + v9) ^ *a1++;
*(_BYTE *)(a2 - 1) = result;
v9 = ((_BYTE)v9 + 1) & 7;
*((_BYTE *)v13 + v19) = result;
}
while ( v10 );
}
}
else if ( a3 )
{
v21 = a5;
do
{
--v10;
if ( !v9 )
{
v22 = *((unsigned __int8 *)v21 + 4);
v23 = *((unsigned __int8 *)v21 + 5);
LODWORD(a5) = (*((unsigned __int8 *)v21 + 3) << 24) | (*((unsigned __int8 *)v21 + 2) << 16) | *v21;
HIDWORD(a5) = (v23 << 8) | v22 | (v21[3] << 16);
sub_1400FF740(&a5, a4, 1);
v24 = WORD1(a5);
*v21 = (unsigned __int16)a5;
*((_BYTE *)v21 + 2) = v24;
v25 = BYTE4(a5);
*((_BYTE *)v21 + 3) = HIBYTE(v24);
v26 = HIDWORD(a5);
*((_BYTE *)v21 + 4) = v25;
*((_BYTE *)v21 + 5) = BYTE1(v26);
*((_BYTE *)v21 + 6) = BYTE2(v26);
*((_BYTE *)v21 + 7) = HIBYTE(v26);
}
v27 = *a1;
result = v9;
++a2;
v28 = *((_BYTE *)v21 + v9);
*((_BYTE *)v21 + v9) = *a1++;
*(_BYTE *)(a2 - 1) = v28 ^ v27;
v9 = ((_BYTE)v9 + 1) & 7;
}
while ( v10 );
}
*v7 = v9;
return result;
}
|
openssl
|
DES_cfb_encrypt
|
__int64 __fastcall DES_cfb_encrypt(__int64 a1, __int64 a2, int a3, unsigned int a4, _DWORD *a5, _BYTE *a6, int a7)
{
unsigned int v8; // r12d
__int64 result; // rax
__int64 v11; // r13
int v12; // esi
__int64 v13; // r8
int v14; // eax
int v15; // ebp
int v16; // ecx
int v17; // ebp
__int64 v18; // r14
unsigned int v19; // esi
__int64 v20; // rdi
int v21; // r8d
int v22; // edx
int v23; // r8d
int v24; // eax
int v25; // eax
int v26; // eax
int v27; // edx
int v28; // eax
int v29; // eax
int v30; // eax
int v31; // edx
int v32; // r8d
__int64 v33; // rbx
int v34; // r9d
__int64 v35; // rdi
int v36; // r13d
int v37; // r12d
int v38; // r13d
int v39; // eax
int v40; // eax
int v41; // eax
int v42; // r12d
int v43; // eax
int v44; // eax
int v45; // eax
int v46; // r12d
int v47; // r13d
__int64 v48; // rbx
int v49; // [rsp+20h] [rbp-68h]
int v50; // [rsp+24h] [rbp-64h]
unsigned int v51; // [rsp+28h] [rbp-60h]
int v52; // [rsp+30h] [rbp-58h] BYREF
unsigned int v53; // [rsp+34h] [rbp-54h]
_BYTE *v54; // [rsp+38h] [rbp-50h]
int Src; // [rsp+40h] [rbp-48h] BYREF
unsigned int v56; // [rsp+44h] [rbp-44h]
int v57; // [rsp+48h] [rbp-40h]
int v58; // [rsp+4Ch] [rbp-3Ch]
int v60; // [rsp+A8h] [rbp+20h]
v8 = a4;
v49 = a3 % 8;
v60 = a3 / 8;
result = (unsigned int)((a3 + 7) / 8);
v11 = (int)result;
if ( (unsigned int)(a3 - 1) <= 0x3F )
{
v12 = (unsigned __int8)a6[4];
v13 = (__int64)(a6 + 1);
v14 = (unsigned __int8)a6[3] << 24;
v15 = ((unsigned __int8)a6[2] << 16) | *(unsigned __int16 *)a6;
v16 = (unsigned __int8)a6[7];
v54 = a6 + 1;
v17 = v14 | v15;
v18 = v11;
v19 = (((unsigned __int8)a6[6] | (v16 << 8)) << 16) | ((unsigned __int8)a6[5] << 8) | v12;
if ( a7 )
{
if ( a4 >= (unsigned int)v11 )
{
do
{
v8 -= v11;
v52 = v17;
v53 = v19;
sub_1400FF740(&v52, a5, 1);
v20 = v11 + a1;
v21 = 0;
v22 = 0;
switch ( (int)v11 )
{
case 1:
goto LABEL_12;
case 2:
goto LABEL_11;
case 3:
goto LABEL_10;
case 4:
goto LABEL_9;
case 5:
goto LABEL_8;
case 6:
goto LABEL_7;
case 7:
goto LABEL_6;
case 8:
v23 = *(unsigned __int8 *)--v20;
v21 = v23 << 24;
LABEL_6:
v24 = *(unsigned __int8 *)--v20;
v21 |= v24 << 16;
LABEL_7:
v25 = *(unsigned __int8 *)--v20;
v21 |= v25 << 8;
LABEL_8:
v26 = *(unsigned __int8 *)--v20;
v21 |= v26;
LABEL_9:
v27 = *(unsigned __int8 *)--v20;
v22 = v27 << 24;
LABEL_10:
v28 = *(unsigned __int8 *)--v20;
v22 |= v28 << 16;
LABEL_11:
v29 = *(unsigned __int8 *)--v20;
v22 |= v29 << 8;
LABEL_12:
v30 = *(unsigned __int8 *)--v20;
v22 |= v30;
break;
default:
break;
}
v31 = v52 ^ v22;
v32 = v53 ^ v21;
a1 = v11 + v20;
v33 = v11 + a2;
switch ( (int)v11 )
{
case 1:
goto LABEL_21;
case 2:
goto LABEL_20;
case 3:
goto LABEL_19;
case 4:
goto LABEL_18;
case 5:
goto LABEL_17;
case 6:
goto LABEL_16;
case 7:
goto LABEL_15;
case 8:
*(_BYTE *)--v33 = HIBYTE(v32);
LABEL_15:
*(_BYTE *)--v33 = BYTE2(v32);
LABEL_16:
*(_BYTE *)--v33 = BYTE1(v32);
LABEL_17:
*(_BYTE *)--v33 = v32;
LABEL_18:
*(_BYTE *)--v33 = HIBYTE(v31);
LABEL_19:
*(_BYTE *)--v33 = BYTE2(v31);
LABEL_20:
*(_BYTE *)--v33 = BYTE1(v31);
LABEL_21:
*(_BYTE *)--v33 = v31;
break;
default:
break;
}
a2 = v11 + v33;
if ( a3 == 32 )
{
v17 = v19;
v19 = v31;
}
else if ( a3 == 64 )
{
v17 = v31;
v19 = v32;
}
else
{
Src = v17;
v56 = v19;
v57 = v31;
v58 = v32;
if ( v49 )
{
LOBYTE(Src) = (*((_BYTE *)&Src + v60) << v49) | (*((_BYTE *)&Src + v60 + 1) >> (8 - v49));
BYTE1(Src) = (*((_BYTE *)&Src + v60 + 2) >> (8 - v49)) | (*((_BYTE *)&Src + v60 + 1) << v49);
BYTE2(Src) = (*((_BYTE *)&Src + v60 + 2) << v49) | (*((_BYTE *)&Src + v60 + 3) >> (8 - v49));
HIBYTE(Src) = (*((_BYTE *)&Src + v60 + 3) << v49) | (*((_BYTE *)&v56 + v60) >> (8 - v49));
LOBYTE(v56) = (*((_BYTE *)&v56 + v60) << v49) | (*((_BYTE *)&v56 + v60 + 1) >> (8 - v49));
BYTE1(v56) = (*((_BYTE *)&v56 + v60 + 1) << v49) | (*((_BYTE *)&v56 + v60 + 2) >> (8 - v49));
BYTE2(v56) = (*((_BYTE *)&v56 + v60 + 2) << v49) | (*((_BYTE *)&v56 + v60 + 3) >> (8 - v49));
HIBYTE(v56) = (*((_BYTE *)&v56 + v60 + 3) << v49) | (*((_BYTE *)&v57 + v60) >> (8 - v49));
}
else
{
memmove(&Src, (char *)&Src + v60, 8ui64);
}
v17 = Src;
v19 = v56;
}
}
while ( v8 >= (unsigned int)v11 );
LABEL_61:
v13 = (__int64)v54;
}
}
else if ( a4 >= (unsigned int)v11 )
{
v50 = v11 - 1;
do
{
v51 = v8 - v11;
v52 = v17;
v53 = v19;
sub_1400FF740(&v52, a5, 1);
v34 = v50;
v35 = v18 + a1;
v36 = 0;
v37 = 0;
switch ( v50 )
{
case 0:
goto LABEL_42;
case 1:
goto LABEL_41;
case 2:
goto LABEL_40;
case 3:
goto LABEL_39;
case 4:
goto LABEL_38;
case 5:
goto LABEL_37;
case 6:
goto LABEL_36;
case 7:
v38 = *(unsigned __int8 *)--v35;
v36 = v38 << 24;
LABEL_36:
v39 = *(unsigned __int8 *)--v35;
v36 |= v39 << 16;
LABEL_37:
v40 = *(unsigned __int8 *)--v35;
v36 |= v40 << 8;
LABEL_38:
v41 = *(unsigned __int8 *)--v35;
v36 |= v41;
LABEL_39:
v42 = *(unsigned __int8 *)--v35;
v37 = v42 << 24;
LABEL_40:
v43 = *(unsigned __int8 *)--v35;
v37 |= v43 << 16;
LABEL_41:
v44 = *(unsigned __int8 *)--v35;
v37 |= v44 << 8;
LABEL_42:
v45 = *(unsigned __int8 *)--v35;
v37 |= v45;
break;
default:
break;
}
a1 = v18 + v35;
if ( a3 == 32 )
{
v17 = v19;
v19 = v37;
}
else if ( a3 == 64 )
{
v17 = v37;
v19 = v36;
}
else
{
Src = v17;
v56 = v19;
v57 = v37;
v58 = v36;
if ( v49 )
{
LOBYTE(Src) = (*((_BYTE *)&Src + v60) << v49) | (*((_BYTE *)&Src + v60 + 1) >> (8 - v49));
BYTE1(Src) = (*((_BYTE *)&Src + v60 + 2) >> (8 - v49)) | (*((_BYTE *)&Src + v60 + 1) << v49);
BYTE2(Src) = (*((_BYTE *)&Src + v60 + 2) << v49) | (*((_BYTE *)&Src + v60 + 3) >> (8 - v49));
HIBYTE(Src) = (*((_BYTE *)&Src + v60 + 3) << v49) | (*((_BYTE *)&v56 + v60) >> (8 - v49));
LOBYTE(v56) = (*((_BYTE *)&v56 + v60) << v49) | (*((_BYTE *)&v56 + v60 + 1) >> (8 - v49));
BYTE1(v56) = (*((_BYTE *)&v56 + v60 + 1) << v49) | (*((_BYTE *)&v56 + v60 + 2) >> (8 - v49));
BYTE2(v56) = (*((_BYTE *)&v56 + v60 + 2) << v49) | (*((_BYTE *)&v56 + v60 + 3) >> (8 - v49));
HIBYTE(v56) = (*((_BYTE *)&v56 + v60 + 3) << v49) | (*((_BYTE *)&v57 + v60) >> (8 - v49));
}
else
{
memmove(&Src, (char *)&Src + v60, 8ui64);
v34 = v50;
}
v17 = Src;
v19 = v56;
}
v46 = v52 ^ v37;
v47 = v53 ^ v36;
v48 = v18 + a2;
switch ( v34 )
{
case 0:
goto LABEL_59;
case 1:
goto LABEL_58;
case 2:
goto LABEL_57;
case 3:
goto LABEL_56;
case 4:
goto LABEL_55;
case 5:
goto LABEL_54;
case 6:
goto LABEL_53;
case 7:
*(_BYTE *)--v48 = HIBYTE(v47);
LABEL_53:
*(_BYTE *)--v48 = BYTE2(v47);
LABEL_54:
*(_BYTE *)--v48 = BYTE1(v47);
LABEL_55:
*(_BYTE *)--v48 = v47;
LABEL_56:
*(_BYTE *)--v48 = HIBYTE(v46);
LABEL_57:
*(_BYTE *)--v48 = BYTE2(v46);
LABEL_58:
*(_BYTE *)--v48 = BYTE1(v46);
LABEL_59:
*(_BYTE *)--v48 = v46;
break;
default:
break;
}
v8 = v51;
a2 = v18 + v48;
LODWORD(v11) = v18;
}
while ( v51 >= (unsigned int)v18 );
goto LABEL_61;
}
*a6 = v17;
*(_BYTE *)v13 = BYTE1(v17);
*(_BYTE *)(v13 + 1) = BYTE2(v17);
*(_BYTE *)(v13 + 2) = HIBYTE(v17);
*(_DWORD *)(v13 + 3) = v19;
return HIWORD(v19);
}
return result;
}
|
openssl
|
des_ctrl
|
__int64 __fastcall des_ctrl(evp_cipher_ctx_st *c, int type, int arg, unsigned __int8 (*ptr)[8])
{
if ( type != 6 )
return 0xFFFFFFFFi64;
if ( (int)sub_1400DAEE0((__int64)ptr, 8) <= 0 )
return 0i64;
DES_set_odd_parity_0(ptr);
return 1i64;
}
|
openssl
|
DES_ecb3_encrypt
|
__int64 __fastcall DES_ecb3_encrypt(unsigned __int8 *a1, __int64 a2, _DWORD *a3, _DWORD *a4, _DWORD *a5, int a6)
{
int v6; // r10d
int v7; // eax
unsigned __int8 *v8; // r11
int v10; // edx
int v11; // ecx
int v12; // r10d
int v13; // eax
__int16 v14; // ecx^2
char v15; // al
unsigned int v16; // ecx
__int64 result; // rax
int v18; // [rsp+30h] [rbp+8h] BYREF
int v19; // [rsp+34h] [rbp+Ch]
v6 = *a1;
v7 = a1[1];
v8 = a1 + 1;
v10 = a1[4];
v11 = a1[7] << 8;
v12 = (v8[2] << 24) | (v8[1] << 16) | (v7 << 8) | v6;
v13 = v8[4] << 8;
v18 = v12;
v19 = v13 | v10 | ((v8[5] | v11) << 16);
if ( a6 )
sub_140101BE0((unsigned int *)&v18, a3, a4, a5);
else
sub_140101D30((unsigned int *)&v18, a3, a4, a5);
v14 = HIWORD(v18);
*(_WORD *)a2 = v18;
*(_BYTE *)(a2 + 2) = v14;
v15 = v19;
*(_BYTE *)(a2 + 3) = HIBYTE(v14);
v16 = v19;
*(_BYTE *)(a2 + 4) = v15;
*(_BYTE *)(a2 + 5) = BYTE1(v16);
result = HIWORD(v16);
*(_BYTE *)(a2 + 6) = BYTE2(v16);
*(_BYTE *)(a2 + 7) = HIBYTE(v16);
return result;
}
|
openssl
|
DES_ede3_cbc_encrypt
|
__int64 __fastcall DES_ede3_cbc_encrypt(
unsigned __int8 *a1,
__int64 a2,
unsigned int a3,
_DWORD *a4,
_DWORD *a5,
_DWORD *a6,
unsigned __int16 *a7,
int a8)
{
int *v11; // r13
_DWORD *v12; // r15
_DWORD *v13; // r10
int v14; // edi
int v15; // r11d
unsigned int v16; // r9d
unsigned __int64 v17; // r12
int v18; // edx
int v19; // ecx
int v20; // eax
int v21; // edx
int v22; // ecx
int v23; // eax
int v24; // edx
int v25; // r8d
unsigned __int8 *v26; // rbp
int v27; // edx
int v28; // eax
int v29; // eax
int v30; // eax
int v31; // r8d
int v32; // eax
int v33; // eax
_DWORD *v35; // rdx
int v36; // r15d
int v37; // r12d
int v38; // r13d
_DWORD *v39; // r8
__int64 v40; // r14
int v41; // ecx
int v42; // eax
int v43; // r12d
unsigned int v44; // r13d
unsigned __int64 v45; // r14
_DWORD *v46; // r15
int v47; // ebx
int v48; // edi
int v49; // eax
int v50; // edi
int v51; // eax
int v52; // ebx
unsigned int v53; // r12d
int v54; // r13d
int v55; // edi
int v56; // ecx
int v57; // ebx
int v58; // eax
int v59; // edi
unsigned int v60; // r12d
int v61; // r13d
__int64 v62; // rsi
int v63; // [rsp+60h] [rbp+8h] BYREF
unsigned int v64; // [rsp+64h] [rbp+Ch]
__int64 v65; // [rsp+68h] [rbp+10h]
_DWORD *v66; // [rsp+78h] [rbp+20h]
v66 = a4;
if ( a8 )
{
v11 = (int *)a7;
v12 = a6;
v13 = a5;
v14 = a3 - 8;
v15 = (*((unsigned __int8 *)a7 + 3) << 24) | (*((unsigned __int8 *)a7 + 2) << 16) | *a7;
v16 = *((_DWORD *)a7 + 1);
if ( (int)(a3 - 8) >= 0 )
{
v17 = (unsigned __int64)a3 >> 3;
v14 = a3 - 8 - 8 * (a3 >> 3);
do
{
v18 = *a1;
v19 = a1[4];
v20 = a1[1] << 8;
a1 += 8;
v21 = (*(a1 - 5) << 24) | (*(a1 - 6) << 16) | v20 | v18;
v22 = (*(a1 - 3) << 8) | v19;
v23 = *(a1 - 2);
v63 = v15 ^ v21;
v64 = v16 ^ ((*(a1 - 1) << 24) | (v23 << 16) | v22);
sub_140101BE0((unsigned int *)&v63, a4, v13, v12);
v15 = v63;
v16 = v64;
v13 = a5;
a2 += 8i64;
*(_WORD *)(a2 - 8) = v63;
*(_BYTE *)(a2 - 6) = BYTE2(v15);
*(_BYTE *)(a2 - 5) = HIBYTE(v15);
*(_DWORD *)(a2 - 4) = v16;
--v17;
}
while ( v17 );
}
if ( v14 != -8 )
{
v24 = 0;
v25 = 0;
v26 = &a1[v14 + 8];
switch ( v14 )
{
case -7:
goto LABEL_14;
case -6:
goto LABEL_13;
case -5:
goto LABEL_12;
case -4:
goto LABEL_11;
case -3:
goto LABEL_10;
case -2:
goto LABEL_9;
case -1:
goto LABEL_8;
case 0:
v27 = *--v26;
v24 = v27 << 24;
LABEL_8:
v28 = *--v26;
v24 |= v28 << 16;
LABEL_9:
v29 = *--v26;
v24 |= v29 << 8;
LABEL_10:
v30 = *--v26;
v24 |= v30;
LABEL_11:
v31 = *--v26;
v25 = v31 << 24;
LABEL_12:
v32 = *--v26;
v25 |= v32 << 16;
LABEL_13:
v33 = *--v26;
v25 |= v33 << 8;
LABEL_14:
v25 |= *(v26 - 1);
break;
default:
break;
}
v63 = v15 ^ v25;
v64 = v16 ^ v24;
sub_140101BE0((unsigned int *)&v63, a4, v13, v12);
v15 = v63;
v16 = v64;
*(_WORD *)a2 = v63;
*(_BYTE *)(a2 + 2) = BYTE2(v15);
*(_BYTE *)(a2 + 3) = HIBYTE(v15);
*(_DWORD *)(a2 + 4) = v16;
}
*v11 = v15;
v11[1] = v16;
return HIWORD(v16);
}
else
{
v35 = a6;
v36 = a3 - 8;
v37 = *(unsigned __int8 *)a7;
v38 = *((unsigned __int8 *)a7 + 4);
v39 = a5;
v40 = (__int64)a7 + 1;
v41 = *((unsigned __int8 *)a7 + 7) << 8;
v42 = *((unsigned __int8 *)a7 + 1);
v65 = (__int64)a7 + 1;
v43 = (*((unsigned __int8 *)a7 + 3) << 24) | (*((unsigned __int8 *)a7 + 2) << 16) | (v42 << 8) | v37;
v44 = ((*((unsigned __int8 *)a7 + 6) | v41) << 16) | (*((unsigned __int8 *)a7 + 5) << 8) | v38;
if ( v36 >= 0 )
{
v45 = (unsigned __int64)(unsigned int)(v36 + 8) >> 3;
a8 = v36 - 8 * ((unsigned int)(v36 + 8) >> 3);
v46 = v66;
do
{
v47 = a1[4];
v48 = *(unsigned __int16 *)a1;
v49 = a1[2] << 16;
a1 += 8;
v50 = (*(a1 - 5) << 24) | v49 | v48;
v51 = *(a1 - 3) << 8;
v63 = v50;
v52 = (*(a1 - 1) << 24) | (*(a1 - 2) << 16) | v51 | v47;
v64 = v52;
sub_140101D30((unsigned int *)&v63, v46, v39, v35);
v53 = v63 ^ v43;
v54 = v64 ^ v44;
v35 = a6;
v39 = a5;
*(_BYTE *)a2 = v53;
a2 += 8i64;
*(_BYTE *)(a2 - 7) = BYTE1(v53);
*(_BYTE *)(a2 - 6) = BYTE2(v53);
*(_BYTE *)(a2 - 5) = HIBYTE(v53);
*(_DWORD *)(a2 - 4) = v54;
v43 = v50;
--v45;
v44 = v52;
}
while ( v45 );
v40 = v65;
v36 = a8;
}
if ( v36 != -8 )
{
v55 = a1[4];
v56 = a1[7] << 8;
v57 = (a1[3] << 24) | (a1[2] << 16) | *(unsigned __int16 *)a1;
v58 = a1[5] << 8;
v63 = v57;
v59 = ((a1[6] | v56) << 16) | v58 | v55;
v64 = v59;
sub_140101D30((unsigned int *)&v63, v66, v39, v35);
v60 = v63 ^ v43;
v61 = v64 ^ v44;
v62 = v36 + 8 + a2;
switch ( v36 )
{
case -7:
goto LABEL_30;
case -6:
goto LABEL_29;
case -5:
goto LABEL_28;
case -4:
goto LABEL_27;
case -3:
goto LABEL_26;
case -2:
goto LABEL_25;
case -1:
goto LABEL_24;
case 0:
*(_BYTE *)--v62 = HIBYTE(v61);
LABEL_24:
*(_BYTE *)--v62 = BYTE2(v61);
LABEL_25:
*(_BYTE *)--v62 = BYTE1(v61);
LABEL_26:
*(_BYTE *)--v62 = v61;
LABEL_27:
*(_BYTE *)--v62 = HIBYTE(v60);
LABEL_28:
*(_BYTE *)--v62 = BYTE2(v60);
LABEL_29:
*(_BYTE *)--v62 = BYTE1(v60);
LABEL_30:
*(_BYTE *)(v62 - 1) = v60;
break;
default:
break;
}
v43 = v57;
v44 = v59;
}
*(_BYTE *)a7 = v43;
*(_BYTE *)v40 = BYTE1(v43);
*(_BYTE *)(v40 + 1) = BYTE2(v43);
*(_BYTE *)(v40 + 2) = HIBYTE(v43);
*(_DWORD *)(v40 + 3) = v44;
return HIWORD(v44);
}
}
|
openssl
|
DES_ede3_cfb64_encrypt
|
char DES_ede3_cfb64_encrypt(char *a1, __int64 a2, int a3, _DWORD *a4, _DWORD *a5, _DWORD *a6, ...)
{
int *v6; // r14
int v7; // esi
int v8; // edi
unsigned __int16 *v11; // r13
int v12; // edx
int v13; // eax
__int16 v14; // ecx^2
char v15; // al
int v16; // ecx
__int64 v17; // rcx
char result; // al
unsigned __int16 *v19; // r13
int v20; // edx
int v21; // eax
__int16 v22; // ecx^2
char v23; // al
int v24; // ecx
char v25; // dl
char v26; // cl
unsigned __int16 *v28; // [rsp+80h] [rbp+38h] BYREF
va_list va; // [rsp+80h] [rbp+38h]
int *v30; // [rsp+88h] [rbp+40h]
__int64 v31; // [rsp+90h] [rbp+48h]
va_list va1; // [rsp+98h] [rbp+50h] BYREF
va_start(va1, a6);
va_start(va, a6);
v28 = va_arg(va1, unsigned __int16 *);
v30 = va_arg(va1, int *);
v31 = va_arg(va1, _QWORD);
v6 = v30;
v7 = a3;
v8 = *v30;
if ( (_DWORD)v31 )
{
if ( a3 )
{
v11 = v28;
do
{
--v7;
if ( !v8 )
{
v12 = *((unsigned __int8 *)v11 + 4);
v13 = *((unsigned __int8 *)v11 + 5);
LODWORD(v28) = (*((unsigned __int8 *)v11 + 3) << 24) | (*((unsigned __int8 *)v11 + 2) << 16) | *v11;
HIDWORD(v28) = (v13 << 8) | v12 | (v11[3] << 16);
sub_140101BE0((unsigned int *)va, a4, a5, a6);
v14 = WORD1(v28);
*v11 = (unsigned __int16)v28;
*((_BYTE *)v11 + 2) = v14;
v15 = BYTE4(v28);
*((_BYTE *)v11 + 3) = HIBYTE(v14);
v16 = HIDWORD(v28);
*((_BYTE *)v11 + 4) = v15;
*((_BYTE *)v11 + 5) = BYTE1(v16);
*((_BYTE *)v11 + 6) = BYTE2(v16);
*((_BYTE *)v11 + 7) = HIBYTE(v16);
}
v17 = v8;
++a2;
result = *((_BYTE *)v11 + v8) ^ *a1++;
*(_BYTE *)(a2 - 1) = result;
v8 = ((_BYTE)v8 + 1) & 7;
*((_BYTE *)v11 + v17) = result;
}
while ( v7 );
LABEL_13:
v6 = v30;
}
}
else if ( a3 )
{
v19 = v28;
do
{
--v7;
if ( !v8 )
{
v20 = *((unsigned __int8 *)v19 + 4);
v21 = *((unsigned __int8 *)v19 + 5);
LODWORD(v28) = (*((unsigned __int8 *)v19 + 3) << 24) | (*((unsigned __int8 *)v19 + 2) << 16) | *v19;
HIDWORD(v28) = (v21 << 8) | v20 | (v19[3] << 16);
sub_140101BE0((unsigned int *)va, a4, a5, a6);
v22 = WORD1(v28);
*v19 = (unsigned __int16)v28;
*((_BYTE *)v19 + 2) = v22;
v23 = BYTE4(v28);
*((_BYTE *)v19 + 3) = HIBYTE(v22);
v24 = HIDWORD(v28);
*((_BYTE *)v19 + 4) = v23;
*((_BYTE *)v19 + 5) = BYTE1(v24);
*((_BYTE *)v19 + 6) = BYTE2(v24);
*((_BYTE *)v19 + 7) = HIBYTE(v24);
}
v25 = *a1;
result = v8;
++a2;
v26 = *((_BYTE *)v19 + v8);
*((_BYTE *)v19 + v8) = *a1++;
*(_BYTE *)(a2 - 1) = v26 ^ v25;
v8 = ((_BYTE)v8 + 1) & 7;
}
while ( v7 );
goto LABEL_13;
}
*v6 = v8;
return result;
}
|
openssl
|
DES_ede3_cfb_encrypt
|
unsigned __int8 *__fastcall DES_ede3_cfb_encrypt(
__int64 a1,
__int64 a2,
int a3,
unsigned int a4,
_DWORD *a5,
_DWORD *a6,
_DWORD *a7,
unsigned __int8 *a8,
int a9)
{
_DWORD *v9; // r10
_DWORD *v10; // r11
unsigned __int8 *result; // rax
_DWORD *v13; // r9
unsigned int v14; // r15d
int v18; // ecx
__int64 v19; // r8
int v20; // edi
int v21; // ebx
int v22; // eax
int v23; // ebx
unsigned int v24; // edi
__int64 v25; // rbp
int v26; // r8d
int v27; // edx
int v28; // r8d
int v29; // eax
int v30; // eax
int v31; // eax
int v32; // edx
int v33; // eax
int v34; // eax
int v35; // eax
unsigned int v36; // edx
int v37; // r8d
__int64 v38; // rsi
int v39; // edi
unsigned __int8 v40; // r8
unsigned __int8 v41; // r9
unsigned __int8 v42; // r10
unsigned __int8 v43; // r11
unsigned __int8 v44; // dl
unsigned __int8 v45; // cl
unsigned __int8 v46; // al
unsigned int v47; // edx
unsigned int v48; // r13d
unsigned int v49; // r12d
__int64 v50; // rbp
int v51; // r13d
int v52; // eax
int v53; // eax
int v54; // eax
int v55; // r12d
int v56; // eax
int v57; // eax
int v58; // eax
__int64 v59; // r8
int v60; // edi
unsigned __int8 v61; // r8
unsigned __int8 v62; // r9
unsigned __int8 v63; // r10
unsigned __int8 v64; // r11
unsigned __int8 v65; // dl
unsigned __int8 v66; // cl
unsigned __int8 v67; // al
int v68; // ebx
int v69; // eax
int v70; // eax
unsigned int v71; // r12d
int v72; // r13d
__int64 v73; // rsi
unsigned __int8 v74; // [rsp+20h] [rbp-98h]
unsigned __int8 v75; // [rsp+20h] [rbp-98h]
int v76; // [rsp+24h] [rbp-94h]
int v77; // [rsp+24h] [rbp-94h]
int v78; // [rsp+28h] [rbp-90h] BYREF
unsigned int v79; // [rsp+2Ch] [rbp-8Ch]
unsigned int v80; // [rsp+30h] [rbp-88h]
int v81; // [rsp+34h] [rbp-84h]
_DWORD *v82; // [rsp+38h] [rbp-80h]
unsigned __int8 *v83; // [rsp+40h] [rbp-78h]
_DWORD *v84; // [rsp+48h] [rbp-70h]
_DWORD *v85; // [rsp+50h] [rbp-68h]
unsigned __int8 *v86; // [rsp+58h] [rbp-60h]
int Src; // [rsp+60h] [rbp-58h] BYREF
unsigned int v88; // [rsp+64h] [rbp-54h]
unsigned int v89; // [rsp+68h] [rbp-50h]
int v90; // [rsp+6Ch] [rbp-4Ch]
v9 = a5;
v10 = a6;
result = a8;
v13 = a7;
v14 = (unsigned int)(a3 + 7) >> 3;
v82 = a7;
v81 = a3;
v85 = a5;
v84 = a6;
v86 = a8;
if ( a3 <= 64 )
{
v18 = a8[7];
v19 = (__int64)(a8 + 1);
v20 = a8[4];
v21 = *(unsigned __int16 *)a8;
v22 = a8[2];
v83 = a8 + 1;
v23 = (a8[3] << 24) | (v22 << 16) | v21;
v24 = ((a8[6] | (v18 << 8)) << 16) | (a8[5] << 8) | v20;
if ( a9 )
{
if ( a4 >= v14 )
{
do
{
a4 -= v14;
v78 = v23;
v79 = v24;
sub_140101BE0((unsigned int *)&v78, v9, v10, v13);
v25 = v14 + a1;
v26 = 0;
v27 = 0;
switch ( v14 )
{
case 1u:
goto LABEL_12;
case 2u:
goto LABEL_11;
case 3u:
goto LABEL_10;
case 4u:
goto LABEL_9;
case 5u:
goto LABEL_8;
case 6u:
goto LABEL_7;
case 7u:
goto LABEL_6;
case 8u:
v28 = *(unsigned __int8 *)--v25;
v26 = v28 << 24;
LABEL_6:
v29 = *(unsigned __int8 *)--v25;
v26 |= v29 << 16;
LABEL_7:
v30 = *(unsigned __int8 *)--v25;
v26 |= v30 << 8;
LABEL_8:
v31 = *(unsigned __int8 *)--v25;
v26 |= v31;
LABEL_9:
v32 = *(unsigned __int8 *)--v25;
v27 = v32 << 24;
LABEL_10:
v33 = *(unsigned __int8 *)--v25;
v27 |= v33 << 16;
LABEL_11:
v34 = *(unsigned __int8 *)--v25;
v27 |= v34 << 8;
LABEL_12:
v35 = *(unsigned __int8 *)--v25;
v27 |= v35;
break;
default:
break;
}
v36 = v78 ^ v27;
v37 = v79 ^ v26;
a1 = v14 + v25;
v38 = v14 + a2;
switch ( v14 )
{
case 1u:
goto LABEL_21;
case 2u:
goto LABEL_20;
case 3u:
goto LABEL_19;
case 4u:
goto LABEL_18;
case 5u:
goto LABEL_17;
case 6u:
goto LABEL_16;
case 7u:
goto LABEL_15;
case 8u:
*(_BYTE *)--v38 = HIBYTE(v37);
LABEL_15:
*(_BYTE *)--v38 = BYTE2(v37);
LABEL_16:
*(_BYTE *)--v38 = BYTE1(v37);
LABEL_17:
*(_BYTE *)--v38 = v37;
LABEL_18:
*(_BYTE *)--v38 = HIBYTE(v36);
LABEL_19:
*(_BYTE *)--v38 = BYTE2(v36);
LABEL_20:
*(_BYTE *)--v38 = BYTE1(v36);
LABEL_21:
*(_BYTE *)--v38 = v36;
break;
default:
break;
}
a2 = v14 + v38;
if ( a3 == 32 )
{
v23 = v24;
v24 = v36;
}
else if ( a3 == 64 )
{
v23 = v36;
v24 = v37;
}
else
{
v89 = v36;
v88 = v24;
v90 = v37;
Src = v23;
v39 = a3 % 8;
v76 = a3 % 8;
memmove(&Src, (char *)&Src + a3 / 8, (a3 % 8 != 0) + 8);
if ( a3 % 8 )
{
LOBYTE(Src) = (BYTE1(Src) >> (8 - v39)) | ((_BYTE)Src << v39);
v40 = (BYTE2(Src) >> (8 - v39)) | (BYTE1(Src) << v39);
BYTE1(Src) = v40;
v41 = (HIBYTE(Src) >> (8 - v39)) | (BYTE2(Src) << v39);
BYTE2(Src) = v41;
v42 = ((unsigned __int8)v88 >> (8 - v39)) | (HIBYTE(Src) << v39);
HIBYTE(Src) = v42;
v43 = (BYTE1(v88) >> (8 - v39)) | ((_BYTE)v88 << v39);
LOBYTE(v88) = v43;
BYTE1(v88) = (BYTE2(v88) >> (8 - v39)) | (BYTE1(v88) << v39);
BYTE2(v88) = (HIBYTE(v88) >> (8 - v39)) | (BYTE2(v88) << v76);
v44 = BYTE2(v88);
v45 = BYTE1(v88);
v46 = Src;
v74 = ((unsigned __int8)v89 >> (8 - v39)) | (HIBYTE(v88) << v76);
HIBYTE(v88) = v74;
}
else
{
v44 = BYTE2(v88);
v45 = BYTE1(v88);
v43 = v88;
v42 = HIBYTE(Src);
v41 = BYTE2(Src);
v40 = BYTE1(Src);
v74 = HIBYTE(v88);
v46 = Src;
}
v23 = (v42 << 24) | (v41 << 16) | (v40 << 8) | v46;
v24 = ((v44 | (v74 << 8)) << 16) | (v45 << 8) | v43;
}
v9 = v85;
v10 = v84;
v13 = v82;
}
while ( a4 >= v14 );
LABEL_60:
v19 = (__int64)v83;
}
}
else if ( a4 >= v14 )
{
do
{
v78 = v23;
v79 = v24;
v80 = a4 - v14;
sub_140101BE0((unsigned int *)&v78, v9, v10, v13);
v47 = v14 - 1;
v48 = 0;
v49 = 0;
v50 = v14 + a1;
switch ( v14 )
{
case 1u:
goto LABEL_41;
case 2u:
goto LABEL_40;
case 3u:
goto LABEL_39;
case 4u:
goto LABEL_38;
case 5u:
goto LABEL_37;
case 6u:
goto LABEL_36;
case 7u:
goto LABEL_35;
case 8u:
v51 = *(unsigned __int8 *)--v50;
v48 = v51 << 24;
LABEL_35:
v52 = *(unsigned __int8 *)--v50;
v48 |= v52 << 16;
LABEL_36:
v53 = *(unsigned __int8 *)--v50;
v48 |= v53 << 8;
LABEL_37:
v54 = *(unsigned __int8 *)--v50;
v48 |= v54;
LABEL_38:
v55 = *(unsigned __int8 *)--v50;
v49 = v55 << 24;
LABEL_39:
v56 = *(unsigned __int8 *)--v50;
v49 |= v56 << 16;
LABEL_40:
v57 = *(unsigned __int8 *)--v50;
v49 |= v57 << 8;
LABEL_41:
v58 = *(unsigned __int8 *)--v50;
v49 |= v58;
break;
default:
break;
}
v59 = v14;
a1 = v14 + v50;
if ( v81 == 32 )
{
v23 = v24;
v24 = v49;
}
else if ( v81 == 64 )
{
v23 = v49;
v24 = v48;
}
else
{
v88 = v24;
Src = v23;
v89 = v49;
v90 = v48;
v60 = v81 % 8;
v77 = v81 % 8;
memmove(&Src, (char *)&Src + v81 / 8, (v81 % 8 != 0) + 8);
if ( v60 )
{
LOBYTE(Src) = (BYTE1(Src) >> (8 - v60)) | ((_BYTE)Src << v60);
v61 = (BYTE2(Src) >> (8 - v60)) | (BYTE1(Src) << v60);
BYTE1(Src) = v61;
v62 = (HIBYTE(Src) >> (8 - v60)) | (BYTE2(Src) << v60);
BYTE2(Src) = v62;
v63 = ((unsigned __int8)v88 >> (8 - v60)) | (HIBYTE(Src) << v60);
HIBYTE(Src) = v63;
v64 = (BYTE1(v88) >> (8 - v60)) | ((_BYTE)v88 << v60);
LOBYTE(v88) = v64;
BYTE1(v88) = (BYTE2(v88) >> (8 - v60)) | (BYTE1(v88) << v60);
BYTE2(v88) = (HIBYTE(v88) >> (8 - v60)) | (BYTE2(v88) << v77);
v65 = BYTE2(v88);
v66 = BYTE1(v88);
v67 = Src;
v75 = ((unsigned __int8)v89 >> (8 - v60)) | (HIBYTE(v88) << v77);
HIBYTE(v88) = v75;
}
else
{
v65 = BYTE2(v88);
v66 = BYTE1(v88);
v64 = v88;
v63 = HIBYTE(Src);
v62 = BYTE2(Src);
v61 = BYTE1(Src);
v75 = HIBYTE(v88);
v67 = Src;
}
v68 = v67;
v69 = v61 << 8;
v59 = v14;
v23 = (v63 << 24) | (v62 << 16) | v69 | v68;
v70 = v65;
v47 = v14 - 1;
v24 = ((v70 | (v75 << 8)) << 16) | (v66 << 8) | v64;
}
v71 = v78 ^ v49;
v72 = v79 ^ v48;
v73 = v14 + a2;
switch ( v47 )
{
case 0u:
goto LABEL_58;
case 1u:
goto LABEL_57;
case 2u:
goto LABEL_56;
case 3u:
goto LABEL_55;
case 4u:
goto LABEL_54;
case 5u:
goto LABEL_53;
case 6u:
goto LABEL_52;
case 7u:
*(_BYTE *)--v73 = HIBYTE(v72);
LABEL_52:
*(_BYTE *)--v73 = BYTE2(v72);
LABEL_53:
*(_BYTE *)--v73 = BYTE1(v72);
LABEL_54:
*(_BYTE *)--v73 = v72;
LABEL_55:
*(_BYTE *)--v73 = HIBYTE(v71);
LABEL_56:
*(_BYTE *)--v73 = BYTE2(v71);
LABEL_57:
*(_BYTE *)--v73 = BYTE1(v71);
LABEL_58:
*(_BYTE *)--v73 = v71;
break;
default:
break;
}
a4 = v80;
v9 = v85;
v10 = v84;
v13 = v82;
a2 = v59 + v73;
}
while ( v80 >= v14 );
goto LABEL_60;
}
*v86 = v23;
*(_BYTE *)v19 = BYTE1(v23);
*(_BYTE *)(v19 + 1) = BYTE2(v23);
*(_BYTE *)(v19 + 2) = HIBYTE(v23);
*(_DWORD *)(v19 + 3) = v24;
return (unsigned __int8 *)HIWORD(v24);
}
return result;
}
|
openssl
|
DES_ede3_ofb64_encrypt
|
__int64 __fastcall DES_ede3_ofb64_encrypt(
_BYTE *a1,
_BYTE *a2,
int a3,
_DWORD *a4,
_DWORD *a5,
_DWORD *a6,
unsigned __int8 *a7,
int *a8)
{
int *v8; // r14
int v10; // ebx
int v13; // r9d
int v14; // r8d
int v15; // eax
int v16; // r13d
int v17; // r9d
int v18; // ecx
int v19; // eax
int v21; // r9d
int v22; // eax
int v23; // r9d
int v24; // eax
unsigned int v25; // r8d
__int64 result; // rax
_DWORD *v27; // r14
_DWORD *v28; // rdi
__int64 v29; // rdi
int v30; // [rsp+20h] [rbp-78h] BYREF
unsigned int v31; // [rsp+24h] [rbp-74h]
_DWORD *v32; // [rsp+28h] [rbp-70h]
unsigned __int8 *v33; // [rsp+30h] [rbp-68h]
_DWORD *v34; // [rsp+38h] [rbp-60h]
int *v35; // [rsp+40h] [rbp-58h]
unsigned __int8 *v36; // [rsp+48h] [rbp-50h]
unsigned int v37; // [rsp+50h] [rbp-48h]
unsigned int v38; // [rsp+54h] [rbp-44h]
v8 = a8;
v10 = *a8;
v34 = a5;
v13 = *a7;
v14 = a7[4];
v36 = a7;
v15 = a7[1];
v32 = a6;
v16 = 0;
v17 = (v15 << 8) | v13;
v18 = a7[7] << 8;
v19 = a7[2] << 16;
v35 = a8;
v21 = v19 | v17;
v22 = a7[3];
v33 = a7 + 1;
v23 = (v22 << 24) | v21;
v24 = a7[5] << 8;
v30 = v23;
LOWORD(v37) = v23;
v25 = ((a7[6] | v18) << 16) | v24 | v14;
v31 = v25;
v38 = v25;
BYTE2(v37) = BYTE2(v23);
HIBYTE(v37) = HIBYTE(v23);
result = HIBYTE(v25);
if ( a3 )
{
v27 = v34;
v28 = v32;
do
{
--a3;
if ( !v10 )
{
sub_140101BE0((unsigned int *)&v30, a4, v27, v28);
v23 = v30;
v25 = v31;
v37 = v30;
v38 = v31;
++v16;
}
result = v10;
*a2++ = *a1++ ^ *((_BYTE *)&v37 + v10);
v10 = ((_BYTE)v10 + 1) & 7;
}
while ( a3 );
v29 = (__int64)v33;
v8 = v35;
if ( v16 )
{
*v36 = v23;
*(_BYTE *)v29 = BYTE1(v23);
*(_BYTE *)(v29 + 1) = BYTE2(v23);
*(_BYTE *)(v29 + 2) = HIBYTE(v23);
*(_DWORD *)(v29 + 3) = v25;
result = HIWORD(v25);
}
}
*v8 = v10;
return result;
}
|
openssl
|
DES_ncbc_encrypt
|
__int64 __fastcall DES_ncbc_encrypt(
unsigned __int8 *a1,
__int64 a2,
unsigned int a3,
_DWORD *a4,
unsigned __int16 *a5,
int a6)
{
int v9; // edi
int v10; // r11d
unsigned int v11; // r9d
unsigned __int64 v12; // r12
int v13; // edx
int v14; // ecx
int v15; // eax
int v16; // edx
int v17; // ecx
int v18; // eax
int v19; // edx
int v20; // r8d
unsigned __int8 *v21; // rbp
int v22; // edx
int v23; // eax
int v24; // eax
int v25; // eax
int v26; // r8d
int v27; // eax
int v28; // eax
unsigned int v30; // r15d
int v31; // r12d
int v32; // r13d
__int64 v33; // r14
int v34; // ecx
int v35; // eax
int v36; // r12d
unsigned int v37; // r13d
unsigned __int64 v38; // r14
int v39; // ebx
int v40; // edi
int v41; // eax
int v42; // edi
int v43; // eax
int v44; // ebx
int v45; // r12d
int v46; // r13d
int v47; // edi
int v48; // ecx
int v49; // ebx
int v50; // eax
int v51; // edi
int v52; // r12d
int v53; // r13d
__int64 v54; // rsi
int v55; // [rsp+20h] [rbp-38h] BYREF
unsigned int v56; // [rsp+24h] [rbp-34h]
__int64 v57; // [rsp+28h] [rbp-30h]
if ( a6 )
{
v9 = a3 - 8;
v10 = (*((unsigned __int8 *)a5 + 3) << 24) | (*((unsigned __int8 *)a5 + 2) << 16) | *a5;
v11 = *((_DWORD *)a5 + 1);
if ( (int)(a3 - 8) >= 0 )
{
v12 = (unsigned __int64)a3 >> 3;
v9 = a3 - 8 - 8 * (a3 >> 3);
do
{
v13 = *a1;
v14 = a1[4];
v15 = a1[1] << 8;
a1 += 8;
v16 = (*(a1 - 5) << 24) | (*(a1 - 6) << 16) | v15 | v13;
v17 = (*(a1 - 3) << 8) | v14;
v18 = *(a1 - 2);
v55 = v10 ^ v16;
v56 = v11 ^ ((*(a1 - 1) << 24) | (v18 << 16) | v17);
sub_1400FF740(&v55, a4, 1);
v10 = v55;
v11 = v56;
a2 += 8i64;
*(_WORD *)(a2 - 8) = v55;
*(_BYTE *)(a2 - 6) = BYTE2(v10);
*(_BYTE *)(a2 - 5) = HIBYTE(v10);
*(_DWORD *)(a2 - 4) = v11;
--v12;
}
while ( v12 );
}
if ( v9 != -8 )
{
v19 = 0;
v20 = 0;
v21 = &a1[v9 + 8];
switch ( v9 )
{
case -7:
goto LABEL_14;
case -6:
goto LABEL_13;
case -5:
goto LABEL_12;
case -4:
goto LABEL_11;
case -3:
goto LABEL_10;
case -2:
goto LABEL_9;
case -1:
goto LABEL_8;
case 0:
v22 = *--v21;
v19 = v22 << 24;
LABEL_8:
v23 = *--v21;
v19 |= v23 << 16;
LABEL_9:
v24 = *--v21;
v19 |= v24 << 8;
LABEL_10:
v25 = *--v21;
v19 |= v25;
LABEL_11:
v26 = *--v21;
v20 = v26 << 24;
LABEL_12:
v27 = *--v21;
v20 |= v27 << 16;
LABEL_13:
v28 = *--v21;
v20 |= v28 << 8;
LABEL_14:
v20 |= *(v21 - 1);
break;
default:
break;
}
v55 = v10 ^ v20;
v56 = v11 ^ v19;
sub_1400FF740(&v55, a4, 1);
v10 = v55;
v11 = v56;
*(_WORD *)a2 = v55;
*(_BYTE *)(a2 + 2) = BYTE2(v10);
*(_BYTE *)(a2 + 3) = HIBYTE(v10);
*(_DWORD *)(a2 + 4) = v11;
}
*(_DWORD *)a5 = v10;
*((_DWORD *)a5 + 1) = v11;
return HIWORD(v11);
}
else
{
v30 = a3 - 8;
v31 = *(unsigned __int8 *)a5;
v32 = *((unsigned __int8 *)a5 + 4);
v33 = (__int64)a5 + 1;
v34 = *((unsigned __int8 *)a5 + 7) << 8;
v35 = *((unsigned __int8 *)a5 + 1);
v57 = (__int64)a5 + 1;
v36 = (*((unsigned __int8 *)a5 + 3) << 24) | (*((unsigned __int8 *)a5 + 2) << 16) | (v35 << 8) | v31;
v37 = ((*((unsigned __int8 *)a5 + 6) | v34) << 16) | (*((unsigned __int8 *)a5 + 5) << 8) | v32;
if ( (int)(a3 - 8) >= 0 )
{
v38 = (unsigned __int64)a3 >> 3;
do
{
v39 = a1[4];
v40 = *(unsigned __int16 *)a1;
v41 = a1[2] << 16;
a1 += 8;
v42 = (*(a1 - 5) << 24) | v41 | v40;
v43 = *(a1 - 3) << 8;
v55 = v42;
v44 = (*(a1 - 1) << 24) | (*(a1 - 2) << 16) | v43 | v39;
v56 = v44;
sub_1400FF740(&v55, a4, 0);
v45 = v55 ^ v36;
v46 = v56 ^ v37;
*(_BYTE *)a2 = v45;
a2 += 8i64;
*(_BYTE *)(a2 - 7) = BYTE1(v45);
*(_BYTE *)(a2 - 6) = BYTE2(v45);
*(_BYTE *)(a2 - 5) = HIBYTE(v45);
*(_DWORD *)(a2 - 4) = v46;
v36 = v42;
--v38;
v37 = v44;
}
while ( v38 );
v33 = v57;
v30 -= 8 * ((v30 + 8) >> 3);
}
if ( v30 != -8 )
{
v47 = a1[4];
v48 = a1[7] << 8;
v49 = (a1[3] << 24) | (a1[2] << 16) | *(unsigned __int16 *)a1;
v50 = a1[5] << 8;
v55 = v49;
v51 = ((a1[6] | v48) << 16) | v50 | v47;
v56 = v51;
sub_1400FF740(&v55, a4, 0);
v52 = v55 ^ v36;
v53 = v56 ^ v37;
v54 = (int)(v30 + 8) + a2;
switch ( v30 )
{
case 0xFFFFFFF9:
goto LABEL_30;
case 0xFFFFFFFA:
goto LABEL_29;
case 0xFFFFFFFB:
goto LABEL_28;
case 0xFFFFFFFC:
goto LABEL_27;
case 0xFFFFFFFD:
goto LABEL_26;
case 0xFFFFFFFE:
goto LABEL_25;
case 0xFFFFFFFF:
goto LABEL_24;
case 0u:
*(_BYTE *)--v54 = HIBYTE(v53);
LABEL_24:
*(_BYTE *)--v54 = BYTE2(v53);
LABEL_25:
*(_BYTE *)--v54 = BYTE1(v53);
LABEL_26:
*(_BYTE *)--v54 = v53;
LABEL_27:
*(_BYTE *)--v54 = HIBYTE(v52);
LABEL_28:
*(_BYTE *)--v54 = BYTE2(v52);
LABEL_29:
*(_BYTE *)--v54 = BYTE1(v52);
LABEL_30:
*(_BYTE *)(v54 - 1) = v52;
break;
default:
break;
}
v36 = v49;
v37 = v51;
}
*(_BYTE *)a5 = v36;
*(_BYTE *)v33 = BYTE1(v36);
*(_BYTE *)(v33 + 1) = BYTE2(v36);
*(_BYTE *)(v33 + 2) = HIBYTE(v36);
*(_DWORD *)(v33 + 3) = v37;
return HIWORD(v37);
}
}
|
openssl
|
DES_set_key_unchecked
|
__int64 __fastcall DES_set_key_unchecked(unsigned __int8 *a1, __int64 a2)
{
_DWORD *v3; // rdi
int v4; // r11d
int v5; // eax
int v6; // edx
unsigned int v7; // r11d
unsigned int v8; // edx
int v9; // eax
unsigned int v10; // r11d
int v11; // edx
int v12; // eax
unsigned int v13; // edx
int v14; // r11d
int v15; // eax
int v16; // r11d
unsigned int v17; // ebx
unsigned int v18; // r11d
int v19; // r11d
unsigned int v20; // ecx
unsigned int v21; // eax
unsigned int v22; // r10d
int v23; // eax
unsigned int v24; // r8d
__int64 result; // rax
v3 = &unk_140220200;
v4 = (a1[3] << 24) | (a1[2] << 16) | (a1[1] << 8) | *a1;
v5 = (v4 ^ (*((_DWORD *)a1 + 1) >> 4)) & 0xF0F0F0F;
v6 = (16 * v5) ^ *((_DWORD *)a1 + 1);
v7 = (v5 ^ v4 ^ ((v5 ^ v4) << 18)) & 0xCCCC0000 ^ (((v5 ^ v4 ^ ((v5 ^ v4) << 18)) & 0xCCCC0000) >> 18) ^ v5 ^ v4;
v8 = (v6 ^ (v6 << 18)) & 0xCCCC0000 ^ (((v6 ^ (v6 << 18)) & 0xCCCC0000) >> 18) ^ v6;
v9 = (v7 ^ (v8 >> 1)) & 0x55555555;
v10 = v9 ^ v7;
v11 = (2 * v9) ^ v8;
v12 = (v11 ^ (v10 >> 8)) & 0xFF00FF;
v13 = v12 ^ v11;
v14 = (v12 << 8) ^ v10;
v15 = (v14 ^ (v13 >> 1)) & 0x55555555;
v16 = v15 ^ v14;
v17 = ((2 * v15) ^ v13) & 0xFF00 | ((unsigned __int8)((2 * v15) ^ v13) << 16) | ((v16 & 0xF000000F | (((2 * v15) ^ v13) >> 12) & 0xFF0) >> 4);
v18 = v16 & 0xFFFFFFF;
do
{
if ( *v3 )
{
v19 = (v18 >> 2) | (v18 << 26);
v20 = v17 << 26;
v21 = v17 >> 2;
}
else
{
v19 = (v18 >> 1) | (v18 << 27);
v20 = v17 << 27;
v21 = v17 >> 1;
}
v18 = v19 & 0xFFFFFFF;
++v3;
v17 = (v21 | v20) & 0xFFFFFFF;
a2 += 8i64;
v22 = dword_14021FA00[v18 & 0x3F] | dword_14021FA00[((v18 & 0x1E000 | (unsigned __int64)((v18 >> 1) & 0x60000)) >> 13)
+ 128] | dword_14021FA00[(((unsigned __int8)v18 & 0xC0 | (unsigned __int64)((v18 >> 1) & 0xF00)) >> 6)
+ 64] | dword_14021FA00[((v18 & 0x100000 | ((v18 & 0xC00000 | (unsigned __int64)((v18 >> 1) & 0x7000000)) >> 1)) >> 20) + 192];
v23 = dword_14021FA00[(((unsigned __int8)v21 | (unsigned __int8)v20) & 0x3F) + 256] | dword_14021FA00[((v17 >> 15) & 0x3F) + 384] | dword_14021FA00[(((v21 | v20) & 0x1E00000 | (unsigned __int64)((v17 >> 1) & 0x6000000)) >> 21) + 448] | dword_14021FA00[((((unsigned __int16)v21 | (unsigned __int16)v20) & 0x180 | ((unsigned __int64)v17 >> 1) & 0x1E00) >> 7) + 320];
v24 = v23 & 0xFFFF0000;
result = (unsigned int)(v23 << 16);
*(_DWORD *)(a2 - 8) = __ROR4__(result | (unsigned __int16)v22, 30);
*(_DWORD *)(a2 - 4) = __ROR4__(v24 | HIWORD(v22), 26);
}
while ( (__int64)v3 < (__int64)"RSA_OAEP_PARAMS" );
return result;
}
|
openssl
|
DES_set_odd_parity_0
|
void __fastcall DES_set_odd_parity_0(unsigned __int8 (*key)[8])
{
(*key)[0] = byte_14021F880[(*key)[0]];
(*key)[1] = byte_14021F880[(*key)[1]];
(*key)[2] = byte_14021F880[(*key)[2]];
(*key)[3] = byte_14021F880[(*key)[3]];
(*key)[4] = byte_14021F880[(*key)[4]];
(*key)[5] = byte_14021F880[(*key)[5]];
(*key)[6] = byte_14021F880[(*key)[6]];
(*key)[7] = byte_14021F880[(*key)[7]];
}
|
openssl
|
DES_xcbc_encrypt
|
__int64 DES_xcbc_encrypt(
unsigned __int8 *a1,
__int64 a2,
unsigned int a3,
_DWORD *a4,
_BYTE *a5,
unsigned __int8 *a6,
...)
{
int v9; // r11d
int v10; // r12d
int v11; // r8d
int v12; // r9d
_BYTE *v13; // r14
unsigned int v14; // edi
_BYTE *v15; // rbx
int v16; // r8d
unsigned int v17; // r9d
unsigned __int64 v18; // r12
int v19; // ebx
int v20; // edx
int v21; // ecx
int v22; // eax
int v23; // edx
int v24; // ecx
int v25; // eax
int v26; // edx
int v27; // r10d
unsigned __int8 *v28; // rbp
int v29; // edx
int v30; // eax
int v31; // eax
int v32; // eax
int v33; // r10d
int v34; // eax
int v35; // eax
int v37; // r15d
_BYTE *v38; // r13
int v39; // r12d
unsigned int v40; // r14d
__int64 v41; // r13
int v42; // r15d
int v43; // ebx
int v44; // edi
int v45; // eax
int v46; // edi
int v47; // ebx
int v48; // r14d
int v49; // edi
int v50; // ecx
int v51; // ebx
int v52; // edi
int v53; // r12d
int v54; // r14d
__int64 v55; // rsi
int v56; // [rsp+20h] [rbp-48h]
int v57; // [rsp+24h] [rbp-44h]
int v58; // [rsp+80h] [rbp+18h]
int v60; // [rsp+98h] [rbp+30h]
__int64 v61; // [rsp+A0h] [rbp+38h] BYREF
va_list va; // [rsp+A0h] [rbp+38h]
__int64 v63; // [rsp+A8h] [rbp+40h]
va_list va1; // [rsp+B0h] [rbp+48h] BYREF
va_start(va1, a6);
va_start(va, a6);
v61 = va_arg(va1, _QWORD);
v63 = va_arg(va1, _QWORD);
v9 = (a6[3] << 24) | (a6[2] << 16) | *(unsigned __int16 *)a6;
v56 = v9;
v10 = ((a6[6] | (a6[7] << 8)) << 16) | (a6[5] << 8) | a6[4];
v57 = v10;
v11 = (*(unsigned __int8 *)(v61 + 3) << 24) | (*(unsigned __int8 *)(v61 + 2) << 16) | *(unsigned __int16 *)v61;
v58 = v11;
v12 = ((*(unsigned __int8 *)(v61 + 6) | (*(unsigned __int8 *)(v61 + 7) << 8)) << 16) | *(unsigned __int16 *)(v61 + 4);
v60 = v12;
if ( (_DWORD)v63 )
{
v13 = a5;
v14 = a3 - 8;
v15 = a5 + 1;
v16 = ((unsigned __int8)a5[3] << 24) | ((unsigned __int8)a5[2] << 16) | *(unsigned __int16 *)a5;
v17 = (((unsigned __int8)a5[6] | ((unsigned __int8)a5[7] << 8)) << 16) | ((unsigned __int8)a5[5] << 8) | (unsigned __int8)a5[4];
if ( (int)(a3 - 8) >= 0 )
{
v18 = (unsigned __int64)a3 >> 3;
v19 = v9;
LODWORD(v63) = a3 - 8 - 8 * (a3 >> 3);
do
{
v20 = *a1;
v21 = a1[4];
v22 = a1[1] << 8;
a1 += 8;
v23 = v16 ^ ((*(a1 - 5) << 24) | (*(a1 - 6) << 16) | v22 | v20);
v24 = (*(a1 - 3) << 8) | v21;
v25 = *(a1 - 2) << 16;
LODWORD(v61) = v19 ^ v23;
HIDWORD(v61) = v57 ^ v17 ^ ((*(a1 - 1) << 24) | v25 | v24);
sub_1400FF740((__int64 *)va, a4, 1);
v16 = v58 ^ v61;
v17 = v60 ^ HIDWORD(v61);
a2 += 8i64;
*(_WORD *)(a2 - 8) = v58 ^ v61;
*(_BYTE *)(a2 - 6) = BYTE2(v16);
*(_BYTE *)(a2 - 5) = HIBYTE(v16);
*(_DWORD *)(a2 - 4) = v17;
--v18;
}
while ( v18 );
v15 = a5 + 1;
v14 = v63;
v9 = v56;
v13 = a5;
v10 = v57;
}
if ( v14 != -8 )
{
v26 = 0;
v27 = 0;
v28 = &a1[v14 + 8];
switch ( v14 )
{
case 0xFFFFFFF9:
goto LABEL_15;
case 0xFFFFFFFA:
goto LABEL_14;
case 0xFFFFFFFB:
goto LABEL_13;
case 0xFFFFFFFC:
goto LABEL_12;
case 0xFFFFFFFD:
goto LABEL_11;
case 0xFFFFFFFE:
goto LABEL_10;
case 0xFFFFFFFF:
goto LABEL_9;
case 0u:
v29 = *--v28;
v26 = v29 << 24;
LABEL_9:
v30 = *--v28;
v26 |= v30 << 16;
LABEL_10:
v31 = *--v28;
v26 |= v31 << 8;
LABEL_11:
v32 = *--v28;
v26 |= v32;
LABEL_12:
v33 = *--v28;
v27 = v33 << 24;
LABEL_13:
v34 = *--v28;
v27 |= v34 << 16;
LABEL_14:
v35 = *--v28;
v27 |= v35 << 8;
LABEL_15:
v27 |= *(v28 - 1);
break;
default:
break;
}
HIDWORD(v61) = v10 ^ v17 ^ v26;
LODWORD(v61) = v9 ^ v16 ^ v27;
sub_1400FF740((__int64 *)va, a4, 1);
v17 = v60 ^ HIDWORD(v61);
v16 = v58 ^ v61;
*(_WORD *)a2 = v58 ^ v61;
*(_BYTE *)(a2 + 2) = BYTE2(v16);
*(_BYTE *)(a2 + 3) = HIBYTE(v16);
*(_DWORD *)(a2 + 4) = v17;
}
*v13 = v16;
*v15 = BYTE1(v16);
v15[1] = BYTE2(v16);
v15[2] = HIBYTE(v16);
*(_DWORD *)(v15 + 3) = v17;
return HIWORD(v17);
}
else
{
v37 = a3 - 8;
v38 = a5 + 1;
v39 = ((unsigned __int8)a5[3] << 24) | ((unsigned __int8)a5[2] << 16) | ((unsigned __int8)a5[1] << 8) | (unsigned __int8)*a5;
v40 = (((unsigned __int8)a5[6] | ((unsigned __int8)a5[7] << 8)) << 16) | ((unsigned __int8)a5[5] << 8) | (unsigned __int8)a5[4];
if ( v37 > 0 )
{
v41 = ((unsigned int)(v37 - 1) >> 3) + 1;
LODWORD(v63) = v37 - 8 * v41;
v42 = v9;
do
{
v43 = a1[4];
v44 = *(unsigned __int16 *)a1;
v45 = a1[2];
a1 += 8;
v46 = (*(a1 - 5) << 24) | (v45 << 16) | v44;
LODWORD(v61) = v11 ^ v46;
v47 = (*(a1 - 1) << 24) | (*(a1 - 2) << 16) | (*(a1 - 3) << 8) | v43;
HIDWORD(v61) = v12 ^ v47;
sub_1400FF740((__int64 *)va, a4, 0);
v11 = v58;
v12 = v60;
v48 = v57 ^ HIDWORD(v61) ^ v40;
a2 += 8i64;
*(_DWORD *)(a2 - 8) = v42 ^ v61 ^ v39;
*(_DWORD *)(a2 - 4) = v48;
v39 = v46;
--v41;
v40 = v47;
}
while ( v41 );
v38 = a5 + 1;
v37 = v63;
}
if ( v37 != -8 )
{
v49 = a1[4];
v50 = a1[7] << 8;
v51 = (a1[3] << 24) | (a1[2] << 16) | *(unsigned __int16 *)a1;
LODWORD(v61) = v11 ^ v51;
v52 = ((a1[6] | v50) << 16) | (a1[5] << 8) | v49;
HIDWORD(v61) = v12 ^ v52;
sub_1400FF740((__int64 *)va, a4, 0);
v53 = v56 ^ v61 ^ v39;
v54 = v57 ^ HIDWORD(v61) ^ v40;
v55 = v37 + 8 + a2;
switch ( v37 )
{
case -7:
goto LABEL_31;
case -6:
goto LABEL_30;
case -5:
goto LABEL_29;
case -4:
goto LABEL_28;
case -3:
goto LABEL_27;
case -2:
goto LABEL_26;
case -1:
goto LABEL_25;
case 0:
*(_BYTE *)--v55 = HIBYTE(v54);
LABEL_25:
*(_BYTE *)--v55 = BYTE2(v54);
LABEL_26:
*(_BYTE *)--v55 = BYTE1(v54);
LABEL_27:
*(_BYTE *)--v55 = v54;
LABEL_28:
*(_BYTE *)--v55 = HIBYTE(v53);
LABEL_29:
*(_BYTE *)--v55 = BYTE2(v53);
LABEL_30:
*(_BYTE *)--v55 = BYTE1(v53);
LABEL_31:
*(_BYTE *)(v55 - 1) = v53;
break;
default:
break;
}
v39 = v51;
v40 = v52;
}
*a5 = v39;
*v38 = BYTE1(v39);
v38[1] = BYTE2(v39);
v38[2] = HIBYTE(v39);
*(_DWORD *)(v38 + 3) = v40;
return HIWORD(v40);
}
}
|
openssl
|
DHparams_dup_0
|
__int64 __fastcall DHparams_dup_0(__int64 a1)
{
__int64 v2; // rax
__int64 v3; // rbx
v2 = sub_1400CA3C0();
v3 = v2;
if ( !v2 )
return 0i64;
if ( !(unsigned int)sub_1400CC490(v2, a1, -1) )
{
sub_1400C9F60(v3);
return 0i64;
}
return v3;
}
|
openssl
|
DH_generate_parameters_ex_0
|
__int64 __fastcall DH_generate_parameters_ex_0(dh_st *ret, __int64 prime_len, __int64 generator, bn_gencb_st *cb)
{
__int64 (__fastcall *v4)(dh_st *, __int64, __int64, bn_gencb_st *); // r10
v4 = *(__int64 (__fastcall **)(dh_st *, __int64, __int64, bn_gencb_st *))(*((_QWORD *)ret + 15) + 64i64);
if ( v4 )
return v4(ret, prime_len, generator, cb);
else
return sub_1400CD1E0((__int64)ret, prime_len, generator, (__int64)cb);
}
|
openssl
|
DH_get_1024_160_0
|
_QWORD *DH_get_1024_160_0()
{
_QWORD *v0; // rbx
_DWORD *v1; // rax
bool v2; // zf
v0 = (_QWORD *)sub_1400CA3C0();
if ( v0 )
{
v0[1] = sub_1400ABBE0((__int64)&unk_1402337D8);
v0[2] = sub_1400ABBE0((__int64)&unk_1402337F0);
v1 = sub_1400ABBE0((__int64)&unk_140233808);
v2 = v0[1] == 0i64;
v0[8] = v1;
if ( !v2 && v1 && v0[2] )
return v0;
sub_1400C9F60((__int64)v0);
}
return 0i64;
}
|
openssl
|
DH_get_1024_160_0_0
|
_QWORD *DH_get_1024_160_0_0()
{
_QWORD *v0; // rbx
_DWORD *v1; // rax
bool v2; // zf
v0 = (_QWORD *)sub_1400CA3C0();
if ( v0 )
{
v0[1] = sub_1400ABBE0((__int64)&unk_140233820);
v0[2] = sub_1400ABBE0((__int64)&unk_140233838);
v1 = sub_1400ABBE0((__int64)&unk_140233850);
v2 = v0[1] == 0i64;
v0[8] = v1;
if ( !v2 && v1 && v0[2] )
return v0;
sub_1400C9F60((__int64)v0);
}
return 0i64;
}
|
openssl
|
DH_get_1024_160_0_1
|
_QWORD *DH_get_1024_160_0_1()
{
_QWORD *v0; // rbx
_DWORD *v1; // rax
bool v2; // zf
v0 = (_QWORD *)sub_1400CA3C0();
if ( v0 )
{
v0[1] = sub_1400ABBE0((__int64)&unk_140233868);
v0[2] = sub_1400ABBE0((__int64)&unk_140233880);
v1 = sub_1400ABBE0((__int64)&unk_140233898);
v2 = v0[1] == 0i64;
v0[8] = v1;
if ( !v2 && v1 && v0[2] )
return v0;
sub_1400C9F60((__int64)v0);
}
return 0i64;
}
|
openssl
|
dh_param_encode
|
__int64 __fastcall dh_param_encode(const evp_pkey_st *pkey, char **pder)
{
bool v2; // zf
__int64 v3; // rcx
v2 = *((_QWORD *)pkey + 2) == (_QWORD)&unk_14020D730;
v3 = *((_QWORD *)pkey + 5);
if ( v2 )
return sub_1400C9CE0(v3, (__int64)pder);
else
return sub_1400C9B90(v3, (__int64)pder);
}
|
openssl
|
DH_size_0
|
__int64 __fastcall DH_size_0(const dh_st *dh)
{
return (unsigned int)((int)(sub_1400AAF50(*((_QWORD *)dh + 1)) + 7) / 8);
}
|
openssl
|
doexit
|
void __fastcall doexit(UINT uExitCode, int a2, int a3)
{
PVOID *v6; // rsi
__int64 v7; // rdx
__int64 v8; // rcx
PVOID *v9; // rdi
__int64 v10; // r8
__int64 v11; // r9
PVOID *v12; // r14
PVOID *v13; // r13
void (__fastcall *v14)(__int64, __int64, __int64, __int64); // rbx
__int64 v15; // rdx
__int64 v16; // rcx
__int64 v17; // r8
__int64 v18; // r9
__int64 v19; // rdx
__int64 v20; // rcx
__int64 v21; // r8
__int64 v22; // r9
PVOID *v23; // rbx
PVOID *v24; // rax
lock(8i64);
if ( dword_140285570 != 1 )
{
dword_14028556C = 1;
byte_140285568 = a3;
if ( !a2 )
{
v6 = (PVOID *)DecodePointer(qword_140286DC0);
if ( v6 )
{
v9 = (PVOID *)DecodePointer(qword_140286DB8);
v12 = v6;
v13 = v9;
while ( 1 )
{
do
--v9;
while ( v9 >= v6 && *v9 == (PVOID)unknown_libname_5(v8, v7, v10, v11) );
if ( v9 < v6 )
break;
v14 = (void (__fastcall *)(__int64, __int64, __int64, __int64))DecodePointer(*v9);
*v9 = (PVOID)unknown_libname_5(v16, v15, v17, v18);
v14(v20, v19, v21, v22);
v23 = (PVOID *)DecodePointer(qword_140286DC0);
v24 = (PVOID *)DecodePointer(qword_140286DB8);
if ( v12 != v23 || v13 != v24 )
{
v12 = v23;
v6 = v23;
v13 = v24;
v9 = v24;
}
}
}
initterm((_PVFV *)&First, (_PVFV *)&Last);
}
initterm((_PVFV *)&qword_1401BB608, (_PVFV *)&qword_1401BB610);
}
if ( a3 )
unlock(8i64);
if ( !a3 )
{
dword_140285570 = 1;
unlock(8i64);
_crtCorExitProcess(uExitCode);
ExitProcess(uExitCode);
}
}
|
openssl
|
do_err_strings_init
|
__int64 __fastcall do_err_strings_init()
{
if ( !(unsigned int)sub_14011F930(0i64) )
return 0i64;
qword_1402823E8 = sub_14011CCD0();
if ( !qword_1402823E8 )
return 0i64;
qword_140284CF8 = sub_1400E87B0(sub_1400B3E20, sub_1400B3E60);
if ( !qword_140284CF8 )
{
sub_14011CD70(qword_1402823E8);
qword_1402823E8 = 0i64;
return 0i64;
}
return 1i64;
}
|
openssl
|
do_rand_init
|
__int64 __fastcall do_rand_init()
{
__int64 v0; // rdx
__int64 v1; // rcx
qword_140284D80 = sub_14011CCD0();
if ( !qword_140284D80 )
return 0i64;
qword_140284D70 = sub_14011CCD0();
if ( !qword_140284D70 )
{
LABEL_7:
sub_14011CD70(qword_140284D80);
qword_140284D80 = 0i64;
return 0i64;
}
qword_140284D98 = sub_14011CCD0();
if ( !qword_140284D98 )
{
LABEL_6:
sub_14011CD70(qword_140284D70);
qword_140284D70 = 0i64;
goto LABEL_7;
}
if ( !(unsigned int)sub_1401554F0(v1, v0) )
{
sub_14011CD70(qword_140284D98);
qword_140284D98 = 0i64;
goto LABEL_6;
}
dword_140284DA4 = 1;
return 1i64;
}
|
openssl
|
do_store_init_ossl_
|
void __fastcall do_store_init_ossl_()
{
int v0; // eax
if ( !(unsigned int)sub_14011F930(0, 0i64) || (v0 = ossl_store_file_loader_init(), dword_140285488 = 1, !v0) )
dword_140285488 = 0;
}
|
openssl
|
DSAparams_print
|
__int64 __fastcall DSAparams_print(bio_st *a1, __int64 a2)
{
_DWORD *v4; // rax
__int64 v5; // rdi
unsigned int v6; // ebx
v4 = sub_1400A8430();
v5 = (__int64)v4;
if ( !v4 || !EVP_PKEY_set1_DSA_0((__int64)v4, a2) )
return 0i64;
v6 = sub_1400A89F0(a1, v5, 4);
sub_1400A8F50(v5);
return v6;
}
|
openssl
|
dsa_finish_0
|
__int64 __fastcall dsa_finish_0(dsa_st *dsa)
{
sub_140137190(*((_BYTE **)dsa + 7));
return 1i64;
}
|
openssl
|
DSA_generate_key_0
|
__int64 __fastcall DSA_generate_key_0(_QWORD *a1)
{
__int64 (*v1)(void); // rdx
v1 = *(__int64 (**)(void))(a1[10] + 88i64);
if ( v1 )
return v1();
else
return sub_1400D0FE0(a1);
}
|
openssl
|
dsa_pub_cmp
|
_BOOL8 __fastcall dsa_pub_cmp(const evp_pkey_st *a, const evp_pkey_st *b)
{
return (unsigned int)sub_1400AA9D0(*(_QWORD *)(*((_QWORD *)b + 5) + 32i64), *(_QWORD *)(*((_QWORD *)a + 5) + 32i64)) == 0;
}
|
openssl
|
dsa_sign_setup_no_digest
|
__int64 __fastcall dsa_sign_setup_no_digest(dsa_st *dsa, bignum_ctx *ctx_in, bignum_st **kinvp, bignum_st **rp)
{
return sub_140152540((__int64)dsa, (int *)ctx_in, kinvp, rp, 0i64, 0);
}
|
openssl
|
dsa_sign_setup_no_digest_0
|
__int64 __fastcall dsa_sign_setup_no_digest_0(dsa_st *dsa, bignum_ctx *ctx_in, bignum_st **kinvp, bignum_st **rp)
{
return sub_140189520((__int64)dsa, (int *)ctx_in, (_BYTE **)kinvp, (_BYTE **)rp, 0i64, 0);
}
|
openssl
|
DSO_bind_func_0
|
void (__fastcall *__fastcall DSO_bind_func_0(dso_st *dso, const char *symname))()
{
__int64 (*v2)(void); // r8
void (__fastcall *result)(); // rax
__int16 v4; // r8
int v5; // [rsp+20h] [rbp-18h]
if ( !dso || !symname )
{
v5 = 178;
v4 = 67;
LABEL_8:
sub_1400B4D50(37, 108, v4, (__int64)"crypto\\dso\\dso_lib.c", v5);
return 0i64;
}
v2 = *(__int64 (**)(void))(*(_QWORD *)dso + 24i64);
if ( v2 )
{
result = (void (__fastcall *)())v2();
if ( result )
return result;
v5 = 186;
v4 = 106;
goto LABEL_8;
}
sub_1400B4D50(37, 108, 108, (__int64)"crypto\\dso\\dso_lib.c", 182);
return 0i64;
}
|
openssl
|
dtls1_clear_received_buffer
|
void __fastcall dtls1_clear_received_buffer(ssl_st *s)
{
__int64 i; // rbx
for ( i = sub_140086DF0(*(_QWORD *)(*((_QWORD *)s + 22) + 280i64));
i;
i = sub_140086DF0(*(_QWORD *)(*((_QWORD *)s + 22) + 280i64)) )
{
sub_140079B00(*(_QWORD *)(i + 8));
pitem_free((pitem_st *)i);
}
}
|
openssl
|
dtls1_clear_sent_buffer
|
void __fastcall dtls1_clear_sent_buffer(ssl_st *s)
{
__int64 i; // rbx
for ( i = sub_140086DF0(*(_QWORD *)(*((_QWORD *)s + 22) + 288i64));
i;
i = sub_140086DF0(*(_QWORD *)(*((_QWORD *)s + 22) + 288i64)) )
{
sub_140079B00(*(_QWORD *)(i + 8));
pitem_free((pitem_st *)i);
}
}
|
openssl
|
dtls1_is_timer_expired
|
_BOOL8 __fastcall dtls1_is_timer_expired(ssl_st *s)
{
int v2; // [rsp+38h] [rbp+10h] BYREF
int v3; // [rsp+3Ch] [rbp+14h]
return sub_140064710((__int64)s, (__int64)&v2) && v2 <= 0 && v3 <= 0;
}
|
openssl
|
dtls1_record_replay_check
|
__int64 __fastcall dtls1_record_replay_check(__int64 a1, int *a2)
{
int v3; // r10d
__int64 v4; // r11
unsigned int v5; // r10d
int v7; // eax
v3 = sub_140088000((unsigned __int64 *)(a1 + 5832), (unsigned __int64 *)(a2 + 1));
if ( v3 <= 0 )
{
v5 = -v3;
if ( v5 >= 0x20 )
return 0i64;
v7 = *a2;
if ( _bittest(&v7, v5) )
return 0i64;
}
sub_140083F40(v4 + 3448, (__int64 *)(v4 + 5832));
return 1i64;
}
|
openssl
|
ec_bits
|
__int64 __fastcall ec_bits(const evp_pkey_st *pkey)
{
__int64 v1; // rax
v1 = sub_1400D3A10(*((_QWORD *)pkey + 5));
return sub_1400D5F30(v1);
}
|
openssl
|
ec_GF2m_simple_field_sqr
|
__int64 __fastcall ec_GF2m_simple_field_sqr(
const ec_group_st *group,
bignum_st *r,
const bignum_st *a,
bignum_ctx *ctx)
{
return sub_140193C30(r, a, (char *)group + 72, ctx);
}
|
openssl
|
ec_GF2m_simple_group_init
|
__int64 __fastcall ec_GF2m_simple_group_init(ec_group_st *group)
{
_DWORD *v2; // rax
__int64 v3; // rcx
*((_QWORD *)group + 8) = sub_1400AA8A0();
*((_QWORD *)group + 12) = sub_1400AA8A0();
v2 = sub_1400AA8A0();
v3 = *((_QWORD *)group + 8);
*((_QWORD *)group + 13) = v2;
if ( v3 && *((_QWORD *)group + 12) && v2 )
return 1i64;
sub_1400AB020(v3);
sub_1400AB020(*((_QWORD *)group + 12));
sub_1400AB020(*((_QWORD *)group + 13));
return 0i64;
}
|
openssl
|
ec_GF2m_simple_point_init
|
__int64 __fastcall ec_GF2m_simple_point_init(ec_point_st *point)
{
_DWORD *v2; // rax
__int64 v3; // rcx
*((_QWORD *)point + 2) = sub_1400AA8A0();
*((_QWORD *)point + 3) = sub_1400AA8A0();
v2 = sub_1400AA8A0();
v3 = *((_QWORD *)point + 2);
*((_QWORD *)point + 4) = v2;
if ( v3 && *((_QWORD *)point + 3) && v2 )
return 1i64;
sub_1400AB020(v3);
sub_1400AB020(*((_QWORD *)point + 3));
sub_1400AB020(*((_QWORD *)point + 4));
return 0i64;
}
|
openssl
|
ec_GFp_mont_group_clear_finish_0
|
void __fastcall ec_GFp_mont_group_clear_finish_0(ec_group_st *group)
{
__int64 v2; // rcx
sub_140137190(*((_BYTE **)group + 15));
v2 = *((_QWORD *)group + 16);
*((_QWORD *)group + 15) = 0i64;
sub_1400AB020(v2);
*((_QWORD *)group + 16) = 0i64;
ec_GFp_simple_group_finish_0(group);
}
|
openssl
|
ec_GFp_mont_group_clear_finish_0_0
|
void __fastcall ec_GFp_mont_group_clear_finish_0_0(ec_group_st *group)
{
_BYTE *v2; // rcx
sub_140137190(*((_BYTE **)group + 15));
v2 = (_BYTE *)*((_QWORD *)group + 16);
*((_QWORD *)group + 15) = 0i64;
sub_1400AAFA0(v2);
*((_QWORD *)group + 16) = 0i64;
ec_GFp_simple_group_finish_0_0(group);
}
|
openssl
|
ec_GFp_mont_group_init
|
int __fastcall ec_GFp_mont_group_init(ec_group_st *group)
{
int result; // eax
result = ec_GFp_simple_group_init(group);
*((_QWORD *)group + 15) = 0i64;
*((_QWORD *)group + 16) = 0i64;
return result;
}
|
openssl
|
ec_GFp_nist_group_copy
|
__int64 __fastcall ec_GFp_nist_group_copy(ec_group_st *dest, const ec_group_st *src)
{
*((_QWORD *)dest + 17) = *((_QWORD *)src + 17);
return sub_140195E40(dest, src);
}
|
openssl
|
ec_GFp_simple_group_finish_0
|
void __fastcall ec_GFp_simple_group_finish_0(ec_group_st *group)
{
sub_1400AB020(*((_QWORD *)group + 8));
sub_1400AB020(*((_QWORD *)group + 12));
sub_1400AB020(*((_QWORD *)group + 13));
}
|
openssl
|
ec_GFp_simple_group_finish_0_0
|
void __fastcall ec_GFp_simple_group_finish_0_0(ec_group_st *group)
{
sub_1400AAFA0(*((_BYTE **)group + 8));
sub_1400AAFA0(*((_BYTE **)group + 12));
sub_1400AAFA0(*((_BYTE **)group + 13));
}
|
openssl
|
ec_GFp_simple_group_init
|
__int64 __fastcall ec_GFp_simple_group_init(ec_group_st *group)
{
_DWORD *v2; // rax
__int64 v3; // rcx
*((_QWORD *)group + 8) = sub_1400AA8A0();
*((_QWORD *)group + 12) = sub_1400AA8A0();
v2 = sub_1400AA8A0();
v3 = *((_QWORD *)group + 8);
*((_QWORD *)group + 13) = v2;
if ( v3 && *((_QWORD *)group + 12) && v2 )
{
*((_DWORD *)group + 28) = 0;
return 1i64;
}
else
{
sub_1400AB020(v3);
sub_1400AB020(*((_QWORD *)group + 12));
sub_1400AB020(*((_QWORD *)group + 13));
return 0i64;
}
}
|
openssl
|
ec_GFp_simple_invert
|
__int64 __fastcall ec_GFp_simple_invert(__int64 a1, __int64 a2)
{
if ( (unsigned int)sub_1400D6710((_DWORD *)a1, a2) || sub_1400AAD70(*(_QWORD *)(a2 + 24)) )
return 1i64;
else
return sub_140152D50(*(_QWORD *)(a2 + 24), *(_QWORD *)(a1 + 64), *(_QWORD *)(a2 + 24));
}
|
openssl
|
ec_GFp_simple_point_clear_finish_0
|
void __fastcall ec_GFp_simple_point_clear_finish_0(ec_point_st *point)
{
sub_1400AAFA0(*((_BYTE **)point + 2));
sub_1400AAFA0(*((_BYTE **)point + 3));
sub_1400AAFA0(*((_BYTE **)point + 4));
*((_DWORD *)point + 10) = 0;
}
|
openssl
|
ec_GFp_simple_point_finish_0
|
void __fastcall ec_GFp_simple_point_finish_0(ec_point_st *point)
{
sub_1400AB020(*((_QWORD *)point + 2));
sub_1400AB020(*((_QWORD *)point + 3));
sub_1400AB020(*((_QWORD *)point + 4));
}
|
openssl
|
ec_GFp_simple_point_init
|
__int64 __fastcall ec_GFp_simple_point_init(ec_point_st *point)
{
_DWORD *v2; // rax
__int64 v3; // rcx
*((_QWORD *)point + 2) = sub_1400AA8A0();
*((_QWORD *)point + 3) = sub_1400AA8A0();
v2 = sub_1400AA8A0();
v3 = *((_QWORD *)point + 2);
*((_QWORD *)point + 4) = v2;
*((_DWORD *)point + 10) = 0;
if ( v3 && *((_QWORD *)point + 3) && v2 )
return 1i64;
sub_1400AB020(v3);
sub_1400AB020(*((_QWORD *)point + 3));
sub_1400AB020(*((_QWORD *)point + 4));
return 0i64;
}
|
openssl
|
ec_GFp_simple_point_set_to_infinity_0
|
__int64 __fastcall ec_GFp_simple_point_set_to_infinity_0(const ec_group_st *group, ec_point_st *point)
{
__int64 v2; // rcx
v2 = *((_QWORD *)point + 4);
*((_DWORD *)point + 10) = 0;
sub_1400AB780(v2, 0i64);
return 1i64;
}
|
openssl
|
ec_group_do_inverse_ord
|
__int64 __fastcall ec_group_do_inverse_ord(__int64 a1, int a2, int a3, __int64 a4)
{
__int64 (*v4)(void); // r10
v4 = *(__int64 (**)(void))(*(_QWORD *)a1 + 392i64);
if ( v4 )
return v4();
else
return sub_1400D6D50(a1, a2, a3, a4);
}
|
openssl
|
EC_GROUP_dup_0
|
void *__fastcall EC_GROUP_dup_0(__int64 *a1)
{
_QWORD *v3; // rax
void *v4; // rbx
if ( !a1 )
return 0i64;
v3 = sub_1400D5BF0(*a1);
v4 = v3;
if ( !v3 )
return 0i64;
if ( !(unsigned int)sub_1400D7090((__int64)v3, (__int64)a1) )
{
sub_1400D6EB0(v4);
return 0i64;
}
return v4;
}
|
openssl
|
EC_GROUP_get_ecparameters_0
|
__int64 *__fastcall EC_GROUP_get_ecparameters_0(_DWORD *a1, __int64 *a2)
{
__int64 *v4; // rbx
__int64 *v5; // rdx
__int64 v6; // rax
int v7; // ebp
__int16 v8; // r8
int v9; // eax
__int64 v10; // rbp
__int64 v11; // rax
__int64 v12; // rax
__int64 v13; // rax
__int64 v14; // rax
__int64 v15; // rax
int v17; // [rsp+20h] [rbp-18h]
void *v18; // [rsp+48h] [rbp+10h] BYREF
v18 = 0i64;
if ( a2 )
{
v4 = a2;
}
else
{
v4 = (__int64 *)ASN1_item_new(&unk_14020DFA0);
if ( !v4 )
{
sub_1400B4D50(16, 261, 65, (__int64)"crypto\\ec\\ec_asn1.c", 452);
goto LABEL_26;
}
}
v5 = (__int64 *)v4[1];
*(_DWORD *)v4 = 1;
if ( !(unsigned int)sub_1400D12D0(a1, v5) )
{
sub_1400B4D50(16, 261, 16, (__int64)"crypto\\ec\\ec_asn1.c", 463);
goto LABEL_25;
}
if ( !(unsigned int)sub_1400D16B0((__int64)a1, (_QWORD *)v4[2]) )
{
sub_1400B4D50(16, 261, 16, (__int64)"crypto\\ec\\ec_asn1.c", 469);
goto LABEL_25;
}
v6 = sub_14010F6B0(a1);
v7 = v6;
if ( !v6 )
{
v17 = 475;
v8 = 113;
LABEL_24:
sub_1400B4D50(16, 261, v8, (__int64)"crypto\\ec\\ec_asn1.c", v17);
LABEL_25:
if ( a2 )
return 0i64;
LABEL_26:
ASN1_item_free(v4, (__int64)&unk_14020DFA0);
return 0i64;
}
v9 = sub_1400D5FC0(a1);
v10 = sub_140153230((_DWORD)a1, v7, v9, (unsigned int)&v18, 0i64);
if ( !v10 )
{
sub_1400B4D50(16, 261, 16, (__int64)"crypto\\ec\\ec_asn1.c", 483);
goto LABEL_25;
}
if ( !v4[3] )
{
v11 = sub_1400920A0();
v4[3] = v11;
if ( !v11 )
{
CRYPTO_free(v18, "crypto\\ec\\ec_asn1.c", 487i64);
v17 = 488;
v8 = 65;
goto LABEL_24;
}
}
sub_1400AF9E0(v4[3], (__int64)v18, v10);
v12 = sub_1400DE560(a1);
if ( !v12 )
{
sub_1400B4D50(16, 261, 16, (__int64)"crypto\\ec\\ec_asn1.c", 496);
goto LABEL_25;
}
v13 = sub_1400AF5B0(v12, v4[4]);
v4[4] = v13;
if ( !v13 )
{
v17 = 501;
LABEL_23:
v8 = 13;
goto LABEL_24;
}
v14 = sub_1400D3A10(a1);
if ( v14 )
{
v15 = sub_1400AF5B0(v14, v4[5]);
v4[5] = v15;
if ( !v15 )
{
v17 = 510;
goto LABEL_23;
}
}
return v4;
}
|
openssl
|
EC_GROUP_get_order_0
|
_BOOL8 __fastcall EC_GROUP_get_order_0(__int64 a1, __int64 a2)
{
__int64 v3; // rdx
v3 = *(_QWORD *)(a1 + 16);
return v3 && sub_1400AB6F0(a2, v3) && !sub_1400AAD70(a2);
}
|
openssl
|
EC_GROUP_precompute_mult_0
|
__int64 __fastcall EC_GROUP_precompute_mult_0(ec_group_st *group, bignum_ctx *ctx)
{
__int64 (__fastcall *v3)(ec_group_st *, bignum_ctx *); // r8
if ( !*(_QWORD *)(*(_QWORD *)group + 240i64) )
return sub_140154D20(group, ctx);
v3 = *(__int64 (__fastcall **)(ec_group_st *, bignum_ctx *))(*(_QWORD *)group + 248i64);
if ( v3 )
return v3(group, ctx);
else
return 1i64;
}
|
openssl
|
ec_group_simple_order_bits
|
__int64 __fastcall ec_group_simple_order_bits(const ec_group_st *group)
{
__int64 v1; // rcx
v1 = *((_QWORD *)group + 2);
if ( v1 )
return sub_1400AAF50(v1);
else
return 0i64;
}
|
openssl
|
EC_KEY_check_key
|
__int64 __fastcall EC_KEY_check_key(const ec_key_st *eckey)
{
__int64 v1; // rax
__int64 (*v2)(void); // rdx
if ( eckey && (v1 = *((_QWORD *)eckey + 3)) != 0 && *((_QWORD *)eckey + 4) )
{
v2 = *(__int64 (**)(void))(*(_QWORD *)v1 + 352i64);
if ( v2 )
return v2();
sub_1400B4D50(16, 177, 66, (__int64)"crypto\\ec\\ec_key.c", 263);
}
else
{
sub_1400B4D50(16, 177, 67, (__int64)"crypto\\ec\\ec_key.c", 258);
}
return 0i64;
}
|
openssl
|
EC_KEY_dup_0
|
ec_key_st *__fastcall EC_KEY_dup_0(const ec_key_st *ec_key)
{
__int64 v2; // rax
volatile signed __int32 *v3; // rbx
v2 = sub_140153460(*((_QWORD *)ec_key + 1));
v3 = (volatile signed __int32 *)v2;
if ( !v2 )
return 0i64;
if ( !sub_1400D3270(v2, (__int64)ec_key) )
{
sub_1400D31B0(v3);
return 0i64;
}
return (ec_key_st *)v3;
}
|
openssl
|
EC_KEY_generate_key
|
__int64 __fastcall EC_KEY_generate_key(ec_key_st *eckey)
{
__int64 (*v1)(void); // rdx
if ( eckey && *((_QWORD *)eckey + 3) )
{
v1 = *(__int64 (**)(void))(*(_QWORD *)eckey + 64i64);
if ( v1 )
return v1();
sub_1400B4D50(16, 179, 152, (__int64)"crypto\\ec\\ec_key.c", 189);
}
else
{
sub_1400B4D50(16, 179, 67, (__int64)"crypto\\ec\\ec_key.c", 184);
}
return 0i64;
}
|
openssl
|
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