0ho/pseudo_func · Datasets at Hugging Face

instruction stringlengths 25 119k	response stringclasses 1 value
__int64 __fastcall FUNC( unsigned int a1, char a2, int a3, int a4, unsigned int a5, int a6, __int64 (__fastcall a7)(_QWORD, __int64, _QWORD, __int64), __int64 a8, int a9, bio_st a10) { int v12; // r12d unsigned int v15; // edi unsigned int v16; // r12d unsigned int v17; // r13d __int64 v18; // rbp __int64 v19; // rbx unsigned int v20; // esi unsigned int v21; // eax unsigned int v22; // edi int v23; // ebx char v24; // rbx void v25; // rsi int v26; // ebp char v27; // rax const char v28; // rdx const char v29; // rdx unsigned int v30; // ebx unsigned int v32; // r15d __int64 v33; // rbx __int64 v34; // rax unsigned int v35; // eax SOCKET v36; // rbx int v37; // r13d PADDRINFOA ppResult; // [rsp+40h] [rbp-2E8h] BYREF unsigned int v39; // [rsp+48h] [rbp-2E0h] struct timeval timeout; // [rsp+50h] [rbp-2D8h] BYREF __int64 v41; // [rsp+58h] [rbp-2D0h] int v42; // [rsp+60h] [rbp-2C8h] __int64 (__fastcall v43)(_QWORD, __int64, _QWORD, __int64); // [rsp+68h] [rbp-2C0h] char OldFilename; // [rsp+70h] [rbp-2B8h] fd_set readfds; // [rsp+80h] [rbp-2A8h] BYREF char buf[64]; // [rsp+290h] [rbp-98h] BYREF v43 = a7; v42 = a4; v41 = a8; v12 = (int)a2; OldFilename = a2; ppResult = 0i64; v39 = 0; if ( (unsigned int)FUNC() != 1 ) return 0i64; if ( !(unsigned int)FUNC(v12, a3, 1, a4, a5, a6, &ppResult) ) { X509_ALGOR_dup_0(qword_1402808E8); return 0i64; } if ( a4 && a4 != (unsigned int)FUNC(ppResult) \|\| a5 && a5 != (unsigned int)FUNC(ppResult) \|\| a6 && a6 != (unsigned int)FUNC(ppResult) ) { OPENSSL_die( "assertion failed: (family == AF_UNSPEC \|\| family == BIO_ADDRINFO_family(res)) && (type == 0 \|\| type == BIO_ADDRINF" "O_socktype(res)) && (protocol == 0 \|\| protocol == BIO_ADDRINFO_protocol(res))", "apps\\s_socket.c", 233); } v15 = FUNC(ppResult); v16 = FUNC(ppResult); v17 = FUNC(ppResult); v18 = FUNC(ppResult); v19 = FUNC(ppResult); v20 = 1; if ( v15 == 23 ) v20 = 3; if ( v19 && (unsigned int)FUNC(v19) == v16 && (unsigned int)FUNC(v19) == v17 ) { if ( v15 == 2 ) { if ( (unsigned int)FUNC(v19) == 23 ) { v15 = 23; v18 = FUNC(v19); } } else if ( v15 == 23 && (unsigned int)FUNC(v19) == 2 ) { v20 &= ~2u; } } v21 = FUNC(v15, v16, v17, 0i64); v22 = v21; if ( v21 == -1 \|\| !(unsigned int)FUNC(v21, v18, v20) ) { FUNC(ppResult); X509_ALGOR_dup_0(qword_1402808E8); if ( v22 != -1 ) BIO_closesocket_0(v22); v30 = v39; goto LABEL_61; } v23 = (unsigned __int16)FUNC(v18); FUNC(ppResult); ppResult = 0i64; if ( v23 ) { BIO_printf(a10, "ACCEPT\n"); FUNC(a10, 11i64, 0i64); goto LABEL_37; } v24 = 0i64; v25 = 0i64; v26 = 0; timeout = (struct timeval)FUNC(); if ( timeout ) { if ( (unsigned int)FUNC(v22, 0i64, &timeout) ) { v24 = (char )((__int64 (__fastcall )(_QWORD, _QWORD))FUNC)(timeout, 1i64); if ( v24 ) { v25 = (void )((__int64 (__fastcall )(_QWORD, _QWORD))FUNC)(timeout, 1i64); if ( v25 ) { v27 = strchr(v24, 58); v28 = "ACCEPT %s:%s\n"; if ( v27 ) v28 = "ACCEPT [%s]:%s\n"; if ( BIO_printf(a10, v28, v24, v25) > 0 ) v26 = 1; } } } } FUNC(a10, 11i64, 0i64); CRYPTO_free(v24, "apps\\s_socket.c", 308); CRYPTO_free(v25, "apps\\s_socket.c", 309); BIO_ADDR_free_0((bio_addr_st *)&timeout); if ( v26 ) { LABEL_37: if ( a1 ) a1 = v22; v32 = a6; v33 = v41; do { if ( a5 == 1 ) { BIO_ADDR_free_0((bio_addr_st )qword_1402821A8); v34 = FUNC(); qword_1402821A8 = v34; if ( !v34 ) goto LABEL_35; while ( 1 ) { v35 = FUNC(v22, v34, 0i64); v36 = v35; if ( (v35 & 0x80000000) == 0 ) break; if ( !(unsigned int)FUNC(v35) ) { X509_ALGOR_dup_0(qword_1402808E8); BIO_closesocket_0(v22); v30 = v39; goto LABEL_61; } v34 = qword_1402821A8; } FUNC(v35, 1i64); v37 = v43((unsigned int)v36, 1i64, v32, v41); shutdown((int)v36, 1); timeout.tv_sec = 0; timeout.tv_usec = 500000; do { readfds.fd_array[0] = v36; readfds.fd_count = 1; } while ( select(v36 + 1, &readfds, 0i64, 0i64, &timeout) > 0 && recv((int)v36, buf, 64, 0) > 0 ); BIO_closesocket_0(v36); v32 = a6; v33 = v41; } else { v37 = v43(v22, a5, v32, v33); } if ( a9 != -1 ) --a9; } while ( v37 >= 0 && a9 ); BIO_closesocket_0(v22); v30 = v37; goto LABEL_61; } LABEL_35: BIO_closesocket_0(v22); X509_ALGOR_dup_0(qword_1402808E8); v30 = v39; LABEL_61: if ( v42 == 1 ) j_rename_0(OldFilename, v29); BIO_ADDR_free_0((bio_addr_st )qword_1402821A8); qword_1402821A8 = 0i64; return v30; }	openssl
void *FUNC() { return &unk_1401EE4C0; }	openssl
void *FUNC() { return &unk_140229028; }	openssl
__int64 __fastcall FUNC(__int64 a1, unsigned __int8 a2, unsigned __int8 a3, unsigned __int8 a4) { unsigned __int64 v4; // rdi __int64 v5; // rbx unsigned __int64 v6; // r11 unsigned __int64 v7; // rsi unsigned __int64 v8; // r12 unsigned __int64 v9; // rbp unsigned __int64 v10; // r13 unsigned __int64 v11; // r14 __int64 v12; // r15 __int64 v13; // rbx unsigned __int64 v14; // r8 __int64 v15; // r11 unsigned __int64 v16; // r12 __int64 v17; // r8 __int64 v18; // rcx __int64 v19; // rdx unsigned __int64 v20; // rbp unsigned __int64 v21; // rax __int64 v22; // r14 __int64 v23; // r9 __int64 v24; // r10 __int64 v25; // r13 __int64 v26; // r12 __int64 v27; // rdi __int64 v28; // rsi __int64 v29; // rax unsigned __int64 v30; // rbp __int64 v31; // rax __int64 v32; // rbx __int64 v33; // r11 __int64 v34; // rcx __int64 v35; // r10 __int64 v36; // r9 __int64 v37; // r8 unsigned __int64 v38; // r12 unsigned __int64 v39; // rbp __int64 v40; // rax __int64 v41; // rsi unsigned __int64 v42; // r14 __int64 v43; // rdi __int64 v44; // rax unsigned __int64 v45; // r15 unsigned __int64 v46; // r10 __int64 v47; // rcx unsigned __int64 v48; // r11 __int64 v49; // r9 __int64 v50; // rbp __int64 v51; // rbx unsigned __int64 v52; // r15 __int64 v53; // rdx __int64 v54; // r12 unsigned __int64 v55; // r14 __int64 v56; // rax __int64 v57; // r13 __int64 v58; // rsi unsigned __int64 v59; // r8 unsigned __int64 v60; // rbp __int64 v61; // r15 __int64 v62; // r14 __int64 v63; // rdx __int64 v64; // r8 __int64 v65; // r15 __int64 v66; // rdx __int64 v67; // r15 __int64 v68; // r14 __int64 v69; // rax __int64 v70; // r14 __int64 v71; // rdx __int64 v72; // rax __int64 v73; // rdx __int64 v74; // r10 __int64 v75; // rbx __int64 v76; // r10 __int64 v77; // rax __int64 v78; // rbx __int64 v79; // r11 __int64 v80; // r9 __int64 v81; // r8 __int64 v82; // r11 __int64 result; // rax unsigned __int64 v84; // [rsp+0h] [rbp-178h] unsigned __int64 v85; // [rsp+0h] [rbp-178h] __int64 v86; // [rsp+0h] [rbp-178h] __int64 v87; // [rsp+0h] [rbp-178h] unsigned __int64 v88; // [rsp+8h] [rbp-170h] unsigned __int64 v89; // [rsp+8h] [rbp-170h] unsigned __int64 v90; // [rsp+8h] [rbp-170h] __int64 v91; // [rsp+10h] [rbp-168h] unsigned __int64 v92; // [rsp+10h] [rbp-168h] __int64 v93; // [rsp+10h] [rbp-168h] __int64 v94; // [rsp+10h] [rbp-168h] unsigned __int64 v95; // [rsp+18h] [rbp-160h] unsigned __int64 v96; // [rsp+20h] [rbp-158h] unsigned __int64 v97; // [rsp+20h] [rbp-158h] __int64 v98; // [rsp+20h] [rbp-158h] __int64 v99; // [rsp+20h] [rbp-158h] unsigned __int64 v100; // [rsp+28h] [rbp-150h] __int64 v101; // [rsp+30h] [rbp-148h] unsigned __int64 v102; // [rsp+38h] [rbp-140h] unsigned __int64 v103; // [rsp+40h] [rbp-138h] unsigned __int64 v104; // [rsp+48h] [rbp-130h] unsigned __int64 v105; // [rsp+50h] [rbp-128h] __int64 v106; // [rsp+58h] [rbp-120h] unsigned __int64 v107; // [rsp+60h] [rbp-118h] unsigned __int64 v108; // [rsp+60h] [rbp-118h] __int64 v109; // [rsp+60h] [rbp-118h] __int64 v110; // [rsp+60h] [rbp-118h] unsigned __int64 v111; // [rsp+68h] [rbp-110h] unsigned __int64 v112; // [rsp+68h] [rbp-110h] unsigned __int64 v113; // [rsp+68h] [rbp-110h] __int64 v114; // [rsp+68h] [rbp-110h] unsigned __int64 v115; // [rsp+70h] [rbp-108h] unsigned __int64 v116; // [rsp+78h] [rbp-100h] unsigned __int64 v117; // [rsp+78h] [rbp-100h] unsigned __int64 v118; // [rsp+78h] [rbp-100h] __int64 v119; // [rsp+78h] [rbp-100h] unsigned __int64 v120; // [rsp+80h] [rbp-F8h] unsigned __int64 v121; // [rsp+80h] [rbp-F8h] unsigned __int64 v122; // [rsp+80h] [rbp-F8h] unsigned __int64 v123; // [rsp+90h] [rbp-E8h] unsigned __int64 v124; // [rsp+90h] [rbp-E8h] unsigned __int64 v125; // [rsp+90h] [rbp-E8h] unsigned __int64 v126; // [rsp+98h] [rbp-E0h] unsigned __int64 v127; // [rsp+98h] [rbp-E0h] unsigned __int64 v128; // [rsp+A0h] [rbp-D8h] unsigned __int64 v129; // [rsp+A0h] [rbp-D8h] unsigned __int64 v130; // [rsp+A8h] [rbp-D0h] unsigned __int64 v131; // [rsp+B0h] [rbp-C8h] unsigned __int64 v132; // [rsp+B0h] [rbp-C8h] __int64 v133; // [rsp+B0h] [rbp-C8h] __int64 v134; // [rsp+B0h] [rbp-C8h] unsigned __int64 v135; // [rsp+B8h] [rbp-C0h] unsigned __int64 v136; // [rsp+B8h] [rbp-C0h] unsigned __int64 v137; // [rsp+B8h] [rbp-C0h] unsigned __int64 v138; // [rsp+C0h] [rbp-B8h] unsigned __int64 v139; // [rsp+C8h] [rbp-B0h] unsigned __int64 v140; // [rsp+C8h] [rbp-B0h] unsigned __int64 v141; // [rsp+C8h] [rbp-B0h] unsigned __int64 v142; // [rsp+D0h] [rbp-A8h] unsigned __int64 v143; // [rsp+D0h] [rbp-A8h] unsigned __int64 v144; // [rsp+D8h] [rbp-A0h] unsigned __int64 v145; // [rsp+D8h] [rbp-A0h] unsigned __int64 v146; // [rsp+E0h] [rbp-98h] unsigned __int64 v147; // [rsp+E0h] [rbp-98h] __int64 v148; // [rsp+F0h] [rbp-88h] unsigned __int64 v149; // [rsp+F8h] [rbp-80h] unsigned __int64 v150; // [rsp+100h] [rbp-78h] unsigned __int64 v152; // [rsp+188h] [rbp+10h] unsigned __int64 v153; // [rsp+188h] [rbp+10h] unsigned __int64 v154; // [rsp+188h] [rbp+10h] unsigned __int64 v155; // [rsp+188h] [rbp+10h] __int64 v156; // [rsp+188h] [rbp+10h] unsigned __int64 v157; // [rsp+190h] [rbp+18h] unsigned __int64 v158; // [rsp+190h] [rbp+18h] unsigned __int64 v159; // [rsp+190h] [rbp+18h] unsigned __int64 v160; // [rsp+190h] [rbp+18h] __int64 v161; // [rsp+190h] [rbp+18h] unsigned __int64 v163; // [rsp+198h] [rbp+20h] unsigned __int64 v164; // [rsp+198h] [rbp+20h] unsigned __int64 v165; // [rsp+198h] [rbp+20h] __int64 v166; // [rsp+198h] [rbp+20h] v106 = (a2 \| ((unsigned __int16 )(a2 + 1) << 8)) & 0x1FFFFF; v104 = ((unsigned __int64)a2[2] >> 5) \| (unsigned __int16)(8 * a2[3]) \| ((a2[4] \| ((unsigned __int64)(a2[5] & 3) << 8)) << 11); v105 = ((unsigned __int64)(a2[7] & 0x7F) << 14) \| (a2[6] << 6) \| ((unsigned __int64)a2[5] >> 2); v103 = (unsigned __int16)((2 * a2[8]) \| ((unsigned __int64)a2[7] >> 7)) \| ((a2[9] \| ((unsigned __int64)(a2[10] & 0xF) << 8)) << 9); v100 = ((unsigned __int64)a2[10] >> 4) \| (unsigned __int16)(16 * a2[11]) \| ((a2[12] \| ((unsigned __int64)(a2[13] & 1) << 8)) << 12); v102 = ((unsigned __int64)(a2[15] & 0x3F) << 15) \| ((unsigned __int64)a2[13] >> 1) \| (a2[14] << 7); v95 = (unsigned __int16)((4 * a2[16]) \| ((unsigned __int64)a2[15] >> 6)) \| ((a2[17] \| ((unsigned __int64)(a2[18] & 7) << 8)) << 10); v115 = ((unsigned __int64)a2[20] << 13) \| (unsigned __int16)((32 * a2[19]) \| ((unsigned __int64)a2[18] >> 3)); v101 = (a2[21] \| ((a2[22] \| (a2[23] << 8)) << 8)) & 0x1FFFFF; v130 = ((unsigned __int64)a2[23] >> 5) \| (unsigned __int16)(8 * a2[24]) \| ((a2[25] \| ((unsigned __int64)(a2[26] & 3) << 8)) << 11); v138 = ((unsigned __int64)(a2[28] & 0x7F) << 14) \| (a2[27] << 6) \| ((unsigned __int64)a2[26] >> 2); v4 = ((unsigned __int64)a2[28] >> 7) \| (2 * (((unsigned __int64)a2[31] << 16) \| (unsigned __int16 )(a2 + 29))); v5 = (a3 \| ((unsigned __int16 )(a3 + 1) << 8)) & 0x1FFFFF; v6 = ((unsigned __int64)a3[2] >> 5) \| (unsigned __int16)(8 a3[3]) \| ((a3[4] \| ((unsigned __int64)(a3[5] & 3) << 8)) << 11); v120 = ((unsigned __int64)(a3[7] & 0x7F) << 14) \| ((unsigned __int64)a3[5] >> 2) \| (a3[6] << 6); v7 = (unsigned __int16)((2 * a3[8]) \| ((unsigned __int64)a3[7] >> 7)) \| ((a3[9] \| ((unsigned __int64)(a3[10] & 0xF) << 8)) << 9); v139 = ((unsigned __int64)a3[10] >> 4) \| (unsigned __int16)(16 * a3[11]) \| ((a3[12] \| ((unsigned __int64)(a3[13] & 1) << 8)) << 12); v8 = ((unsigned __int64)(a3[15] & 0x3F) << 15) \| ((unsigned __int64)a3[13] >> 1) \| (a3[14] << 7); v128 = ((unsigned __int64)a3[15] >> 6) \| (unsigned __int16)(4 * a3[16]) \| ((a3[17] \| ((unsigned __int64)(a3[18] & 7) << 8)) << 10); v9 = ((unsigned __int64)a3[20] << 13) \| (unsigned __int16)((32 * a3[19]) \| ((unsigned __int64)a3[18] >> 3)); v148 = (a3[21] \| (((unsigned __int16 )a3 + 11) << 8)) & 0x1FFFFF; v10 = ((unsigned __int64)a3[23] >> 5) \| (unsigned __int16)(8 * a3[24]) \| ((a3[25] \| ((unsigned __int64)(a3[26] & 3) << 8)) << 11); v11 = ((unsigned __int64)(a3[28] & 0x7F) << 14) \| ((unsigned __int64)a3[26] >> 2) \| (a3[27] << 6); v88 = ((unsigned __int64)a3[28] >> 7) \| (2 * (((unsigned __int64)a3[31] << 16) \| (unsigned __int16)(a3[29] \| (a3[30] << 8)))); v91 = v106 * v5 + ((a4 \| (((a4[2] << 8) \| a4[1]) << 8)) & 0x1FFFFF); v84 = v106 v120 + v104 * v6 + v105 * v5 + (((unsigned __int64)(a4[7] & 0x7F) << 14) \| (((unsigned __int64)a4[5] >> 2) \| ((unsigned __int64)a4[6] << 6)) & 0x1FFFFF); v96 = v106 * v139 + v104 * v7 + v105 * v120 + v103 * v6 + v100 * v5 + ((unsigned __int16)((16 * a4[11]) \| ((unsigned __int64)a4[10] >> 4)) \| ((a4[12] \| ((unsigned __int64)(a4[13] & 1) << 8)) << 12)); v126 = v106 * v128 + v104 * v8 + v105 * v139 + v103 * v7 + v100 * v120 + v102 * v6 + v95 * v5 + (((unsigned __int64)a4[15] >> 6) \| (unsigned __int16)(4 * a4[16]) \| ((a4[17] \| ((unsigned __int64)(a4[18] & 7) << 8)) << 10)); v152 = v106 * v148 + v104 * v9 + v105 * v128 + v103 * v8 + v100 * v139 + v102 * v7 + v95 * v120 + v115 * v6 + v101 * v5 + ((a4[21] \| (((unsigned __int16 )a4 + 11) << 8)) & 0x1FFFFF); v157 = v106 * v11 + v104 * v10 + v105 * v148 + v103 * v9 + v100 * v128 + v102 * v8 + v95 * v139 + v115 * v7 + v101 * v120 + v130 * v6 + v138 * v5 + (((unsigned __int64)(a4[28] & 0x7F) << 14) \| (((unsigned __int64)a4[26] >> 2) \| ((unsigned __int64)a4[27] << 6)) & 0x1FFFFF); v135 = v104 * v88 + v105 * v11 + v103 * v10 + v100 * v148 + v102 * v9 + v95 * v128 + v115 * v8 + v101 * v139 + v130 * v7 + v138 * v120 + v4 * v6; v123 = v103 * v88 + v100 * v11 + v102 * v10 + v95 * v148 + v115 * v9 + v101 * v128 + v130 * v8 + v138 * v139 + v4 * v7; v144 = v102 * v88 + v95 * v11 + v115 * v10 + v101 * v148 + v130 * v9 + v138 * v128 + v4 * v8; v142 = v4 * v88; v131 = v115 * v88 + v101 * v11 + v130 * v10 + v138 * v148 + v4 * v9; v146 = v130 * v88 + v138 * v11 + v4 * v10; v107 = (((unsigned __int64)a4[2] >> 5) \| (unsigned __int16)(8 * a4[3]) \| ((a4[4] \| ((unsigned __int64)(a4[5] & 3) << 8)) << 11)) + ((v91 + 0x100000) >> 21) + v104 * v5 + v106 * v6; v150 = v105 * v6 + v103 * v5 + (((unsigned __int64)a4[7] >> 7) \| (unsigned __int16)(2 * a4[8]) \| ((a4[9] \| ((unsigned __int64)(a4[10] & 0xF) << 8)) << 9)) + ((__int64)(v84 + 0x100000) >> 21) + v104 * v120 + v106 * v7; v149 = v105 * v7 + v103 * v120 + v100 * v6 + v102 * v5 + (((unsigned __int64)(a4[15] & 0x3F) << 15) \| ((unsigned __int64)a4[13] >> 1) \| (a4[14] << 7)) + ((__int64)(v96 + 0x100000) >> 21) + v104 * v139 + v106 * v8; v111 = v105 * v8 + v103 * v139 + v100 * v7 + v102 * v120 + v95 * v6 + v115 * v5 + (((unsigned __int64)a4[20] << 13) \| ((unsigned __int64)a4[18] >> 3) \| (unsigned __int16)(32 * a4[19])) + ((__int64)(v126 + 0x100000) >> 21) + v104 * v128 + v106 * v9; v12 = (__int64)(v157 + 0x100000) >> 21; v116 = v105 * v9 + v103 * v128 + v100 * v8 + v102 * v139 + v95 * v7 + v115 * v120 + v101 * v6 + v130 * v5 + (((unsigned __int64)a4[23] >> 5) \| (unsigned __int16)(8 * a4[24]) \| ((a4[25] \| ((unsigned __int64)(a4[26] & 3) << 8)) << 11)) + ((__int64)(v152 + 0x100000) >> 21) + v104 * v148 + v106 * v10; v163 = v105 * v10 + v103 * v148 + v100 * v9 + v102 * v128 + v95 * v8 + v115 * v139 + v101 * v7 + v130 * v120 + v138 * v6 + v4 * v5 + (((unsigned __int64)a4[28] >> 7) \| (2 * (((unsigned __int64)a4[31] << 16) \| (unsigned __int16)(a4[29] \| (a4[30] << 8))))) + v12 + v104 * v11 + v106 * v88; v13 = (__int64)(v135 + 0x100000) >> 21; v14 = v138 * v8 + v4 * v139; v15 = (__int64)(v123 + 0x100000) >> 21; v140 = v100 * v10 + v102 * v148 + v95 * v9 + v115 * v128 + v101 * v8 + v130 * v139 + v138 * v7 + v4 * v120 + v13 + v103 * v11 + v105 * v88; v16 = v95 * v10 + v115 * v148 + v101 * v9 + v130 * v128 + v14 + v15 + v102 * v11 + v100 * v88; v17 = (__int64)(v144 + 0x100000) >> 21; v121 = v16; v18 = (__int64)(v131 + 0x100000) >> 21; v129 = v101 * v10 + v130 * v148 + v138 * v9 + v4 * v128 + v17 + v115 * v11 + v95 * v88; v19 = (__int64)(v146 + 0x100000) >> 21; v20 = v138 * v10 + v4 * v148 + v18 + v130 * v11 + v101 * v88; v21 = v19 + v4 * v11; v22 = v4 * v88 + 0x100000; v89 = v21 + v138 * v88; v22 >>= 21; v23 = (__int64)(v111 + 0x100000) >> 21; v24 = (__int64)(v116 + 0x100000) >> 21; v25 = (__int64)(v129 + 0x100000) >> 21; v26 = (__int64)(v16 + 0x100000) >> 21; v27 = (__int64)(v163 + 0x100000) >> 21; v28 = (__int64)(v140 + 0x100000) >> 21; v132 = v25 - (v18 << 21) + v131; v29 = (__int64)(v20 + 0x100000) >> 21; v147 = v29 - (v19 << 21) + v146; v30 = -2097152 * v29 + v20; v31 = (__int64)(v89 + 0x100000) >> 21; v143 = v31 - (v22 << 21) + v142; v90 = -2097152 * v31 + v89; v145 = v26 + -683901 * v22 - (v17 << 21) + v144; v124 = v28 + 136657 * v143 + -997805 * v22 - 683901 * v90 - (v15 << 21) + v123; v136 = v27 + 136657 * v147 + 470296 * v22 - 683901 * v30 - 997805 * v90 - (v13 << 21) + 654183 * v143 + v135; v127 = ((__int64)(v149 + 0x100000) >> 21) + 666643 * v132 - ((__int64)(v126 + 0x100000) >> 21 << 21) + v126; v32 = (__int64)(v127 + 0x100000) >> 21; v153 = v23 + 666643 * v147 + 470296 * v30 - ((__int64)(v152 + 0x100000) >> 21 << 21) + 654183 * v132 + v152; v33 = (__int64)(v153 + 0x100000) >> 21; v158 = v24 + 136657 * v132 + 666643 * v143 + 470296 * v90 - 997805 * v30 - (v12 << 21) + 654183 * v147 + v157; v112 = v32 + 666643 * v30 + 470296 * v132 - (v23 << 21) + v111; v34 = v33 + 666643 * v90 + 470296 * v147 - 997805 * v132 - (v24 << 21) + 654183 * v30; v35 = (__int64)(v158 + 0x100000) >> 21; v117 = v34 + v116; v164 = v35 + 136657 * v30 + 470296 * v143 + 666643 * v22 - 683901 * v132 - 997805 * v147 - (v27 << 21) + 654183 * v90 + v163; v36 = (__int64)(v136 + 0x100000) >> 21; v37 = (__int64)(v124 + 0x100000) >> 21; v38 = v37 + 136657 * v22 - 683901 * v143 - (v26 << 21) + v121; v141 = v36 + 136657 * v90 + -997805i64 * v143 - 683901 * v147 - (v28 << 21) + 654183 * v22 + v140; v39 = ((__int64)(v145 + 0x100000) >> 21) - (v25 << 21) + v129; v137 = ((__int64)(v164 + 0x100000) >> 21) - (v36 << 21) + v136; v40 = (__int64)(v141 + 0x100000) >> 21; v41 = (__int64)(v117 + 0x100000) >> 21; v125 = v40 - (v37 << 21) + v124; v42 = -2097152 * v40 + v141; v43 = (__int64)(v112 + 0x100000) >> 21; v44 = (__int64)(v38 + 0x100000) >> 21; v122 = -2097152 * v44 + v38; v159 = v41 + -2097152 * v35 - 683901 * v39 + v158; v46 = v39; v45 = v44 - ((__int64)(v145 + 0x100000) >> 21 << 21) + v145; v47 = 136657 * v45 + -997805i64 * v39 - 683901 * v122 - (v33 << 21); v48 = v45; v154 = v43 + v47 + v153; v133 = 136657 * v125 + 470296 * v39 + -997805i64 * v122 - 683901 * v42 - (v32 << 21) + v127 + 654183 * v45; v92 = 666643 * v137 - ((v91 + 0x100000) >> 21 << 21) + v91; v85 = ((__int64)(v107 + 0x100000) >> 21) + 666643 * v125 + 470296 * v42 - ((__int64)(v84 + 0x100000) >> 21 << 21) + 654183 * v137 + v84; v49 = (v133 + 0x100000) >> 21; v97 = ((__int64)(v150 + 0x100000) >> 21) + 136657 * v137 + 666643 * v45 + 470296 * v122 - 997805 * v42 - ((__int64)(v96 + 0x100000) >> 21 << 21) + 654183 * v125 + v96; v50 = (__int64)(v85 + 0x100000) >> 21; v51 = (__int64)(v92 + 0x100000) >> 21; v52 = v50 + 666643 * v122 + 470296 * v125 - 997805 * v137 - ((__int64)(v150 + 0x100000) >> 21 << 21) + v150 + 654183 * v42; v108 = v51 + 666643 * v42 + 470296 * v137 - ((__int64)(v107 + 0x100000) >> 21 << 21) + v107; v53 = (__int64)(v154 + 0x100000) >> 21; v54 = (__int64)(v97 + 0x100000) >> 21; v55 = v54 + 136657 * v42 + 666643 * v46 + 470296 * v48 + -997805i64 * v125 - 683901 * v137 - ((__int64)(v149 + 0x100000) >> 21 << 21) + v149 + 654183 * v122; v113 = v49 + 136657 * v122 + -997805i64 * (v44 - ((__int64)(v145 + 0x100000) >> 21 << 21) + v145) - 683901 * v125 - (v43 << 21) + 654183 * (((__int64)(v145 + 0x100000) >> 21) - (v25 << 21) + v129) + v112; v118 = v53 + 136657 * v46 - 683901 * v48 - (v41 << 21) + v117; v56 = (__int64)(v159 + 0x100000) >> 21; v165 = v56 - ((__int64)(v164 + 0x100000) >> 21 << 21) + v164; v57 = ((__int64)(v55 + 0x100000) >> 21) - (v49 << 21) + v133; v58 = (__int64)(v165 + 0x100000) >> 21; v155 = ((__int64)(v113 + 0x100000) >> 21) - (v53 << 21) + v154; v160 = ((__int64)(v118 + 0x100000) >> 21) - (v56 << 21) + v159; v93 = 666643 * v58 - (v51 << 21) + v92; v59 = ((__int64)(v108 + 0x100000) >> 21) + 654183 * v58 - (v50 << 21) + v85; v109 = (v93 >> 21) + 470296 * v58 - ((__int64)(v108 + 0x100000) >> 21 << 21) + v108; v60 = ((__int64)(v52 + 0x100000) >> 21) + 136657 * v58 - (v54 << 21) + v97; v86 = (v109 >> 21) + v59; v61 = (v86 >> 21) + -2097152 * ((__int64)(v52 + 0x100000) >> 21) - 997805 * v58 + v52; v98 = (v61 >> 21) + v60; v62 = (v98 >> 21) + -683901 * v58 - ((__int64)(v55 + 0x100000) >> 21 << 21) + v55; v134 = (v62 >> 21) + v57; v114 = (v134 >> 21) - ((__int64)(v113 + 0x100000) >> 21 << 21) + v113; v156 = (v114 >> 21) + v155; v119 = (v156 >> 21) - ((__int64)(v118 + 0x100000) >> 21 << 21) + v118; v161 = (v119 >> 21) + v160; v166 = (v161 >> 21) - (v58 << 21) + v165; v94 = 666643 * (v166 >> 21) - (v93 >> 21 << 21) + v93; v63 = (v94 >> 21) + 470296 * (v166 >> 21) - (v109 >> 21 << 21) + v109; v64 = (v63 >> 21) + 654183 * (v166 >> 21) - (v86 >> 21 << 21) + v86; v110 = -2097152 * (v63 >> 21) + v63; v65 = (v64 >> 21) + -2097152 * (v61 >> 21) - 997805 * (v166 >> 21) + v61; v87 = -2097152 * (v64 >> 21) + v64; v66 = (v65 >> 21) + 136657 * (v166 >> 21) - (v98 >> 21 << 21) + v98; v67 = -2097152 * (v65 >> 21) + v65; v68 = (v66 >> 21) + -683901 * (v166 >> 21) - (v62 >> 21 << 21) + v62; v99 = -2097152 * (v66 >> 21) + v66; v69 = (v68 >> 21) - (v134 >> 21 << 21); v70 = -2097152 * (v68 >> 21) + v68; v71 = v69 + v134; v72 = (v69 + v134) >> 21; v73 = -2097152 * v72 + v71; v74 = v72 - (v114 >> 21 << 21) + v114; v75 = (v74 >> 21) - (v156 >> 21 << 21) + v156; v76 = -2097152 * (v74 >> 21) + v74; v77 = v75 >> 21; v78 = -2097152 * (v75 >> 21) + v75; v79 = ((v77 - (v119 >> 21 << 21) + v119) >> 21) - (v161 >> 21 << 21) + v161; v80 = -2097152 * ((v77 - (v119 >> 21 << 21) + v119) >> 21) + v77 - (v119 >> 21 << 21) + v119; v81 = (v79 >> 21) - (v166 >> 21 << 21) + v166; v82 = -2097152 * (v79 >> 21) + v79; (_WORD )a1 = v94; (_BYTE )(a1 + 2) = (32 * v110) \| ((-2097152 * (unsigned int)(v94 >> 21) + (unsigned int)v94) >> 16); (_BYTE )(a1 + 3) = v110 >> 3; (_BYTE )(a1 + 4) = v110 >> 11; (_BYTE )(a1 + 5) = (4 * v87) \| (v110 >> 19); (_BYTE )(a1 + 6) = v87 >> 6; (_BYTE )(a1 + 7) = ((_BYTE)v67 << 7) \| (v87 >> 14); (_BYTE )(a1 + 8) = v67 >> 1; (_BYTE )(a1 + 9) = v67 >> 9; (_BYTE )(a1 + 10) = (16 * v99) \| (v67 >> 17); (_BYTE )(a1 + 11) = v99 >> 4; (_BYTE )(a1 + 12) = v99 >> 12; (_BYTE )(a1 + 13) = (2 * v70) \| (v99 >> 20); (_BYTE )(a1 + 14) = v70 >> 7; (_BYTE )(a1 + 15) = ((_BYTE)v73 << 6) \| (v70 >> 15); (_BYTE )(a1 + 16) = v73 >> 2; (_BYTE )(a1 + 17) = v73 >> 10; (_BYTE )(a1 + 21) = v78; (_BYTE )(a1 + 18) = (8 * v76) \| (v73 >> 18); (_BYTE )(a1 + 20) = v76 >> 13; (_BYTE )(a1 + 19) = v76 >> 5; (_BYTE )(a1 + 22) = BYTE1(v78); (_BYTE )(a1 + 23) = (32 * (v77 + v119)) \| BYTE2(v78); (_BYTE )(a1 + 24) = v80 >> 3; (_BYTE )(a1 + 25) = v80 >> 11; (_BYTE )(a1 + 26) = (4 * v82) \| (v80 >> 19); (_BYTE )(a1 + 27) = v82 >> 6; (_BYTE )(a1 + 28) = ((_BYTE)v81 << 7) \| (v82 >> 14); (_BYTE )(a1 + 29) = v81 >> 1; result = v81 >> 9; (_BYTE )(a1 + 31) = v81 >> 17; (_BYTE )(a1 + 30) = v81 >> 9; return result; }	openssl
__int64 __fastcall RSA_padding_check_PKCS1_OAEP_0( unsigned __int8 to, int tlen, const unsigned __int8 from, int flen, int num, const unsigned __int8 *param, int plen) { return FUNC((__int64)to, tlen, (__int64)from, flen, num, (__int64)param, plen, 0i64, 0i64); }	openssl
__int64 __fastcall FUNC(unsigned int a1, __int64 a2) { __int64 v2; // rbp __int64 v4; // rcx unsigned int v6; // r12 unsigned int v7; // r13 __int64 v8; // r15 unsigned int v9; // r14d __int64 v10; // rbx __int64 v11; // r8 const char v12; // rdi __int64 v13; // rdx __int64 v14; // rcx __int64 v15; // r8 int v16; // eax __int64 v17; // rdx __int64 v18; // rcx __int64 v19; // r8 int v20; // esi const char v21; // rdx __int64 v22; // rax __int64 v23; // rax __int64 v24; // rax __int64 v25; // rax __int64 v26; // rax __int64 v27; // rax __int64 v28; // rax int v29; // ebx __int64 v30; // r13 int v31; // edi const unsigned __int8 v32; // r12 __int64 v33; // rax __int64 v34; // rax __int64 v35; // rcx __int64 v36; // rdx BOOL v37; // eax __int64 v38; // r8 const char v39; // rbx const unsigned __int8 v40; // rax int v41; // eax int v42; // esi __int64 v43; // r15 unsigned int v44; // ebx const char v45; // rdi engine_st v47; // r15 int v48; // eax __int64 v49; // rsi unsigned int v50; // ebx const char v51; // rdi const char v52; // rsi __int64 v53; // rdi __int64 v54; // rbx __int64 v55; // r8 signed int v56; // r12d __int64 v57; // r14 __int64 v58; // rbx __int64 v59; // rsi __int64 v60; // rbx const char v61; // rdi const evp_pkey_asn1_method_st v62; // rax unsigned int v63; // eax __int64 v64; // r15 unsigned int v65; // eax const unsigned __int8 v66; // [rsp+60h] [rbp-E8h] BYREF int v67; // [rsp+68h] [rbp-E0h] int v68; // [rsp+6Ch] [rbp-DCh] signed int v69; // [rsp+70h] [rbp-D8h] const char v70; // [rsp+78h] [rbp-D0h] BYREF __int64 v71; // [rsp+80h] [rbp-C8h] BYREF int v72; // [rsp+88h] [rbp-C0h] BYREF __int64 v73; // [rsp+90h] [rbp-B8h] __int64 v74; // [rsp+98h] [rbp-B0h] const unsigned __int8 v75; // [rsp+A0h] [rbp-A8h] int v76; // [rsp+A8h] [rbp-A0h] const char v77; // [rsp+B0h] [rbp-98h] BYREF engine_st v78; // [rsp+B8h] [rbp-90h] void v79; // [rsp+C0h] [rbp-88h] bio_st v80; // [rsp+C8h] [rbp-80h] __int64 v81; // [rsp+D0h] [rbp-78h] __int64 v82; // [rsp+D8h] [rbp-70h] __int64 v83; // [rsp+E0h] [rbp-68h] unsigned __int8 v84; // [rsp+E8h] [rbp-60h] const char v85; // [rsp+F0h] [rbp-58h] void v86; // [rsp+F8h] [rbp-50h] BYREF __int64 v87; // [rsp+100h] [rbp-48h] engine_st v88; // [rsp+108h] [rbp-40h] BYREF int v89; // [rsp+160h] [rbp+18h] int v90; // [rsp+168h] [rbp+20h] v2 = 0i64; v4 = a2; v72 = 32773; v74 = 0i64; v73 = 0i64; v80 = 0i64; v75 = 0i64; v66 = 0i64; v6 = 0i64; v81 = 0i64; v7 = 0i64; v82 = 0i64; v70 = 0i64; v77 = 0i64; v87 = 0i64; v86 = 0i64; v83 = 0i64; v8 = 0i64; v85 = 0i64; v68 = 0; v69 = 0; v9 = 1; v89 = -1; LODWORD(v71) = 0; v90 = 0; v79 = 0i64; v76 = 0; v10 = FUNC(v4); v84 = (unsigned __int8 )FUNC(0x2000i64, "I/O buffer", v11); v78 = (engine_st )FUNC(v10); v12 = (const char )FUNC(a1, a2, &unk_1401C1310); v16 = FUNC(v14, v13, v15); v19 = 2i64; v20 = 0; if ( v16 ) { while ( 1 ) { v21 = "etaonrishdlcupfm"; if ( v16 <= 1502 ) { if ( v16 < 1501 ) { switch ( v16 ) { case -1: case 0: goto LABEL_14; case 1: FUNC(&unk_1401C1310); v9 = 0; goto LABEL_87; case 2: v68 = 1; goto LABEL_36; case 3: v68 = 2; goto LABEL_36; case 4: v83 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 5: v8 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 6: v87 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 7: v90 = 1; LODWORD(v71) = 1; v8 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 8: v90 = 1; v8 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 9: v85 = (const char )FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 10: v22 = FUNC(v18, "etaonrishdlcupfm", 2i64); if ( (unsigned int)FUNC(v22, 1982i64, &v72) ) goto LABEL_36; goto LABEL_14; case 11: v23 = FUNC(v18, "etaonrishdlcupfm", 2i64); v75 = (const unsigned __int8 )FUNC(v23, 0i64); goto LABEL_36; case 12: v76 = 1; goto LABEL_36; case 13: v89 = 0; goto LABEL_36; case 14: v89 = 1; goto LABEL_36; case 15: v20 = 1; goto LABEL_36; case 16: v70 = "etaonrishdlcupfm"; goto LABEL_36; case 17: v70 = (const char )FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 18: v77 = (const char )FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 19: if ( v6 ) goto LABEL_26; v24 = FUNC(v18, "etaonrishdlcupfm", 2i64); v81 = v24; if ( v24 ) { v6 = (unsigned int )v24; LABEL_26: v25 = FUNC(v18, v21, v19); if ( (unsigned int)OPENSSL_sk_push_0(v6, v25) ) goto LABEL_36; } goto LABEL_14; case 20: if ( v7 ) goto LABEL_31; v26 = FUNC(v18, "etaonrishdlcupfm", 2i64); v82 = v26; if ( v26 ) { v7 = (unsigned int )v26; LABEL_31: v27 = FUNC(v18, v21, v19); if ( (unsigned int)OPENSSL_sk_push_0(v7, v27) ) goto LABEL_36; } LABEL_14: BIO_printf(qword_1402808E8, "%s: Use -help for summary.\n", v12); goto LABEL_87; case 21: v28 = FUNC(v18, "etaonrishdlcupfm"); if ( !(unsigned int)FUNC(v28, &v88) ) goto LABEL_14; v78 = v88; goto LABEL_36; default: goto LABEL_36; } } if ( !(unsigned int)FUNC((unsigned int)v16, "etaonrishdlcupfm", 2i64) ) goto LABEL_87; } LABEL_36: v16 = FUNC(v18, v21, v19); if ( !v16 ) break; v19 = 2i64; } } v29 = FUNC(v18, v17, v19); v67 = v29; v30 = FUNC(); if ( v8 && v29 > 1 ) { BIO_printf(qword_1402808E8, "%s: Can only sign or verify one file.\n", v12); goto LABEL_87; } v31 = v90; if ( v90 && !v85 ) { BIO_printf(qword_1402808E8, "No signature to verify: use the -signature option\n"); goto LABEL_87; } v32 = 0i64; if ( v76 ) v32 = v75; v33 = FUNC(); v74 = FUNC(v33); v34 = FUNC(); v35 = FUNC(v34); v73 = v35; if ( !v74 \|\| !v35 ) { LABEL_86: X509_ALGOR_dup_0(qword_1402808E8); goto LABEL_87; } if ( v20 ) { FUNC(v74, FUNC); FUNC(v74, qword_1402808E8); } if ( !(unsigned int)FUNC(v87, 0i64, &v86) ) { BIO_printf(qword_1402808E8, "Error getting password\n"); goto LABEL_87; } v37 = v89; if ( v89 == -1 ) { v37 = v8 != 0; v89 = v37; } v38 = 32769i64; LOBYTE(v36) = 119; if ( v37 ) v38 = 2i64; v80 = (bio_st )FUNC(v83, v36, v38); if ( v80 ) { v39 = v77; if ( (v70 != 0i64) + (v77 != 0i64) + (v8 != 0) > 1 ) { BIO_printf(qword_1402808E8, "MAC and Signing key cannot both be specified\n"); goto LABEL_87; } if ( v8 ) { if ( (_DWORD)v71 ) v40 = (const unsigned __int8 )FUNC(v8, v72, 0, 0, (__int64)v75, (__int64)"key file"); else v40 = (const unsigned __int8 )FUNC(v8, v72, 0, (_DWORD)v86, (__int64)v75, (__int64)"key file"); v66 = v40; if ( !v40 ) goto LABEL_87; v41 = FUNC(v40); if ( v41 == 1087 \|\| v41 == 1088 ) { BIO_printf(qword_1402808E8, "Key type not supported for this operation\n"); goto LABEL_87; } } if ( v39 ) { v71 = 0i64; v42 = 0; if ( (unsigned int)FUNC(&v71, v39, v32, 0i64) ) { v43 = v82; if ( v82 && (v44 = 0, (int)FUNC(v82) > 0) ) { while ( 1 ) { v45 = (const char )FUNC(v43, v44); if ( (int)FUNC(v71, v45) <= 0 ) break; if ( (int)++v44 >= (int)FUNC(v43) ) goto LABEL_74; } BIO_printf(qword_1402808E8, "MAC parameter error \"%s\"\n", v45); X509_ALGOR_dup_0(qword_1402808E8); } else { LABEL_74: if ( (int)FUNC(v71, &v66) > 0 ) { v42 = 1; } else { FUNC(qword_1402808E8, "Error generating key\n"); X509_ALGOR_dup_0(qword_1402808E8); } } } FUNC(v71); if ( !v42 ) goto LABEL_87; v31 = v90; } if ( v70 ) { v66 = (const unsigned __int8 )FUNC(855i64, v32, v70, -1i64); if ( !v66 ) goto LABEL_87; } else if ( !v66 ) { if ( !(unsigned int)FUNC(v73, 120i64, 0i64) ) goto LABEL_85; v47 = v78; if ( !v78 ) v47 = (engine_st )FUNC(); if ( !(unsigned int)FUNC(0i64, v47, v32) ) { BIO_printf(qword_1402808E8, "Error setting digest\n"); goto LABEL_86; } goto LABEL_97; } v70 = 0i64; if ( !(unsigned int)FUNC(v73, 120i64, 0i64) ) { LABEL_85: BIO_printf(qword_1402808E8, "Error getting context\n"); goto LABEL_86; } v47 = v78; if ( v31 ) v48 = EVP_EncryptInit_ex_0_0(0i64, (const evp_cipher_st )&v70, v78, v32, v66); else v48 = EVP_DecryptInit_ex_0_1(0i64, (const evp_cipher_st )&v70, v78, v32, v66); if ( !v48 ) { BIO_printf(qword_1402808E8, "Error setting context\n"); goto LABEL_86; } v49 = v81; if ( v81 ) { v50 = 0; if ( (int)FUNC(v81) > 0 ) { while ( 1 ) { v51 = (const char )FUNC(v49, v50); if ( (int)FUNC(v70, v51) <= 0 ) break; if ( (int)++v50 >= (int)FUNC(v49) ) goto LABEL_97; } BIO_printf(qword_1402808E8, "parameter error \"%s\"\n", v51); goto LABEL_86; } } LABEL_97: v52 = v85; if ( v85 && v66 ) { v53 = FUNC(v85, "rb"); if ( !v53 ) { BIO_printf(qword_1402808E8, "Error opening signature file %s\n", v52); goto LABEL_86; } v54 = (unsigned int)EVP_PKEY_size_0((const evp_pkey_st )v66); v79 = (void )FUNC(v54, "signature buffer", v55); v56 = FUNC(v53, v79, (unsigned int)v54); v69 = v56; FUNC(v53); if ( v56 <= 0 ) { BIO_printf(qword_1402808E8, "Error reading signature file %s\n", v52); goto LABEL_86; } } else { v56 = 0; } v57 = v74; v58 = v73; v59 = FUNC(v73, v74); if ( !v47 ) { FUNC(v58, 120i64, 0i64); v47 = (engine_st )FUNC(v83); } v60 = v67; if ( v67 ) { v61 = 0i64; v77 = 0i64; if ( !v89 ) { if ( v66 ) { v62 = (const evp_pkey_asn1_method_st )FUNC(); if ( v62 ) EVP_PKEY_asn1_get0_info_0(0i64, 0i64, 0i64, 0i64, &v77, v62); } if ( v47 ) { v63 = FUNC(v47); v61 = (const char )FUNC(v63); } } v9 = 0; if ( v60 > 0 ) { v64 = v73; do { if ( (int)FUNC(v74, 108i64, 3i64) > 0 ) { v65 = FUNC( v80, v84, v59, v68, v89, (__int64)v66, (__int64)v79, v69, (__int64)v77, v61, (const char *)(v30 + 8 v2)); if ( v65 ) v9 = v65; FUNC(v64, 1i64, 0i64); } else { perror((const char )(v30 + 8 v2)); ++v9; } ++v2; } while ( v2 < v60 ); } } else { FUNC(); FUNC(v57, (unsigned int)(v60 + 106), 0i64); v9 = FUNC(v80, v84, v59, v68, v89, (__int64)v66, (__int64)v79, v56, 0i64, 0i64, "stdin"); } } LABEL_87: FUNC(v84, 0x2000i64, "apps\\dgst.c", 403i64); FUNC(v74); CRYPTO_free(v86, "apps\\dgst.c", 405); FUNC(v80); FUNC(v66); FUNC(v81); FUNC(v82); CRYPTO_free(v79, "apps\\dgst.c", 410); FUNC(v73); FUNC(v75); return v9; }	openssl
void __fastcall FUNC(void *a1) { ASN1_item_free(a1, (__int64)&unk_1402221E0); }	openssl
__int64 __fastcall FUNC(_DWORD a1, __int64 a2, __int64 a3, int a4, __int64 a5) { __int64 v5; // rax __int64 (__fastcall v8)(_DWORD , __int64, __int64); // rbx int v9; // ecx int v10; // r8d v5 = (_QWORD )a1; v8 = (__int64 (__fastcall *)(_DWORD , __int64, __int64))((_QWORD )a1 + 152i64); if ( !v8 && ((_BYTE )v5 & 1) == 0 ) { FUNC(16, 295, 66, (__int64)"crypto\\ec\\ec_oct.c", 24); return 0i64; } if ( v5 != (_QWORD )a2 \|\| (v9 = a1[8]) != 0 && (v10 = (_DWORD )(a2 + 8)) != 0 && v9 != v10 ) { FUNC(16, 295, 101, (__int64)"crypto\\ec\\ec_oct.c", 29); return 0i64; } if ( ((_BYTE )v5 & 1) == 0 ) return v8(a1, a2, a3); if ( (_DWORD )(v5 + 4) == 406 ) return FUNC((_DWORD)a1, a2, a3, a4, a5); return FUNC((_DWORD)a1, a2, a3, a4, a5); }	openssl
__int64 __fastcall FUNC(__int64 a1, int a2, __int64 a3) { int v3; // eax unsigned __int64 v4; // rbx int v7; // r14d unsigned __int64 v8; // rbp int v9; // rdi int v10; // rsi int v11; // edx unsigned __int16 v12; // rax unsigned __int64 v14; // [rsp+50h] [rbp+8h] BYREF v4 = 0i64; v7 = v3 - 30; if ( (a2 & 0x80u) == 0 ) { if ( (a2 & 0x100) != 0 ) v7 = 0; } else { v7 = v3 - 31; } v8 = (_QWORD )((_QWORD )(a1 + 1160) + 480i64) + 26i64; if ( (_QWORD )((_QWORD )(a1 + 1160) + 480i64) != -26i64 ) { v9 = (int )(a3 + 24); v10 = (int )&unk_1401ED9B4; do { if ( (v9 - 2) ) { if ( v4 >= 0x1A ) { v12 = FUNC((unsigned __int16 *)((_QWORD )(a1 + 1160) + 472i64), v7, v9, &v14); if ( !v12 ) return 0i64; v11 = ((_DWORD )v12 + 2); } else { v11 = v10; } if ( (v11 & a2) == 0 ) return 0i64; if ( ((_BYTE )((_QWORD )((_QWORD *)(a1 + 8) + 192i64) + 96i64) & 8) != 0 ) { if ( (v11 & 1) != 0 ) return 0i64; } else if ( (v11 & 2) != 0 ) { return 0i64; } } ++v4; v10 += 14; v9 += 10; } while ( v4 < v8 ); } return 1i64; }	openssl
__int64 __fastcall FUNC(__int64 a1, X509_algor_st a2, int a3, int a4) { unsigned int v9; // rdi int v10; // eax int v11; // esi BOOL v12; // r12d X509_algor_st v13; // rax X509_algor_st v14; // rbp int v15; // ebx int i; // esi __int64 v17; // rax if ( !a1 ) return 0i64; v9 = (unsigned int )a1; v10 = FUNC((unsigned int *)a1); if ( a3 <= v10 ) { if ( a3 < 0 ) a3 = v10; } else { a3 = v10; } v11 = 0; (_DWORD )(a1 + 8) = 1; v12 = a4 == 0; if ( a4 == -1 ) { if ( a3 ) v11 = (_DWORD )(FUNC((__int64)v9, a3 - 1) + 16); else v12 = 1; } else if ( a3 < v10 ) { v11 = (_DWORD )(FUNC((__int64)v9, a3) + 16); } else if ( a3 ) { v11 = (_DWORD )(FUNC((__int64)v9, a3 - 1) + 16) + 1; } v13 = X509_ALGOR_dup_0_1(a2); v14 = v13; if ( !v13 ) goto LABEL_18; ((_DWORD )v13 + 4) = v11; if ( !(unsigned int)FUNC((int )v9, (__int64)v13, a3) ) { FUNC(11, 113, 65, (unsigned int)"crypto\\x509\\x509name.c", 227); LABEL_18: FUNC(v14); return 0i64; } if ( v12 ) { v15 = a3 + 1; for ( i = FUNC(v9); v15 < i; ++(_DWORD )(v17 + 16) ) v17 = FUNC((__int64)v9, v15++); } return 1i64; }	openssl
char __fastcall FUNC(__int64 a1, int a2, size_t a3) { int v3; // eax __int64 v5; // r12 char v7; // rbp size_t v8; // rbx char result; // rax int v10; // edi int v11; // r13d unsigned __int64 v12; // r14 int v13; // r8d int v14; // ebx unsigned __int64 v15; // rsi int v16; // edx int v17; // [rsp+20h] [rbp-58h] char v19; // [rsp+98h] [rbp+20h] v5 = a2; v7 = 0i64; v8 = (unsigned int)(v3 - 63); if ( FUNC(a1) ) { result = (char )CRYPTO_malloc(v8, "crypto\\bn\\bn_intern.c", 31i64); v7 = result; if ( result ) { result = 0; a3 = v8; return result; } FUNC(3, 142, v8 + 64, (__int64)"crypto\\bn\\bn_intern.c", 33); goto LABEL_36; } if ( (unsigned int)(v5 - 1) > 6 ) { v17 = 43; goto LABEL_35; } v10 = (_DWORD)v8 << v5; v11 = 2 ((_DWORD)v8 << v5); if ( FUNC(a1) ) LOBYTE(v8) = -1; v19 = v8; if ( !(_QWORD )a1 \|\| !(_DWORD )(a1 + 8) ) { v17 = 55; LABEL_35: FUNC(3, 142, 68, (__int64)"crypto\\bn\\bn_intern.c", v17); goto LABEL_36; } v12 = (int)FUNC(a1); v7 = (char )CRYPTO_malloc(v12 + 1, "crypto\\bn\\bn_intern.c", 60i64); if ( !v7 ) { FUNC(3, 142, 65, (__int64)"crypto\\bn\\bn_intern.c", 66); LABEL_36: CRYPTO_free(v7, "crypto\\bn\\bn_intern.c", 137i64); return 0i64; } v13 = v11 - 1; v14 = (v11 - 1) & (_DWORD )a1; v15 = 0i64; while ( v14 \|\| v5 + v15 + 1 < v12 ) { LOBYTE(v16) = 0; if ( (v14 & 1) != 0 ) { v16 = v14; if ( (v14 & v10) != 0 ) { v16 = v14 - v11; if ( v5 + v15 + 1 >= v12 ) v16 = v14 & (v13 >> 1); } if ( v16 <= -v10 \|\| v16 >= v10 \|\| (v16 & 1) == 0 ) { v17 = 101; goto LABEL_35; } v14 -= v16; if ( v14 && v14 != v11 && v14 != v10 ) { v17 = 113; goto LABEL_35; } } v7[v15++] = v19 v16; v14 = v10 * FUNC(a1, (int)v15 + (int)v5) + (v14 >> 1); if ( v14 > v11 ) { v17 = 124; goto LABEL_35; } v13 = v11 - 1; } if ( v15 > v12 + 1 ) { v17 = 130; goto LABEL_35; } *a3 = v15; return v7; }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2, unsigned __int64 a3, int a4) { int v4; // eax unsigned int v5; // edi unsigned __int64 v6; // rbp unsigned __int64 v9; // rsi int v11; // eax int v12; // eax __int64 (__fastcall v13)(__int64, __int64 , _QWORD, _QWORD, _QWORD, int); // r10 void (__fastcall v14)(__int64, __int64, unsigned __int64); // r9 __int64 v15; // [rsp+50h] [rbp+8h] BYREF v4 = (_DWORD )(a1 + 152); v5 = 0; v6 = a3; v15 = 0i64; v9 = 0i64; if ( v4 == 2 ) { FUNC(36, 110, 114, (__int64)"crypto\\rand\\drbg_lib.c", 415); return 0i64; } if ( !v4 ) { FUNC(36, 110, 115, (__int64)"crypto\\rand\\drbg_lib.c", 419); return 0i64; } if ( a2 ) { if ( a3 > (_QWORD )(a1 + 104) ) { FUNC(36, 110, 102, (__int64)"crypto\\rand\\drbg_lib.c", 426); return 0i64; } } else { v6 = 0i64; } v11 = (_DWORD )(a1 + 136); (_DWORD )(a1 + 152) = 2; (_DWORD )(a1 + 140) = v11; if ( v11 ) { v12 = v11 + 1; (_DWORD )(a1 + 140) = v12; if ( !v12 ) (_DWORD )(a1 + 140) = 1; } v13 = (__int64 (__fastcall *)(__int64, __int64 , _QWORD, _QWORD, _QWORD, int))(a1 + 328); if ( v13 ) v9 = v13(a1, &v15, (unsigned int )(a1 + 48), (_QWORD )(a1 + 64), (_QWORD )(a1 + 72), a4); if ( v9 < (_QWORD )(a1 + 64) \|\| v9 > (_QWORD )(a1 + 72) ) { FUNC(36, 110, 110, (__int64)"crypto\\rand\\drbg_lib.c", 446); } else if ( ((unsigned int (__fastcall )(__int64, __int64, unsigned __int64, __int64, unsigned __int64))((_QWORD )(a1 + 320) + 8i64))( a1, v15, v9, a2, v6) ) { (_DWORD )(a1 + 152) = 1; (_DWORD )(a1 + 112) = 1; (_QWORD )(a1 + 120) = time64(0i64); (_DWORD )(a1 + 136) = (_DWORD )(a1 + 140); } if ( v15 ) { v14 = (void (__fastcall *)(__int64, __int64, unsigned __int64))(a1 + 336); if ( v14 ) v14(a1, v15, v9); } LOBYTE(v5) = (_DWORD *)(a1 + 152) == 1; return v5; }	openssl
volatile signed __int32 __fastcall FUNC(int a1, __int64 a2) { volatile signed __int32 v2; // rbx _QWORD v4; // rdi unsigned int v5; // r8d unsigned int v6; // eax __int64 v7; // rax int v9; // [rsp+20h] [rbp-18h] unsigned __int8 v10; // [rsp+50h] [rbp+18h] BYREF v2 = 0i64; v4 = 0i64; if ( a1 == 16 ) { v5 = (_DWORD )a2; v10 = (unsigned __int8 )(a2 + 8); v2 = (volatile signed __int32 )FUNC(0i64, &v10, v5); if ( !v2 ) { v9 = 103; LABEL_12: FUNC(16, 220, 142, (__int64)"crypto\\ec\\ec_ameth.c", v9); goto LABEL_13; } return v2; } if ( a1 != 6 ) { v9 = 124; goto LABEL_12; } v2 = (volatile signed __int32 )FUNC(); if ( v2 ) { v6 = FUNC(a2); v7 = FUNC(v6); v4 = (_QWORD )v7; if ( !v7 ) goto LABEL_13; FUNC(v7, 1); if ( !(unsigned int)FUNC(v2, v4) ) goto LABEL_13; FUNC(v4); return v2; } FUNC(16, 220, 65, (__int64)"crypto\\ec\\ec_ameth.c", 113); LABEL_13: FUNC(v2); FUNC(v4); return 0i64; }	openssl
const char __fastcall OCSP_response_status_str_0(int s) { _QWORD v1; // rax unsigned __int64 v2; // rdx v1 = &unk_140214AE0; v2 = 0i64; while ( (_DWORD )v1 != s ) { ++v2; v1 += 2; if ( v2 >= 6 ) return "(UNKNOWN)"; } return (const char *)v1[1]; }	openssl
__int64 __fastcall FUNC(__int64 a1) { __int64 v1; // rax v1 = FUNC(a1); return FUNC(v1); }	openssl
__int64 __fastcall FUNC(_QWORD a1, const void a2, size_t a3, __int64 a4) { unsigned __int64 v5; // rcx v5 = a1[1]; if ( a3 > a1[4] - v5 ) { FUNC(36, 103, 106, (__int64)"crypto\\rand\\rand_lib.c", 719); return 0i64; } if ( !a1 ) { FUNC(36, 103, 68, (__int64)"crypto\\rand\\rand_lib.c", 724); return 0i64; } if ( a3 ) { if ( a1[5] > v5 && (const void )(v5 + a1) == a2 ) { FUNC(36, 103, 68, (__int64)"crypto\\rand\\rand_lib.c", 738); return 0i64; } if ( !(unsigned int)FUNC((__int64)a1, a3) ) return 0i64; memmove((void )(a1[1] + *a1), a2, a3); a1[1] += a3; a1[6] += a4; } return 1i64; }	openssl
__int64 __fastcall dsa_sign_setup_no_digest_0(dsa_st dsa, bignum_ctx ctx_in, bignum_st kinvp, bignum_st rp) { return FUNC((__int64)dsa, (int )ctx_in, (_BYTE )kinvp, (_BYTE *)rp, 0i64, 0); }	openssl
__int64 __fastcall FUNC(_DWORD a1, _QWORD a2, _BYTE a3, __int64 a4, int a5) { int v5; // eax int v6; // r12 int v10; // esi int v11; // ebx int v12; // eax __int64 v13; // r13 __int64 v14; // rcx int v15; // rdi __int64 v16; // r14 __int64 v17; // r15 bool v18; // zf unsigned int v19; // [rsp+30h] [rbp-48h] __int64 v20; // [rsp+38h] [rbp-40h] int v23; // [rsp+98h] [rbp+20h] v6 = 0i64; v19 = 0; if ( !a4 ) { FUNC(v5 - 80, v5 + 64, v5 + 4, (__int64)"crypto\\ec\\ec2_oct.c", 247); return 0i64; } v10 = a3 & 1; v11 = a3 & 0xFE; switch ( v11 ) { case 0: goto LABEL_9; case 2: break; case 4: LABEL_9: if ( (a3 & 1) != 0 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 260); return 0i64; } break; case 6: break; default: FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 256); return 0i64; } if ( v11 ) { v23 = FUNC((__int64)a1); v12 = (v23 + 7) / 8; v13 = v12; if ( v11 == 2 ) v14 = v12 + 1i64; else v14 = 2i64 v12 + 1; if ( a4 != v14 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 280); return 0i64; } v15 = a5; if ( !a5 ) { v6 = (int )FUNC(); v15 = v6; if ( !v6 ) return 0i64; } FUNC(v15); v16 = FUNC(v15); v17 = FUNC(v15); v20 = FUNC(v15); if ( v20 && FUNC(a3 + 1, v13, v16) ) { if ( (int)FUNC(v16) > v23 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 300); goto LABEL_41; } if ( v11 == 2 ) { v18 = (unsigned int)FUNC(a1, (__int64)a2, v16, v10, (__int64)v15) == 0; goto LABEL_39; } if ( FUNC(&a3[v13 + 1], v13, v17) ) { if ( (int)FUNC(v17) <= v23 ) { if ( v11 == 6 ) { if ( !((unsigned int (__fastcall *)(_DWORD , __int64, __int64, __int64, int ))((_QWORD *)a1 + 280i64))( a1, v20, v17, v16, v15) ) goto LABEL_41; if ( v10 != FUNC(v20) ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 318); goto LABEL_41; } } v18 = (unsigned int)FUNC(a1, (__int64)a2) == 0; LABEL_39: if ( !v18 ) v19 = 1; goto LABEL_41; } FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 311); } } LABEL_41: FUNC((__int64)v15); FUNC((__int64)v6); return v19; } if ( a4 != 1 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 266); return 0i64; } return FUNC((__int64)a1, a2); }	openssl
__int64 __fastcall CRYPTO_ccm128_decrypt_ccm64( char a1, __int64 a2, __int64 a3, unsigned __int64 a4, void (__fastcall a5)(__int64, __int64, unsigned __int64, __int64, char , __int64)) { char v5; // di __int64 v6; // r14 __int64 v8; // r10 unsigned int v11; // esi int v12; // eax __int64 v13; // rcx signed int v14; // r12d char v15; // rdx __int64 v16; // r8 __int64 v17; // rax __int64 v18; // rax unsigned __int64 v20; // rdi __int64 v21; // r13 unsigned __int64 v22; // rdi __int64 v23; // r8 unsigned __int64 v24; // rdx __int64 v25; // rax __int64 v26; // rcx unsigned __int64 v27; // rdx void (__fastcall v28)(char , __int64 , __int64); // rdi char v29; // rdx __int64 v30; // rcx __int64 v31; // r15 __int64 v32; // r13 char v33; // al char v34; // al char v35; // [rsp+30h] [rbp-78h] void (__fastcall v37)(char , __int64 , __int64); // [rsp+40h] [rbp-68h] __int64 v38[2]; // [rsp+48h] [rbp-60h] BYREF v5 = a1; v6 = ((_QWORD )a1 + 6); v8 = a3; v35 = a1; v37 = (void (__fastcall )(char , __int64 , __int64))((_QWORD )a1 + 5); if ( (a1 & 0x40) == 0 ) { (((void (__fastcall )(char , char , __int64))a1 + 5))(a1, a1 + 16, v6); v8 = a3; } v11 = 0; v12 = v5 & 7; v13 = 0i64; v14 = 15 - v12; a1 = v12; if ( (unsigned int)(15 - v12) < 0xF ) { v15 = &a1[v14]; v16 = v5 & 7; do { v17 = (unsigned __int8)v15; v15++ = 0; v13 = (v17 \| v13) << 8; --v16; } while ( v16 ); } v18 = (unsigned __int8)a1[15]; a1[15] = 1; if ( (v18 \| v13) != a4 ) return 0xFFFFFFFFi64; if ( !(a4 >> 4) ) { v21 = a3; goto LABEL_16; } a5(a2, v8, a4 >> 4, v6, a1, (__int64)(a1 + 16)); v20 = 16 * (a4 >> 4); v21 = v20 + a3; a2 += v20; a4 -= v20; if ( a4 ) { v22 = v20 >> 4; v23 = 8i64; v24 = 0i64; do { v25 = (unsigned __int8)a1[v23 + 7]; --v23; v26 = (unsigned __int8)v22; v22 >>= 8; v27 = v26 + v25 + v24; a1[v23 + 8] = v27; v24 = v27 >> 8; } while ( v23 && (v22 \|\| v24) ); LABEL_16: v28 = v37; if ( a4 ) { v37(a1, v38, v6); v29 = a1 + 16; v30 = v38; v31 = a2 - (_QWORD)v38; v32 = v21 - (_QWORD)v38; do { v33 = ((_BYTE )v30 + v31); ++v11; v30 = (__int64 )((char )v30 + 1); v34 = ((_BYTE )v30 - 1) ^ v33; ++v29; ((_BYTE )v30 + v32 - 1) = v34; (v29 - 1) ^= v34; } while ( v11 < a4 ); v37(a1 + 16, (__int64 )a1 + 2, v6); } goto LABEL_21; } v28 = v37; LABEL_21: if ( (unsigned int)v14 < 0x10 ) memset(&a1[v14], 0, (unsigned int)(16 - v14)); v28(a1, v38, v6); ((_QWORD )a1 + 2) ^= v38[0]; ((_QWORD )a1 + 3) ^= v38[1]; *a1 = v35; return 0i64; }	openssl
void __fastcall FUNC(_BYTE *a1) { if ( a1 ) { if ( (a1[4] & 1) != 0 ) CRYPTO_free(a1, "crypto\\evp\\pmeth_lib.c", 240i64); } }	openssl
__int64 __fastcall FUNC( __int64 a1, unsigned int a2, _QWORD a3, unsigned int a4, volatile signed __int32 a5, int a6) { int v6; // esi int v10; // ebp volatile signed __int32 v11; // rbx volatile signed __int32 v12; // r14 _QWORD v13; // rax int v14; // r13d __int64 v16; // rax unsigned int v17; // rdi _QWORD v18; // rax unsigned int v19; // rdx __int64 v20; // r15 int v21; // esi _QWORD v22; // rax int v23; // esi __int64 v24; // rbp unsigned int v25; // eax volatile signed __int32 v26; // rax volatile signed __int32 v27; // rsi __int64 v28; // rax __int64 v29; // rax volatile signed __int32 v30; // rax unsigned int v31; // rax int v32; // esi _QWORD v33; // rax __int64 v34; // rdi __int64 v35; // rdi unsigned int v36; // [rsp+30h] [rbp-68h] unsigned int v37; // [rsp+38h] [rbp-60h] unsigned int v38; // [rsp+40h] [rbp-58h] __int64 v39; // [rsp+48h] [rbp-50h] BYREF __int64 v40[9]; // [rsp+50h] [rbp-48h] BYREF volatile signed __int32 v43; // [rsp+B8h] [rbp+20h] v6 = 0; v38 = 0; v36 = 0i64; v37 = 0i64; v10 = 0; v11 = 0i64; v43 = 0i64; v12 = 0i64; if ( a4 ) { v14 = a6; if ( (a6 & 0x80u) == 0 ) { v16 = FUNC(a1); if ( (unsigned int)FUNC(v16) == 787 ) v14 = a6 \| 0x80000; } } else { v13 = (_QWORD )FUNC(a1); if ( !v13 \|\| !v13 ) { FUNC(46, 99, 127, (__int64)"crypto\\cms\\cms_smime.c", 82); return 0i64; } v14 = a6; } v17 = (unsigned int )FUNC(a1); if ( (int)FUNC(v17) <= 0 ) { FUNC(46, 157, 135, (__int64)"crypto\\cms\\cms_smime.c", 289); LABEL_57: v27 = a5; goto LABEL_58; } if ( (int)FUNC(v17) > 0 ) { do { v18 = (_QWORD )FUNC((__int64)v17, v6); CMS_SignerInfo_get0_algs(v18, 0i64, &v39, 0i64, 0i64); if ( v39 ) ++v10; ++v6; } while ( v6 < (int)FUNC(v17) ); v12 = 0i64; } if ( v10 == (unsigned int)FUNC(v17) ) { v20 = a1; } else { v19 = a2; v20 = a1; v10 += FUNC(a1, v19, v14); } if ( v10 != (unsigned int)FUNC(v17) ) { FUNC(46, 157, 138, (__int64)"crypto\\cms\\cms_smime.c", 304); goto LABEL_57; } if ( (v14 & 0x20) == 0 ) { v36 = FUNC(v20); if ( (v14 & 0x2000) == 0 ) v37 = FUNC(v20); v21 = 0; if ( (int)FUNC(v17) > 0 ) { do { v22 = (_QWORD )FUNC((__int64)v17, v21); if ( !(unsigned int)FUNC(v22, a3, (__int64)v36, (__int64)v37) ) goto LABEL_57; } while ( ++v21 < (int)FUNC(v17) ); } } if ( (v14 & 8) == 0 ) { v23 = 0; if ( (int)FUNC(v17) > 0 ) { do { v24 = FUNC((__int64)v17, v23); if ( (int)FUNC(v24) >= 0 && (int)FUNC(v24) <= 0 ) goto LABEL_57; } while ( ++v23 < (int)FUNC(v17) ); } } if ( !a4 \|\| (unsigned int)FUNC(a4) != 1025 ) { v26 = (volatile signed __int32 )a4; v43 = (volatile signed __int32 )a4; goto LABEL_37; } v25 = FUNC(a4, 3u, 0, (__int64)v40); v26 = (volatile signed __int32 )FUNC(v40[0], v25); v43 = v26; if ( v26 ) { LABEL_37: if ( (v14 & 0x80u) == 0 && a4 ) { v27 = a5; if ( a5 ) { if ( (v14 & 1) != 0 ) { v29 = FUNC(); v12 = (volatile signed __int32 )FUNC(v29); FUNC(v12, 0x82u, 0, 0i64); } else { v12 = a5; } } else { v28 = FUNC(); v12 = (volatile signed __int32 )FUNC(v28); } if ( !v12 ) { FUNC(46, 157, 65, (__int64)"crypto\\cms\\cms_smime.c", 362); goto LABEL_58; } v30 = FUNC(v20, v12); v11 = v30; if ( !v30 ) { LABEL_58: if ( (v14 & 0x80u) != 0 ) { if ( a4 && v43 == (volatile signed __int32 )a4 ) { do { v35 = FUNC(v11); FUNC(v11); v11 = (volatile signed __int32 )v35; } while ( v35 && (unsigned int )v35 != a4 ); goto LABEL_74; } } else if ( a4 ) { if ( v12 ) { do { v34 = FUNC(v11); FUNC(v11); v11 = (volatile signed __int32 )v34; } while ( v34 && (volatile signed __int32 )v34 != v12 ); } else { FUNC((__int64)v11); } if ( v43 != (volatile signed __int32 )a4 ) FUNC(v43); goto LABEL_74; } FUNC((__int64)v11); LABEL_74: if ( v27 != v12 ) FUNC((__int64)v12); goto LABEL_76; } FUNC(a4, v30, v14 & 0xFFFFFFFE); if ( (v14 & 1) != 0 && !(unsigned int)FUNC(v12, a5) ) { FUNC(46, 157, 140, (__int64)"crypto\\cms\\cms_smime.c", 376); goto LABEL_58; } } else { v31 = (unsigned int *)FUNC(v20, v26); v11 = (volatile signed __int32 )v31; if ( !v31 ) goto LABEL_57; v27 = a5; if ( !(unsigned int)FUNC(a5, v31, v14) ) goto LABEL_58; } if ( (v14 & 4) != 0 \|\| (v32 = 0, (int)FUNC(v17) <= 0) ) { LABEL_56: v38 = 1; } else { while ( 1 ) { v33 = (_QWORD )FUNC((__int64)v17, v32); if ( (int)FUNC(v33, (__int64)v11) <= 0 ) break; if ( ++v32 >= (int)FUNC(v17) ) goto LABEL_56; } FUNC(46, 157, 109, (__int64)"crypto\\cms\\cms_smime.c", 393); } goto LABEL_57; } FUNC(46, 157, 65, (__int64)"crypto\\cms\\cms_smime.c", 346); LABEL_76: FUNC(v36, (void (__fastcall )(_QWORD))FUNC); FUNC(v37, (void (__fastcall *)(_QWORD))FUNC); return v38; }	openssl
void __fastcall FUNC(__int64 a1) { int v1; // r8 SOCKET v2; // rcx int optval; // [rsp+40h] [rbp+8h] BYREF v1 = (int *)(a1 + 56); if ( v1[10] > 0 \|\| v1[11] > 0 ) { v2 = (int )(a1 + 48); optval = 1000 v1[12] + v1[13] / 1000; if ( setsockopt(v2, 0xFFFF, 4102, (const char *)&optval, 4) < 0 ) perror("setsockopt"); } }	openssl
void *__fastcall FUNC(char a1) { int v1; // eax void *v3; // rbx _BYTE v4; // rax v3 = (void *)CRYPTO_zalloc((unsigned int)(v1 + 32), "crypto\\ui\\ui_lib.c", 601i64); if ( v3 ) { v4 = FUNC(a1, "crypto\\ui\\ui_lib.c", 602i64); v3 = v4; if ( v4 && (unsigned int)FUNC(14i64, v3, v3 + 9) ) return v3; CRYPTO_free(*v3, "crypto\\ui\\ui_lib.c", 606i64); } CRYPTO_free(v3, "crypto\\ui\\ui_lib.c", 607i64); FUNC(40, 112, 65, (__int64)"crypto\\ui\\ui_lib.c", 608); return 0i64; }	openssl
__int64 setenvp() { char v0; // rbx int v1; // edi char v3; // rdi char v4; // rbx int v5; // esi char v6; // rax if ( !dword_140286DC8 ) _initmbctable(); v0 = qword_140285688; v1 = 0; if ( !qword_140285688 ) return 0xFFFFFFFFi64; while ( v0 ) { if ( v0 != 61 ) ++v1; v0 += strlen(v0) + 1; } v3 = (char )calloc_crt(v1 + 1, 8i64); envp = v3; if ( !v3 ) return 0xFFFFFFFFi64; v4 = qword_140285688; if ( qword_140285688 ) { while ( 1 ) { v5 = strlen(v4) + 1; if ( v4 != 61 ) { v6 = (char )calloc_crt(v5, 1i64); v3 = v6; if ( !v6 ) { free(envp); envp = 0i64; return 0xFFFFFFFFi64; } if ( strcpy_s(v6, v5, v4) ) invoke_watson(0i64, 0i64, 0i64, 0, 0i64); ++v3; } v4 += v5; if ( !v4 ) { v4 = qword_140285688; break; } } } free(v4); qword_140285688 = 0i64; *v3 = 0i64; dword_140286DB0 = 1; return 0i64; }	openssl
// attributes: thunk errno_t __cdecl j_clearerr_s(FILE *Stream) { return clearerr_s(Stream); }	openssl
void __fastcall FUNC(void *a1) { if ( a1 ) { FUNC((__int64)a1); CRYPTO_free(a1, "crypto\\ts\\ts_verify_ctx.c", 36i64); } }	openssl
__int64 __fastcall FUNC() { int v0; // eax return FUNC((unsigned int)(v0 - 36)); }	openssl
__int64 __fastcall FUNC(Concurrency::details::VirtualProcessor a1, unsigned __int8 a2) { int v4; // edi struct Concurrency::details::SchedulingRing *OwningRing; // rax v4 = FUNC((__int64)a1); OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(a1); FUNC(OwningRing, v4, a2); return 1i64; }	openssl
__int64 __fastcall FUNC(__int64 a1) { int v1; // eax _QWORD v3; // rbx evp_cipher_ctx_st v5; // rax v3 = CRYPTO_zalloc(0x1150ui64, "crypto\\evp\\bio_enc.c", (unsigned int)(v1 + 20)); if ( v3 ) { v5 = EVP_CIPHER_CTX_new(); v3[3] = v5; if ( v5 ) { ((_DWORD )v3 + 2) = 1; v3[4] = v3 + 42; v3[5] = v3 + 42; ((_DWORD )v3 + 4) = 1; FUNC(a1, (__int64)v3); FUNC(a1, 1); return 1i64; } else { CRYPTO_free(v3, "crypto\\evp\\bio_enc.c", 75i64); return 0i64; } } else { FUNC(6, 199, 65, (__int64)"crypto\\evp\\bio_enc.c", 69); return 0i64; } }	openssl
__int64 __fastcall FUNC( __int64 a1, _BYTE a2, __int64 a3, unsigned __int64 a4, void (__fastcall a5)(_BYTE , __int64, __int64, __int64, __int64)) { unsigned __int64 v6; // rsi unsigned __int64 v8; // rcx int v10; // ebp __int64 v12; // rax __int64 v13; // rax int v14; // r15d __int64 v15; // r13 __int64 v16; // rdx char v17; // cl void (__fastcall v18)(_BYTE , __int64, __int64, __int64, __int64); // r10 unsigned __int64 v19; // rbx unsigned __int64 v20; // rax unsigned __int64 v21; // rbx int v22; // r15d _BYTE v23; // r12 __int64 v24; // rdx _BYTE v25; // r9 __int64 v26; // rax __int64 v27; // r8 char v28; // al int v29; // [rsp+30h] [rbp-48h] __int64 v30; // [rsp+38h] [rbp-40h] int v31; // [rsp+80h] [rbp+8h] __int64 v32; // [rsp+98h] [rbp+20h] v6 = a4; v30 = (_QWORD )(a1 + 384); v8 = a4 + (_QWORD )(a1 + 56); if ( v8 > 0xFFFFFFFE0i64 \|\| v8 < a4 ) return 0xFFFFFFFFi64; v10 = (_DWORD )(a1 + 368); (_QWORD )(a1 + 56) = v8; v31 = v10; if ( (_DWORD )(a1 + 372) ) { if ( !a4 ) { FUNC((_BYTE )(a1 + 64), a1 + 96); (_DWORD )(a1 + 372) = 0; return 0i64; } v12 = (_QWORD )(a1 + 64); v10 = 16; (_DWORD )(a1 + 372) = 0; (_QWORD )(a1 + 392) = v12; v13 = (_QWORD )(a1 + 72); (_QWORD )(a1 + 64) = 0i64; (_QWORD )(a1 + 72) = 0i64; v31 = 16; (_QWORD )(a1 + 400) = v13; } v14 = (unsigned __int8 )(a1 + 15) \| (((unsigned __int8 )(a1 + 14) \| (((unsigned __int8 )(a1 + 13) \| ((unsigned __int8 )(a1 + 12) << 8)) << 8)) << 8); v15 = v10 & 0xF; v29 = v10 & 0xF; if ( (v10 & 0xF) != 0 ) { v16 = v10; while ( v6 ) { ++v16; ++v10; v17 = a2 ^ (_BYTE )(v15 + a1 + 16); ++a3; ++a2; (_BYTE )(a3 - 1) = v17; --v6; (_BYTE )(v16 + a1 + 391) = v17; v15 = ((_BYTE)v15 + 1) & 0xF; v29 = v15; if ( !(_DWORD)v15 ) goto LABEL_13; } if ( (_DWORD)v15 ) goto LABEL_26; LABEL_13: FUNC((_BYTE )(a1 + 64), a1 + 96, a1 + 392, (unsigned int)v10); v10 = 0; v31 = 0; } if ( v6 >= 0x10 && v10 ) { FUNC((_BYTE )(a1 + 64), a1 + 96, a1 + 392, (unsigned int)v10); v10 = 0; v31 = 0; } v18 = a5; if ( v6 >= 0xC00 ) { v19 = v6 / 0xC00; do { v18(a2, a3, 192i64, v30, a1); v14 += 192; (_BYTE )(a1 + 15) = v14; (_BYTE )(a1 + 12) = HIBYTE(v14); (_BYTE )(a1 + 13) = BYTE2(v14); (_BYTE )(a1 + 14) = BYTE1(v14); FUNC((_BYTE )(a1 + 64), a1 + 96, a3, 3072i64); v18 = a5; a3 += 3072i64; a2 += 3072; --v19; } while ( v19 ); v6 %= 0xC00ui64; v10 = v31; LODWORD(v15) = v29; } v20 = v6 & 0xFFFFFFFFFFFFFFF0ui64; v32 = v6 & 0xFFFFFFFFFFFFFFF0ui64; if ( (v6 & 0xFFFFFFFFFFFFFFF0ui64) != 0 ) { v21 = v20 >> 4; v18(a2, a3, v20 >> 4, v30, a1); v14 += v21; (_BYTE )(a1 + 12) = HIBYTE(v14); (_BYTE )(a1 + 15) = v14; a2 += v32; v6 -= v32; (_BYTE )(a1 + 13) = BYTE2(v14); (_BYTE )(a1 + 14) = BYTE1(v14); FUNC((_BYTE )(a1 + 64), a1 + 96, a3, v32); a3 += v32; } if ( v6 ) { ((void (__fastcall *)(__int64, __int64, __int64))(a1 + 376))(a1, a1 + 16, v30); v22 = v14 + 1; v23 = &a2[-a3]; (_BYTE )(a1 + 15) = v22; v24 = (int)v15 + a3; v25 = (_BYTE )((int)v15 + a1 + 16); (_BYTE )(a1 + 12) = HIBYTE(v22); (_BYTE )(a1 + 13) = BYTE2(v22); (_BYTE )(a1 + 14) = BYTE1(v22); v26 = v10; v10 += v6; v27 = v26 + a1 + 392; do { ++v27; v28 = v25++ ^ v23[v24++]; --v6; (_BYTE )(v24 - 1) = v28; (_BYTE )(v27 - 1) = v28; } while ( v6 ); } LABEL_26: (_DWORD *)(a1 + 368) = v10; return 0i64; }	openssl
__int64 __fastcall lseek_nolock(int a1, LONG a2, DWORD a3) { __int64 v3; // rbx void osfhandle; // rax DWORD v8; // edi int LastError; // eax v3 = a1; osfhandle = (void )get_osfhandle(a1); if ( osfhandle == (void )-1i64 ) { errno() = 9; return 0xFFFFFFFFi64; } v8 = SetFilePointer(osfhandle, a2, 0i64, a3); if ( v8 == -1 ) LastError = GetLastError(); else LastError = 0; if ( LastError ) { dosmaperr(LastError); return 0xFFFFFFFFi64; } (_BYTE )(qword_140286BA0[v3 >> 5] + 88 * (v3 & 0x1F) + 8) &= ~2u; return v8; }	openssl
_BOOL8 __fastcall CONF_module_add_0( char name, int (__fastcall ifunc)(conf_imodule_st , const conf_st ), void (__fastcall ffunc)(conf_imodule_st )) { return FUNC(0i64, name, (__int64)ifunc, (__int64)ffunc) != 0i64; }	openssl
__int64 __fastcall FUNC(const char a1, const char a2, const conf_st a3) { int v3; // eax unsigned int v5; // r14d engine_st v7; // rbp char v8; // rax unsigned int v9; // rax __int64 v10; // rdi int v12; // r15d __int64 v13; // rax const char v14; // rbx _QWORD v15; // r13 char v16; // rax const char v17; // r12 __int64 v18; // rax int v19; // [rsp+40h] [rbp-58h] unsigned int v20; // [rsp+48h] [rbp-50h] const char v21; // [rsp+A0h] [rbp+8h] int v24; // [rsp+B8h] [rbp+20h] BYREF v21 = a1; v5 = 0; v24 = -1; v7 = 0i64; v19 = 0; v8 = strchr(a1, v3 - 66); if ( v8 ) v21 = v8 + 1; v9 = (unsigned int )FUNC(a3, a2); v10 = (__int64)v9; v20 = v9; if ( v9 ) { v12 = 0; if ( (int)FUNC(v9) > 0 ) { do { v13 = FUNC(v10, v12); v14 = (const char *)(v13 + 8); v15 = (_QWORD )v13; v16 = strchr(v14, 46); if ( v16 ) v14 = v16 + 1; v17 = (const char )v15[2]; if ( !strcmp(v14, "engine_id") ) { v21 = (const char )v15[2]; } else if ( !strcmp(v14, "soft_load") ) { v19 = 1; } else if ( !strcmp(v14, "dynamic_path") ) { v18 = FUNC("dynamic"); v7 = (engine_st )v18; if ( !v18 \|\| !(unsigned int)FUNC(v18, "SO_PATH", v17, 0) \|\| !(unsigned int)FUNC((__int64)v7, "LIST_ADD", "2", 0) \|\| !(unsigned int)FUNC((__int64)v7, "LOAD", 0i64, 0) ) { goto LABEL_38; } } else { if ( !v7 ) { v7 = (engine_st )FUNC(v21); if ( !v7 ) { if ( v19 ) { FUNC(); return 1i64; } goto LABEL_38; } } if ( !strcmp(v17, "EMPTY") ) v17 = 0i64; if ( !strcmp(v14, "init") ) { if ( !(unsigned int)FUNC((__int64)a3, (__int64)a2, (__int64)"init", &v24) ) goto LABEL_38; if ( v24 == 1 ) { if ( !(unsigned int)int_engine_init(v7) ) goto LABEL_38; } else if ( v24 ) { FUNC(38, 188, 151, (__int64)"crypto\\engine\\eng_cnf.c", 122); goto LABEL_38; } } else if ( !strcmp(v14, "default_algorithms") ) { if ( !FUNC((__int64)v7, (__int64)v17) ) goto LABEL_38; } else if ( !(unsigned int)FUNC((__int64)v7, v14, v17, 0) ) { goto LABEL_38; } } v10 = (__int64)v20; ++v12; } while ( v12 < (int)FUNC(v20) ); if ( v7 && v24 == -1 && !(unsigned int)int_engine_init(v7) ) { v15 = 0i64; LABEL_38: FUNC(38, 188, 102, (__int64)"crypto\\engine\\eng_cnf.c", 141); if ( v15 ) ERR_add_error_data(6, "section=", *v15, ", name=", v15[1], ", value=", v15[2]); goto LABEL_43; } } v5 = 1; LABEL_43: FUNC((__int64)v7); return v5; } else { FUNC(38, 188, 149, (__int64)"crypto\\engine\\eng_cnf.c", 61); return 0i64; } }	openssl
_BOOL8 __fastcall FUNC(_QWORD a1, unsigned __int64 a2, unsigned __int64 a3, int a4, int a5) { __int64 v5; // rbp _BOOL8 result; // rax int v10; // r10d __int64 v11; // r11 _QWORD v12; // rbx unsigned __int64 v13; // rdi unsigned __int64 v14; // rsi __int64 v15; // rax bool v16; // sf int v17; // r10d unsigned __int64 v18; // rcx __int64 v19; // rax int v20; // r10d unsigned __int64 v21; // rcx __int64 v22; // rax int v23; // r10d unsigned __int64 v24; // rcx __int64 v25; // rax __int64 v26; // rax int v27; // r10d __int64 v28; // rax int v29; // r10d __int64 v30; // rax int v31; // r10d __int64 v32; // rax int v33; // r10d int v34; // r10d int v35; // r10d int v36; // r10d unsigned __int64 v37; // rax v5 = a4; result = FUNC(a1, a2, a3, a4); v10 = a5; v11 = result; if ( a5 ) { v12 = &a1[v5]; v13 = &a2[v5]; v14 = &a3[v5]; if ( a5 >= 0 ) { if ( result ) { while ( 1 ) { v26 = v13 - v11; if ( v13 ) v11 = 0i64; v27 = v10 - 1; v12 = v26; if ( v27 <= 0 ) break; v28 = v13[1] - v11; if ( v13[1] ) v11 = 0i64; v29 = v27 - 1; v12[1] = v28; if ( v29 <= 0 ) break; v30 = v13[2] - v11; if ( v13[2] ) v11 = 0i64; v31 = v29 - 1; v12[2] = v30; if ( v31 <= 0 ) break; v32 = v13[3] - v11; if ( v13[3] ) v11 = 0i64; v10 = v31 - 1; v12[3] = v32; if ( v10 <= 0 ) break; v13 += 4; v12 += 4; if ( !v11 ) goto LABEL_30; } } else { LABEL_30: if ( v10 > 0 ) { v33 = v10 - 1; for ( v12 = v13; v33 > 0; v12 = v37 ) { v34 = v33 - 1; v12[1] = v13[1]; if ( v34 <= 0 ) break; v35 = v34 - 1; v12[2] = v13[2]; if ( v35 <= 0 ) break; v36 = v35 - 1; v12[3] = v13[3]; if ( v36 <= 0 ) break; v37 = v13[4]; v13 += 4; v12 += 4; v33 = v36 - 1; } } } } else { while ( 1 ) { v15 = -(__int64)(v14 + v11); if ( v14 ) v11 = 1i64; v16 = v10 + 1 < 0; v17 = v10 + 1; *v12 = v15; if ( !v16 ) break; v18 = v14[1]; v19 = -(__int64)(v18 + v11); if ( v18 ) v11 = 1i64; v16 = v17 + 1 < 0; v20 = v17 + 1; v12[1] = v19; if ( !v16 ) break; v21 = v14[2]; v22 = -(__int64)(v21 + v11); if ( v21 ) v11 = 1i64; v16 = v20 + 1 < 0; v23 = v20 + 1; v12[2] = v22; if ( !v16 ) break; v24 = v14[3]; v25 = -(__int64)(v24 + v11); if ( v24 ) v11 = 1i64; v16 = v23 + 1 < 0; v10 = v23 + 1; v12[3] = v25; if ( !v16 ) break; v14 += 4; v12 += 4; } } return v11; } return result; }	openssl
__int64 __fastcall FUNC(__int64 a1, Concurrency::details::VirtualProcessor a2) { if ( (unsigned int)FUNC(a2) ) { if ( Concurrency::details::VirtualProcessor::GetOwningRoot(a2) ) { (_QWORD *)(a1 + 480) = a2; return 1i64; } else { FUNC(20, 290, 331, (unsigned int)"ssl\\ssl_sess.c", 1214); FUNC(a2); return 0i64; } } else { FUNC(20, 290, 38, (unsigned int)"ssl\\ssl_sess.c", 1209); return 0i64; } }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3, __int64 a4, __int64 a5, __int64 a6, int a7) { __int64 v7; // rbx __int64 v12; // rdi unsigned int v13; // ebp __int64 v14; // rax __int64 v15; // rax v7 = 0i64; v12 = 0i64; v13 = 0; if ( a2 \|\| a3 ) { v14 = FUNC(); v7 = v14; if ( !v14 \|\| !(unsigned int)X509_STORE_load_locations(v14, a3, a2) ) goto LABEL_13; FUNC(v7, a6); FUNC(a1, 106i64, 1i64); if ( a7 ) FUNC(v7); } if ( !a4 && !a5 ) goto LABEL_12; v15 = FUNC(); v12 = v15; if ( v15 && (unsigned int)X509_STORE_load_locations(v15, a5, a4) ) { FUNC(a1, 107i64, 1i64); LABEL_12: v13 = 1; } LABEL_13: FUNC(v7); FUNC(v12); return v13; }	openssl
char IsNonwritableInCurrentImage() { __int64 PESection; // rax __int64 v1; // r8 __int64 v2; // r9 LOBYTE(PESection) = ValidateImageBase(0x140000000i64); if ( (_DWORD)PESection ) { PESection = FindPESection(v2, v1 - v2); if ( PESection ) LOBYTE(PESection) = (int )(PESection + 36) >= 0; } return PESection; }	openssl
__int64 __fastcall X509_NAME_get_entry_0(__int64 a1, int a2) { if ( a1 && (int)FUNC((unsigned int )a1) > a2 && a2 >= 0 ) return FUNC(a1, a2); else return 0i64; }	openssl
char __fastcall RC2_cfb64_encrypt(char a1, __int64 a2, int a3, __int64 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); FUNC((int )&a5, a4); 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); FUNC((int )&a5, a4); 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
__int64 __fastcall FUNC(int a1, __int64 a2) { __int64 v2; // rdi bool v4; // zf __int64 result; // rax tm v6; // [rsp+20h] [rbp-38h] BYREF __time64_t Time; // [rsp+60h] [rbp+8h] BYREF v2 = 0i64; if ( a1 ) { v4 = (unsigned int)FUNC((__int64)&v6, a1) == 0; } else { time64(&Time); memset(&v6, 0, sizeof(v6)); v4 = OPENSSL_gmtime(&Time, &v6) == 0i64; } if ( v4 ) return 0i64; if ( a2 ) v2 = a2; result = FUNC(v2, &v6, 24); if ( a2 ) { if ( result ) a2 = result; } return result; }	openssl
__int64 __fastcall tsopen_nolock_0(_DWORD a1, int a2, const WCHAR a3, int a4, int a5, char a6) { unsigned int v6; // edi int v7; // esi DWORD dwCreationDisposition; // ebp char v10; // r14 DWORD v12; // r15d int v13; // r12d DWORD v14; // ecx int v15; // eax DWORD dwFlagsAndAttributes; // r13d int v17; // eax DWORD v18; // r8d HANDLE v19; // rax int v20; // eax DWORD FileType; // eax int LastError; // ebx char v23; // r14 int v24; // ecx int v25; // eax unsigned int v26; // eax int v27; // ebp int nolock; // eax bool v29; // zf int v30; // eax __int64 v31; // rax __int64 v32; // rcx __int64 v33; // rax __int64 v34; // rax __int64 v35; // rdx __int64 v36; // rcx HANDLE v37; // rax int v38; // eax int Buf; // [rsp+40h] [rbp-78h] BYREF DWORD dwShareMode; // [rsp+44h] [rbp-74h] char v41; // [rsp+48h] [rbp-70h] DWORD v42; // [rsp+4Ch] [rbp-6Ch] WCHAR v43[2]; // [rsp+50h] [rbp-68h] BYREF int Daylight; // [rsp+54h] [rbp-64h] BYREF HANDLE hObject; // [rsp+58h] [rbp-60h] struct _SECURITY_ATTRIBUTES SecurityAttributes; // [rsp+60h] [rbp-58h] BYREF char v49; // [rsp+D8h] [rbp+20h] v6 = 0; v7 = a4; SecurityAttributes.nLength = 24; dwCreationDisposition = 1; Daylight = 0; v49 = 0; SecurityAttributes.lpSecurityDescriptor = 0i64; if ( (a4 & 0x80u) == 0 ) { SecurityAttributes.bInheritHandle = 1; v10 = 0; } else { SecurityAttributes.bInheritHandle = 0; v10 = 16; } if ( get_daylight(&Daylight) ) invoke_watson(0i64, 0i64, 0i64, 0, 0i64); if ( (v7 & 0x8000) == 0 && ((v7 & 0x74000) != 0 \|\| Daylight != 0x8000) ) v10 \|= 0x80u; switch ( v7 & 3 ) { case 0: v12 = 0x80000000; goto LABEL_19; case 1: if ( (v7 & 8) == 0 \|\| (v7 & 0x70000) == 0 ) { v12 = 0x40000000; goto LABEL_19; } break; case 2: break; default: LABEL_13: _doserrno() = 0; a2 = -1; errno() = 22; invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 22i64; } v12 = -1073741824; LABEL_19: v13 = 2; switch ( a5 ) { case 16: v14 = 0; break; case 32: v14 = 1; break; case 48: v14 = 2; break; case 64: v14 = 3; break; case 128: v14 = v12 == 0x80000000; break; default: goto LABEL_13; } dwShareMode = v14; v15 = v7 & 0x700; if ( (v7 & 0x700) == 0 ) goto LABEL_41; switch ( v15 ) { case 256: dwCreationDisposition = 4; goto LABEL_42; case 512: LABEL_39: dwCreationDisposition = 5; goto LABEL_42; case 768: dwCreationDisposition = 2; goto LABEL_42; case 1024: LABEL_41: dwCreationDisposition = 3; goto LABEL_42; case 1280: goto LABEL_42; case 1536: goto LABEL_39; } if ( v15 != 1792 ) goto LABEL_13; LABEL_42: dwFlagsAndAttributes = 128; v42 = 128; if ( (v7 & 0x100) != 0 ) { if ( (a6 & ~byte_140285520 & 0x80u) == 0 ) dwFlagsAndAttributes = 1; v42 = dwFlagsAndAttributes; } if ( (v7 & 0x40) != 0 ) { dwFlagsAndAttributes \|= 0x4000000u; v12 \|= 0x10000u; v42 = dwFlagsAndAttributes; dwShareMode = v14 \| 4; } if ( (v7 & 0x1000) != 0 ) { dwFlagsAndAttributes \|= 0x100u; v42 = dwFlagsAndAttributes; } if ( (v7 & 0x20) != 0 ) { dwFlagsAndAttributes \|= 0x8000000u; } else { if ( (v7 & 0x10) == 0 ) goto LABEL_55; dwFlagsAndAttributes \|= 0x10000000u; } v42 = dwFlagsAndAttributes; LABEL_55: v17 = alloc_osfhnd(); a2 = v17; if ( v17 == -1 ) { _doserrno() = 0; a2 = -1; errno() = 24; return (unsigned int)errno(); } v18 = dwShareMode; a1 = 1; v19 = CreateFileW(a3, v12, v18, &SecurityAttributes, dwCreationDisposition, dwFlagsAndAttributes, 0i64); hObject = v19; if ( v19 != (HANDLE)-1i64 \|\| (v12 & 0xC0000000) == -1073741824 && (v7 & 1) != 0 && (v12 &= ~0x80000000, v19 = CreateFileW(a3, v12, dwShareMode, &SecurityAttributes, dwCreationDisposition, dwFlagsAndAttributes, 0i64), hObject = v19, v19 != (HANDLE)-1i64) ) { FileType = GetFileType(v19); switch ( FileType ) { case 0u: (_BYTE )(qword_140286BA0[(__int64)a2 >> 5] + 88i64 (a2 & 0x1F) + 8) &= ~1u; LastError = GetLastError(); dosmaperr(LastError); CloseHandle(hObject); if ( !LastError ) errno() = 13; return (unsigned int)errno(); case 2u: v10 \|= 0x40u; break; case 3u: v10 \|= 8u; break; } set_osfhnd(a2, hObject); v23 = v10 \| 1; (_BYTE )(qword_140286BA0[(__int64)a2 >> 5] + 88i64 (a2 & 0x1F) + 8) = v23; (_BYTE )(qword_140286BA0[(__int64)a2 >> 5] + 88i64 * (a2 & 0x1F) + 56) &= 0x80u; v41 = v23 & 0x48; if ( (v23 & 0x48) == 0 ) { if ( v23 >= 0 ) goto LABEL_128; if ( (v7 & 2) != 0 ) { Buf = lseek_nolock(a2, -1, 2u); if ( Buf == -1 ) { if ( _doserrno() != 131 ) { LABEL_75: close_nolock(a2); return (unsigned int)errno(); } } else { v24 = a2; v43[0] = 0; if ( !(unsigned int)read_nolock(v24, v43, 1u) && v43[0] == 26 && (unsigned int)chsize_nolock(a2, Buf) == -1 \|\| (unsigned int)lseek_nolock(a2, 0, 0) == -1 ) { goto LABEL_75; } } } } if ( v23 >= 0 ) { LABEL_128: v31 = a2; v32 = 88 (v31 & 0x1F); v33 = qword_140286BA0[v31 >> 5]; (_BYTE )(v33 + v32 + 56) &= 0x80u; (_BYTE )(v33 + v32 + 56) \|= v49 & 0x7F; v34 = a2; v35 = 88 (v34 & 0x1F); v36 = qword_140286BA0[v34 >> 5]; (_BYTE )(v36 + v35 + 56) &= ~0x80u; (_BYTE )(v36 + v35 + 56) \|= BYTE2(v7) << 7; if ( !v41 && (v7 & 8) != 0 ) (_BYTE )(qword_140286BA0[(__int64)a2 >> 5] + 88i64 (a2 & 0x1F) + 8) \|= 0x20u; if ( (v12 & 0xC0000000) != -1073741824 \|\| (v7 & 1) == 0 ) return v6; CloseHandle(hObject); v37 = CreateFileW(a3, v12 & 0x7FFFFFFF, dwShareMode, &SecurityAttributes, 3u, v42, 0i64); if ( v37 != (HANDLE)-1i64 ) { (_QWORD )(88i64 (a2 & 0x1F) + qword_140286BA0[(__int64)a2 >> 5]) = v37; return v6; } v38 = GetLastError(); dosmaperr(v38); (_BYTE )(qword_140286BA0[(__int64)a2 >> 5] + 88i64 (a2 & 0x1F) + 8) &= ~1u; free_osfhnd(a2); return (unsigned int)errno(); } if ( (v7 & 0x74000) == 0 ) { if ( (Daylight & 0x74000) != 0 ) v7 \|= Daylight & 0x74000; else v7 \|= 0x4000u; } v25 = v7 & 0x74000; if ( (v7 & 0x74000) == 0x4000 ) { v49 = 0; goto LABEL_96; } if ( v25 == 0x10000 \|\| v25 == 81920 ) { if ( (v7 & 0x301) != 769 ) goto LABEL_96; } else if ( v25 != 0x20000 && v25 != 147456 ) { if ( v25 == 0x40000 \|\| v25 == 278528 ) v49 = 1; LABEL_96: if ( (v7 & 0x70000) == 0 ) goto LABEL_128; Buf = 0; if ( (v23 & 0x40) != 0 ) goto LABEL_128; v26 = v12 & 0xC0000000; if ( (v12 & 0xC0000000) == 0x40000000 ) { if ( dwCreationDisposition > 2 && dwCreationDisposition <= 4 && lseeki64_nolock(a2, 0i64, 2u) ) { v29 = lseeki64_nolock(a2, 0i64, 0) == -1; LABEL_123: if ( v29 ) goto LABEL_75; goto LABEL_128; } } else { if ( v26 == 0x80000000 ) goto LABEL_108; if ( v26 != -1073741824 ) goto LABEL_128; if ( dwCreationDisposition > 2 && dwCreationDisposition <= 4 && lseeki64_nolock(a2, 0i64, 2u) ) { if ( lseeki64_nolock(a2, 0i64, 0) == -1 ) goto LABEL_75; LABEL_108: nolock = read_nolock(a2, (WCHAR )&Buf, 3u); if ( nolock == -1 ) goto LABEL_75; if ( nolock != 2 ) { if ( nolock != 3 ) { LABEL_118: v29 = (unsigned int)lseek_nolock(a2, 0, 0) == -1; goto LABEL_123; } if ( Buf == 12565487 ) { v49 = 1; goto LABEL_128; } } if ( (unsigned __int16)Buf == 65534 ) { close_nolock(a2); errno() = 22; return 22; } if ( (unsigned __int16)Buf == 65279 ) { if ( (unsigned int)lseek_nolock(a2, 2, 0) == -1 ) goto LABEL_75; v49 = 2; goto LABEL_128; } goto LABEL_118; } } v27 = 0; if ( v49 == 1 ) { Buf = 12565487; v13 = 3; LABEL_126: while ( 1 ) { v30 = write(a2, (char )&Buf + v27, v13 - v27); if ( v30 == -1 ) goto LABEL_75; v27 += v30; if ( v13 <= v27 ) goto LABEL_128; } } if ( v49 == 2 ) { Buf = 65279; goto LABEL_126; } goto LABEL_128; } v49 = 2; goto LABEL_96; } (_BYTE )(qword_140286BA0[(__int64)a2 >> 5] + 88i64 * (a2 & 0x1F) + 8) &= ~1u; v20 = GetLastError(); dosmaperr(v20); return (unsigned int)errno(); }	openssl
__int64 FUNC() { return ASN1_item_new(&unk_140215C20); }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2, int a3) { return FUNC(a1, a2, a3); }	openssl
__int64 __fastcall FUNC(__int64 a1, int a2) { (_DWORD )(a1 + 152) = a2; return 1i64; }	openssl
__int64 __fastcall PKCS7_print_ctx_0(bio_st out, pkcs7_st x, unsigned int indent, const asn1_pctx_st pctx) { return FUNC(out, (__int64)x, indent, (__int64)&unk_14020C570, (signed __int32 )pctx); }	openssl
__int64 __fastcall FUNC(Concurrency::details::VirtualProcessor a1, __int64 a2) { struct Concurrency::details::SchedulingRing OwningRing; // rbx OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(a1); ((_QWORD )OwningRing + 48) = 0i64; DES_set_key_unchecked(a2, OwningRing); DES_set_key_unchecked(a2 + 8, (char )OwningRing + 128); DES_set_key_unchecked(a2 + 16, (char )OwningRing + 256); return 1i64; }	openssl
__int64 __fastcall FUNC() { int v0; // eax __int64 result; // rax dword_140279660 = FUNC(v0 - 43, 0, (unsigned int)"SSL for verify callback", 0, 0i64, 0i64); result = (unsigned int)dword_140279660; dword_140282374 = dword_140279660 >= 0; return result; }	openssl
void __fastcall FUNC(void **a1) { EVP_CIPHER_CTX_reset(a1); CRYPTO_free(a1, "crypto\\evp\\evp_enc.c", 48i64); }	openssl
__int64 __fastcall cftof_l(_QWORD a1, char a2, __int64 a3, int a4, struct localeinfo_struct a5) { __int64 result; // rax int v9; // [rsp+30h] [rbp-68h] BYREF char v10[24]; // [rsp+48h] [rbp-50h] BYREF fltout2(a1, &v9, v10, 22i64); if ( a2 && a3 ) { result = fptostr(&a2[v9 == 45]); if ( (_DWORD)result ) a2 = 0; else return cftof2_l(a2, a3, a4, &v9, 0, a5); } else { errno() = 22; invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 22i64; } return result; }	openssl
__int64 FUNC() { void v0; // rdx __int64 v1; // rax void v2; // rdx __int64 v3; // rbx if ( !(unsigned int)FUNC(0, 0i64) \|\| !FUNC(&dword_140285468) ) return 0i64; if ( !FUNC(&dword_14028546C) ) { LABEL_10: CRYPTO_THREAD_set_local_1_0(&dword_140285468, v0); return 0i64; } v1 = FUNC(1, dword_14027E4F0, dword_14028547C, 0i64); v3 = v1; if ( v1 ) { if ( (unsigned int)FUNC(v1) ) { (_DWORD )(v3 + 136) = 1; FUNC(v3, (__int64)"OpenSSL NIST SP 800-90A DRBG", 0x1Cui64); } else { FUNC(v3); v3 = 0i64; } } qword_140285470 = v3; if ( !v3 ) { CRYPTO_THREAD_set_local_1_0(&dword_14028546C, v2); goto LABEL_10; } return 1i64; }	openssl
__int64 __fastcall FUNC(char a1) { unsigned int v1; // ebx char v2; // rdi char v3; // al int v4; // esi unsigned int v5; // eax v1 = 0; v2 = a1; if ( !a1 ) return 0i64; v3 = a1; if ( !a1 ) return 0i64; v4 = 256; do { ++v2; v5 = v4 \| FUNC((unsigned int)v3); v4 += 256; v1 = (v5 * v5) ^ __ROL4__(v1, (v5 ^ (v5 >> 2)) & 0xF); v3 = v2; } while ( v2 ); return v1 ^ HIWORD(v1); }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2) { __int64 result; // rax const char v5; // rax char v6[256]; // [rsp+20h] [rbp-118h] BYREF result = FUNC(a1); if ( result == (_QWORD )a2 ) { v5 = (const char )FUNC(a1); FUNC(v6, 256i64, "STORE(%s)", v5); result = FUNC((void *)(a2 + 8), (int *)(a2 + 16), v6); if ( !(_DWORD)result ) (_DWORD *)(a2 + 24) = 0; } return result; }	openssl
void *FUNC() { return &unk_140252A70; }	openssl
__int64 __fastcall FUNC(__int64 a1, unsigned __int8 *a2, __int64 a3) { return FUNC(a1, a2, a3, (__int64)&unk_140216CA0); }	openssl
__int64 __fastcall FUNC(__int64 a1, const void a2, size_t a3, int a4) { __int64 v5; // rcx unsigned int v6; // r12d size_t v7; // rbx int v9; // r13d unsigned __int64 v10; // r15 _BYTE v11; // rsi size_t Size; // [rsp+70h] [rbp+8h] v5 = (_QWORD )(a1 + 168); v6 = 0; v7 = a3; if ( ((_DWORD )((_QWORD )(v5 + 568) + 28i64) & 0x1C8) == 0 ) { if ( !((unsigned int (__fastcall )(__int64, __int64, const void , size_t, __int64))((_QWORD )((_QWORD )(a1 + 8) + 192i64) + 24i64))( a1, (_QWORD )(a1 + 1288) + 80i64, a2, a3, (_QWORD )(a1 + 1288) + 8i64) ) goto LABEL_13; goto LABEL_12; } v9 = (_DWORD )((_QWORD )(v5 + 568) + 28i64) & 8; if ( v9 ) v7 = (_QWORD )(v5 + 720); Size = (_QWORD )(v5 + 720); v10 = Size + v7 + 4; v11 = CRYPTO_malloc(v10, "ssl\\s3_lib.c", 4626); if ( v11 ) { v11[1] = v7; v11 = BYTE1(v7); if ( v9 ) memset(v11 + 2, 0, v7); else memmove(v11 + 2, a2, v7); v11[v7 + 3] = Size; v11[v7 + 2] = BYTE1(Size); memmove(&v11[v7 + 4], (const void *)((_QWORD )(a1 + 168) + 712i64), Size); FUNC((_QWORD )((_QWORD )(a1 + 168) + 712i64), Size, "ssl\\s3_lib.c", 4639i64); (_QWORD )((_QWORD )(a1 + 168) + 712i64) = 0i64; if ( !((unsigned int (__fastcall *)(__int64, __int64, _BYTE , unsigned __int64, __int64))((_QWORD )((_QWORD )(a1 + 8) + 192i64) + 24i64))( a1, (_QWORD )(a1 + 1288) + 80i64, v11, v10, (_QWORD )(a1 + 1288) + 8i64) ) { FUNC(v11, v10, "ssl\\s3_lib.c", 4644i64); goto LABEL_13; } FUNC(v11, v10, "ssl\\s3_lib.c", 4648i64); LABEL_12: v6 = 1; } LABEL_13: if ( a2 ) { if ( a4 ) FUNC(a2, v7, "ssl\\s3_lib.c", 4666i64); else OPENSSL_cleanse_0((__int64)a2, v7); } if ( !(_DWORD )(a1 + 56) ) (_QWORD )((_QWORD )(a1 + 168) + 696i64) = 0i64; return v6; }	openssl
const char *FUNC() { return "C:\\OpenSSL-x64/certs"; }	openssl
struct stack_st_PKCS7_SIGNER_INFO __fastcall PKCS7_get_signer_info_0(pkcs7_st p7) { if ( p7 && ((_QWORD )p7 + 4) && ((unsigned int)FUNC(((_QWORD )p7 + 3)) == 22 \|\| (unsigned int)FUNC(((_QWORD )p7 + 3)) == 24) ) { return (struct stack_st_PKCS7_SIGNER_INFO )(((_QWORD *)p7 + 4) + 32i64); } else { return 0i64; } }	openssl
__int64 ERR_load_OSSL_STORE_strings_0() { if ( !ERR_func_error_string_0(0x2C081000u) ) { ERR_load_strings_const_0((const ERR_string_data_st )&unk_14023E2F0); ERR_load_strings_const_0((const ERR_string_data_st )&unk_14023E560); } return 1i64; }	openssl
__int64 __fastcall ocsp_helper(const x509_purpose_st xp, const x509_st x, int ca) { if ( ca ) return FUNC((__int64)x); else return 1i64; }	openssl
__int64 __fastcall FUNC(Concurrency::details::VirtualProcessor a1, __int64 a2, const void a3) { struct Concurrency::details::SchedulingRing OwningRing; // rax struct Concurrency::details::SchedulingRing v7; // rbx size_t v8; // r8 OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(a1); v7 = OwningRing; if ( a3 ) { if ( !a2 ) { v8 = ((int )OwningRing + 176); if ( ((_DWORD )OwningRing + 62) ) FUNC((char )OwningRing + 256, a3, v8); else memmove(((void *)OwningRing + 87), a3, v8); ((_DWORD )v7 + 63) = 1; ((_DWORD )v7 + 178) = 0; return 1i64; } } else if ( !a2 ) { return 1i64; } AES_set_encrypt_key(a2, (unsigned int)(8 ((_DWORD )a1 + 26)), OwningRing); FUNC((char )v7 + 256, v7, AES_encrypt); ((_QWORD )v7 + 90) = 0i64; if ( a3 \|\| ((_DWORD )v7 + 63) && (a3 = (const void )((_QWORD )v7 + 87)) != 0i64 ) { FUNC((char )v7 + 256, a3, ((int )v7 + 176)); ((_DWORD )v7 + 63) = 1; } ((_DWORD *)v7 + 62) = 1; return 1i64; }	openssl
CHAR __fastcall getdcwd_nolock(int a1, CHAR a2, signed int a3) { int v5; // edi signed int v6; // ebp signed int FullPathNameA; // eax CHAR v9; // rax signed int v10; // eax int LastError; // eax CHAR FileName; // [rsp+50h] [rbp+8h] BYREF char v13[8]; // [rsp+51h] [rbp+9h] BYREF LPSTR FilePart; // [rsp+68h] [rbp+20h] BYREF v5 = a1; if ( !a1 ) { v5 = getdrive(); LABEL_6: if ( a2 ) { if ( a3 <= 0 ) { errno() = 22; goto LABEL_4; } v6 = a3; a2 = 0; } else { v6 = 0; } if ( v5 ) { strcpy(v13, ":."); FileName = v5 + 64; } else { FileName = 46; v13[0] = 0; } FullPathNameA = GetFullPathNameA(&FileName, v6, a2, &FilePart); if ( FullPathNameA ) { if ( a2 ) { if ( FullPathNameA >= v6 ) { errno() = 34; a2 = 0; return 0i64; } return a2; } if ( FullPathNameA > a3 ) a3 = FullPathNameA; v9 = (CHAR )calloc(a3, 1ui64); a2 = v9; if ( !v9 ) { errno() = 12; _doserrno() = 8; return 0i64; } v10 = GetFullPathNameA(&FileName, a3, v9, &FilePart); if ( v10 && v10 < a3 ) return a2; } LastError = GetLastError(); dosmaperr(LastError); return 0i64; } if ( validdrive(a1) ) goto LABEL_6; _doserrno() = 15; errno() = 13; LABEL_4: invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 0i64; }	openssl
__int64 __fastcall FUNC(__int64 a1) { __int64 v2; // rcx int v3; // edx __int64 v4; // r8 __int64 v5; // rdx v2 = a1; v3 = ((_DWORD )a1 + 6); v4 = a1[2]; if ( !v3 ) return ((__int64 (__fastcall )(__int64, __int64, __int64, __int64))a1[4])(v2, a1[1], v4, v2 + 5896); v5 = (unsigned int)(v3 - 1); if ( !(_DWORD)v5 ) return ((__int64 (__fastcall )(__int64, __int64, __int64, __int64))a1[4])(v2, a1[1], v4, v2 + 5896); if ( (_DWORD)v5 == 1 ) return ((__int64 (__fastcall *)(__int64, __int64, __int64))a1[4])(v2, v5, v4); return 0xFFFFFFFFi64; }	openssl
const char *__fastcall ssl_protocol_to_string(int version) { int v1; // ecx int v2; // ecx int v3; // ecx int v5; // ecx int v6; // ecx if ( version <= 771 ) { if ( version == 771 ) return "TLSv1.2"; v1 = version - 256; if ( !v1 ) return "DTLSv0.9"; v2 = v1 - 512; if ( !v2 ) return "SSLv3"; v3 = v2 - 1; if ( !v3 ) return "TLSv1"; if ( v3 == 1 ) return "TLSv1.1"; return "unknown"; } v5 = version - 772; if ( !v5 ) return "TLSv1.3"; v6 = v5 - 64505; if ( !v6 ) return "DTLSv1.2"; if ( v6 != 2 ) return "unknown"; return "DTLSv1"; }	openssl
__int64 __fastcall FUNC(unsigned int *a1, __int64 a2) { int v5; // edi __int64 v6; // rbx __int64 v7; // rax if ( (int)FUNC(a1) <= 0 ) return 1i64; v5 = 0; if ( (int)FUNC(a1) <= 0 ) return 0i64; while ( 1 ) { v6 = FUNC((__int64)a1, v5); v7 = FUNC(a2); if ( !X509_NAME_cmp_0(v6, v7) ) break; if ( ++v5 >= (int)FUNC(a1) ) return 0i64; } return 1i64; }	openssl
__int64 __fastcall FUNC(__int64 a1) { return (_QWORD )(a1 + 16); }	openssl
__int64 __fastcall FUNC(__int64 a1, int a2) { int v2; // edi __int64 v5; // rsi int v7; // eax int v8; // ecx __int64 v9; // rax unsigned int v10; // [rsp+20h] [rbp-28h] BYREF __int64 v11; // [rsp+28h] [rbp-20h] v2 = 0; v5 = 0i64; if ( !a1 ) return 0i64; v7 = FUNC(&unk_140284DBC, o_names_init_ossl_); v8 = 0; if ( v7 ) v8 = dword_140284DD0; if ( !v8 ) return 0i64; FUNC(qword_140284DC8); v10 = a2 & 0xFFFF7FFF; v11 = a1; v9 = FUNC(qword_140284DC0, &v10); if ( v9 ) { while ( (_DWORD )(v9 + 4) && (a2 & 0x8000) == 0 ) { if ( ++v2 <= 10 ) { v11 = (_QWORD )(v9 + 16); v9 = FUNC(qword_140284DC0, &v10); if ( v9 ) continue; } goto LABEL_13; } v5 = (_QWORD )(v9 + 16); } LABEL_13: FUNC(qword_140284DC8); return v5; }	openssl
unsigned int __cdecl mbctolower(unsigned int Ch) { return mbctolower_l(Ch, 0i64); }	openssl
__int64 __fastcall FUNC(unsigned int a1) { if ( a1 ) return a1; else return 0xFFFFFFFFi64; }	openssl
__int64 __fastcall FUNC(unsigned int a1, char a2) { return FUNC(a1, a2, a2); }	openssl
int __fastcall policy_data_cmp(const X509_POLICY_DATA_st const a, const X509_POLICY_DATA_st const b) { return FUNC(((_QWORD )a + 1), ((_QWORD )b + 1)); }	openssl
__int64 __fastcall tls1_lookup_md(__int64 a1, __int64 a2) { __int64 v4; // rax if ( !a1 ) return 0i64; if ( (_DWORD )(a1 + 12) ) { v4 = FUNC((_DWORD )(a1 + 16)); if ( !v4 ) return 0i64; } else { v4 = 0i64; } if ( a2 ) a2 = v4; return 1i64; }	openssl
unsigned int __fastcall FUNC(int a1) { unsigned int result; // rax unsigned int v2; // rdi int v3; // ebx __int64 v4; // rax void v5; // rax result = (unsigned int )FUNC(a1); v2 = result; if ( result ) { v3 = 0; if ( (int)FUNC(result) <= 0 ) { return v2; } else { while ( 1 ) { v4 = FUNC((__int64)v2, v3); if ( !(unsigned int)FUNC(v4) ) break; if ( ++v3 >= (int)FUNC(v2) ) return v2; } while ( v3 > 0 ) { v5 = (void )FUNC((__int64)v2, --v3); FUNC(v5); } FUNC((void *)v2); return 0i64; } } return result; }	openssl
void *FUNC() { return &unk_140209640; }	openssl
__int64 __fastcall FUNC(__int64 a1) { int v1; // eax __int64 v3; // rbx if ( (_DWORD )a1 == 116 ) { v3 = (_QWORD )(a1 + 40); if ( v3 ) FUNC((_QWORD )(a1 + 40)); return v3; } else { FUNC(v1 - 50, v1 + 64, v1 + 73, (unsigned int)"crypto\\evp\\p_lib.c", 496); return 0i64; } }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3) { __int64 v5; // rax v5 = FUNC(a1); return FUNC(v5, a2, a3); }	openssl
__int64 __fastcall FUNC(bio_st a1, __int64 a2, int a3, unsigned int a4) { int v4; // eax char v6; // r15 unsigned int v10; // esi unsigned int v11; // rbx unsigned int v12; // r14d __int64 v13; // rax __int64 v14; // rbx int v15; // ebp __int64 (v16)(void); // rax __int64 v17; // rax __int64 v18; // rax void v19; // rdi __int64 (__fastcall v20)(__int64, void ); // rax const char v21; // rax __int64 (__fastcall v22)(__int64, void , _QWORD); // rax void v23; // rdx unsigned int (__fastcall v24)(__int64, void , bio_st , _QWORD); // rax __int64 (v25)(void); // r11 __int64 v26; // rax const char v28; // [rsp+30h] [rbp-38h] BYREF void v29; // [rsp+38h] [rbp-30h] v6 = 0i64; v29 = 0i64; v10 = v4 - 63; v11 = (unsigned int )FUNC(a2); v28 = (const char )FUNC((__int64)v11); v12 = FUNC(v11); v13 = X509V3_EXT_get_0(a2); v14 = v13; if ( !v13 ) { v15 = a3 & 0xF0000; if ( v15 ) { if ( v15 == 0x10000 ) { BIO_printf(a1, "%s<Not Supported>", a4, &byte_1401BE510); return v10; } goto LABEL_4; } return 0; } v16 = (__int64 ()(void))(v13 + 8); if ( v16 ) { v17 = v16(); v18 = FUNC(0i64, (unsigned __int8 )&v28, v12, v17); } else { v18 = ((__int64 (__fastcall )(_QWORD, const char , _QWORD))(v14 + 32))(0i64, &v28, v12); } v19 = (void )v18; if ( v18 ) { v20 = (__int64 (__fastcall *)(__int64, void ))(v14 + 48); if ( v20 ) { v21 = (const char )v20(v14, v19); v6 = (char )v21; if ( v21 ) { BIO_printf(a1, "%s%s", a4, &byte_1401BE510, v21); goto LABEL_26; } } else { v22 = (__int64 (__fastcall *)(__int64, void , _QWORD))(v14 + 64); if ( v22 ) { v23 = (void )v22(v14, v19, 0i64); v29 = v23; if ( v23 ) { FUNC(a1, (unsigned int )v23, a4, (_DWORD )(v14 + 4) & 4); goto LABEL_26; } } else { v24 = (unsigned int (__fastcall )(__int64, void , bio_st , _QWORD))(v14 + 80); if ( v24 && v24(v14, v19, a1, a4) ) goto LABEL_26; } } v10 = 0; LABEL_26: FUNC(v29, (void (__fastcall )(_QWORD))FUNC); CRYPTO_free(v6, "crypto\\x509v3\\v3_prn.c", 130i64); v25 = (__int64 ()(void))(v14 + 8); if ( v25 ) { v26 = v25(); ASN1_item_free(v19, v26); } else { ((void (__fastcall *)(void ))(v14 + 24))(v19); } return v10; } v15 = a3 & 0xF0000; if ( !v15 ) return 0; if ( v15 == 0x10000 ) { BIO_printf(a1, "%s<Parse Error>", a4, &byte_1401BE510); return v10; } LABEL_4: if ( v15 == 0x20000 ) { return (unsigned int)ASN1_parse_dump_0(a1, v28, v12, a4, -1); } else if ( v15 == 196608 ) { return (unsigned int)BIO_dump_indent_fp_1((_iobuf )a1, v28, v12, a4); } return v10; }	openssl
bool __fastcall FUNC(__int64 a1) { unsigned __int64 v1; // r8 unsigned __int64 v2; // rdx _DWORD v3; // rcx v1 = (_QWORD )(a1 + 16); v2 = 0i64; if ( v1 ) { v3 = (_DWORD )(a1 + 1408); do { if ( !*v3 ) break; ++v2; v3 += 18; } while ( v2 < v1 ); } return v2 < v1; }	openssl
__int64 __fastcall FUNC(__int64 a1, const char a2, const char a3) { int v5; // eax __int64 v6; // rax int v7; // eax __int64 v8; // rax char v10[2512]; // [rsp+20h] [rbp-9E8h] BYREF (_QWORD )(a1 + 16) = 0i64; (_QWORD )(a1 + 8) = 0i64; v5 = FUNC(v10, 0x9C4ui64, a3); if ( v5 >= 0 ) { v6 = FUNC(v10, v5, 0i64); (_QWORD )(a1 + 16) = v6; if ( v6 ) { v7 = FUNC(v10, 0x9C4ui64, a2); if ( v7 >= 0 ) { v8 = FUNC(v10, v7, 0i64); (_QWORD )(a1 + 8) = v8; if ( v8 ) return 1i64; } FUNC((_QWORD )(a1 + 16)); (_QWORD )(a1 + 16) = 0i64; } } return 0i64; }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2) { __int64 result; // rax __int64 v5; // rdi int v6; // ebx __int64 v7; // rax _QWORD v8; // rax result = FUNC(a1); v5 = (__int64 )result; if ( result ) { v6 = 0; if ( (int)FUNC((unsigned int )result) > 0 ) { while ( 1 ) { v7 = FUNC(v5, v6); if ( !(_DWORD )v7 && !FUNC((_QWORD )(v7 + 8), a2) ) break; if ( ++v6 >= (int)FUNC((unsigned int )v5) ) goto LABEL_6; } FUNC(46, 164, 175, (__int64)"crypto\\cms\\cms_lib.c", 394); return 0i64; } LABEL_6: v8 = CMS_add0_CertificateChoices(a1); if ( !v8 ) return 0i64; (_DWORD )v8 = 0; v8[1] = a2; return 1i64; } return result; }	openssl
__int64 __fastcall rsa_oaep_cb(int operation, struct ASN1_VALUE_st *pval, const ASN1_ITEM_st it, void exarg) { if ( operation == 2 ) FUNC(((void *)pval + 3)); return 1i64; }	openssl
int __fastcall FUNC(char *a1) { char v1; // rax __int64 v2; // rsi int v3; // ebx BOOL v4; // r10d __int64 i; // r9 unsigned int j; // r8d int v7; // r8d char v8; // rax int v9; // r8d unsigned int k; // ecx __int64 m; // rbp char v12; // rbx const char v13; // rdi char v14; // rcx char v15; // al unsigned int v16; // eax char n; // rcx char v18; // r8 char v19; // rax _BYTE v20; // r8 _BYTE v21; // rdx char v22; // cl unsigned int v23; // eax _BYTE ii; // rcx bio_st v25; // rcx bio_st v26; // rcx char v28[96]; // [rsp+20h] [rbp-88h] BYREF v1 = a1; v2 = (__int64)a1; v3 = 5; v4 = a1 != "--"; for ( i = (__int64)a1; v1; i += 24i64 ) { if ( v1 != "---" ) { for ( j = 0; v1; ++j ) { if ( j >= 0x80000000 ) break; ++v1; } v7 = (j & 0x7FFFFFFF) + 2; if ( (_DWORD )(i + 12) != 45 ) { v8 = FUNC(i); for ( k = 0; v8; ++k ) { if ( k >= 0x80000000 ) break; ++v8; } v7 = v9 + (k & 0x7FFFFFFF) + 1; } if ( v7 < 30 && v7 > v3 ) v3 = v7; } v1 = (char )(i + 24); } if ( v4 ) LODWORD(v1) = BIO_printf(qword_1402808E8, "Usage: %s [options]\nValid options are:\n", byte_1402820E8); for ( m = v3; (_QWORD )v2; v2 += 24i64 ) { v12 = (char *)v2; v13 = "(No additional info)"; if ( (_QWORD )(v2 + 16) ) v13 = (const char *)(v2 + 16); if ( v12 == "--" ) { LODWORD(v1) = BIO_printf(qword_1402808E8, v13, byte_1402820E8, i); } else { memset(v28, 32, 0x50ui64); v28[80] = 0; if ( v12 != "---" ) { qmemcpy(v28, " -", 2); if ( v12 ) { v14 = (char )(&v28[2] - v12); do { v15 = v12++; v12[(_QWORD)v14 - 1] = v15; } while ( v15 ); v16 = 0; for ( n = &v28[2]; n; ++v16 ) { if ( v16 >= 0x80000000 ) break; ++n; } v18 = &v28[(v16 & 0x7FFFFFFF) + 2]; } else { v28[2] = 42; v18 = &v28[3]; } if ( (_DWORD )(v2 + 12) != 45 ) { v18 = 32; v19 = FUNC(v2); v21 = v20; do { v22 = v19; ++v21; ++v19; (v21 - 1) = v22; } while ( v22 ); v23 = 0; for ( ii = v20; ii; ++v23 ) { if ( v23 >= 0x80000000 ) break; ++ii; } v18 = &v20[v23 & 0x7FFFFFFF]; } v18 = 32; if ( (int)((_DWORD)v18 - (unsigned int)v28) >= 30 ) { v25 = qword_1402808E8; *v18 = 0; BIO_printf(v25, "%s\n", v28); memset(v28, 32, 0x51ui64); } } v26 = qword_1402808E8; v28[m] = 0; LODWORD(v1) = BIO_printf(v26, "%s %s\n", v28, v13); } } return (int)v1; }	openssl
__int64 __fastcall FUNC(__int64 a1, int a2, int a3, const char a4) { __int64 v5; // rbp __int64 v8; // rax __int64 v9; // rsi __int64 v11; // rax __int64 v12; // rax __int64 v13; // rax __int64 v14[3]; // [rsp+20h] [rbp-18h] BYREF v5 = a3; v8 = FUNC(a1); v9 = v8; if ( a2 == 1 ) return 1i64; if ( a2 <= 5 ) return 4294967294i64; if ( a2 > 7 ) { if ( a2 == 14 ) return FUNC(v8 + 24, v5); return 4294967294i64; } if ( a2 == 6 ) { v11 = v5; v14[0] = v5; } else { v12 = FUNC(a1); a4 = (const char )FUNC(v12, v14); v11 = v14[0]; } if ( !a4 \|\| v11 != 16 \|\| !(unsigned int)FUNC(v9, a4, 16) ) return 0i64; v13 = FUNC(v9); return FUNC(v9 + 24, v13, 0i64, 0i64); }	openssl
CONF_VALUE __fastcall CONF_get_section(const conf_st conf, const char section) { __int64 v2; // rcx __int64 v4[5]; // [rsp+20h] [rbp-28h] BYREF if ( !conf \|\| !section ) return 0i64; v2 = ((_QWORD )conf + 2); v4[0] = (__int64)section; v4[1] = 0i64; return (CONF_VALUE )FUNC(v2, (__int64)v4); }	openssl
__int64 __fastcall FUNC(unsigned int a1) { __int64 v3; // rax __int64 v4; // rax if ( !a1 ) return 0i64; v3 = FUNC(a1); if ( !(unsigned int)FUNC(v3, 2i64, a1) ) return 0i64; v4 = FUNC(*a1); return FUNC(v4, 2i64, a1); }	openssl
void __fastcall FUNC(void a1, X509_algor_st a2, int a3) { int v3; // eax X509_algor_st v4; // rsi void v8; // rbx int v10; // eax int v11; // r12d X509_algor_st v12; // rax v4 = 0i64; v8 = 0i64; if ( !a1 ) { FUNC(v3 - 37, v3 + 56, v3 + 19, (__int64)"crypto\\x509\\x509_v3.c", 104); LABEL_3: FUNC(v4); if ( a1 ) { if ( !a1 ) FUNC(v8); } return 0i64; } v8 = a1; if ( !a1 ) { v8 = (void )FUNC(); if ( !v8 ) goto LABEL_15; } v10 = FUNC((unsigned int )v8); v11 = v10; if ( a3 <= v10 ) { if ( a3 < 0 ) a3 = v10; v11 = a3; } v12 = X509_ALGOR_dup_0_9(a2); v4 = v12; if ( !v12 ) goto LABEL_3; if ( !(unsigned int)FUNC((int )v8, (__int64)v12, v11) ) { LABEL_15: FUNC(11, 104, 65, (__int64)"crypto\\x509\\x509_v3.c", 128); goto LABEL_3; } if ( !a1 ) *a1 = v8; return v8; }	openssl
__int64 __fastcall FUNC(_QWORD a1, __int64 a2, int a3) { unsigned int v3; // esi int v6; // edi int v8; // eax int v9; // r11d __int64 v10; // rcx __int64 v11; // rax unsigned __int64 v12; // r10 __int64 v13; // r9 unsigned __int64 v14; // r8 _WORD v15; // rdx v3 = 0; v6 = 0; if ( a3 == -1 ) return 1i64; v8 = FUNC(a2, a2); v9 = v8; if ( a3 ) { LOBYTE(v3) = v8 == a3; return v3; } else { v10 = a1[1]; if ( ((_BYTE )((_QWORD )(v10 + 192) + 96i64) & 8) != 0 \|\| (int )v10 < 772 \|\| (_DWORD )v10 == 0x10000 \|\| (v11 = a1[21], !(_QWORD )(v11 + 752)) ) { v12 = a1[750]; } else { v12 = (_QWORD )(v11 + 768); v6 = 1; } v13 = 0i64; if ( v12 ) { while ( 1 ) { if ( v6 ) { v14 = 0i64; v15 = &unk_1401E1060; while ( v15[4] != (_WORD )((_QWORD )(a1[21] + 752i64) + 2 * v13) ) { ++v14; v15 += 20; if ( v14 >= 0x1A ) { v15 = 0i64; break; } } } else { v15 = (_WORD )(a1[749] + 8 v13); } if ( v9 == ((_DWORD )v15 + 7) ) return 1i64; if ( ++v13 >= v12 ) return 0i64; } } return 0i64; } }	openssl
__int64 __fastcall FUNC() { int v0; // eax return FUNC((unsigned int)(v0 - 17)); }	openssl
_DWORD __fastcall FUNC(__int64 a1, __int64 a2) { __int64 v3; // rdx _DWORD result; // rax int v6; // edi __int64 v7; // rax __int64 v8; // rax v3 = (_QWORD )(a2 + 8); if ( v3 ) { if ( (int )v3 > 0 ) (_DWORD )(a2 + 24) = (unsigned __int8 )(v3 + 8); if ( (int )v3 > 1 ) (_DWORD )(a2 + 24) \|= (unsigned __int8 )((_QWORD )(v3 + 8) + 1i64) << 8; (_DWORD )(a2 + 24) &= 0x807Fu; } else { (_DWORD )(a2 + 24) = 32895; } result = (_DWORD )a2; if ( (_QWORD )a2 && result == 1 ) { v6 = 0; if ( (int)FUNC((unsigned int )(a2 + 16)) <= 0 ) goto LABEL_15; while ( 1 ) { v7 = FUNC((_QWORD )(a2 + 16), v6); if ( (_DWORD )v7 == 4 ) break; if ( ++v6 >= (int)FUNC((unsigned int *)(a2 + 16)) ) goto LABEL_15; } v8 = (_QWORD )(v7 + 8); if ( !v8 ) LABEL_15: v8 = FUNC(a1); return (_DWORD )FUNC((_QWORD )a2, v8); } return result; }	openssl
__int64 __fastcall file_eof(ossl_store_loader_ctx_st ctx) { __int64 result; // rax __int64 v3; // rax if ( (_DWORD )ctx == 2 ) return ((unsigned int )ctx + 6); v3 = ((_QWORD )ctx + 3); if ( !v3 ) return FUNC(((_QWORD *)ctx + 2), 2u, 0, 0i64); result = ((__int64 (__fastcall *)(_QWORD))(v3 + 16))(((_QWORD )ctx + 4)); if ( (_DWORD)result ) return FUNC(((_QWORD **)ctx + 2), 2u, 0, 0i64); return result; }	openssl
__int64 __fastcall FUNC(_DWORD a1, int a2, int a3, int a4) { int v4; // ebp int v5; // r12d int v6; // r13d int v7; // r14d int v8; // r15d int v9; // r10d int v10; // r11d unsigned int v13; // r8d __int64 v14; // rsi int v15; // eax unsigned __int64 v16; // r9 unsigned int v17; // eax unsigned int v18; // r10d int v19; // eax unsigned __int64 v20; // r9 unsigned int v21; // eax int v22; // eax unsigned __int64 v23; // r9 unsigned int v24; // eax unsigned int v25; // r10d int v26; // eax unsigned __int64 v27; // r9 unsigned int v28; // eax int v29; // eax unsigned __int64 v30; // r9 unsigned int v31; // eax unsigned int v32; // r10d int v33; // eax unsigned __int64 v34; // r9 unsigned int v35; // eax int v36; // eax unsigned __int64 v37; // r9 unsigned int v38; // eax unsigned int v39; // r10d int v40; // eax unsigned __int64 v41; // r9 unsigned int v42; // eax int v43; // eax unsigned __int64 v44; // r9 unsigned int v45; // eax unsigned int v46; // r10d int v47; // eax unsigned __int64 v48; // r9 unsigned int v49; // eax int v50; // eax unsigned __int64 v51; // r9 unsigned int v52; // eax unsigned int v53; // r10d int v54; // eax unsigned __int64 v55; // r9 unsigned int v56; // eax int v57; // eax unsigned __int64 v58; // r9 unsigned int v59; // eax unsigned int v60; // r10d int v61; // eax unsigned __int64 v62; // r9 unsigned int v63; // eax int v64; // eax unsigned __int64 v65; // r9 unsigned int v66; // eax unsigned int v67; // r10d int v68; // eax unsigned __int64 v69; // r9 unsigned int v70; // eax unsigned int v71; // edx unsigned int v72; // r10d int v73; // edx int v74; // eax unsigned int v75; // edx int v76; // r10d int v77; // eax unsigned int v78; // r10d int v79; // edx int v80; // eax int v81; // edx int v82; // r10d int v83; // ecx unsigned int v84; // r10d int v85; // edx int v86; // eax int v87; // ecx __int64 result; // rax int v89; // [rsp+0h] [rbp-B8h] int v90; // [rsp+4h] [rbp-B4h] int v91; // [rsp+8h] [rbp-B0h] int v92; // [rsp+Ch] [rbp-ACh] int v93; // [rsp+10h] [rbp-A8h] int v94; // [rsp+14h] [rbp-A4h] int v95; // [rsp+18h] [rbp-A0h] int v96; // [rsp+1Ch] [rbp-9Ch] int v97; // [rsp+20h] [rbp-98h] int v98; // [rsp+24h] [rbp-94h] int v99; // [rsp+28h] [rbp-90h] int v100; // [rsp+2Ch] [rbp-8Ch] int v101; // [rsp+30h] [rbp-88h] int v102; // [rsp+34h] [rbp-84h] int v103; // [rsp+38h] [rbp-80h] int v104; // [rsp+3Ch] [rbp-7Ch] int v105; // [rsp+40h] [rbp-78h] int v106; // [rsp+44h] [rbp-74h] int v107; // [rsp+48h] [rbp-70h] int v108; // [rsp+4Ch] [rbp-6Ch] int v109; // [rsp+50h] [rbp-68h] int v110; // [rsp+54h] [rbp-64h] int v111; // [rsp+58h] [rbp-60h] int v112; // [rsp+5Ch] [rbp-5Ch] int v113; // [rsp+60h] [rbp-58h] int v115; // [rsp+C8h] [rbp+10h] unsigned int v116; // [rsp+D0h] [rbp+18h] unsigned int v117; // [rsp+D0h] [rbp+18h] unsigned int v118; // [rsp+D0h] [rbp+18h] unsigned int v119; // [rsp+D0h] [rbp+18h] unsigned int v120; // [rsp+D0h] [rbp+18h] unsigned int v121; // [rsp+D0h] [rbp+18h] unsigned int v122; // [rsp+D0h] [rbp+18h] unsigned int v123; // [rsp+D0h] [rbp+18h] v4 = a2; v5 = a2[1]; v6 = a2[2]; v7 = a2[3]; v8 = a2[4]; v9 = 0; v10 = a2[5]; v115 = a2[6]; v90 = a2[7]; v102 = a2[8]; v92 = a2[9]; v13 = 0; v108 = a2[10]; v116 = 0; v94 = a2[11]; v14 = 25i64; v104 = a2[12]; v96 = a2[13]; v112 = a2[14]; v98 = a2[15]; v106 = a2[16]; v100 = a2[17]; v110 = a2[18]; v89 = a2[19]; v91 = a2[20]; v93 = a2[21]; v95 = a2[22]; v97 = a2[23]; v99 = a2[24]; v101 = a2[25]; v103 = a2[26]; v105 = a2[27]; v107 = a2[28]; v109 = a2[29]; v111 = a2[30]; v113 = a2[31]; do { v15 = v13 ^ HIWORD(v13); v16 = v13 ^ a3 & v15 ^ v4 ^ ((a3 & v15) << 16); v17 = __ROR4__(v13 ^ a4 & v15 ^ v5 ^ ((a4 & v15) << 16), 4); v18 = dword_140218AC0[(v16 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v17 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v16 >> 2] ^ dword_140218AC0[((unsigned __int16)v16 >> 10) + 128] ^ dword_140218AC0[((v16 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v17 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v17 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v17 >> 18) & 0x3F) + 320] ^ v9; v19 = v18 ^ HIWORD(v18); v20 = v18 ^ a3 & v19 ^ v6 ^ ((a3 & v19) << 16); v21 = __ROR4__(v18 ^ a4 & v19 ^ v7 ^ ((a4 & v19) << 16), 4); v117 = dword_140218AC0[(v20 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v21 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v20 >> 2] ^ dword_140218AC0[((unsigned __int16)v20 >> 10) + 128] ^ dword_140218AC0[((v20 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v21 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v21 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v21 >> 18) & 0x3F) + 320] ^ v116; v22 = v117 ^ HIWORD(v117); v23 = v117 ^ a3 & v22 ^ v8 ^ ((a3 & v22) << 16); v24 = __ROR4__(v117 ^ a4 & v22 ^ v10 ^ ((a4 & v22) << 16), 4); v25 = dword_140218AC0[(v23 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v24 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v23 >> 2] ^ dword_140218AC0[((unsigned __int16)v23 >> 10) + 128] ^ dword_140218AC0[((v23 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v24 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v24 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v24 >> 18) & 0x3F) + 320] ^ v18; v26 = v25 ^ HIWORD(v25); v27 = v25 ^ a3 & v26 ^ v115 ^ ((a3 & v26) << 16); v28 = __ROR4__(v25 ^ a4 & v26 ^ v90 ^ ((a4 & v26) << 16), 4); v118 = dword_140218AC0[(v27 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v28 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v27 >> 2] ^ dword_140218AC0[((unsigned __int16)v27 >> 10) + 128] ^ dword_140218AC0[((v27 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v28 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v28 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v28 >> 18) & 0x3F) + 320] ^ v117; v29 = v118 ^ HIWORD(v118); v30 = v118 ^ a3 & v29 ^ v102 ^ ((a3 & v29) << 16); v31 = __ROR4__(v118 ^ a4 & v29 ^ v92 ^ ((a4 & v29) << 16), 4); v32 = dword_140218AC0[(v30 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v31 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v30 >> 2] ^ dword_140218AC0[((unsigned __int16)v30 >> 10) + 128] ^ dword_140218AC0[((v30 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v31 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v31 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v31 >> 18) & 0x3F) + 320] ^ v25; v33 = v32 ^ HIWORD(v32); v34 = v32 ^ a3 & v33 ^ v108 ^ ((a3 & v33) << 16); v35 = __ROR4__(v32 ^ a4 & v33 ^ v94 ^ ((a4 & v33) << 16), 4); v119 = dword_140218AC0[(v34 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v35 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v34 >> 2] ^ dword_140218AC0[((unsigned __int16)v34 >> 10) + 128] ^ dword_140218AC0[((v34 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v35 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v35 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v35 >> 18) & 0x3F) + 320] ^ v118; v36 = v119 ^ HIWORD(v119); v37 = v119 ^ a3 & v36 ^ v104 ^ ((a3 & v36) << 16); v38 = __ROR4__(v119 ^ a4 & v36 ^ v96 ^ ((a4 & v36) << 16), 4); v39 = dword_140218AC0[(v37 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v38 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v37 >> 2] ^ dword_140218AC0[((unsigned __int16)v37 >> 10) + 128] ^ dword_140218AC0[((v37 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v38 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v38 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v38 >> 18) & 0x3F) + 320] ^ v32; v40 = v39 ^ HIWORD(v39); v41 = v39 ^ a3 & v40 ^ v112 ^ ((a3 & v40) << 16); v42 = __ROR4__(v39 ^ a4 & v40 ^ v98 ^ ((a4 & v40) << 16), 4); v120 = dword_140218AC0[(v41 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v42 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v41 >> 2] ^ dword_140218AC0[((unsigned __int16)v41 >> 10) + 128] ^ dword_140218AC0[((v41 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v42 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v42 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v42 >> 18) & 0x3F) + 320] ^ v119; v43 = v120 ^ HIWORD(v120); v44 = v120 ^ a3 & v43 ^ v106 ^ ((a3 & v43) << 16); v45 = __ROR4__(v120 ^ a4 & v43 ^ v100 ^ ((a4 & v43) << 16), 4); v46 = dword_140218AC0[(v44 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v45 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v44 >> 2] ^ dword_140218AC0[((unsigned __int16)v44 >> 10) + 128] ^ dword_140218AC0[((v44 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v45 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v45 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v45 >> 18) & 0x3F) + 320] ^ v39; v47 = v46 ^ HIWORD(v46); v48 = v46 ^ a3 & v47 ^ v110 ^ ((a3 & v47) << 16); v49 = __ROR4__(v46 ^ a4 & v47 ^ v89 ^ ((a4 & v47) << 16), 4); v121 = dword_140218AC0[(v48 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v49 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v48 >> 2] ^ dword_140218AC0[((unsigned __int16)v48 >> 10) + 128] ^ dword_140218AC0[((v48 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v49 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v49 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v49 >> 18) & 0x3F) + 320] ^ v120; v50 = v121 ^ HIWORD(v121); v51 = v121 ^ a3 & v50 ^ v91 ^ ((a3 & v50) << 16); v52 = __ROR4__(v121 ^ a4 & v50 ^ v93 ^ ((a4 & v50) << 16), 4); v53 = dword_140218AC0[(v51 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v52 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v51 >> 2] ^ dword_140218AC0[((unsigned __int16)v51 >> 10) + 128] ^ dword_140218AC0[((v51 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v52 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v52 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v52 >> 18) & 0x3F) + 320] ^ v46; v54 = v53 ^ HIWORD(v53); v55 = v53 ^ a3 & v54 ^ v95 ^ ((a3 & v54) << 16); v56 = __ROR4__(v53 ^ a4 & v54 ^ v97 ^ ((a4 & v54) << 16), 4); v122 = dword_140218AC0[(v55 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v56 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v55 >> 2] ^ dword_140218AC0[((unsigned __int16)v55 >> 10) + 128] ^ dword_140218AC0[((v55 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v56 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v56 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v56 >> 18) & 0x3F) + 320] ^ v121; v57 = v122 ^ HIWORD(v122); v58 = v122 ^ a3 & v57 ^ v99 ^ ((a3 & v57) << 16); v59 = __ROR4__(v122 ^ a4 & v57 ^ v101 ^ ((a4 & v57) << 16), 4); v60 = dword_140218AC0[(v58 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v59 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v58 >> 2] ^ dword_140218AC0[((unsigned __int16)v58 >> 10) + 128] ^ dword_140218AC0[((v58 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v59 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v59 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v59 >> 18) & 0x3F) + 320] ^ v53; v61 = v60 ^ HIWORD(v60); v62 = v60 ^ a3 & v61 ^ v103 ^ ((a3 & v61) << 16); v63 = __ROR4__(v60 ^ a4 & v61 ^ v105 ^ ((a4 & v61) << 16), 4); v123 = dword_140218AC0[(v62 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v63 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v62 >> 2] ^ dword_140218AC0[((unsigned __int16)v62 >> 10) + 128] ^ dword_140218AC0[((v62 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v63 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v63 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v63 >> 18) & 0x3F) + 320] ^ v122; v64 = v123 ^ HIWORD(v123); v65 = v123 ^ a3 & v64 ^ v107 ^ ((a3 & v64) << 16); v66 = __ROR4__(v123 ^ a4 & v64 ^ v109 ^ ((a4 & v64) << 16), 4); v67 = dword_140218AC0[(v65 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v66 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v65 >> 2] ^ dword_140218AC0[((unsigned __int16)v65 >> 10) + 128] ^ dword_140218AC0[((v65 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v66 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v66 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v66 >> 18) & 0x3F) + 320] ^ v60; v68 = v67 ^ HIWORD(v67); v69 = v67 ^ a3 & v68 ^ v111 ^ ((a3 & v68) << 16); v70 = __ROR4__(v67 ^ a4 & v68 ^ v113 ^ ((a4 & v68) << 16), 4); --v14; v71 = v67; v9 = dword_140218AC0[(v69 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v70 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v69 >> 2] ^ dword_140218AC0[((unsigned __int16)v69 >> 10) + 128] ^ dword_140218AC0[((v69 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v70 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v70 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v70 >> 18) & 0x3F) + 320] ^ v123; v13 = v71; v116 = v71; } while ( v14 ); v72 = __ROR4__(v9, 3); v73 = __ROR4__(v71, 3); v74 = (v73 ^ (v72 >> 1)) & 0x55555555; v75 = v74 ^ v73; v76 = (2 v74) ^ v72; v77 = (v76 ^ (v75 >> 8)) & 0xFF00FF; v78 = v77 ^ v76; v79 = (v77 << 8) ^ v75; v80 = (v79 ^ (v78 >> 2)) & 0x33333333; v81 = v80 ^ v79; v82 = (4 * v80) ^ v78; v83 = (unsigned __int16)(v82 ^ HIWORD(v81)); v84 = v83 ^ v82; v85 = (v83 << 16) ^ v81; v86 = (v85 ^ (v84 >> 4)) & 0xF0F0F0F; v87 = 16 * v86; result = v85 ^ (unsigned int)v86; a1[1] = v84 ^ v87; *a1 = result; return result; }	openssl
void __fastcall FUNC(__int64 a1, __int64 a2) { (_QWORD )(a1 + 720) = a2; }	openssl
__int64 __fastcall d2i_PKCS7_bio_1(__int64 a1, __int64 a2) { __int64 v4; // rax v4 = FUNC(); return FUNC(v4, a1, a2); }	openssl
unsigned __int64 __fastcall CAST_encrypt(int a1, _DWORD a2) { int v2; // r11d unsigned int v4; // r8d int v5; // r10d unsigned int v6; // eax int v7; // r11d unsigned int v8; // eax int v9; // r10d unsigned int v10; // edx int v11; // r11d unsigned int v12; // eax int v13; // r10d unsigned int v14; // eax int v15; // r11d unsigned int v16; // edx int v17; // r10d unsigned int v18; // eax int v19; // r11d unsigned int v20; // eax int v21; // r10d unsigned int v22; // edx int v23; // r11d unsigned int v24; // eax int v25; // r10d unsigned int v26; // eax int v27; // edx unsigned __int64 result; // rax int v29; // r11d unsigned int v30; // edx int v31; // r10d unsigned int v32; // eax int v33; // r11d unsigned int v34; // eax unsigned int v35; // edx v2 = a1[1]; v4 = __ROL4__(v2 + a2, a2[1]); v5 = a1 ^ (dword_14021C330[BYTE2(v4)] + (dword_14021BB30[(unsigned __int8)v4] ^ dword_14021B730[BYTE1(v4)]) - dword_14021BF30[(unsigned __int64)v4 >> 24]); v6 = __ROL4__(v5 ^ a2[2], a2[3]); v7 = dword_14021C330[BYTE2(v6)] ^ (dword_14021BF30[(unsigned __int64)v6 >> 24] + dword_14021B730[BYTE1(v6)] - dword_14021BB30[(unsigned __int8)v6]) ^ v2; v8 = __ROL4__(a2[4] - v7, a2[5]); v9 = ((dword_14021BF30[(unsigned __int64)v8 >> 24] ^ (dword_14021BB30[(unsigned __int8)v8] + dword_14021B730[BYTE1(v8)])) - dword_14021C330[BYTE2(v8)]) ^ v5; v10 = __ROL4__(v9 + a2[6], a2[7]); v11 = (dword_14021C330[BYTE2(v10)] + (dword_14021BB30[(unsigned __int8)v10] ^ dword_14021B730[BYTE1(v10)]) - dword_14021BF30[(unsigned __int64)v10 >> 24]) ^ v7; v12 = __ROL4__(v11 ^ a2[8], a2[9]); v13 = dword_14021C330[BYTE2(v12)] ^ (dword_14021BF30[(unsigned __int64)v12 >> 24] + dword_14021B730[BYTE1(v12)] - dword_14021BB30[(unsigned __int8)v12]) ^ v9; v14 = __ROL4__(a2[10] - v13, a2[11]); v15 = ((dword_14021BF30[(unsigned __int64)v14 >> 24] ^ (dword_14021BB30[(unsigned __int8)v14] + dword_14021B730[BYTE1(v14)])) - dword_14021C330[BYTE2(v14)]) ^ v11; v16 = __ROL4__(v15 + a2[12], a2[13]); v17 = (dword_14021C330[BYTE2(v16)] + (dword_14021BB30[(unsigned __int8)v16] ^ dword_14021B730[BYTE1(v16)]) - dword_14021BF30[(unsigned __int64)v16 >> 24]) ^ v13; v18 = __ROL4__(v17 ^ a2[14], a2[15]); v19 = dword_14021C330[BYTE2(v18)] ^ (dword_14021BF30[(unsigned __int64)v18 >> 24] + dword_14021B730[BYTE1(v18)] - dword_14021BB30[(unsigned __int8)v18]) ^ v15; v20 = __ROL4__(a2[16] - v19, a2[17]); v21 = ((dword_14021BF30[(unsigned __int64)v20 >> 24] ^ (dword_14021BB30[(unsigned __int8)v20] + dword_14021B730[BYTE1(v20)])) - dword_14021C330[BYTE2(v20)]) ^ v17; v22 = __ROL4__(v21 + a2[18], a2[19]); v23 = (dword_14021C330[BYTE2(v22)] + (dword_14021BB30[(unsigned __int8)v22] ^ dword_14021B730[BYTE1(v22)]) - dword_14021BF30[(unsigned __int64)v22 >> 24]) ^ v19; v24 = __ROL4__(v23 ^ a2[20], a2[21]); v25 = dword_14021C330[BYTE2(v24)] ^ (dword_14021BF30[(unsigned __int64)v24 >> 24] + dword_14021B730[BYTE1(v24)] - dword_14021BB30[(unsigned __int8)v24]) ^ v21; v26 = __ROL4__(a2[22] - v25, a2[23]); v27 = dword_14021BF30[(unsigned __int64)v26 >> 24] ^ (dword_14021BB30[(unsigned __int8)v26] + dword_14021B730[BYTE1(v26)]); result = BYTE2(v26); v29 = (v27 - dword_14021C330[result]) ^ v23; if ( !a2[32] ) { v30 = __ROL4__(v29 + a2[24], a2[25]); v31 = (dword_14021C330[BYTE2(v30)] + (dword_14021BB30[(unsigned __int8)v30] ^ dword_14021B730[BYTE1(v30)]) - dword_14021BF30[(unsigned __int64)v30 >> 24]) ^ v25; v32 = __ROL4__(v31 ^ a2[26], a2[27]); v33 = dword_14021C330[BYTE2(v32)] ^ (dword_14021BF30[(unsigned __int64)v32 >> 24] + dword_14021B730[BYTE1(v32)] - dword_14021BB30[(unsigned __int8)v32]) ^ v29; v34 = __ROL4__(a2[28] - v33, a2[29]); v25 = ((dword_14021BF30[(unsigned __int64)v34 >> 24] ^ (dword_14021BB30[(unsigned __int8)v34] + dword_14021B730[BYTE1(v34)])) - dword_14021C330[BYTE2(v34)]) ^ v31; v35 = __ROL4__(v25 + a2[30], a2[31]); result = (unsigned __int64)v35 >> 16; v29 = (dword_14021C330[BYTE2(v35)] + (dword_14021BB30[(unsigned __int8)v35] ^ dword_14021B730[BYTE1(v35)]) - dword_14021BF30[(unsigned __int64)v35 >> 24]) ^ v33; } *a1 = v29; a1[1] = v25; return result; }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3, _QWORD a4) { int v9; // eax bool v10; // zf unsigned int v11; // edi int v12; // eax if ( !(_DWORD )(a1 + 56) ) { FUNC(20, 529, 66, (unsigned int)"ssl\\ssl_lib.c", 1801); return 0i64; } v9 = (_DWORD )(a1 + 132); if ( v9 ) { if ( v9 != 8 ) { if ( v9 != 10 ) { FUNC(20, 529, 66, (unsigned int)"ssl\\ssl_lib.c", 1846); return 0i64; } goto LABEL_14; } } else if ( !(unsigned int)FUNC(a1) ) { FUNC(20, 529, 66, (unsigned int)"ssl\\ssl_lib.c", 1809); return 0i64; } v10 = (_QWORD )(a1 + 48) == 0i64; (_DWORD )(a1 + 132) = 9; if ( v10 ) FUNC(a1); if ( (int)FUNC(a1) <= 0 ) { (_DWORD )(a1 + 132) = 8; return 0i64; } LABEL_14: v11 = 0; if ( (_DWORD )(a1 + 1808) == 2 ) { (_DWORD )(a1 + 132) = 11; v12 = FUNC(a1, a2, a3, a4); if ( v12 >= 0 ) { if ( v12 > 0 ) { LABEL_19: (_DWORD )(a1 + 132) = 10; LOBYTE(v11) = v12 > 0; return v11; } } else { v12 = 0; } if ( (_DWORD )(a1 + 132) != 12 ) goto LABEL_19; } else { (_DWORD )(a1 + 132) = 12; } a4 = 0i64; return 2i64; }	openssl
__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3, int a4) { int v4; // eax unsigned int v5; // r14d __int64 v9; // rdi int v10; // esi const char v11; // rax __int64 v12; // r15 unsigned int v13; // ebx __int64 v14; // rsi __int64 v15; // rbx int v16; // eax __int64 v18; // [rsp+40h] [rbp-58h] BYREF __int64 v19; // [rsp+48h] [rbp-50h] BYREF __int64 v20; // [rsp+50h] [rbp-48h] BYREF unsigned __int64 v21; // [rsp+A0h] [rbp+8h] BYREF __int64 v22; // [rsp+B0h] [rbp+18h] BYREF v22 = a3; v5 = 0; v9 = 0i64; v10 = 0; if ( a1 \|\| a2 ) { if ( !a3 ) { v11 = "system_default"; if ( !a4 ) v11 = 0i64; a3 = (__int64)v11; v22 = (__int64)v11; } if ( (unsigned int)FUNC(a3, &v20) ) { v12 = FUNC(v20, &v22, &v21); v9 = FUNC(); if ( v9 ) { v13 = 2; if ( !a4 ) v13 = 98; if ( a1 ) { v14 = (_QWORD )(a1 + 8); SSL_CONF_CTX_set_ssl(v9, a1); } else { v14 = a2; SSL_CONF_CTX_set_ssl_ctx(v9, a2); } if ( (__int64 (__fastcall *)())(v14 + 40) != FUNC ) v13 \|= 8u; if ( (__int64 (__fastcall **)())(v14 + 48) != FUNC ) v13 \|= 4u; FUNC(v9, v13); v15 = 0i64; if ( v21 ) { while ( 1 ) { FUNC(v12, v15, &v19, &v18); v16 = FUNC(v9, v19, v18); v10 = v16; if ( v16 <= 0 ) break; if ( ++v15 >= v21 ) goto LABEL_24; } if ( v16 == -2 ) FUNC(20, 391, 139, (unsigned int)"ssl\\ssl_mcnf.c", 72); else FUNC(20, 391, 384, (unsigned int)"ssl\\ssl_mcnf.c", 74); ERR_add_error_data(6, "section=", v22, ", cmd=", v19, ", arg=", v18); } else { LABEL_24: v10 = SSL_CONF_CTX_finish(v9); } } } else if ( !a4 ) { FUNC(20, 391, 113, (unsigned int)"ssl\\ssl_mcnf.c", 41); ERR_add_error_data(2, "name=", v22); } } else { FUNC(v4 - 84, 391, v4 - 37, (unsigned int)"ssl\\ssl_mcnf.c", 33); } FUNC(v9); LOBYTE(v5) = v10 > 0; return v5; }	openssl
__int64 __fastcall FUNC(_QWORD a1, __int64 a2) { return a1 + (unsigned int )(a2 + 8); }	openssl
void __fastcall FUNC(__int64 a1, __int64 a2) { __int64 v2; // rsi __int64 v3; // rax __int64 v4; // rbx const void v5; // rbp size_t v6; // rdi size_t Size; // [rsp+40h] [rbp+18h] BYREF v2 = 0i64; v3 = FUNC(a2, &Size); v4 = qword_140280AE0; v5 = (const void )v3; if ( qword_140280AE0 ) { v6 = (unsigned int)Size; while ( (_DWORD)v6 != (_DWORD )(v4 + 8) \|\| memcmp((const void )v4, v5, v6) ) { v2 = v4; v4 = (_QWORD )(v4 + 32); if ( !v4 ) return; } if ( v2 ) (_QWORD )(v2 + 32) = (_QWORD )(v4 + 32); else qword_140280AE0 = (_QWORD )(v4 + 32); CRYPTO_free((void *)v4, "apps\\s_server.c", 3600); CRYPTO_free((void *)(v4 + 16), "apps\\s_server.c", 3601); CRYPTO_free((void )v4, "apps\\s_server.c", 3602); } }	openssl
__int64 __fastcall engine_unlocked_init(engine_st e) { __int64 result; // rax __int64 (v3)(void); // rdx result = 1i64; if ( ((_DWORD )e + 40) \|\| (v3 = (__int64 ()(void))((_QWORD )e + 12)) == 0i64 \|\| (result = v3(), (_DWORD)result) ) { ++((_DWORD )e + 39); ++((_DWORD *)e + 40); } return result; }	openssl
__int64 __fastcall FUNC(__int64 a1) { __int64 v1; // rdi unsigned int v2; // ebx __int64 v3; // rsi __int64 v4; // rbp __int64 v5; // r12 v1 = a1; v2 = 0; v3 = (_QWORD )(a1 + 16); v4 = (_QWORD )(a1 + 24); v5 = (_QWORD )(a1 + 64); if ( dword_140282098 ) { while ( v2 != 0x7FFFFFFF ) { if ( (unsigned int)FUNC((_QWORD )(v1 + 8i64 (unsigned int)dword_140281214 + 520), v4, v5, v3, 20i64) != 1 ) { BIO_printf(qword_1402808E8, "EdDSA verify failure\n"); X509_ALGOR_dup_0(qword_1402808E8); return 0xFFFFFFFFi64; } ++v2; if ( !dword_140282098 ) return v2; } } return v2; }	openssl
__int64 __fastcall wopenfile(char FileName, _WORD a2, int a3, __int64 a4) { _WORD v6; // rbx int v8; // r9d int v9; // r10d int i; // r11d int v11; // eax __int64 result; // rax int v13; // edi unsigned int v14; // ebp const wchar_t v15; // rbx int v16; // edx wchar_t v17; // ax const wchar_t j; // rbx int v19; // eax int FileHandle; // [rsp+68h] [rbp+10h] BYREF v6 = a2; v8 = 0; v9 = 0; for ( i = 0; v6 == 32; ++v6 ) ; v11 = (unsigned __int16)v6; switch ( v11 ) { case 'a': v13 = 265; break; case 'r': v13 = 0; v14 = dword_140286260 \| 1; goto LABEL_12; case 'w': v13 = 769; break; default: LABEL_6: errno() = 22; invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 0i64; } v14 = dword_140286260 \| 2; LABEL_12: v15 = v6 + 1; v16 = 1; v17 = v15; if ( !v15 ) goto LABEL_66; while ( v16 ) { if ( v17 > 0x53u ) { switch ( v17 ) { case 'T': if ( (v13 & 0x1000) == 0 ) { v13 \|= 0x1000u; break; } goto LABEL_46; case 'b': if ( (v13 & 0xC000) != 0 ) goto LABEL_46; v13 \|= 0x8000u; break; case 'c': if ( v8 ) goto LABEL_46; v8 = 1; v14 \|= 0x4000u; break; case 'n': if ( v8 ) goto LABEL_46; v8 = 1; v14 &= ~0x4000u; break; case 't': if ( (v13 & 0xC000) != 0 ) goto LABEL_46; v13 \|= 0x4000u; break; default: goto LABEL_6; } } else if ( v17 == 83 ) { if ( v9 ) goto LABEL_46; v9 = 1; v13 \|= 0x20u; } else if ( v17 != 32 ) { switch ( v17 ) { case '+': if ( (v13 & 2) != 0 ) goto LABEL_46; v13 = v13 & 0xFFFFFFFC \| 2; v14 = v14 & 0xFFFFFF7C \| 0x80; break; case ',': i = 1; LABEL_46: v16 = 0; break; case 'D': if ( (v13 & 0x40) != 0 ) goto LABEL_46; v13 \|= 0x40u; break; case 'N': v13 \|= 0x80u; break; case 'R': if ( v9 ) goto LABEL_46; v9 = 1; v13 \|= 0x10u; break; default: goto LABEL_6; } } v17 = ++v15; if ( !v15 ) break; } if ( !i ) goto LABEL_66; while ( v15 == 32 ) ++v15; if ( wcsncmp(L"ccs", v15, 3ui64) ) goto LABEL_6; for ( j = v15 + 3; j == 32; ++j ) ; if ( j != 61 ) goto LABEL_6; do ++j; while ( j == 32 ); if ( !wcsnicmp(j, L"UTF-8", 5ui64) ) { v15 = j + 5; v13 \|= 0x40000u; goto LABEL_66; } if ( !wcsnicmp(j, L"UTF-16LE", 8ui64) ) { v15 = j + 8; v13 \|= 0x20000u; goto LABEL_66; } if ( wcsnicmp(j, L"UNICODE", 7ui64) ) goto LABEL_6; v15 = j + 7; v13 \|= 0x10000u; LABEL_66: while ( v15 == 32 ) ++v15; if ( v15 ) goto LABEL_6; if ( sopen_s_0(&FileHandle, FileName, v13, a3, 384) ) return 0i64; ++dword_140285510; v19 = FileHandle; (_DWORD )(a4 + 24) = v14; (_DWORD )(a4 + 28) = v19; (_DWORD )(a4 + 8) = 0; (_QWORD )a4 = 0i64; result = a4; (_QWORD )(a4 + 16) = 0i64; (_QWORD )(a4 + 40) = 0i64; return result; }	openssl

__int64 __fastcall FUNC( unsigned int *a1, char *a2, int a3, int a4, unsigned int a5, int a6, __int64 (__fastcall *a7)(_QWORD, __int64, _QWORD, __int64), __int64 a8, int a9, bio_st *a10) { int v12; // r12d unsigned int v15; // edi unsigned int v16; // r12d unsigned int v17; // r13d __int64 v18; // rbp __int64 v19; // rbx unsigned int v20; // esi unsigned int v21; // eax unsigned int v22; // edi int v23; // ebx char *v24; // rbx void *v25; // rsi int v26; // ebp char *v27; // rax const char *v28; // rdx const char *v29; // rdx unsigned int v30; // ebx unsigned int v32; // r15d __int64 v33; // rbx __int64 v34; // rax unsigned int v35; // eax SOCKET v36; // rbx int v37; // r13d PADDRINFOA ppResult; // [rsp+40h] [rbp-2E8h] BYREF unsigned int v39; // [rsp+48h] [rbp-2E0h] struct timeval timeout; // [rsp+50h] [rbp-2D8h] BYREF __int64 v41; // [rsp+58h] [rbp-2D0h] int v42; // [rsp+60h] [rbp-2C8h] __int64 (__fastcall *v43)(_QWORD, __int64, _QWORD, __int64); // [rsp+68h] [rbp-2C0h] char *OldFilename; // [rsp+70h] [rbp-2B8h] fd_set readfds; // [rsp+80h] [rbp-2A8h] BYREF char buf[64]; // [rsp+290h] [rbp-98h] BYREF v43 = a7; v42 = a4; v41 = a8; v12 = (int)a2; OldFilename = a2; ppResult = 0i64; v39 = 0; if ( (unsigned int)FUNC() != 1 ) return 0i64; if ( !(unsigned int)FUNC(v12, a3, 1, a4, a5, a6, &ppResult) ) { X509_ALGOR_dup_0(qword_1402808E8); return 0i64; } if ( a4 && a4 != (unsigned int)FUNC(ppResult) || a5 && a5 != (unsigned int)FUNC(ppResult) || a6 && a6 != (unsigned int)FUNC(ppResult) ) { OPENSSL_die( "assertion failed: (family == AF_UNSPEC || family == BIO_ADDRINFO_family(res)) && (type == 0 || type == BIO_ADDRINF" "O_socktype(res)) && (protocol == 0 || protocol == BIO_ADDRINFO_protocol(res))", "apps\\s_socket.c", 233); } v15 = FUNC(ppResult); v16 = FUNC(ppResult); v17 = FUNC(ppResult); v18 = FUNC(ppResult); v19 = FUNC(ppResult); v20 = 1; if ( v15 == 23 ) v20 = 3; if ( v19 && (unsigned int)FUNC(v19) == v16 && (unsigned int)FUNC(v19) == v17 ) { if ( v15 == 2 ) { if ( (unsigned int)FUNC(v19) == 23 ) { v15 = 23; v18 = FUNC(v19); } } else if ( v15 == 23 && (unsigned int)FUNC(v19) == 2 ) { v20 &= ~2u; } } v21 = FUNC(v15, v16, v17, 0i64); v22 = v21; if ( v21 == -1 || !(unsigned int)FUNC(v21, v18, v20) ) { FUNC(ppResult); X509_ALGOR_dup_0(qword_1402808E8); if ( v22 != -1 ) BIO_closesocket_0(v22); v30 = v39; goto LABEL_61; } v23 = (unsigned __int16)FUNC(v18); FUNC(ppResult); ppResult = 0i64; if ( v23 ) { BIO_printf(a10, "ACCEPT\n"); FUNC(a10, 11i64, 0i64); goto LABEL_37; } v24 = 0i64; v25 = 0i64; v26 = 0; timeout = (struct timeval)FUNC(); if ( timeout ) { if ( (unsigned int)FUNC(v22, 0i64, &timeout) ) { v24 = (char *)((__int64 (__fastcall *)(_QWORD, _QWORD))FUNC)(timeout, 1i64); if ( v24 ) { v25 = (void *)((__int64 (__fastcall *)(_QWORD, _QWORD))FUNC)(timeout, 1i64); if ( v25 ) { v27 = strchr(v24, 58); v28 = "ACCEPT %s:%s\n"; if ( v27 ) v28 = "ACCEPT [%s]:%s\n"; if ( BIO_printf(a10, v28, v24, v25) > 0 ) v26 = 1; } } } } FUNC(a10, 11i64, 0i64); CRYPTO_free(v24, "apps\\s_socket.c", 308); CRYPTO_free(v25, "apps\\s_socket.c", 309); BIO_ADDR_free_0(*(bio_addr_st **)&timeout); if ( v26 ) { LABEL_37: if ( a1 ) *a1 = v22; v32 = a6; v33 = v41; do { if ( a5 == 1 ) { BIO_ADDR_free_0((bio_addr_st *)qword_1402821A8); v34 = FUNC(); qword_1402821A8 = v34; if ( !v34 ) goto LABEL_35; while ( 1 ) { v35 = FUNC(v22, v34, 0i64); v36 = v35; if ( (v35 & 0x80000000) == 0 ) break; if ( !(unsigned int)FUNC(v35) ) { X509_ALGOR_dup_0(qword_1402808E8); BIO_closesocket_0(v22); v30 = v39; goto LABEL_61; } v34 = qword_1402821A8; } FUNC(v35, 1i64); v37 = v43((unsigned int)v36, 1i64, v32, v41); shutdown((int)v36, 1); timeout.tv_sec = 0; timeout.tv_usec = 500000; do { readfds.fd_array[0] = v36; readfds.fd_count = 1; } while ( select(v36 + 1, &readfds, 0i64, 0i64, &timeout) > 0 && recv((int)v36, buf, 64, 0) > 0 ); BIO_closesocket_0(v36); v32 = a6; v33 = v41; } else { v37 = v43(v22, a5, v32, v33); } if ( a9 != -1 ) --a9; } while ( v37 >= 0 && a9 ); BIO_closesocket_0(v22); v30 = v37; goto LABEL_61; } LABEL_35: BIO_closesocket_0(v22); X509_ALGOR_dup_0(qword_1402808E8); v30 = v39; LABEL_61: if ( v42 == 1 ) j_rename_0(OldFilename, v29); BIO_ADDR_free_0((bio_addr_st *)qword_1402821A8); qword_1402821A8 = 0i64; return v30; }

openssl

void *FUNC() { return &unk_1401EE4C0; }

openssl

void *FUNC() { return &unk_140229028; }

openssl

__int64 __fastcall FUNC(__int64 a1, unsigned __int8 *a2, unsigned __int8 *a3, unsigned __int8 *a4) { unsigned __int64 v4; // rdi __int64 v5; // rbx unsigned __int64 v6; // r11 unsigned __int64 v7; // rsi unsigned __int64 v8; // r12 unsigned __int64 v9; // rbp unsigned __int64 v10; // r13 unsigned __int64 v11; // r14 __int64 v12; // r15 __int64 v13; // rbx unsigned __int64 v14; // r8 __int64 v15; // r11 unsigned __int64 v16; // r12 __int64 v17; // r8 __int64 v18; // rcx __int64 v19; // rdx unsigned __int64 v20; // rbp unsigned __int64 v21; // rax __int64 v22; // r14 __int64 v23; // r9 __int64 v24; // r10 __int64 v25; // r13 __int64 v26; // r12 __int64 v27; // rdi __int64 v28; // rsi __int64 v29; // rax unsigned __int64 v30; // rbp __int64 v31; // rax __int64 v32; // rbx __int64 v33; // r11 __int64 v34; // rcx __int64 v35; // r10 __int64 v36; // r9 __int64 v37; // r8 unsigned __int64 v38; // r12 unsigned __int64 v39; // rbp __int64 v40; // rax __int64 v41; // rsi unsigned __int64 v42; // r14 __int64 v43; // rdi __int64 v44; // rax unsigned __int64 v45; // r15 unsigned __int64 v46; // r10 __int64 v47; // rcx unsigned __int64 v48; // r11 __int64 v49; // r9 __int64 v50; // rbp __int64 v51; // rbx unsigned __int64 v52; // r15 __int64 v53; // rdx __int64 v54; // r12 unsigned __int64 v55; // r14 __int64 v56; // rax __int64 v57; // r13 __int64 v58; // rsi unsigned __int64 v59; // r8 unsigned __int64 v60; // rbp __int64 v61; // r15 __int64 v62; // r14 __int64 v63; // rdx __int64 v64; // r8 __int64 v65; // r15 __int64 v66; // rdx __int64 v67; // r15 __int64 v68; // r14 __int64 v69; // rax __int64 v70; // r14 __int64 v71; // rdx __int64 v72; // rax __int64 v73; // rdx __int64 v74; // r10 __int64 v75; // rbx __int64 v76; // r10 __int64 v77; // rax __int64 v78; // rbx __int64 v79; // r11 __int64 v80; // r9 __int64 v81; // r8 __int64 v82; // r11 __int64 result; // rax unsigned __int64 v84; // [rsp+0h] [rbp-178h] unsigned __int64 v85; // [rsp+0h] [rbp-178h] __int64 v86; // [rsp+0h] [rbp-178h] __int64 v87; // [rsp+0h] [rbp-178h] unsigned __int64 v88; // [rsp+8h] [rbp-170h] unsigned __int64 v89; // [rsp+8h] [rbp-170h] unsigned __int64 v90; // [rsp+8h] [rbp-170h] __int64 v91; // [rsp+10h] [rbp-168h] unsigned __int64 v92; // [rsp+10h] [rbp-168h] __int64 v93; // [rsp+10h] [rbp-168h] __int64 v94; // [rsp+10h] [rbp-168h] unsigned __int64 v95; // [rsp+18h] [rbp-160h] unsigned __int64 v96; // [rsp+20h] [rbp-158h] unsigned __int64 v97; // [rsp+20h] [rbp-158h] __int64 v98; // [rsp+20h] [rbp-158h] __int64 v99; // [rsp+20h] [rbp-158h] unsigned __int64 v100; // [rsp+28h] [rbp-150h] __int64 v101; // [rsp+30h] [rbp-148h] unsigned __int64 v102; // [rsp+38h] [rbp-140h] unsigned __int64 v103; // [rsp+40h] [rbp-138h] unsigned __int64 v104; // [rsp+48h] [rbp-130h] unsigned __int64 v105; // [rsp+50h] [rbp-128h] __int64 v106; // [rsp+58h] [rbp-120h] unsigned __int64 v107; // [rsp+60h] [rbp-118h] unsigned __int64 v108; // [rsp+60h] [rbp-118h] __int64 v109; // [rsp+60h] [rbp-118h] __int64 v110; // [rsp+60h] [rbp-118h] unsigned __int64 v111; // [rsp+68h] [rbp-110h] unsigned __int64 v112; // [rsp+68h] [rbp-110h] unsigned __int64 v113; // [rsp+68h] [rbp-110h] __int64 v114; // [rsp+68h] [rbp-110h] unsigned __int64 v115; // [rsp+70h] [rbp-108h] unsigned __int64 v116; // [rsp+78h] [rbp-100h] unsigned __int64 v117; // [rsp+78h] [rbp-100h] unsigned __int64 v118; // [rsp+78h] [rbp-100h] __int64 v119; // [rsp+78h] [rbp-100h] unsigned __int64 v120; // [rsp+80h] [rbp-F8h] unsigned __int64 v121; // [rsp+80h] [rbp-F8h] unsigned __int64 v122; // [rsp+80h] [rbp-F8h] unsigned __int64 v123; // [rsp+90h] [rbp-E8h] unsigned __int64 v124; // [rsp+90h] [rbp-E8h] unsigned __int64 v125; // [rsp+90h] [rbp-E8h] unsigned __int64 v126; // [rsp+98h] [rbp-E0h] unsigned __int64 v127; // [rsp+98h] [rbp-E0h] unsigned __int64 v128; // [rsp+A0h] [rbp-D8h] unsigned __int64 v129; // [rsp+A0h] [rbp-D8h] unsigned __int64 v130; // [rsp+A8h] [rbp-D0h] unsigned __int64 v131; // [rsp+B0h] [rbp-C8h] unsigned __int64 v132; // [rsp+B0h] [rbp-C8h] __int64 v133; // [rsp+B0h] [rbp-C8h] __int64 v134; // [rsp+B0h] [rbp-C8h] unsigned __int64 v135; // [rsp+B8h] [rbp-C0h] unsigned __int64 v136; // [rsp+B8h] [rbp-C0h] unsigned __int64 v137; // [rsp+B8h] [rbp-C0h] unsigned __int64 v138; // [rsp+C0h] [rbp-B8h] unsigned __int64 v139; // [rsp+C8h] [rbp-B0h] unsigned __int64 v140; // [rsp+C8h] [rbp-B0h] unsigned __int64 v141; // [rsp+C8h] [rbp-B0h] unsigned __int64 v142; // [rsp+D0h] [rbp-A8h] unsigned __int64 v143; // [rsp+D0h] [rbp-A8h] unsigned __int64 v144; // [rsp+D8h] [rbp-A0h] unsigned __int64 v145; // [rsp+D8h] [rbp-A0h] unsigned __int64 v146; // [rsp+E0h] [rbp-98h] unsigned __int64 v147; // [rsp+E0h] [rbp-98h] __int64 v148; // [rsp+F0h] [rbp-88h] unsigned __int64 v149; // [rsp+F8h] [rbp-80h] unsigned __int64 v150; // [rsp+100h] [rbp-78h] unsigned __int64 v152; // [rsp+188h] [rbp+10h] unsigned __int64 v153; // [rsp+188h] [rbp+10h] unsigned __int64 v154; // [rsp+188h] [rbp+10h] unsigned __int64 v155; // [rsp+188h] [rbp+10h] __int64 v156; // [rsp+188h] [rbp+10h] unsigned __int64 v157; // [rsp+190h] [rbp+18h] unsigned __int64 v158; // [rsp+190h] [rbp+18h] unsigned __int64 v159; // [rsp+190h] [rbp+18h] unsigned __int64 v160; // [rsp+190h] [rbp+18h] __int64 v161; // [rsp+190h] [rbp+18h] unsigned __int64 v163; // [rsp+198h] [rbp+20h] unsigned __int64 v164; // [rsp+198h] [rbp+20h] unsigned __int64 v165; // [rsp+198h] [rbp+20h] __int64 v166; // [rsp+198h] [rbp+20h] v106 = (*a2 | (*(unsigned __int16 *)(a2 + 1) << 8)) & 0x1FFFFF; v104 = ((unsigned __int64)a2[2] >> 5) | (unsigned __int16)(8 * a2[3]) | ((a2[4] | ((unsigned __int64)(a2[5] & 3) << 8)) << 11); v105 = ((unsigned __int64)(a2[7] & 0x7F) << 14) | (a2[6] << 6) | ((unsigned __int64)a2[5] >> 2); v103 = (unsigned __int16)((2 * a2[8]) | ((unsigned __int64)a2[7] >> 7)) | ((a2[9] | ((unsigned __int64)(a2[10] & 0xF) << 8)) << 9); v100 = ((unsigned __int64)a2[10] >> 4) | (unsigned __int16)(16 * a2[11]) | ((a2[12] | ((unsigned __int64)(a2[13] & 1) << 8)) << 12); v102 = ((unsigned __int64)(a2[15] & 0x3F) << 15) | ((unsigned __int64)a2[13] >> 1) | (a2[14] << 7); v95 = (unsigned __int16)((4 * a2[16]) | ((unsigned __int64)a2[15] >> 6)) | ((a2[17] | ((unsigned __int64)(a2[18] & 7) << 8)) << 10); v115 = ((unsigned __int64)a2[20] << 13) | (unsigned __int16)((32 * a2[19]) | ((unsigned __int64)a2[18] >> 3)); v101 = (a2[21] | ((a2[22] | (a2[23] << 8)) << 8)) & 0x1FFFFF; v130 = ((unsigned __int64)a2[23] >> 5) | (unsigned __int16)(8 * a2[24]) | ((a2[25] | ((unsigned __int64)(a2[26] & 3) << 8)) << 11); v138 = ((unsigned __int64)(a2[28] & 0x7F) << 14) | (a2[27] << 6) | ((unsigned __int64)a2[26] >> 2); v4 = ((unsigned __int64)a2[28] >> 7) | (2 * (((unsigned __int64)a2[31] << 16) | *(unsigned __int16 *)(a2 + 29))); v5 = (*a3 | (*(unsigned __int16 *)(a3 + 1) << 8)) & 0x1FFFFF; v6 = ((unsigned __int64)a3[2] >> 5) | (unsigned __int16)(8 * a3[3]) | ((a3[4] | ((unsigned __int64)(a3[5] & 3) << 8)) << 11); v120 = ((unsigned __int64)(a3[7] & 0x7F) << 14) | ((unsigned __int64)a3[5] >> 2) | (a3[6] << 6); v7 = (unsigned __int16)((2 * a3[8]) | ((unsigned __int64)a3[7] >> 7)) | ((a3[9] | ((unsigned __int64)(a3[10] & 0xF) << 8)) << 9); v139 = ((unsigned __int64)a3[10] >> 4) | (unsigned __int16)(16 * a3[11]) | ((a3[12] | ((unsigned __int64)(a3[13] & 1) << 8)) << 12); v8 = ((unsigned __int64)(a3[15] & 0x3F) << 15) | ((unsigned __int64)a3[13] >> 1) | (a3[14] << 7); v128 = ((unsigned __int64)a3[15] >> 6) | (unsigned __int16)(4 * a3[16]) | ((a3[17] | ((unsigned __int64)(a3[18] & 7) << 8)) << 10); v9 = ((unsigned __int64)a3[20] << 13) | (unsigned __int16)((32 * a3[19]) | ((unsigned __int64)a3[18] >> 3)); v148 = (a3[21] | (*((unsigned __int16 *)a3 + 11) << 8)) & 0x1FFFFF; v10 = ((unsigned __int64)a3[23] >> 5) | (unsigned __int16)(8 * a3[24]) | ((a3[25] | ((unsigned __int64)(a3[26] & 3) << 8)) << 11); v11 = ((unsigned __int64)(a3[28] & 0x7F) << 14) | ((unsigned __int64)a3[26] >> 2) | (a3[27] << 6); v88 = ((unsigned __int64)a3[28] >> 7) | (2 * (((unsigned __int64)a3[31] << 16) | (unsigned __int16)(a3[29] | (a3[30] << 8)))); v91 = v106 * v5 + ((*a4 | (((a4[2] << 8) | a4[1]) << 8)) & 0x1FFFFF); v84 = v106 * v120 + v104 * v6 + v105 * v5 + (((unsigned __int64)(a4[7] & 0x7F) << 14) | (((unsigned __int64)a4[5] >> 2) | ((unsigned __int64)a4[6] << 6)) & 0x1FFFFF); v96 = v106 * v139 + v104 * v7 + v105 * v120 + v103 * v6 + v100 * v5 + ((unsigned __int16)((16 * a4[11]) | ((unsigned __int64)a4[10] >> 4)) | ((a4[12] | ((unsigned __int64)(a4[13] & 1) << 8)) << 12)); v126 = v106 * v128 + v104 * v8 + v105 * v139 + v103 * v7 + v100 * v120 + v102 * v6 + v95 * v5 + (((unsigned __int64)a4[15] >> 6) | (unsigned __int16)(4 * a4[16]) | ((a4[17] | ((unsigned __int64)(a4[18] & 7) << 8)) << 10)); v152 = v106 * v148 + v104 * v9 + v105 * v128 + v103 * v8 + v100 * v139 + v102 * v7 + v95 * v120 + v115 * v6 + v101 * v5 + ((a4[21] | (*((unsigned __int16 *)a4 + 11) << 8)) & 0x1FFFFF); v157 = v106 * v11 + v104 * v10 + v105 * v148 + v103 * v9 + v100 * v128 + v102 * v8 + v95 * v139 + v115 * v7 + v101 * v120 + v130 * v6 + v138 * v5 + (((unsigned __int64)(a4[28] & 0x7F) << 14) | (((unsigned __int64)a4[26] >> 2) | ((unsigned __int64)a4[27] << 6)) & 0x1FFFFF); v135 = v104 * v88 + v105 * v11 + v103 * v10 + v100 * v148 + v102 * v9 + v95 * v128 + v115 * v8 + v101 * v139 + v130 * v7 + v138 * v120 + v4 * v6; v123 = v103 * v88 + v100 * v11 + v102 * v10 + v95 * v148 + v115 * v9 + v101 * v128 + v130 * v8 + v138 * v139 + v4 * v7; v144 = v102 * v88 + v95 * v11 + v115 * v10 + v101 * v148 + v130 * v9 + v138 * v128 + v4 * v8; v142 = v4 * v88; v131 = v115 * v88 + v101 * v11 + v130 * v10 + v138 * v148 + v4 * v9; v146 = v130 * v88 + v138 * v11 + v4 * v10; v107 = (((unsigned __int64)a4[2] >> 5) | (unsigned __int16)(8 * a4[3]) | ((a4[4] | ((unsigned __int64)(a4[5] & 3) << 8)) << 11)) + ((v91 + 0x100000) >> 21) + v104 * v5 + v106 * v6; v150 = v105 * v6 + v103 * v5 + (((unsigned __int64)a4[7] >> 7) | (unsigned __int16)(2 * a4[8]) | ((a4[9] | ((unsigned __int64)(a4[10] & 0xF) << 8)) << 9)) + ((__int64)(v84 + 0x100000) >> 21) + v104 * v120 + v106 * v7; v149 = v105 * v7 + v103 * v120 + v100 * v6 + v102 * v5 + (((unsigned __int64)(a4[15] & 0x3F) << 15) | ((unsigned __int64)a4[13] >> 1) | (a4[14] << 7)) + ((__int64)(v96 + 0x100000) >> 21) + v104 * v139 + v106 * v8; v111 = v105 * v8 + v103 * v139 + v100 * v7 + v102 * v120 + v95 * v6 + v115 * v5 + (((unsigned __int64)a4[20] << 13) | ((unsigned __int64)a4[18] >> 3) | (unsigned __int16)(32 * a4[19])) + ((__int64)(v126 + 0x100000) >> 21) + v104 * v128 + v106 * v9; v12 = (__int64)(v157 + 0x100000) >> 21; v116 = v105 * v9 + v103 * v128 + v100 * v8 + v102 * v139 + v95 * v7 + v115 * v120 + v101 * v6 + v130 * v5 + (((unsigned __int64)a4[23] >> 5) | (unsigned __int16)(8 * a4[24]) | ((a4[25] | ((unsigned __int64)(a4[26] & 3) << 8)) << 11)) + ((__int64)(v152 + 0x100000) >> 21) + v104 * v148 + v106 * v10; v163 = v105 * v10 + v103 * v148 + v100 * v9 + v102 * v128 + v95 * v8 + v115 * v139 + v101 * v7 + v130 * v120 + v138 * v6 + v4 * v5 + (((unsigned __int64)a4[28] >> 7) | (2 * (((unsigned __int64)a4[31] << 16) | (unsigned __int16)(a4[29] | (a4[30] << 8))))) + v12 + v104 * v11 + v106 * v88; v13 = (__int64)(v135 + 0x100000) >> 21; v14 = v138 * v8 + v4 * v139; v15 = (__int64)(v123 + 0x100000) >> 21; v140 = v100 * v10 + v102 * v148 + v95 * v9 + v115 * v128 + v101 * v8 + v130 * v139 + v138 * v7 + v4 * v120 + v13 + v103 * v11 + v105 * v88; v16 = v95 * v10 + v115 * v148 + v101 * v9 + v130 * v128 + v14 + v15 + v102 * v11 + v100 * v88; v17 = (__int64)(v144 + 0x100000) >> 21; v121 = v16; v18 = (__int64)(v131 + 0x100000) >> 21; v129 = v101 * v10 + v130 * v148 + v138 * v9 + v4 * v128 + v17 + v115 * v11 + v95 * v88; v19 = (__int64)(v146 + 0x100000) >> 21; v20 = v138 * v10 + v4 * v148 + v18 + v130 * v11 + v101 * v88; v21 = v19 + v4 * v11; v22 = v4 * v88 + 0x100000; v89 = v21 + v138 * v88; v22 >>= 21; v23 = (__int64)(v111 + 0x100000) >> 21; v24 = (__int64)(v116 + 0x100000) >> 21; v25 = (__int64)(v129 + 0x100000) >> 21; v26 = (__int64)(v16 + 0x100000) >> 21; v27 = (__int64)(v163 + 0x100000) >> 21; v28 = (__int64)(v140 + 0x100000) >> 21; v132 = v25 - (v18 << 21) + v131; v29 = (__int64)(v20 + 0x100000) >> 21; v147 = v29 - (v19 << 21) + v146; v30 = -2097152 * v29 + v20; v31 = (__int64)(v89 + 0x100000) >> 21; v143 = v31 - (v22 << 21) + v142; v90 = -2097152 * v31 + v89; v145 = v26 + -683901 * v22 - (v17 << 21) + v144; v124 = v28 + 136657 * v143 + -997805 * v22 - 683901 * v90 - (v15 << 21) + v123; v136 = v27 + 136657 * v147 + 470296 * v22 - 683901 * v30 - 997805 * v90 - (v13 << 21) + 654183 * v143 + v135; v127 = ((__int64)(v149 + 0x100000) >> 21) + 666643 * v132 - ((__int64)(v126 + 0x100000) >> 21 << 21) + v126; v32 = (__int64)(v127 + 0x100000) >> 21; v153 = v23 + 666643 * v147 + 470296 * v30 - ((__int64)(v152 + 0x100000) >> 21 << 21) + 654183 * v132 + v152; v33 = (__int64)(v153 + 0x100000) >> 21; v158 = v24 + 136657 * v132 + 666643 * v143 + 470296 * v90 - 997805 * v30 - (v12 << 21) + 654183 * v147 + v157; v112 = v32 + 666643 * v30 + 470296 * v132 - (v23 << 21) + v111; v34 = v33 + 666643 * v90 + 470296 * v147 - 997805 * v132 - (v24 << 21) + 654183 * v30; v35 = (__int64)(v158 + 0x100000) >> 21; v117 = v34 + v116; v164 = v35 + 136657 * v30 + 470296 * v143 + 666643 * v22 - 683901 * v132 - 997805 * v147 - (v27 << 21) + 654183 * v90 + v163; v36 = (__int64)(v136 + 0x100000) >> 21; v37 = (__int64)(v124 + 0x100000) >> 21; v38 = v37 + 136657 * v22 - 683901 * v143 - (v26 << 21) + v121; v141 = v36 + 136657 * v90 + -997805i64 * v143 - 683901 * v147 - (v28 << 21) + 654183 * v22 + v140; v39 = ((__int64)(v145 + 0x100000) >> 21) - (v25 << 21) + v129; v137 = ((__int64)(v164 + 0x100000) >> 21) - (v36 << 21) + v136; v40 = (__int64)(v141 + 0x100000) >> 21; v41 = (__int64)(v117 + 0x100000) >> 21; v125 = v40 - (v37 << 21) + v124; v42 = -2097152 * v40 + v141; v43 = (__int64)(v112 + 0x100000) >> 21; v44 = (__int64)(v38 + 0x100000) >> 21; v122 = -2097152 * v44 + v38; v159 = v41 + -2097152 * v35 - 683901 * v39 + v158; v46 = v39; v45 = v44 - ((__int64)(v145 + 0x100000) >> 21 << 21) + v145; v47 = 136657 * v45 + -997805i64 * v39 - 683901 * v122 - (v33 << 21); v48 = v45; v154 = v43 + v47 + v153; v133 = 136657 * v125 + 470296 * v39 + -997805i64 * v122 - 683901 * v42 - (v32 << 21) + v127 + 654183 * v45; v92 = 666643 * v137 - ((v91 + 0x100000) >> 21 << 21) + v91; v85 = ((__int64)(v107 + 0x100000) >> 21) + 666643 * v125 + 470296 * v42 - ((__int64)(v84 + 0x100000) >> 21 << 21) + 654183 * v137 + v84; v49 = (v133 + 0x100000) >> 21; v97 = ((__int64)(v150 + 0x100000) >> 21) + 136657 * v137 + 666643 * v45 + 470296 * v122 - 997805 * v42 - ((__int64)(v96 + 0x100000) >> 21 << 21) + 654183 * v125 + v96; v50 = (__int64)(v85 + 0x100000) >> 21; v51 = (__int64)(v92 + 0x100000) >> 21; v52 = v50 + 666643 * v122 + 470296 * v125 - 997805 * v137 - ((__int64)(v150 + 0x100000) >> 21 << 21) + v150 + 654183 * v42; v108 = v51 + 666643 * v42 + 470296 * v137 - ((__int64)(v107 + 0x100000) >> 21 << 21) + v107; v53 = (__int64)(v154 + 0x100000) >> 21; v54 = (__int64)(v97 + 0x100000) >> 21; v55 = v54 + 136657 * v42 + 666643 * v46 + 470296 * v48 + -997805i64 * v125 - 683901 * v137 - ((__int64)(v149 + 0x100000) >> 21 << 21) + v149 + 654183 * v122; v113 = v49 + 136657 * v122 + -997805i64 * (v44 - ((__int64)(v145 + 0x100000) >> 21 << 21) + v145) - 683901 * v125 - (v43 << 21) + 654183 * (((__int64)(v145 + 0x100000) >> 21) - (v25 << 21) + v129) + v112; v118 = v53 + 136657 * v46 - 683901 * v48 - (v41 << 21) + v117; v56 = (__int64)(v159 + 0x100000) >> 21; v165 = v56 - ((__int64)(v164 + 0x100000) >> 21 << 21) + v164; v57 = ((__int64)(v55 + 0x100000) >> 21) - (v49 << 21) + v133; v58 = (__int64)(v165 + 0x100000) >> 21; v155 = ((__int64)(v113 + 0x100000) >> 21) - (v53 << 21) + v154; v160 = ((__int64)(v118 + 0x100000) >> 21) - (v56 << 21) + v159; v93 = 666643 * v58 - (v51 << 21) + v92; v59 = ((__int64)(v108 + 0x100000) >> 21) + 654183 * v58 - (v50 << 21) + v85; v109 = (v93 >> 21) + 470296 * v58 - ((__int64)(v108 + 0x100000) >> 21 << 21) + v108; v60 = ((__int64)(v52 + 0x100000) >> 21) + 136657 * v58 - (v54 << 21) + v97; v86 = (v109 >> 21) + v59; v61 = (v86 >> 21) + -2097152 * ((__int64)(v52 + 0x100000) >> 21) - 997805 * v58 + v52; v98 = (v61 >> 21) + v60; v62 = (v98 >> 21) + -683901 * v58 - ((__int64)(v55 + 0x100000) >> 21 << 21) + v55; v134 = (v62 >> 21) + v57; v114 = (v134 >> 21) - ((__int64)(v113 + 0x100000) >> 21 << 21) + v113; v156 = (v114 >> 21) + v155; v119 = (v156 >> 21) - ((__int64)(v118 + 0x100000) >> 21 << 21) + v118; v161 = (v119 >> 21) + v160; v166 = (v161 >> 21) - (v58 << 21) + v165; v94 = 666643 * (v166 >> 21) - (v93 >> 21 << 21) + v93; v63 = (v94 >> 21) + 470296 * (v166 >> 21) - (v109 >> 21 << 21) + v109; v64 = (v63 >> 21) + 654183 * (v166 >> 21) - (v86 >> 21 << 21) + v86; v110 = -2097152 * (v63 >> 21) + v63; v65 = (v64 >> 21) + -2097152 * (v61 >> 21) - 997805 * (v166 >> 21) + v61; v87 = -2097152 * (v64 >> 21) + v64; v66 = (v65 >> 21) + 136657 * (v166 >> 21) - (v98 >> 21 << 21) + v98; v67 = -2097152 * (v65 >> 21) + v65; v68 = (v66 >> 21) + -683901 * (v166 >> 21) - (v62 >> 21 << 21) + v62; v99 = -2097152 * (v66 >> 21) + v66; v69 = (v68 >> 21) - (v134 >> 21 << 21); v70 = -2097152 * (v68 >> 21) + v68; v71 = v69 + v134; v72 = (v69 + v134) >> 21; v73 = -2097152 * v72 + v71; v74 = v72 - (v114 >> 21 << 21) + v114; v75 = (v74 >> 21) - (v156 >> 21 << 21) + v156; v76 = -2097152 * (v74 >> 21) + v74; v77 = v75 >> 21; v78 = -2097152 * (v75 >> 21) + v75; v79 = ((v77 - (v119 >> 21 << 21) + v119) >> 21) - (v161 >> 21 << 21) + v161; v80 = -2097152 * ((v77 - (v119 >> 21 << 21) + v119) >> 21) + v77 - (v119 >> 21 << 21) + v119; v81 = (v79 >> 21) - (v166 >> 21 << 21) + v166; v82 = -2097152 * (v79 >> 21) + v79; *(_WORD *)a1 = v94; *(_BYTE *)(a1 + 2) = (32 * v110) | ((-2097152 * (unsigned int)(v94 >> 21) + (unsigned int)v94) >> 16); *(_BYTE *)(a1 + 3) = v110 >> 3; *(_BYTE *)(a1 + 4) = v110 >> 11; *(_BYTE *)(a1 + 5) = (4 * v87) | (v110 >> 19); *(_BYTE *)(a1 + 6) = v87 >> 6; *(_BYTE *)(a1 + 7) = ((_BYTE)v67 << 7) | (v87 >> 14); *(_BYTE *)(a1 + 8) = v67 >> 1; *(_BYTE *)(a1 + 9) = v67 >> 9; *(_BYTE *)(a1 + 10) = (16 * v99) | (v67 >> 17); *(_BYTE *)(a1 + 11) = v99 >> 4; *(_BYTE *)(a1 + 12) = v99 >> 12; *(_BYTE *)(a1 + 13) = (2 * v70) | (v99 >> 20); *(_BYTE *)(a1 + 14) = v70 >> 7; *(_BYTE *)(a1 + 15) = ((_BYTE)v73 << 6) | (v70 >> 15); *(_BYTE *)(a1 + 16) = v73 >> 2; *(_BYTE *)(a1 + 17) = v73 >> 10; *(_BYTE *)(a1 + 21) = v78; *(_BYTE *)(a1 + 18) = (8 * v76) | (v73 >> 18); *(_BYTE *)(a1 + 20) = v76 >> 13; *(_BYTE *)(a1 + 19) = v76 >> 5; *(_BYTE *)(a1 + 22) = BYTE1(v78); *(_BYTE *)(a1 + 23) = (32 * (v77 + v119)) | BYTE2(v78); *(_BYTE *)(a1 + 24) = v80 >> 3; *(_BYTE *)(a1 + 25) = v80 >> 11; *(_BYTE *)(a1 + 26) = (4 * v82) | (v80 >> 19); *(_BYTE *)(a1 + 27) = v82 >> 6; *(_BYTE *)(a1 + 28) = ((_BYTE)v81 << 7) | (v82 >> 14); *(_BYTE *)(a1 + 29) = v81 >> 1; result = v81 >> 9; *(_BYTE *)(a1 + 31) = v81 >> 17; *(_BYTE *)(a1 + 30) = v81 >> 9; return result; }

openssl

__int64 __fastcall RSA_padding_check_PKCS1_OAEP_0( unsigned __int8 *to, int tlen, const unsigned __int8 *from, int flen, int num, const unsigned __int8 *param, int plen) { return FUNC((__int64)to, tlen, (__int64)from, flen, num, (__int64)param, plen, 0i64, 0i64); }

openssl

__int64 __fastcall FUNC(unsigned int a1, __int64 *a2) { __int64 v2; // rbp __int64 v4; // rcx unsigned int *v6; // r12 unsigned int *v7; // r13 __int64 v8; // r15 unsigned int v9; // r14d __int64 v10; // rbx __int64 v11; // r8 const char *v12; // rdi __int64 v13; // rdx __int64 v14; // rcx __int64 v15; // r8 int v16; // eax __int64 v17; // rdx __int64 v18; // rcx __int64 v19; // r8 int v20; // esi const char *v21; // rdx __int64 v22; // rax __int64 v23; // rax __int64 v24; // rax __int64 v25; // rax __int64 v26; // rax __int64 v27; // rax __int64 v28; // rax int v29; // ebx __int64 v30; // r13 int v31; // edi const unsigned __int8 *v32; // r12 __int64 v33; // rax __int64 v34; // rax __int64 v35; // rcx __int64 v36; // rdx BOOL v37; // eax __int64 v38; // r8 const char *v39; // rbx const unsigned __int8 *v40; // rax int v41; // eax int v42; // esi __int64 v43; // r15 unsigned int v44; // ebx const char *v45; // rdi engine_st *v47; // r15 int v48; // eax __int64 v49; // rsi unsigned int v50; // ebx const char *v51; // rdi const char *v52; // rsi __int64 v53; // rdi __int64 v54; // rbx __int64 v55; // r8 signed int v56; // r12d __int64 v57; // r14 __int64 v58; // rbx __int64 v59; // rsi __int64 v60; // rbx const char *v61; // rdi const evp_pkey_asn1_method_st *v62; // rax unsigned int v63; // eax __int64 v64; // r15 unsigned int v65; // eax const unsigned __int8 *v66; // [rsp+60h] [rbp-E8h] BYREF int v67; // [rsp+68h] [rbp-E0h] int v68; // [rsp+6Ch] [rbp-DCh] signed int v69; // [rsp+70h] [rbp-D8h] const char *v70; // [rsp+78h] [rbp-D0h] BYREF __int64 v71; // [rsp+80h] [rbp-C8h] BYREF int v72; // [rsp+88h] [rbp-C0h] BYREF __int64 v73; // [rsp+90h] [rbp-B8h] __int64 v74; // [rsp+98h] [rbp-B0h] const unsigned __int8 *v75; // [rsp+A0h] [rbp-A8h] int v76; // [rsp+A8h] [rbp-A0h] const char *v77; // [rsp+B0h] [rbp-98h] BYREF engine_st *v78; // [rsp+B8h] [rbp-90h] void *v79; // [rsp+C0h] [rbp-88h] bio_st *v80; // [rsp+C8h] [rbp-80h] __int64 v81; // [rsp+D0h] [rbp-78h] __int64 v82; // [rsp+D8h] [rbp-70h] __int64 v83; // [rsp+E0h] [rbp-68h] unsigned __int8 *v84; // [rsp+E8h] [rbp-60h] const char *v85; // [rsp+F0h] [rbp-58h] void *v86; // [rsp+F8h] [rbp-50h] BYREF __int64 v87; // [rsp+100h] [rbp-48h] engine_st *v88; // [rsp+108h] [rbp-40h] BYREF int v89; // [rsp+160h] [rbp+18h] int v90; // [rsp+168h] [rbp+20h] v2 = 0i64; v4 = *a2; v72 = 32773; v74 = 0i64; v73 = 0i64; v80 = 0i64; v75 = 0i64; v66 = 0i64; v6 = 0i64; v81 = 0i64; v7 = 0i64; v82 = 0i64; v70 = 0i64; v77 = 0i64; v87 = 0i64; v86 = 0i64; v83 = 0i64; v8 = 0i64; v85 = 0i64; v68 = 0; v69 = 0; v9 = 1; v89 = -1; LODWORD(v71) = 0; v90 = 0; v79 = 0i64; v76 = 0; v10 = FUNC(v4); v84 = (unsigned __int8 *)FUNC(0x2000i64, "I/O buffer", v11); v78 = (engine_st *)FUNC(v10); v12 = (const char *)FUNC(a1, a2, &unk_1401C1310); v16 = FUNC(v14, v13, v15); v19 = 2i64; v20 = 0; if ( v16 ) { while ( 1 ) { v21 = "etaonrishdlcupfm"; if ( v16 <= 1502 ) { if ( v16 < 1501 ) { switch ( v16 ) { case -1: case 0: goto LABEL_14; case 1: FUNC(&unk_1401C1310); v9 = 0; goto LABEL_87; case 2: v68 = 1; goto LABEL_36; case 3: v68 = 2; goto LABEL_36; case 4: v83 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 5: v8 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 6: v87 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 7: v90 = 1; LODWORD(v71) = 1; v8 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 8: v90 = 1; v8 = FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 9: v85 = (const char *)FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 10: v22 = FUNC(v18, "etaonrishdlcupfm", 2i64); if ( (unsigned int)FUNC(v22, 1982i64, &v72) ) goto LABEL_36; goto LABEL_14; case 11: v23 = FUNC(v18, "etaonrishdlcupfm", 2i64); v75 = (const unsigned __int8 *)FUNC(v23, 0i64); goto LABEL_36; case 12: v76 = 1; goto LABEL_36; case 13: v89 = 0; goto LABEL_36; case 14: v89 = 1; goto LABEL_36; case 15: v20 = 1; goto LABEL_36; case 16: v70 = "etaonrishdlcupfm"; goto LABEL_36; case 17: v70 = (const char *)FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 18: v77 = (const char *)FUNC(v18, "etaonrishdlcupfm", 2i64); goto LABEL_36; case 19: if ( v6 ) goto LABEL_26; v24 = FUNC(v18, "etaonrishdlcupfm", 2i64); v81 = v24; if ( v24 ) { v6 = (unsigned int *)v24; LABEL_26: v25 = FUNC(v18, v21, v19); if ( (unsigned int)OPENSSL_sk_push_0(v6, v25) ) goto LABEL_36; } goto LABEL_14; case 20: if ( v7 ) goto LABEL_31; v26 = FUNC(v18, "etaonrishdlcupfm", 2i64); v82 = v26; if ( v26 ) { v7 = (unsigned int *)v26; LABEL_31: v27 = FUNC(v18, v21, v19); if ( (unsigned int)OPENSSL_sk_push_0(v7, v27) ) goto LABEL_36; } LABEL_14: BIO_printf(qword_1402808E8, "%s: Use -help for summary.\n", v12); goto LABEL_87; case 21: v28 = FUNC(v18, "etaonrishdlcupfm"); if ( !(unsigned int)FUNC(v28, &v88) ) goto LABEL_14; v78 = v88; goto LABEL_36; default: goto LABEL_36; } } if ( !(unsigned int)FUNC((unsigned int)v16, "etaonrishdlcupfm", 2i64) ) goto LABEL_87; } LABEL_36: v16 = FUNC(v18, v21, v19); if ( !v16 ) break; v19 = 2i64; } } v29 = FUNC(v18, v17, v19); v67 = v29; v30 = FUNC(); if ( v8 && v29 > 1 ) { BIO_printf(qword_1402808E8, "%s: Can only sign or verify one file.\n", v12); goto LABEL_87; } v31 = v90; if ( v90 && !v85 ) { BIO_printf(qword_1402808E8, "No signature to verify: use the -signature option\n"); goto LABEL_87; } v32 = 0i64; if ( v76 ) v32 = v75; v33 = FUNC(); v74 = FUNC(v33); v34 = FUNC(); v35 = FUNC(v34); v73 = v35; if ( !v74 || !v35 ) { LABEL_86: X509_ALGOR_dup_0(qword_1402808E8); goto LABEL_87; } if ( v20 ) { FUNC(v74, FUNC); FUNC(v74, qword_1402808E8); } if ( !(unsigned int)FUNC(v87, 0i64, &v86) ) { BIO_printf(qword_1402808E8, "Error getting password\n"); goto LABEL_87; } v37 = v89; if ( v89 == -1 ) { v37 = v8 != 0; v89 = v37; } v38 = 32769i64; LOBYTE(v36) = 119; if ( v37 ) v38 = 2i64; v80 = (bio_st *)FUNC(v83, v36, v38); if ( v80 ) { v39 = v77; if ( (v70 != 0i64) + (v77 != 0i64) + (v8 != 0) > 1 ) { BIO_printf(qword_1402808E8, "MAC and Signing key cannot both be specified\n"); goto LABEL_87; } if ( v8 ) { if ( (_DWORD)v71 ) v40 = (const unsigned __int8 *)FUNC(v8, v72, 0, 0, (__int64)v75, (__int64)"key file"); else v40 = (const unsigned __int8 *)FUNC(v8, v72, 0, (_DWORD)v86, (__int64)v75, (__int64)"key file"); v66 = v40; if ( !v40 ) goto LABEL_87; v41 = FUNC(v40); if ( v41 == 1087 || v41 == 1088 ) { BIO_printf(qword_1402808E8, "Key type not supported for this operation\n"); goto LABEL_87; } } if ( v39 ) { v71 = 0i64; v42 = 0; if ( (unsigned int)FUNC(&v71, v39, v32, 0i64) ) { v43 = v82; if ( v82 && (v44 = 0, (int)FUNC(v82) > 0) ) { while ( 1 ) { v45 = (const char *)FUNC(v43, v44); if ( (int)FUNC(v71, v45) <= 0 ) break; if ( (int)++v44 >= (int)FUNC(v43) ) goto LABEL_74; } BIO_printf(qword_1402808E8, "MAC parameter error \"%s\"\n", v45); X509_ALGOR_dup_0(qword_1402808E8); } else { LABEL_74: if ( (int)FUNC(v71, &v66) > 0 ) { v42 = 1; } else { FUNC(qword_1402808E8, "Error generating key\n"); X509_ALGOR_dup_0(qword_1402808E8); } } } FUNC(v71); if ( !v42 ) goto LABEL_87; v31 = v90; } if ( v70 ) { v66 = (const unsigned __int8 *)FUNC(855i64, v32, v70, -1i64); if ( !v66 ) goto LABEL_87; } else if ( !v66 ) { if ( !(unsigned int)FUNC(v73, 120i64, 0i64) ) goto LABEL_85; v47 = v78; if ( !v78 ) v47 = (engine_st *)FUNC(); if ( !(unsigned int)FUNC(0i64, v47, v32) ) { BIO_printf(qword_1402808E8, "Error setting digest\n"); goto LABEL_86; } goto LABEL_97; } v70 = 0i64; if ( !(unsigned int)FUNC(v73, 120i64, 0i64) ) { LABEL_85: BIO_printf(qword_1402808E8, "Error getting context\n"); goto LABEL_86; } v47 = v78; if ( v31 ) v48 = EVP_EncryptInit_ex_0_0(0i64, (const evp_cipher_st *)&v70, v78, v32, v66); else v48 = EVP_DecryptInit_ex_0_1(0i64, (const evp_cipher_st *)&v70, v78, v32, v66); if ( !v48 ) { BIO_printf(qword_1402808E8, "Error setting context\n"); goto LABEL_86; } v49 = v81; if ( v81 ) { v50 = 0; if ( (int)FUNC(v81) > 0 ) { while ( 1 ) { v51 = (const char *)FUNC(v49, v50); if ( (int)FUNC(v70, v51) <= 0 ) break; if ( (int)++v50 >= (int)FUNC(v49) ) goto LABEL_97; } BIO_printf(qword_1402808E8, "parameter error \"%s\"\n", v51); goto LABEL_86; } } LABEL_97: v52 = v85; if ( v85 && v66 ) { v53 = FUNC(v85, "rb"); if ( !v53 ) { BIO_printf(qword_1402808E8, "Error opening signature file %s\n", v52); goto LABEL_86; } v54 = (unsigned int)EVP_PKEY_size_0((const evp_pkey_st *)v66); v79 = (void *)FUNC(v54, "signature buffer", v55); v56 = FUNC(v53, v79, (unsigned int)v54); v69 = v56; FUNC(v53); if ( v56 <= 0 ) { BIO_printf(qword_1402808E8, "Error reading signature file %s\n", v52); goto LABEL_86; } } else { v56 = 0; } v57 = v74; v58 = v73; v59 = FUNC(v73, v74); if ( !v47 ) { FUNC(v58, 120i64, 0i64); v47 = (engine_st *)FUNC(v83); } v60 = v67; if ( v67 ) { v61 = 0i64; v77 = 0i64; if ( !v89 ) { if ( v66 ) { v62 = (const evp_pkey_asn1_method_st *)FUNC(); if ( v62 ) EVP_PKEY_asn1_get0_info_0(0i64, 0i64, 0i64, 0i64, &v77, v62); } if ( v47 ) { v63 = FUNC(v47); v61 = (const char *)FUNC(v63); } } v9 = 0; if ( v60 > 0 ) { v64 = v73; do { if ( (int)FUNC(v74, 108i64, 3i64) > 0 ) { v65 = FUNC( v80, v84, v59, v68, v89, (__int64)v66, (__int64)v79, v69, (__int64)v77, v61, *(const char **)(v30 + 8 * v2)); if ( v65 ) v9 = v65; FUNC(v64, 1i64, 0i64); } else { perror(*(const char **)(v30 + 8 * v2)); ++v9; } ++v2; } while ( v2 < v60 ); } } else { FUNC(); FUNC(v57, (unsigned int)(v60 + 106), 0i64); v9 = FUNC(v80, v84, v59, v68, v89, (__int64)v66, (__int64)v79, v56, 0i64, 0i64, "stdin"); } } LABEL_87: FUNC(v84, 0x2000i64, "apps\\dgst.c", 403i64); FUNC(v74); CRYPTO_free(v86, "apps\\dgst.c", 405); FUNC(v80); FUNC(v66); FUNC(v81); FUNC(v82); CRYPTO_free(v79, "apps\\dgst.c", 410); FUNC(v73); FUNC(v75); return v9; }

openssl

void __fastcall FUNC(void *a1) { ASN1_item_free(a1, (__int64)&unk_1402221E0); }

openssl

__int64 __fastcall FUNC(_DWORD *a1, __int64 a2, __int64 a3, int a4, __int64 a5) { __int64 v5; // rax __int64 (__fastcall *v8)(_DWORD *, __int64, __int64); // rbx int v9; // ecx int v10; // r8d v5 = *(_QWORD *)a1; v8 = *(__int64 (__fastcall **)(_DWORD *, __int64, __int64))(*(_QWORD *)a1 + 152i64); if ( !v8 && (*(_BYTE *)v5 & 1) == 0 ) { FUNC(16, 295, 66, (__int64)"crypto\\ec\\ec_oct.c", 24); return 0i64; } if ( v5 != *(_QWORD *)a2 || (v9 = a1[8]) != 0 && (v10 = *(_DWORD *)(a2 + 8)) != 0 && v9 != v10 ) { FUNC(16, 295, 101, (__int64)"crypto\\ec\\ec_oct.c", 29); return 0i64; } if ( (*(_BYTE *)v5 & 1) == 0 ) return v8(a1, a2, a3); if ( *(_DWORD *)(v5 + 4) == 406 ) return FUNC((_DWORD)a1, a2, a3, a4, a5); return FUNC((_DWORD)a1, a2, a3, a4, a5); }

openssl

__int64 __fastcall FUNC(__int64 a1, int a2, __int64 a3) { int v3; // eax unsigned __int64 v4; // rbx int v7; // r14d unsigned __int64 v8; // rbp int *v9; // rdi int *v10; // rsi int v11; // edx unsigned __int16 *v12; // rax unsigned __int64 v14; // [rsp+50h] [rbp+8h] BYREF v4 = 0i64; v7 = v3 - 30; if ( (a2 & 0x80u) == 0 ) { if ( (a2 & 0x100) != 0 ) v7 = 0; } else { v7 = v3 - 31; } v8 = *(_QWORD *)(*(_QWORD *)(a1 + 1160) + 480i64) + 26i64; if ( *(_QWORD *)(*(_QWORD *)(a1 + 1160) + 480i64) != -26i64 ) { v9 = (int *)(a3 + 24); v10 = (int *)&unk_1401ED9B4; do { if ( *(v9 - 2) ) { if ( v4 >= 0x1A ) { v12 = FUNC((unsigned __int16 **)(*(_QWORD *)(a1 + 1160) + 472i64), v7, *v9, &v14); if ( !v12 ) return 0i64; v11 = *((_DWORD *)v12 + 2); } else { v11 = *v10; } if ( (v11 & a2) == 0 ) return 0i64; if ( (*(_BYTE *)(*(_QWORD *)(*(_QWORD *)(a1 + 8) + 192i64) + 96i64) & 8) != 0 ) { if ( (v11 & 1) != 0 ) return 0i64; } else if ( (v11 & 2) != 0 ) { return 0i64; } } ++v4; v10 += 14; v9 += 10; } while ( v4 < v8 ); } return 1i64; }

openssl

__int64 __fastcall FUNC(__int64 a1, X509_algor_st *a2, int a3, int a4) { unsigned int *v9; // rdi int v10; // eax int v11; // esi BOOL v12; // r12d X509_algor_st *v13; // rax X509_algor_st *v14; // rbp int v15; // ebx int i; // esi __int64 v17; // rax if ( !a1 ) return 0i64; v9 = *(unsigned int **)a1; v10 = FUNC(*(unsigned int **)a1); if ( a3 <= v10 ) { if ( a3 < 0 ) a3 = v10; } else { a3 = v10; } v11 = 0; *(_DWORD *)(a1 + 8) = 1; v12 = a4 == 0; if ( a4 == -1 ) { if ( a3 ) v11 = *(_DWORD *)(FUNC((__int64)v9, a3 - 1) + 16); else v12 = 1; } else if ( a3 < v10 ) { v11 = *(_DWORD *)(FUNC((__int64)v9, a3) + 16); } else if ( a3 ) { v11 = *(_DWORD *)(FUNC((__int64)v9, a3 - 1) + 16) + 1; } v13 = X509_ALGOR_dup_0_1(a2); v14 = v13; if ( !v13 ) goto LABEL_18; *((_DWORD *)v13 + 4) = v11; if ( !(unsigned int)FUNC((int *)v9, (__int64)v13, a3) ) { FUNC(11, 113, 65, (unsigned int)"crypto\\x509\\x509name.c", 227); LABEL_18: FUNC(v14); return 0i64; } if ( v12 ) { v15 = a3 + 1; for ( i = FUNC(v9); v15 < i; ++*(_DWORD *)(v17 + 16) ) v17 = FUNC((__int64)v9, v15++); } return 1i64; }

openssl

char *__fastcall FUNC(__int64 a1, int a2, size_t *a3) { int v3; // eax __int64 v5; // r12 char *v7; // rbp size_t v8; // rbx char *result; // rax int v10; // edi int v11; // r13d unsigned __int64 v12; // r14 int v13; // r8d int v14; // ebx unsigned __int64 v15; // rsi int v16; // edx int v17; // [rsp+20h] [rbp-58h] char v19; // [rsp+98h] [rbp+20h] v5 = a2; v7 = 0i64; v8 = (unsigned int)(v3 - 63); if ( FUNC(a1) ) { result = (char *)CRYPTO_malloc(v8, "crypto\\bn\\bn_intern.c", 31i64); v7 = result; if ( result ) { *result = 0; *a3 = v8; return result; } FUNC(3, 142, v8 + 64, (__int64)"crypto\\bn\\bn_intern.c", 33); goto LABEL_36; } if ( (unsigned int)(v5 - 1) > 6 ) { v17 = 43; goto LABEL_35; } v10 = (_DWORD)v8 << v5; v11 = 2 * ((_DWORD)v8 << v5); if ( FUNC(a1) ) LOBYTE(v8) = -1; v19 = v8; if ( !*(_QWORD *)a1 || !*(_DWORD *)(a1 + 8) ) { v17 = 55; LABEL_35: FUNC(3, 142, 68, (__int64)"crypto\\bn\\bn_intern.c", v17); goto LABEL_36; } v12 = (int)FUNC(a1); v7 = (char *)CRYPTO_malloc(v12 + 1, "crypto\\bn\\bn_intern.c", 60i64); if ( !v7 ) { FUNC(3, 142, 65, (__int64)"crypto\\bn\\bn_intern.c", 66); LABEL_36: CRYPTO_free(v7, "crypto\\bn\\bn_intern.c", 137i64); return 0i64; } v13 = v11 - 1; v14 = (v11 - 1) & **(_DWORD **)a1; v15 = 0i64; while ( v14 || v5 + v15 + 1 < v12 ) { LOBYTE(v16) = 0; if ( (v14 & 1) != 0 ) { v16 = v14; if ( (v14 & v10) != 0 ) { v16 = v14 - v11; if ( v5 + v15 + 1 >= v12 ) v16 = v14 & (v13 >> 1); } if ( v16 <= -v10 || v16 >= v10 || (v16 & 1) == 0 ) { v17 = 101; goto LABEL_35; } v14 -= v16; if ( v14 && v14 != v11 && v14 != v10 ) { v17 = 113; goto LABEL_35; } } v7[v15++] = v19 * v16; v14 = v10 * FUNC(a1, (int)v15 + (int)v5) + (v14 >> 1); if ( v14 > v11 ) { v17 = 124; goto LABEL_35; } v13 = v11 - 1; } if ( v15 > v12 + 1 ) { v17 = 130; goto LABEL_35; } *a3 = v15; return v7; }

openssl

__int64 __fastcall FUNC(__int64 a1, __int64 a2, unsigned __int64 a3, int a4) { int v4; // eax unsigned int v5; // edi unsigned __int64 v6; // rbp unsigned __int64 v9; // rsi int v11; // eax int v12; // eax __int64 (__fastcall *v13)(__int64, __int64 *, _QWORD, _QWORD, _QWORD, int); // r10 void (__fastcall *v14)(__int64, __int64, unsigned __int64); // r9 __int64 v15; // [rsp+50h] [rbp+8h] BYREF v4 = *(_DWORD *)(a1 + 152); v5 = 0; v6 = a3; v15 = 0i64; v9 = 0i64; if ( v4 == 2 ) { FUNC(36, 110, 114, (__int64)"crypto\\rand\\drbg_lib.c", 415); return 0i64; } if ( !v4 ) { FUNC(36, 110, 115, (__int64)"crypto\\rand\\drbg_lib.c", 419); return 0i64; } if ( a2 ) { if ( a3 > *(_QWORD *)(a1 + 104) ) { FUNC(36, 110, 102, (__int64)"crypto\\rand\\drbg_lib.c", 426); return 0i64; } } else { v6 = 0i64; } v11 = *(_DWORD *)(a1 + 136); *(_DWORD *)(a1 + 152) = 2; *(_DWORD *)(a1 + 140) = v11; if ( v11 ) { v12 = v11 + 1; *(_DWORD *)(a1 + 140) = v12; if ( !v12 ) *(_DWORD *)(a1 + 140) = 1; } v13 = *(__int64 (__fastcall **)(__int64, __int64 *, _QWORD, _QWORD, _QWORD, int))(a1 + 328); if ( v13 ) v9 = v13(a1, &v15, *(unsigned int *)(a1 + 48), *(_QWORD *)(a1 + 64), *(_QWORD *)(a1 + 72), a4); if ( v9 < *(_QWORD *)(a1 + 64) || v9 > *(_QWORD *)(a1 + 72) ) { FUNC(36, 110, 110, (__int64)"crypto\\rand\\drbg_lib.c", 446); } else if ( (*(unsigned int (__fastcall **)(__int64, __int64, unsigned __int64, __int64, unsigned __int64))(*(_QWORD *)(a1 + 320) + 8i64))( a1, v15, v9, a2, v6) ) { *(_DWORD *)(a1 + 152) = 1; *(_DWORD *)(a1 + 112) = 1; *(_QWORD *)(a1 + 120) = time64(0i64); *(_DWORD *)(a1 + 136) = *(_DWORD *)(a1 + 140); } if ( v15 ) { v14 = *(void (__fastcall **)(__int64, __int64, unsigned __int64))(a1 + 336); if ( v14 ) v14(a1, v15, v9); } LOBYTE(v5) = *(_DWORD *)(a1 + 152) == 1; return v5; }

openssl

volatile signed __int32 *__fastcall FUNC(int a1, __int64 a2) { volatile signed __int32 *v2; // rbx _QWORD *v4; // rdi unsigned int v5; // r8d unsigned int v6; // eax __int64 v7; // rax int v9; // [rsp+20h] [rbp-18h] unsigned __int8 *v10; // [rsp+50h] [rbp+18h] BYREF v2 = 0i64; v4 = 0i64; if ( a1 == 16 ) { v5 = *(_DWORD *)a2; v10 = *(unsigned __int8 **)(a2 + 8); v2 = (volatile signed __int32 *)FUNC(0i64, &v10, v5); if ( !v2 ) { v9 = 103; LABEL_12: FUNC(16, 220, 142, (__int64)"crypto\\ec\\ec_ameth.c", v9); goto LABEL_13; } return v2; } if ( a1 != 6 ) { v9 = 124; goto LABEL_12; } v2 = (volatile signed __int32 *)FUNC(); if ( v2 ) { v6 = FUNC(a2); v7 = FUNC(v6); v4 = (_QWORD *)v7; if ( !v7 ) goto LABEL_13; FUNC(v7, 1); if ( !(unsigned int)FUNC(v2, v4) ) goto LABEL_13; FUNC(v4); return v2; } FUNC(16, 220, 65, (__int64)"crypto\\ec\\ec_ameth.c", 113); LABEL_13: FUNC(v2); FUNC(v4); return 0i64; }

openssl

const char *__fastcall OCSP_response_status_str_0(int s) { _QWORD *v1; // rax unsigned __int64 v2; // rdx v1 = &unk_140214AE0; v2 = 0i64; while ( *(_DWORD *)v1 != s ) { ++v2; v1 += 2; if ( v2 >= 6 ) return "(UNKNOWN)"; } return (const char *)v1[1]; }

openssl

__int64 __fastcall FUNC(__int64 a1) { __int64 v1; // rax v1 = FUNC(a1); return FUNC(v1); }

openssl

__int64 __fastcall FUNC(_QWORD *a1, const void *a2, size_t a3, __int64 a4) { unsigned __int64 v5; // rcx v5 = a1[1]; if ( a3 > a1[4] - v5 ) { FUNC(36, 103, 106, (__int64)"crypto\\rand\\rand_lib.c", 719); return 0i64; } if ( !*a1 ) { FUNC(36, 103, 68, (__int64)"crypto\\rand\\rand_lib.c", 724); return 0i64; } if ( a3 ) { if ( a1[5] > v5 && (const void *)(v5 + *a1) == a2 ) { FUNC(36, 103, 68, (__int64)"crypto\\rand\\rand_lib.c", 738); return 0i64; } if ( !(unsigned int)FUNC((__int64)a1, a3) ) return 0i64; memmove((void *)(a1[1] + *a1), a2, a3); a1[1] += a3; a1[6] += a4; } return 1i64; }

openssl

__int64 __fastcall dsa_sign_setup_no_digest_0(dsa_st *dsa, bignum_ctx *ctx_in, bignum_st **kinvp, bignum_st **rp) { return FUNC((__int64)dsa, (int *)ctx_in, (_BYTE **)kinvp, (_BYTE **)rp, 0i64, 0); }

openssl

__int64 __fastcall FUNC(_DWORD *a1, _QWORD *a2, _BYTE *a3, __int64 a4, int *a5) { int v5; // eax int *v6; // r12 int v10; // esi int v11; // ebx int v12; // eax __int64 v13; // r13 __int64 v14; // rcx int *v15; // rdi __int64 v16; // r14 __int64 v17; // r15 bool v18; // zf unsigned int v19; // [rsp+30h] [rbp-48h] __int64 v20; // [rsp+38h] [rbp-40h] int v23; // [rsp+98h] [rbp+20h] v6 = 0i64; v19 = 0; if ( !a4 ) { FUNC(v5 - 80, v5 + 64, v5 + 4, (__int64)"crypto\\ec\\ec2_oct.c", 247); return 0i64; } v10 = *a3 & 1; v11 = *a3 & 0xFE; switch ( v11 ) { case 0: goto LABEL_9; case 2: break; case 4: LABEL_9: if ( (*a3 & 1) != 0 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 260); return 0i64; } break; case 6: break; default: FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 256); return 0i64; } if ( v11 ) { v23 = FUNC((__int64)a1); v12 = (v23 + 7) / 8; v13 = v12; if ( v11 == 2 ) v14 = v12 + 1i64; else v14 = 2i64 * v12 + 1; if ( a4 != v14 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 280); return 0i64; } v15 = a5; if ( !a5 ) { v6 = (int *)FUNC(); v15 = v6; if ( !v6 ) return 0i64; } FUNC(v15); v16 = FUNC(v15); v17 = FUNC(v15); v20 = FUNC(v15); if ( v20 && FUNC(a3 + 1, v13, v16) ) { if ( (int)FUNC(v16) > v23 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 300); goto LABEL_41; } if ( v11 == 2 ) { v18 = (unsigned int)FUNC(a1, (__int64)a2, v16, v10, (__int64)v15) == 0; goto LABEL_39; } if ( FUNC(&a3[v13 + 1], v13, v17) ) { if ( (int)FUNC(v17) <= v23 ) { if ( v11 == 6 ) { if ( !(*(unsigned int (__fastcall **)(_DWORD *, __int64, __int64, __int64, int *))(*(_QWORD *)a1 + 280i64))( a1, v20, v17, v16, v15) ) goto LABEL_41; if ( v10 != FUNC(v20) ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 318); goto LABEL_41; } } v18 = (unsigned int)FUNC(a1, (__int64)a2) == 0; LABEL_39: if ( !v18 ) v19 = 1; goto LABEL_41; } FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 311); } } LABEL_41: FUNC((__int64)v15); FUNC((__int64)v6); return v19; } if ( a4 != 1 ) { FUNC(16, 160, 102, (__int64)"crypto\\ec\\ec2_oct.c", 266); return 0i64; } return FUNC((__int64)a1, a2); }

openssl

__int64 __fastcall CRYPTO_ccm128_decrypt_ccm64( char *a1, __int64 a2, __int64 a3, unsigned __int64 a4, void (__fastcall *a5)(__int64, __int64, unsigned __int64, __int64, char *, __int64)) { char v5; // di __int64 v6; // r14 __int64 v8; // r10 unsigned int v11; // esi int v12; // eax __int64 v13; // rcx signed int v14; // r12d char *v15; // rdx __int64 v16; // r8 __int64 v17; // rax __int64 v18; // rax unsigned __int64 v20; // rdi __int64 v21; // r13 unsigned __int64 v22; // rdi __int64 v23; // r8 unsigned __int64 v24; // rdx __int64 v25; // rax __int64 v26; // rcx unsigned __int64 v27; // rdx void (__fastcall *v28)(char *, __int64 *, __int64); // rdi char *v29; // rdx __int64 *v30; // rcx __int64 v31; // r15 __int64 v32; // r13 char v33; // al char v34; // al char v35; // [rsp+30h] [rbp-78h] void (__fastcall *v37)(char *, __int64 *, __int64); // [rsp+40h] [rbp-68h] __int64 v38[2]; // [rsp+48h] [rbp-60h] BYREF v5 = *a1; v6 = *((_QWORD *)a1 + 6); v8 = a3; v35 = *a1; v37 = (void (__fastcall *)(char *, __int64 *, __int64))*((_QWORD *)a1 + 5); if ( (*a1 & 0x40) == 0 ) { (*((void (__fastcall **)(char *, char *, __int64))a1 + 5))(a1, a1 + 16, v6); v8 = a3; } v11 = 0; v12 = v5 & 7; v13 = 0i64; v14 = 15 - v12; *a1 = v12; if ( (unsigned int)(15 - v12) < 0xF ) { v15 = &a1[v14]; v16 = v5 & 7; do { v17 = (unsigned __int8)*v15; *v15++ = 0; v13 = (v17 | v13) << 8; --v16; } while ( v16 ); } v18 = (unsigned __int8)a1[15]; a1[15] = 1; if ( (v18 | v13) != a4 ) return 0xFFFFFFFFi64; if ( !(a4 >> 4) ) { v21 = a3; goto LABEL_16; } a5(a2, v8, a4 >> 4, v6, a1, (__int64)(a1 + 16)); v20 = 16 * (a4 >> 4); v21 = v20 + a3; a2 += v20; a4 -= v20; if ( a4 ) { v22 = v20 >> 4; v23 = 8i64; v24 = 0i64; do { v25 = (unsigned __int8)a1[v23 + 7]; --v23; v26 = (unsigned __int8)v22; v22 >>= 8; v27 = v26 + v25 + v24; a1[v23 + 8] = v27; v24 = v27 >> 8; } while ( v23 && (v22 || v24) ); LABEL_16: v28 = v37; if ( a4 ) { v37(a1, v38, v6); v29 = a1 + 16; v30 = v38; v31 = a2 - (_QWORD)v38; v32 = v21 - (_QWORD)v38; do { v33 = *((_BYTE *)v30 + v31); ++v11; v30 = (__int64 *)((char *)v30 + 1); v34 = *((_BYTE *)v30 - 1) ^ v33; ++v29; *((_BYTE *)v30 + v32 - 1) = v34; *(v29 - 1) ^= v34; } while ( v11 < a4 ); v37(a1 + 16, (__int64 *)a1 + 2, v6); } goto LABEL_21; } v28 = v37; LABEL_21: if ( (unsigned int)v14 < 0x10 ) memset(&a1[v14], 0, (unsigned int)(16 - v14)); v28(a1, v38, v6); *((_QWORD *)a1 + 2) ^= v38[0]; *((_QWORD *)a1 + 3) ^= v38[1]; *a1 = v35; return 0i64; }

openssl

void __fastcall FUNC(_BYTE *a1) { if ( a1 ) { if ( (a1[4] & 1) != 0 ) CRYPTO_free(a1, "crypto\\evp\\pmeth_lib.c", 240i64); } }

openssl

__int64 __fastcall FUNC( __int64 *a1, unsigned int *a2, _QWORD *a3, unsigned int **a4, volatile signed __int32 *a5, int a6) { int v6; // esi int v10; // ebp volatile signed __int32 *v11; // rbx volatile signed __int32 *v12; // r14 _QWORD *v13; // rax int v14; // r13d __int64 v16; // rax unsigned int *v17; // rdi _QWORD *v18; // rax unsigned int *v19; // rdx __int64 *v20; // r15 int v21; // esi _QWORD *v22; // rax int v23; // esi __int64 v24; // rbp unsigned int v25; // eax volatile signed __int32 *v26; // rax volatile signed __int32 *v27; // rsi __int64 v28; // rax __int64 v29; // rax volatile signed __int32 *v30; // rax unsigned int **v31; // rax int v32; // esi _QWORD *v33; // rax __int64 v34; // rdi __int64 v35; // rdi unsigned int **v36; // [rsp+30h] [rbp-68h] unsigned int **v37; // [rsp+38h] [rbp-60h] unsigned int v38; // [rsp+40h] [rbp-58h] __int64 v39; // [rsp+48h] [rbp-50h] BYREF __int64 v40[9]; // [rsp+50h] [rbp-48h] BYREF volatile signed __int32 *v43; // [rsp+B8h] [rbp+20h] v6 = 0; v38 = 0; v36 = 0i64; v37 = 0i64; v10 = 0; v11 = 0i64; v43 = 0i64; v12 = 0i64; if ( a4 ) { v14 = a6; if ( (a6 & 0x80u) == 0 ) { v16 = FUNC(a1); if ( (unsigned int)FUNC(v16) == 787 ) v14 = a6 | 0x80000; } } else { v13 = (_QWORD *)FUNC(a1); if ( !v13 || !*v13 ) { FUNC(46, 99, 127, (__int64)"crypto\\cms\\cms_smime.c", 82); return 0i64; } v14 = a6; } v17 = (unsigned int *)FUNC(a1); if ( (int)FUNC(v17) <= 0 ) { FUNC(46, 157, 135, (__int64)"crypto\\cms\\cms_smime.c", 289); LABEL_57: v27 = a5; goto LABEL_58; } if ( (int)FUNC(v17) > 0 ) { do { v18 = (_QWORD *)FUNC((__int64)v17, v6); CMS_SignerInfo_get0_algs(v18, 0i64, &v39, 0i64, 0i64); if ( v39 ) ++v10; ++v6; } while ( v6 < (int)FUNC(v17) ); v12 = 0i64; } if ( v10 == (unsigned int)FUNC(v17) ) { v20 = a1; } else { v19 = a2; v20 = a1; v10 += FUNC(a1, v19, v14); } if ( v10 != (unsigned int)FUNC(v17) ) { FUNC(46, 157, 138, (__int64)"crypto\\cms\\cms_smime.c", 304); goto LABEL_57; } if ( (v14 & 0x20) == 0 ) { v36 = FUNC(v20); if ( (v14 & 0x2000) == 0 ) v37 = FUNC(v20); v21 = 0; if ( (int)FUNC(v17) > 0 ) { do { v22 = (_QWORD *)FUNC((__int64)v17, v21); if ( !(unsigned int)FUNC(v22, a3, (__int64)v36, (__int64)v37) ) goto LABEL_57; } while ( ++v21 < (int)FUNC(v17) ); } } if ( (v14 & 8) == 0 ) { v23 = 0; if ( (int)FUNC(v17) > 0 ) { do { v24 = FUNC((__int64)v17, v23); if ( (int)FUNC(v24) >= 0 && (int)FUNC(v24) <= 0 ) goto LABEL_57; } while ( ++v23 < (int)FUNC(v17) ); } } if ( !a4 || (unsigned int)FUNC(a4) != 1025 ) { v26 = (volatile signed __int32 *)a4; v43 = (volatile signed __int32 *)a4; goto LABEL_37; } v25 = FUNC(a4, 3u, 0, (__int64)v40); v26 = (volatile signed __int32 *)FUNC(v40[0], v25); v43 = v26; if ( v26 ) { LABEL_37: if ( (v14 & 0x80u) == 0 && a4 ) { v27 = a5; if ( a5 ) { if ( (v14 & 1) != 0 ) { v29 = FUNC(); v12 = (volatile signed __int32 *)FUNC(v29); FUNC(v12, 0x82u, 0, 0i64); } else { v12 = a5; } } else { v28 = FUNC(); v12 = (volatile signed __int32 *)FUNC(v28); } if ( !v12 ) { FUNC(46, 157, 65, (__int64)"crypto\\cms\\cms_smime.c", 362); goto LABEL_58; } v30 = FUNC(v20, v12); v11 = v30; if ( !v30 ) { LABEL_58: if ( (v14 & 0x80u) != 0 ) { if ( a4 && v43 == (volatile signed __int32 *)a4 ) { do { v35 = FUNC(v11); FUNC(v11); v11 = (volatile signed __int32 *)v35; } while ( v35 && (unsigned int **)v35 != a4 ); goto LABEL_74; } } else if ( a4 ) { if ( v12 ) { do { v34 = FUNC(v11); FUNC(v11); v11 = (volatile signed __int32 *)v34; } while ( v34 && (volatile signed __int32 *)v34 != v12 ); } else { FUNC((__int64)v11); } if ( v43 != (volatile signed __int32 *)a4 ) FUNC(v43); goto LABEL_74; } FUNC((__int64)v11); LABEL_74: if ( v27 != v12 ) FUNC((__int64)v12); goto LABEL_76; } FUNC(a4, v30, v14 & 0xFFFFFFFE); if ( (v14 & 1) != 0 && !(unsigned int)FUNC(v12, a5) ) { FUNC(46, 157, 140, (__int64)"crypto\\cms\\cms_smime.c", 376); goto LABEL_58; } } else { v31 = (unsigned int **)FUNC(v20, v26); v11 = (volatile signed __int32 *)v31; if ( !v31 ) goto LABEL_57; v27 = a5; if ( !(unsigned int)FUNC(a5, v31, v14) ) goto LABEL_58; } if ( (v14 & 4) != 0 || (v32 = 0, (int)FUNC(v17) <= 0) ) { LABEL_56: v38 = 1; } else { while ( 1 ) { v33 = (_QWORD *)FUNC((__int64)v17, v32); if ( (int)FUNC(v33, (__int64)v11) <= 0 ) break; if ( ++v32 >= (int)FUNC(v17) ) goto LABEL_56; } FUNC(46, 157, 109, (__int64)"crypto\\cms\\cms_smime.c", 393); } goto LABEL_57; } FUNC(46, 157, 65, (__int64)"crypto\\cms\\cms_smime.c", 346); LABEL_76: FUNC(v36, (void (__fastcall *)(_QWORD))FUNC); FUNC(v37, (void (__fastcall *)(_QWORD))FUNC); return v38; }

openssl

void __fastcall FUNC(__int64 a1) { int *v1; // r8 SOCKET v2; // rcx int optval; // [rsp+40h] [rbp+8h] BYREF v1 = *(int **)(a1 + 56); if ( v1[10] > 0 || v1[11] > 0 ) { v2 = *(int *)(a1 + 48); optval = 1000 * v1[12] + v1[13] / 1000; if ( setsockopt(v2, 0xFFFF, 4102, (const char *)&optval, 4) < 0 ) perror("setsockopt"); } }

openssl

void **__fastcall FUNC(char *a1) { int v1; // eax void **v3; // rbx _BYTE *v4; // rax v3 = (void **)CRYPTO_zalloc((unsigned int)(v1 + 32), "crypto\\ui\\ui_lib.c", 601i64); if ( v3 ) { v4 = FUNC(a1, "crypto\\ui\\ui_lib.c", 602i64); *v3 = v4; if ( v4 && (unsigned int)FUNC(14i64, v3, v3 + 9) ) return v3; CRYPTO_free(*v3, "crypto\\ui\\ui_lib.c", 606i64); } CRYPTO_free(v3, "crypto\\ui\\ui_lib.c", 607i64); FUNC(40, 112, 65, (__int64)"crypto\\ui\\ui_lib.c", 608); return 0i64; }

openssl

__int64 setenvp() { char *v0; // rbx int v1; // edi char **v3; // rdi char *v4; // rbx int v5; // esi char *v6; // rax if ( !dword_140286DC8 ) _initmbctable(); v0 = qword_140285688; v1 = 0; if ( !qword_140285688 ) return 0xFFFFFFFFi64; while ( *v0 ) { if ( *v0 != 61 ) ++v1; v0 += strlen(v0) + 1; } v3 = (char **)calloc_crt(v1 + 1, 8i64); envp = v3; if ( !v3 ) return 0xFFFFFFFFi64; v4 = qword_140285688; if ( *qword_140285688 ) { while ( 1 ) { v5 = strlen(v4) + 1; if ( *v4 != 61 ) { v6 = (char *)calloc_crt(v5, 1i64); *v3 = v6; if ( !v6 ) { free(envp); envp = 0i64; return 0xFFFFFFFFi64; } if ( strcpy_s(v6, v5, v4) ) invoke_watson(0i64, 0i64, 0i64, 0, 0i64); ++v3; } v4 += v5; if ( !*v4 ) { v4 = qword_140285688; break; } } } free(v4); qword_140285688 = 0i64; *v3 = 0i64; dword_140286DB0 = 1; return 0i64; }

openssl

// attributes: thunk errno_t __cdecl j_clearerr_s(FILE *Stream) { return clearerr_s(Stream); }

openssl

void __fastcall FUNC(void *a1) { if ( a1 ) { FUNC((__int64)a1); CRYPTO_free(a1, "crypto\\ts\\ts_verify_ctx.c", 36i64); } }

openssl

__int64 __fastcall FUNC() { int v0; // eax return FUNC((unsigned int)(v0 - 36)); }

openssl

__int64 __fastcall FUNC(Concurrency::details::VirtualProcessor *a1, unsigned __int8 *a2) { int v4; // edi struct Concurrency::details::SchedulingRing *OwningRing; // rax v4 = FUNC((__int64)a1); OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(a1); FUNC(OwningRing, v4, a2); return 1i64; }

openssl

__int64 __fastcall FUNC(__int64 a1) { int v1; // eax _QWORD *v3; // rbx evp_cipher_ctx_st *v5; // rax v3 = CRYPTO_zalloc(0x1150ui64, "crypto\\evp\\bio_enc.c", (unsigned int)(v1 + 20)); if ( v3 ) { v5 = EVP_CIPHER_CTX_new(); v3[3] = v5; if ( v5 ) { *((_DWORD *)v3 + 2) = 1; v3[4] = v3 + 42; v3[5] = v3 + 42; *((_DWORD *)v3 + 4) = 1; FUNC(a1, (__int64)v3); FUNC(a1, 1); return 1i64; } else { CRYPTO_free(v3, "crypto\\evp\\bio_enc.c", 75i64); return 0i64; } } else { FUNC(6, 199, 65, (__int64)"crypto\\evp\\bio_enc.c", 69); return 0i64; } }

openssl

__int64 __fastcall FUNC( __int64 a1, _BYTE *a2, __int64 a3, unsigned __int64 a4, void (__fastcall *a5)(_BYTE *, __int64, __int64, __int64, __int64)) { unsigned __int64 v6; // rsi unsigned __int64 v8; // rcx int v10; // ebp __int64 v12; // rax __int64 v13; // rax int v14; // r15d __int64 v15; // r13 __int64 v16; // rdx char v17; // cl void (__fastcall *v18)(_BYTE *, __int64, __int64, __int64, __int64); // r10 unsigned __int64 v19; // rbx unsigned __int64 v20; // rax unsigned __int64 v21; // rbx int v22; // r15d _BYTE *v23; // r12 __int64 v24; // rdx _BYTE *v25; // r9 __int64 v26; // rax __int64 v27; // r8 char v28; // al int v29; // [rsp+30h] [rbp-48h] __int64 v30; // [rsp+38h] [rbp-40h] int v31; // [rsp+80h] [rbp+8h] __int64 v32; // [rsp+98h] [rbp+20h] v6 = a4; v30 = *(_QWORD *)(a1 + 384); v8 = a4 + *(_QWORD *)(a1 + 56); if ( v8 > 0xFFFFFFFE0i64 || v8 < a4 ) return 0xFFFFFFFFi64; v10 = *(_DWORD *)(a1 + 368); *(_QWORD *)(a1 + 56) = v8; v31 = v10; if ( *(_DWORD *)(a1 + 372) ) { if ( !a4 ) { FUNC((_BYTE *)(a1 + 64), a1 + 96); *(_DWORD *)(a1 + 372) = 0; return 0i64; } v12 = *(_QWORD *)(a1 + 64); v10 = 16; *(_DWORD *)(a1 + 372) = 0; *(_QWORD *)(a1 + 392) = v12; v13 = *(_QWORD *)(a1 + 72); *(_QWORD *)(a1 + 64) = 0i64; *(_QWORD *)(a1 + 72) = 0i64; v31 = 16; *(_QWORD *)(a1 + 400) = v13; } v14 = *(unsigned __int8 *)(a1 + 15) | ((*(unsigned __int8 *)(a1 + 14) | ((*(unsigned __int8 *)(a1 + 13) | (*(unsigned __int8 *)(a1 + 12) << 8)) << 8)) << 8); v15 = v10 & 0xF; v29 = v10 & 0xF; if ( (v10 & 0xF) != 0 ) { v16 = v10; while ( v6 ) { ++v16; ++v10; v17 = *a2 ^ *(_BYTE *)(v15 + a1 + 16); ++a3; ++a2; *(_BYTE *)(a3 - 1) = v17; --v6; *(_BYTE *)(v16 + a1 + 391) = v17; v15 = ((_BYTE)v15 + 1) & 0xF; v29 = v15; if ( !(_DWORD)v15 ) goto LABEL_13; } if ( (_DWORD)v15 ) goto LABEL_26; LABEL_13: FUNC((_BYTE *)(a1 + 64), a1 + 96, a1 + 392, (unsigned int)v10); v10 = 0; v31 = 0; } if ( v6 >= 0x10 && v10 ) { FUNC((_BYTE *)(a1 + 64), a1 + 96, a1 + 392, (unsigned int)v10); v10 = 0; v31 = 0; } v18 = a5; if ( v6 >= 0xC00 ) { v19 = v6 / 0xC00; do { v18(a2, a3, 192i64, v30, a1); v14 += 192; *(_BYTE *)(a1 + 15) = v14; *(_BYTE *)(a1 + 12) = HIBYTE(v14); *(_BYTE *)(a1 + 13) = BYTE2(v14); *(_BYTE *)(a1 + 14) = BYTE1(v14); FUNC((_BYTE *)(a1 + 64), a1 + 96, a3, 3072i64); v18 = a5; a3 += 3072i64; a2 += 3072; --v19; } while ( v19 ); v6 %= 0xC00ui64; v10 = v31; LODWORD(v15) = v29; } v20 = v6 & 0xFFFFFFFFFFFFFFF0ui64; v32 = v6 & 0xFFFFFFFFFFFFFFF0ui64; if ( (v6 & 0xFFFFFFFFFFFFFFF0ui64) != 0 ) { v21 = v20 >> 4; v18(a2, a3, v20 >> 4, v30, a1); v14 += v21; *(_BYTE *)(a1 + 12) = HIBYTE(v14); *(_BYTE *)(a1 + 15) = v14; a2 += v32; v6 -= v32; *(_BYTE *)(a1 + 13) = BYTE2(v14); *(_BYTE *)(a1 + 14) = BYTE1(v14); FUNC((_BYTE *)(a1 + 64), a1 + 96, a3, v32); a3 += v32; } if ( v6 ) { (*(void (__fastcall **)(__int64, __int64, __int64))(a1 + 376))(a1, a1 + 16, v30); v22 = v14 + 1; v23 = &a2[-a3]; *(_BYTE *)(a1 + 15) = v22; v24 = (int)v15 + a3; v25 = (_BYTE *)((int)v15 + a1 + 16); *(_BYTE *)(a1 + 12) = HIBYTE(v22); *(_BYTE *)(a1 + 13) = BYTE2(v22); *(_BYTE *)(a1 + 14) = BYTE1(v22); v26 = v10; v10 += v6; v27 = v26 + a1 + 392; do { ++v27; v28 = *v25++ ^ v23[v24++]; --v6; *(_BYTE *)(v24 - 1) = v28; *(_BYTE *)(v27 - 1) = v28; } while ( v6 ); } LABEL_26: *(_DWORD *)(a1 + 368) = v10; return 0i64; }

openssl

__int64 __fastcall lseek_nolock(int a1, LONG a2, DWORD a3) { __int64 v3; // rbx void *osfhandle; // rax DWORD v8; // edi int LastError; // eax v3 = a1; osfhandle = (void *)get_osfhandle(a1); if ( osfhandle == (void *)-1i64 ) { *errno() = 9; return 0xFFFFFFFFi64; } v8 = SetFilePointer(osfhandle, a2, 0i64, a3); if ( v8 == -1 ) LastError = GetLastError(); else LastError = 0; if ( LastError ) { dosmaperr(LastError); return 0xFFFFFFFFi64; } *(_BYTE *)(qword_140286BA0[v3 >> 5] + 88 * (v3 & 0x1F) + 8) &= ~2u; return v8; }

openssl

_BOOL8 __fastcall CONF_module_add_0( char *name, int (__fastcall *ifunc)(conf_imodule_st *, const conf_st *), void (__fastcall *ffunc)(conf_imodule_st *)) { return FUNC(0i64, name, (__int64)ifunc, (__int64)ffunc) != 0i64; }

openssl

__int64 __fastcall FUNC(const char *a1, const char *a2, const conf_st *a3) { int v3; // eax unsigned int v5; // r14d engine_st *v7; // rbp char *v8; // rax unsigned int *v9; // rax __int64 v10; // rdi int v12; // r15d __int64 v13; // rax const char *v14; // rbx _QWORD *v15; // r13 char *v16; // rax const char *v17; // r12 __int64 v18; // rax int v19; // [rsp+40h] [rbp-58h] unsigned int *v20; // [rsp+48h] [rbp-50h] const char *v21; // [rsp+A0h] [rbp+8h] int v24; // [rsp+B8h] [rbp+20h] BYREF v21 = a1; v5 = 0; v24 = -1; v7 = 0i64; v19 = 0; v8 = strchr(a1, v3 - 66); if ( v8 ) v21 = v8 + 1; v9 = (unsigned int *)FUNC(a3, a2); v10 = (__int64)v9; v20 = v9; if ( v9 ) { v12 = 0; if ( (int)FUNC(v9) > 0 ) { do { v13 = FUNC(v10, v12); v14 = *(const char **)(v13 + 8); v15 = (_QWORD *)v13; v16 = strchr(v14, 46); if ( v16 ) v14 = v16 + 1; v17 = (const char *)v15[2]; if ( !strcmp(v14, "engine_id") ) { v21 = (const char *)v15[2]; } else if ( !strcmp(v14, "soft_load") ) { v19 = 1; } else if ( !strcmp(v14, "dynamic_path") ) { v18 = FUNC("dynamic"); v7 = (engine_st *)v18; if ( !v18 || !(unsigned int)FUNC(v18, "SO_PATH", v17, 0) || !(unsigned int)FUNC((__int64)v7, "LIST_ADD", "2", 0) || !(unsigned int)FUNC((__int64)v7, "LOAD", 0i64, 0) ) { goto LABEL_38; } } else { if ( !v7 ) { v7 = (engine_st *)FUNC(v21); if ( !v7 ) { if ( v19 ) { FUNC(); return 1i64; } goto LABEL_38; } } if ( !strcmp(v17, "EMPTY") ) v17 = 0i64; if ( !strcmp(v14, "init") ) { if ( !(unsigned int)FUNC((__int64)a3, (__int64)a2, (__int64)"init", &v24) ) goto LABEL_38; if ( v24 == 1 ) { if ( !(unsigned int)int_engine_init(v7) ) goto LABEL_38; } else if ( v24 ) { FUNC(38, 188, 151, (__int64)"crypto\\engine\\eng_cnf.c", 122); goto LABEL_38; } } else if ( !strcmp(v14, "default_algorithms") ) { if ( !FUNC((__int64)v7, (__int64)v17) ) goto LABEL_38; } else if ( !(unsigned int)FUNC((__int64)v7, v14, v17, 0) ) { goto LABEL_38; } } v10 = (__int64)v20; ++v12; } while ( v12 < (int)FUNC(v20) ); if ( v7 && v24 == -1 && !(unsigned int)int_engine_init(v7) ) { v15 = 0i64; LABEL_38: FUNC(38, 188, 102, (__int64)"crypto\\engine\\eng_cnf.c", 141); if ( v15 ) ERR_add_error_data(6, "section=", *v15, ", name=", v15[1], ", value=", v15[2]); goto LABEL_43; } } v5 = 1; LABEL_43: FUNC((__int64)v7); return v5; } else { FUNC(38, 188, 149, (__int64)"crypto\\engine\\eng_cnf.c", 61); return 0i64; } }

openssl

_BOOL8 __fastcall FUNC(_QWORD *a1, unsigned __int64 *a2, unsigned __int64 *a3, int a4, int a5) { __int64 v5; // rbp _BOOL8 result; // rax int v10; // r10d __int64 v11; // r11 _QWORD *v12; // rbx unsigned __int64 *v13; // rdi unsigned __int64 *v14; // rsi __int64 v15; // rax bool v16; // sf int v17; // r10d unsigned __int64 v18; // rcx __int64 v19; // rax int v20; // r10d unsigned __int64 v21; // rcx __int64 v22; // rax int v23; // r10d unsigned __int64 v24; // rcx __int64 v25; // rax __int64 v26; // rax int v27; // r10d __int64 v28; // rax int v29; // r10d __int64 v30; // rax int v31; // r10d __int64 v32; // rax int v33; // r10d int v34; // r10d int v35; // r10d int v36; // r10d unsigned __int64 v37; // rax v5 = a4; result = FUNC(a1, a2, a3, a4); v10 = a5; v11 = result; if ( a5 ) { v12 = &a1[v5]; v13 = &a2[v5]; v14 = &a3[v5]; if ( a5 >= 0 ) { if ( result ) { while ( 1 ) { v26 = *v13 - v11; if ( *v13 ) v11 = 0i64; v27 = v10 - 1; *v12 = v26; if ( v27 <= 0 ) break; v28 = v13[1] - v11; if ( v13[1] ) v11 = 0i64; v29 = v27 - 1; v12[1] = v28; if ( v29 <= 0 ) break; v30 = v13[2] - v11; if ( v13[2] ) v11 = 0i64; v31 = v29 - 1; v12[2] = v30; if ( v31 <= 0 ) break; v32 = v13[3] - v11; if ( v13[3] ) v11 = 0i64; v10 = v31 - 1; v12[3] = v32; if ( v10 <= 0 ) break; v13 += 4; v12 += 4; if ( !v11 ) goto LABEL_30; } } else { LABEL_30: if ( v10 > 0 ) { v33 = v10 - 1; for ( *v12 = *v13; v33 > 0; *v12 = v37 ) { v34 = v33 - 1; v12[1] = v13[1]; if ( v34 <= 0 ) break; v35 = v34 - 1; v12[2] = v13[2]; if ( v35 <= 0 ) break; v36 = v35 - 1; v12[3] = v13[3]; if ( v36 <= 0 ) break; v37 = v13[4]; v13 += 4; v12 += 4; v33 = v36 - 1; } } } } else { while ( 1 ) { v15 = -(__int64)(*v14 + v11); if ( *v14 ) v11 = 1i64; v16 = v10 + 1 < 0; v17 = v10 + 1; *v12 = v15; if ( !v16 ) break; v18 = v14[1]; v19 = -(__int64)(v18 + v11); if ( v18 ) v11 = 1i64; v16 = v17 + 1 < 0; v20 = v17 + 1; v12[1] = v19; if ( !v16 ) break; v21 = v14[2]; v22 = -(__int64)(v21 + v11); if ( v21 ) v11 = 1i64; v16 = v20 + 1 < 0; v23 = v20 + 1; v12[2] = v22; if ( !v16 ) break; v24 = v14[3]; v25 = -(__int64)(v24 + v11); if ( v24 ) v11 = 1i64; v16 = v23 + 1 < 0; v10 = v23 + 1; v12[3] = v25; if ( !v16 ) break; v14 += 4; v12 += 4; } } return v11; } return result; }

openssl

__int64 __fastcall FUNC(__int64 a1, Concurrency::details::VirtualProcessor *a2) { if ( (unsigned int)FUNC(a2) ) { if ( Concurrency::details::VirtualProcessor::GetOwningRoot(a2) ) { *(_QWORD *)(a1 + 480) = a2; return 1i64; } else { FUNC(20, 290, 331, (unsigned int)"ssl\\ssl_sess.c", 1214); FUNC(a2); return 0i64; } } else { FUNC(20, 290, 38, (unsigned int)"ssl\\ssl_sess.c", 1209); return 0i64; } }

openssl

__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3, __int64 a4, __int64 a5, __int64 a6, int a7) { __int64 v7; // rbx __int64 v12; // rdi unsigned int v13; // ebp __int64 v14; // rax __int64 v15; // rax v7 = 0i64; v12 = 0i64; v13 = 0; if ( a2 || a3 ) { v14 = FUNC(); v7 = v14; if ( !v14 || !(unsigned int)X509_STORE_load_locations(v14, a3, a2) ) goto LABEL_13; FUNC(v7, a6); FUNC(a1, 106i64, 1i64); if ( a7 ) FUNC(v7); } if ( !a4 && !a5 ) goto LABEL_12; v15 = FUNC(); v12 = v15; if ( v15 && (unsigned int)X509_STORE_load_locations(v15, a5, a4) ) { FUNC(a1, 107i64, 1i64); LABEL_12: v13 = 1; } LABEL_13: FUNC(v7); FUNC(v12); return v13; }

openssl

char IsNonwritableInCurrentImage() { __int64 PESection; // rax __int64 v1; // r8 __int64 v2; // r9 LOBYTE(PESection) = ValidateImageBase(0x140000000i64); if ( (_DWORD)PESection ) { PESection = FindPESection(v2, v1 - v2); if ( PESection ) LOBYTE(PESection) = *(int *)(PESection + 36) >= 0; } return PESection; }

openssl

__int64 __fastcall X509_NAME_get_entry_0(__int64 *a1, int a2) { if ( a1 && (int)FUNC((unsigned int *)*a1) > a2 && a2 >= 0 ) return FUNC(*a1, a2); else return 0i64; }

openssl

char __fastcall RC2_cfb64_encrypt(char *a1, __int64 a2, int a3, __int64 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); FUNC((int *)&a5, a4); 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); FUNC((int *)&a5, a4); 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

__int64 __fastcall FUNC(int *a1, __int64 *a2) { __int64 v2; // rdi bool v4; // zf __int64 result; // rax tm v6; // [rsp+20h] [rbp-38h] BYREF __time64_t Time; // [rsp+60h] [rbp+8h] BYREF v2 = 0i64; if ( a1 ) { v4 = (unsigned int)FUNC((__int64)&v6, a1) == 0; } else { time64(&Time); memset(&v6, 0, sizeof(v6)); v4 = OPENSSL_gmtime(&Time, &v6) == 0i64; } if ( v4 ) return 0i64; if ( a2 ) v2 = *a2; result = FUNC(v2, &v6, 24); if ( a2 ) { if ( result ) *a2 = result; } return result; }

openssl

__int64 __fastcall tsopen_nolock_0(_DWORD *a1, int *a2, const WCHAR *a3, int a4, int a5, char a6) { unsigned int v6; // edi int v7; // esi DWORD dwCreationDisposition; // ebp char v10; // r14 DWORD v12; // r15d int v13; // r12d DWORD v14; // ecx int v15; // eax DWORD dwFlagsAndAttributes; // r13d int v17; // eax DWORD v18; // r8d HANDLE v19; // rax int v20; // eax DWORD FileType; // eax int LastError; // ebx char v23; // r14 int v24; // ecx int v25; // eax unsigned int v26; // eax int v27; // ebp int nolock; // eax bool v29; // zf int v30; // eax __int64 v31; // rax __int64 v32; // rcx __int64 v33; // rax __int64 v34; // rax __int64 v35; // rdx __int64 v36; // rcx HANDLE v37; // rax int v38; // eax int Buf; // [rsp+40h] [rbp-78h] BYREF DWORD dwShareMode; // [rsp+44h] [rbp-74h] char v41; // [rsp+48h] [rbp-70h] DWORD v42; // [rsp+4Ch] [rbp-6Ch] WCHAR v43[2]; // [rsp+50h] [rbp-68h] BYREF int Daylight; // [rsp+54h] [rbp-64h] BYREF HANDLE hObject; // [rsp+58h] [rbp-60h] struct _SECURITY_ATTRIBUTES SecurityAttributes; // [rsp+60h] [rbp-58h] BYREF char v49; // [rsp+D8h] [rbp+20h] v6 = 0; v7 = a4; SecurityAttributes.nLength = 24; dwCreationDisposition = 1; Daylight = 0; v49 = 0; SecurityAttributes.lpSecurityDescriptor = 0i64; if ( (a4 & 0x80u) == 0 ) { SecurityAttributes.bInheritHandle = 1; v10 = 0; } else { SecurityAttributes.bInheritHandle = 0; v10 = 16; } if ( get_daylight(&Daylight) ) invoke_watson(0i64, 0i64, 0i64, 0, 0i64); if ( (v7 & 0x8000) == 0 && ((v7 & 0x74000) != 0 || Daylight != 0x8000) ) v10 |= 0x80u; switch ( v7 & 3 ) { case 0: v12 = 0x80000000; goto LABEL_19; case 1: if ( (v7 & 8) == 0 || (v7 & 0x70000) == 0 ) { v12 = 0x40000000; goto LABEL_19; } break; case 2: break; default: LABEL_13: *_doserrno() = 0; *a2 = -1; *errno() = 22; invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 22i64; } v12 = -1073741824; LABEL_19: v13 = 2; switch ( a5 ) { case 16: v14 = 0; break; case 32: v14 = 1; break; case 48: v14 = 2; break; case 64: v14 = 3; break; case 128: v14 = v12 == 0x80000000; break; default: goto LABEL_13; } dwShareMode = v14; v15 = v7 & 0x700; if ( (v7 & 0x700) == 0 ) goto LABEL_41; switch ( v15 ) { case 256: dwCreationDisposition = 4; goto LABEL_42; case 512: LABEL_39: dwCreationDisposition = 5; goto LABEL_42; case 768: dwCreationDisposition = 2; goto LABEL_42; case 1024: LABEL_41: dwCreationDisposition = 3; goto LABEL_42; case 1280: goto LABEL_42; case 1536: goto LABEL_39; } if ( v15 != 1792 ) goto LABEL_13; LABEL_42: dwFlagsAndAttributes = 128; v42 = 128; if ( (v7 & 0x100) != 0 ) { if ( (a6 & ~byte_140285520 & 0x80u) == 0 ) dwFlagsAndAttributes = 1; v42 = dwFlagsAndAttributes; } if ( (v7 & 0x40) != 0 ) { dwFlagsAndAttributes |= 0x4000000u; v12 |= 0x10000u; v42 = dwFlagsAndAttributes; dwShareMode = v14 | 4; } if ( (v7 & 0x1000) != 0 ) { dwFlagsAndAttributes |= 0x100u; v42 = dwFlagsAndAttributes; } if ( (v7 & 0x20) != 0 ) { dwFlagsAndAttributes |= 0x8000000u; } else { if ( (v7 & 0x10) == 0 ) goto LABEL_55; dwFlagsAndAttributes |= 0x10000000u; } v42 = dwFlagsAndAttributes; LABEL_55: v17 = alloc_osfhnd(); *a2 = v17; if ( v17 == -1 ) { *_doserrno() = 0; *a2 = -1; *errno() = 24; return (unsigned int)*errno(); } v18 = dwShareMode; *a1 = 1; v19 = CreateFileW(a3, v12, v18, &SecurityAttributes, dwCreationDisposition, dwFlagsAndAttributes, 0i64); hObject = v19; if ( v19 != (HANDLE)-1i64 || (v12 & 0xC0000000) == -1073741824 && (v7 & 1) != 0 && (v12 &= ~0x80000000, v19 = CreateFileW(a3, v12, dwShareMode, &SecurityAttributes, dwCreationDisposition, dwFlagsAndAttributes, 0i64), hObject = v19, v19 != (HANDLE)-1i64) ) { FileType = GetFileType(v19); switch ( FileType ) { case 0u: *(_BYTE *)(qword_140286BA0[(__int64)*a2 >> 5] + 88i64 * (*a2 & 0x1F) + 8) &= ~1u; LastError = GetLastError(); dosmaperr(LastError); CloseHandle(hObject); if ( !LastError ) *errno() = 13; return (unsigned int)*errno(); case 2u: v10 |= 0x40u; break; case 3u: v10 |= 8u; break; } set_osfhnd(*a2, hObject); v23 = v10 | 1; *(_BYTE *)(qword_140286BA0[(__int64)*a2 >> 5] + 88i64 * (*a2 & 0x1F) + 8) = v23; *(_BYTE *)(qword_140286BA0[(__int64)*a2 >> 5] + 88i64 * (*a2 & 0x1F) + 56) &= 0x80u; v41 = v23 & 0x48; if ( (v23 & 0x48) == 0 ) { if ( v23 >= 0 ) goto LABEL_128; if ( (v7 & 2) != 0 ) { Buf = lseek_nolock(*a2, -1, 2u); if ( Buf == -1 ) { if ( *_doserrno() != 131 ) { LABEL_75: close_nolock(*a2); return (unsigned int)*errno(); } } else { v24 = *a2; v43[0] = 0; if ( !(unsigned int)read_nolock(v24, v43, 1u) && v43[0] == 26 && (unsigned int)chsize_nolock(*a2, Buf) == -1 || (unsigned int)lseek_nolock(*a2, 0, 0) == -1 ) { goto LABEL_75; } } } } if ( v23 >= 0 ) { LABEL_128: v31 = *a2; v32 = 88 * (v31 & 0x1F); v33 = qword_140286BA0[v31 >> 5]; *(_BYTE *)(v33 + v32 + 56) &= 0x80u; *(_BYTE *)(v33 + v32 + 56) |= v49 & 0x7F; v34 = *a2; v35 = 88 * (v34 & 0x1F); v36 = qword_140286BA0[v34 >> 5]; *(_BYTE *)(v36 + v35 + 56) &= ~0x80u; *(_BYTE *)(v36 + v35 + 56) |= BYTE2(v7) << 7; if ( !v41 && (v7 & 8) != 0 ) *(_BYTE *)(qword_140286BA0[(__int64)*a2 >> 5] + 88i64 * (*a2 & 0x1F) + 8) |= 0x20u; if ( (v12 & 0xC0000000) != -1073741824 || (v7 & 1) == 0 ) return v6; CloseHandle(hObject); v37 = CreateFileW(a3, v12 & 0x7FFFFFFF, dwShareMode, &SecurityAttributes, 3u, v42, 0i64); if ( v37 != (HANDLE)-1i64 ) { *(_QWORD *)(88i64 * (*a2 & 0x1F) + qword_140286BA0[(__int64)*a2 >> 5]) = v37; return v6; } v38 = GetLastError(); dosmaperr(v38); *(_BYTE *)(qword_140286BA0[(__int64)*a2 >> 5] + 88i64 * (*a2 & 0x1F) + 8) &= ~1u; free_osfhnd(*a2); return (unsigned int)*errno(); } if ( (v7 & 0x74000) == 0 ) { if ( (Daylight & 0x74000) != 0 ) v7 |= Daylight & 0x74000; else v7 |= 0x4000u; } v25 = v7 & 0x74000; if ( (v7 & 0x74000) == 0x4000 ) { v49 = 0; goto LABEL_96; } if ( v25 == 0x10000 || v25 == 81920 ) { if ( (v7 & 0x301) != 769 ) goto LABEL_96; } else if ( v25 != 0x20000 && v25 != 147456 ) { if ( v25 == 0x40000 || v25 == 278528 ) v49 = 1; LABEL_96: if ( (v7 & 0x70000) == 0 ) goto LABEL_128; Buf = 0; if ( (v23 & 0x40) != 0 ) goto LABEL_128; v26 = v12 & 0xC0000000; if ( (v12 & 0xC0000000) == 0x40000000 ) { if ( dwCreationDisposition > 2 && dwCreationDisposition <= 4 && lseeki64_nolock(*a2, 0i64, 2u) ) { v29 = lseeki64_nolock(*a2, 0i64, 0) == -1; LABEL_123: if ( v29 ) goto LABEL_75; goto LABEL_128; } } else { if ( v26 == 0x80000000 ) goto LABEL_108; if ( v26 != -1073741824 ) goto LABEL_128; if ( dwCreationDisposition > 2 && dwCreationDisposition <= 4 && lseeki64_nolock(*a2, 0i64, 2u) ) { if ( lseeki64_nolock(*a2, 0i64, 0) == -1 ) goto LABEL_75; LABEL_108: nolock = read_nolock(*a2, (WCHAR *)&Buf, 3u); if ( nolock == -1 ) goto LABEL_75; if ( nolock != 2 ) { if ( nolock != 3 ) { LABEL_118: v29 = (unsigned int)lseek_nolock(*a2, 0, 0) == -1; goto LABEL_123; } if ( Buf == 12565487 ) { v49 = 1; goto LABEL_128; } } if ( (unsigned __int16)Buf == 65534 ) { close_nolock(*a2); *errno() = 22; return 22; } if ( (unsigned __int16)Buf == 65279 ) { if ( (unsigned int)lseek_nolock(*a2, 2, 0) == -1 ) goto LABEL_75; v49 = 2; goto LABEL_128; } goto LABEL_118; } } v27 = 0; if ( v49 == 1 ) { Buf = 12565487; v13 = 3; LABEL_126: while ( 1 ) { v30 = write(*a2, (char *)&Buf + v27, v13 - v27); if ( v30 == -1 ) goto LABEL_75; v27 += v30; if ( v13 <= v27 ) goto LABEL_128; } } if ( v49 == 2 ) { Buf = 65279; goto LABEL_126; } goto LABEL_128; } v49 = 2; goto LABEL_96; } *(_BYTE *)(qword_140286BA0[(__int64)*a2 >> 5] + 88i64 * (*a2 & 0x1F) + 8) &= ~1u; v20 = GetLastError(); dosmaperr(v20); return (unsigned int)*errno(); }

openssl

__int64 FUNC() { return ASN1_item_new(&unk_140215C20); }

openssl

__int64 __fastcall FUNC(__int64 *a1, __int64 a2, int *a3) { return FUNC(a1, a2, a3); }

openssl

__int64 __fastcall FUNC(__int64 a1, int a2) { *(_DWORD *)(a1 + 152) = a2; return 1i64; }

openssl

__int64 __fastcall PKCS7_print_ctx_0(bio_st *out, pkcs7_st *x, unsigned int indent, const asn1_pctx_st *pctx) { return FUNC(out, (__int64)x, indent, (__int64)&unk_14020C570, (signed __int32 *)pctx); }

openssl

__int64 __fastcall FUNC(Concurrency::details::VirtualProcessor *a1, __int64 a2) { struct Concurrency::details::SchedulingRing *OwningRing; // rbx OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(a1); *((_QWORD *)OwningRing + 48) = 0i64; DES_set_key_unchecked(a2, OwningRing); DES_set_key_unchecked(a2 + 8, (char *)OwningRing + 128); DES_set_key_unchecked(a2 + 16, (char *)OwningRing + 256); return 1i64; }

openssl

__int64 __fastcall FUNC() { int v0; // eax __int64 result; // rax dword_140279660 = FUNC(v0 - 43, 0, (unsigned int)"SSL for verify callback", 0, 0i64, 0i64); result = (unsigned int)dword_140279660; dword_140282374 = dword_140279660 >= 0; return result; }

openssl

void __fastcall FUNC(void **a1) { EVP_CIPHER_CTX_reset(a1); CRYPTO_free(a1, "crypto\\evp\\evp_enc.c", 48i64); }

openssl

__int64 __fastcall cftof_l(_QWORD *a1, char *a2, __int64 a3, int a4, struct localeinfo_struct *a5) { __int64 result; // rax int v9; // [rsp+30h] [rbp-68h] BYREF char v10[24]; // [rsp+48h] [rbp-50h] BYREF fltout2(*a1, &v9, v10, 22i64); if ( a2 && a3 ) { result = fptostr(&a2[v9 == 45]); if ( (_DWORD)result ) *a2 = 0; else return cftof2_l(a2, a3, a4, &v9, 0, a5); } else { *errno() = 22; invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 22i64; } return result; }

openssl

__int64 FUNC() { void *v0; // rdx __int64 v1; // rax void *v2; // rdx __int64 v3; // rbx if ( !(unsigned int)FUNC(0, 0i64) || !FUNC(&dword_140285468) ) return 0i64; if ( !FUNC(&dword_14028546C) ) { LABEL_10: CRYPTO_THREAD_set_local_1_0(&dword_140285468, v0); return 0i64; } v1 = FUNC(1, dword_14027E4F0, dword_14028547C, 0i64); v3 = v1; if ( v1 ) { if ( (unsigned int)FUNC(v1) ) { *(_DWORD *)(v3 + 136) = 1; FUNC(v3, (__int64)"OpenSSL NIST SP 800-90A DRBG", 0x1Cui64); } else { FUNC(v3); v3 = 0i64; } } qword_140285470 = v3; if ( !v3 ) { CRYPTO_THREAD_set_local_1_0(&dword_14028546C, v2); goto LABEL_10; } return 1i64; }

openssl

__int64 __fastcall FUNC(char *a1) { unsigned int v1; // ebx char *v2; // rdi char v3; // al int v4; // esi unsigned int v5; // eax v1 = 0; v2 = a1; if ( !a1 ) return 0i64; v3 = *a1; if ( !*a1 ) return 0i64; v4 = 256; do { ++v2; v5 = v4 | FUNC((unsigned int)v3); v4 += 256; v1 = (v5 * v5) ^ __ROL4__(v1, (v5 ^ (v5 >> 2)) & 0xF); v3 = *v2; } while ( *v2 ); return v1 ^ HIWORD(v1); }

openssl

__int64 __fastcall FUNC(__int64 a1, __int64 a2) { __int64 result; // rax const char *v5; // rax char v6[256]; // [rsp+20h] [rbp-118h] BYREF result = FUNC(a1); if ( result == *(_QWORD *)a2 ) { v5 = (const char *)FUNC(a1); FUNC(v6, 256i64, "STORE(%s)", v5); result = FUNC(*(void ***)(a2 + 8), *(int **)(a2 + 16), v6); if ( !(_DWORD)result ) *(_DWORD *)(a2 + 24) = 0; } return result; }

openssl

void *FUNC() { return &unk_140252A70; }

openssl

__int64 __fastcall FUNC(__int64 *a1, unsigned __int8 **a2, __int64 a3) { return FUNC(a1, a2, a3, (__int64)&unk_140216CA0); }

openssl

__int64 __fastcall FUNC(__int64 a1, const void *a2, size_t a3, int a4) { __int64 v5; // rcx unsigned int v6; // r12d size_t v7; // rbx int v9; // r13d unsigned __int64 v10; // r15 _BYTE *v11; // rsi size_t Size; // [rsp+70h] [rbp+8h] v5 = *(_QWORD *)(a1 + 168); v6 = 0; v7 = a3; if ( (*(_DWORD *)(*(_QWORD *)(v5 + 568) + 28i64) & 0x1C8) == 0 ) { if ( !(*(unsigned int (__fastcall **)(__int64, __int64, const void *, size_t, __int64))(*(_QWORD *)(*(_QWORD *)(a1 + 8) + 192i64) + 24i64))( a1, *(_QWORD *)(a1 + 1288) + 80i64, a2, a3, *(_QWORD *)(a1 + 1288) + 8i64) ) goto LABEL_13; goto LABEL_12; } v9 = *(_DWORD *)(*(_QWORD *)(v5 + 568) + 28i64) & 8; if ( v9 ) v7 = *(_QWORD *)(v5 + 720); Size = *(_QWORD *)(v5 + 720); v10 = Size + v7 + 4; v11 = CRYPTO_malloc(v10, "ssl\\s3_lib.c", 4626); if ( v11 ) { v11[1] = v7; *v11 = BYTE1(v7); if ( v9 ) memset(v11 + 2, 0, v7); else memmove(v11 + 2, a2, v7); v11[v7 + 3] = Size; v11[v7 + 2] = BYTE1(Size); memmove(&v11[v7 + 4], *(const void **)(*(_QWORD *)(a1 + 168) + 712i64), Size); FUNC(*(_QWORD *)(*(_QWORD *)(a1 + 168) + 712i64), Size, "ssl\\s3_lib.c", 4639i64); *(_QWORD *)(*(_QWORD *)(a1 + 168) + 712i64) = 0i64; if ( !(*(unsigned int (__fastcall **)(__int64, __int64, _BYTE *, unsigned __int64, __int64))(*(_QWORD *)(*(_QWORD *)(a1 + 8) + 192i64) + 24i64))( a1, *(_QWORD *)(a1 + 1288) + 80i64, v11, v10, *(_QWORD *)(a1 + 1288) + 8i64) ) { FUNC(v11, v10, "ssl\\s3_lib.c", 4644i64); goto LABEL_13; } FUNC(v11, v10, "ssl\\s3_lib.c", 4648i64); LABEL_12: v6 = 1; } LABEL_13: if ( a2 ) { if ( a4 ) FUNC(a2, v7, "ssl\\s3_lib.c", 4666i64); else OPENSSL_cleanse_0((__int64)a2, v7); } if ( !*(_DWORD *)(a1 + 56) ) *(_QWORD *)(*(_QWORD *)(a1 + 168) + 696i64) = 0i64; return v6; }

openssl

const char *FUNC() { return "C:\\OpenSSL-x64/certs"; }

openssl

struct stack_st_PKCS7_SIGNER_INFO *__fastcall PKCS7_get_signer_info_0(pkcs7_st *p7) { if ( p7 && *((_QWORD *)p7 + 4) && ((unsigned int)FUNC(*((_QWORD *)p7 + 3)) == 22 || (unsigned int)FUNC(*((_QWORD *)p7 + 3)) == 24) ) { return *(struct stack_st_PKCS7_SIGNER_INFO **)(*((_QWORD *)p7 + 4) + 32i64); } else { return 0i64; } }

openssl

__int64 ERR_load_OSSL_STORE_strings_0() { if ( !ERR_func_error_string_0(0x2C081000u) ) { ERR_load_strings_const_0((const ERR_string_data_st *)&unk_14023E2F0); ERR_load_strings_const_0((const ERR_string_data_st *)&unk_14023E560); } return 1i64; }

openssl

__int64 __fastcall ocsp_helper(const x509_purpose_st *xp, const x509_st *x, int ca) { if ( ca ) return FUNC((__int64)x); else return 1i64; }

openssl

__int64 __fastcall FUNC(Concurrency::details::VirtualProcessor *a1, __int64 a2, const void *a3) { struct Concurrency::details::SchedulingRing *OwningRing; // rax struct Concurrency::details::SchedulingRing *v7; // rbx size_t v8; // r8 OwningRing = Concurrency::details::VirtualProcessor::GetOwningRing(a1); v7 = OwningRing; if ( a3 ) { if ( !a2 ) { v8 = *((int *)OwningRing + 176); if ( *((_DWORD *)OwningRing + 62) ) FUNC((char *)OwningRing + 256, a3, v8); else memmove(*((void **)OwningRing + 87), a3, v8); *((_DWORD *)v7 + 63) = 1; *((_DWORD *)v7 + 178) = 0; return 1i64; } } else if ( !a2 ) { return 1i64; } AES_set_encrypt_key(a2, (unsigned int)(8 * *((_DWORD *)a1 + 26)), OwningRing); FUNC((char *)v7 + 256, v7, AES_encrypt); *((_QWORD *)v7 + 90) = 0i64; if ( a3 || *((_DWORD *)v7 + 63) && (a3 = (const void *)*((_QWORD *)v7 + 87)) != 0i64 ) { FUNC((char *)v7 + 256, a3, *((int *)v7 + 176)); *((_DWORD *)v7 + 63) = 1; } *((_DWORD *)v7 + 62) = 1; return 1i64; }

openssl

CHAR *__fastcall getdcwd_nolock(int a1, CHAR *a2, signed int a3) { int v5; // edi signed int v6; // ebp signed int FullPathNameA; // eax CHAR *v9; // rax signed int v10; // eax int LastError; // eax CHAR FileName; // [rsp+50h] [rbp+8h] BYREF char v13[8]; // [rsp+51h] [rbp+9h] BYREF LPSTR FilePart; // [rsp+68h] [rbp+20h] BYREF v5 = a1; if ( !a1 ) { v5 = getdrive(); LABEL_6: if ( a2 ) { if ( a3 <= 0 ) { *errno() = 22; goto LABEL_4; } v6 = a3; *a2 = 0; } else { v6 = 0; } if ( v5 ) { strcpy(v13, ":."); FileName = v5 + 64; } else { FileName = 46; v13[0] = 0; } FullPathNameA = GetFullPathNameA(&FileName, v6, a2, &FilePart); if ( FullPathNameA ) { if ( a2 ) { if ( FullPathNameA >= v6 ) { *errno() = 34; *a2 = 0; return 0i64; } return a2; } if ( FullPathNameA > a3 ) a3 = FullPathNameA; v9 = (CHAR *)calloc(a3, 1ui64); a2 = v9; if ( !v9 ) { *errno() = 12; *_doserrno() = 8; return 0i64; } v10 = GetFullPathNameA(&FileName, a3, v9, &FilePart); if ( v10 && v10 < a3 ) return a2; } LastError = GetLastError(); dosmaperr(LastError); return 0i64; } if ( validdrive(a1) ) goto LABEL_6; *_doserrno() = 15; *errno() = 13; LABEL_4: invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 0i64; }

openssl

__int64 __fastcall FUNC(__int64 *a1) { __int64 v2; // rcx int v3; // edx __int64 v4; // r8 __int64 v5; // rdx v2 = *a1; v3 = *((_DWORD *)a1 + 6); v4 = a1[2]; if ( !v3 ) return ((__int64 (__fastcall *)(__int64, __int64, __int64, __int64))a1[4])(v2, a1[1], v4, v2 + 5896); v5 = (unsigned int)(v3 - 1); if ( !(_DWORD)v5 ) return ((__int64 (__fastcall *)(__int64, __int64, __int64, __int64))a1[4])(v2, a1[1], v4, v2 + 5896); if ( (_DWORD)v5 == 1 ) return ((__int64 (__fastcall *)(__int64, __int64, __int64))a1[4])(v2, v5, v4); return 0xFFFFFFFFi64; }

openssl

const char *__fastcall ssl_protocol_to_string(int version) { int v1; // ecx int v2; // ecx int v3; // ecx int v5; // ecx int v6; // ecx if ( version <= 771 ) { if ( version == 771 ) return "TLSv1.2"; v1 = version - 256; if ( !v1 ) return "DTLSv0.9"; v2 = v1 - 512; if ( !v2 ) return "SSLv3"; v3 = v2 - 1; if ( !v3 ) return "TLSv1"; if ( v3 == 1 ) return "TLSv1.1"; return "unknown"; } v5 = version - 772; if ( !v5 ) return "TLSv1.3"; v6 = v5 - 64505; if ( !v6 ) return "DTLSv1.2"; if ( v6 != 2 ) return "unknown"; return "DTLSv1"; }

openssl

__int64 __fastcall FUNC(unsigned int *a1, __int64 a2) { int v5; // edi __int64 v6; // rbx __int64 v7; // rax if ( (int)FUNC(a1) <= 0 ) return 1i64; v5 = 0; if ( (int)FUNC(a1) <= 0 ) return 0i64; while ( 1 ) { v6 = FUNC((__int64)a1, v5); v7 = FUNC(a2); if ( !X509_NAME_cmp_0(v6, v7) ) break; if ( ++v5 >= (int)FUNC(a1) ) return 0i64; } return 1i64; }

openssl

__int64 __fastcall FUNC(__int64 a1) { return *(_QWORD *)(a1 + 16); }

openssl

__int64 __fastcall FUNC(__int64 a1, int a2) { int v2; // edi __int64 v5; // rsi int v7; // eax int v8; // ecx __int64 v9; // rax unsigned int v10; // [rsp+20h] [rbp-28h] BYREF __int64 v11; // [rsp+28h] [rbp-20h] v2 = 0; v5 = 0i64; if ( !a1 ) return 0i64; v7 = FUNC(&unk_140284DBC, o_names_init_ossl_); v8 = 0; if ( v7 ) v8 = dword_140284DD0; if ( !v8 ) return 0i64; FUNC(qword_140284DC8); v10 = a2 & 0xFFFF7FFF; v11 = a1; v9 = FUNC(qword_140284DC0, &v10); if ( v9 ) { while ( *(_DWORD *)(v9 + 4) && (a2 & 0x8000) == 0 ) { if ( ++v2 <= 10 ) { v11 = *(_QWORD *)(v9 + 16); v9 = FUNC(qword_140284DC0, &v10); if ( v9 ) continue; } goto LABEL_13; } v5 = *(_QWORD *)(v9 + 16); } LABEL_13: FUNC(qword_140284DC8); return v5; }

openssl

unsigned int __cdecl mbctolower(unsigned int Ch) { return mbctolower_l(Ch, 0i64); }

openssl

__int64 __fastcall FUNC(unsigned int *a1) { if ( a1 ) return *a1; else return 0xFFFFFFFFi64; }

openssl

__int64 __fastcall FUNC(unsigned int *a1, char *a2) { return FUNC(a1, a2, a2); }

openssl

int __fastcall policy_data_cmp(const X509_POLICY_DATA_st *const *a, const X509_POLICY_DATA_st *const *b) { return FUNC(*((_QWORD *)*a + 1), *((_QWORD *)*b + 1)); }

openssl

__int64 __fastcall tls1_lookup_md(__int64 a1, __int64 *a2) { __int64 v4; // rax if ( !a1 ) return 0i64; if ( *(_DWORD *)(a1 + 12) ) { v4 = FUNC(*(_DWORD *)(a1 + 16)); if ( !v4 ) return 0i64; } else { v4 = 0i64; } if ( a2 ) *a2 = v4; return 1i64; }

openssl

unsigned int *__fastcall FUNC(int *a1) { unsigned int *result; // rax unsigned int *v2; // rdi int v3; // ebx __int64 v4; // rax void *v5; // rax result = (unsigned int *)FUNC(a1); v2 = result; if ( result ) { v3 = 0; if ( (int)FUNC(result) <= 0 ) { return v2; } else { while ( 1 ) { v4 = FUNC((__int64)v2, v3); if ( !(unsigned int)FUNC(v4) ) break; if ( ++v3 >= (int)FUNC(v2) ) return v2; } while ( v3 > 0 ) { v5 = (void *)FUNC((__int64)v2, --v3); FUNC(v5); } FUNC((void **)v2); return 0i64; } } return result; }

openssl

void *FUNC() { return &unk_140209640; }

openssl

__int64 __fastcall FUNC(__int64 a1) { int v1; // eax __int64 v3; // rbx if ( *(_DWORD *)a1 == 116 ) { v3 = *(_QWORD *)(a1 + 40); if ( v3 ) FUNC(*(_QWORD *)(a1 + 40)); return v3; } else { FUNC(v1 - 50, v1 + 64, v1 + 73, (unsigned int)"crypto\\evp\\p_lib.c", 496); return 0i64; } }

openssl

__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3) { __int64 v5; // rax v5 = FUNC(a1); return FUNC(v5, a2, a3); }

openssl

__int64 __fastcall FUNC(bio_st *a1, __int64 a2, int a3, unsigned int a4) { int v4; // eax char *v6; // r15 unsigned int v10; // esi unsigned int *v11; // rbx unsigned int v12; // r14d __int64 v13; // rax __int64 v14; // rbx int v15; // ebp __int64 (*v16)(void); // rax __int64 v17; // rax __int64 v18; // rax void *v19; // rdi __int64 (__fastcall *v20)(__int64, void *); // rax const char *v21; // rax __int64 (__fastcall *v22)(__int64, void *, _QWORD); // rax void *v23; // rdx unsigned int (__fastcall *v24)(__int64, void *, bio_st *, _QWORD); // rax __int64 (*v25)(void); // r11 __int64 v26; // rax const char *v28; // [rsp+30h] [rbp-38h] BYREF void *v29; // [rsp+38h] [rbp-30h] v6 = 0i64; v29 = 0i64; v10 = v4 - 63; v11 = (unsigned int *)FUNC(a2); v28 = (const char *)FUNC((__int64)v11); v12 = FUNC(v11); v13 = X509V3_EXT_get_0(a2); v14 = v13; if ( !v13 ) { v15 = a3 & 0xF0000; if ( v15 ) { if ( v15 == 0x10000 ) { BIO_printf(a1, "%*s<Not Supported>", a4, &byte_1401BE510); return v10; } goto LABEL_4; } return 0; } v16 = *(__int64 (**)(void))(v13 + 8); if ( v16 ) { v17 = v16(); v18 = FUNC(0i64, (unsigned __int8 **)&v28, v12, v17); } else { v18 = (*(__int64 (__fastcall **)(_QWORD, const char **, _QWORD))(v14 + 32))(0i64, &v28, v12); } v19 = (void *)v18; if ( v18 ) { v20 = *(__int64 (__fastcall **)(__int64, void *))(v14 + 48); if ( v20 ) { v21 = (const char *)v20(v14, v19); v6 = (char *)v21; if ( v21 ) { BIO_printf(a1, "%*s%s", a4, &byte_1401BE510, v21); goto LABEL_26; } } else { v22 = *(__int64 (__fastcall **)(__int64, void *, _QWORD))(v14 + 64); if ( v22 ) { v23 = (void *)v22(v14, v19, 0i64); v29 = v23; if ( v23 ) { FUNC(a1, (unsigned int *)v23, a4, *(_DWORD *)(v14 + 4) & 4); goto LABEL_26; } } else { v24 = *(unsigned int (__fastcall **)(__int64, void *, bio_st *, _QWORD))(v14 + 80); if ( v24 && v24(v14, v19, a1, a4) ) goto LABEL_26; } } v10 = 0; LABEL_26: FUNC(v29, (void (__fastcall *)(_QWORD))FUNC); CRYPTO_free(v6, "crypto\\x509v3\\v3_prn.c", 130i64); v25 = *(__int64 (**)(void))(v14 + 8); if ( v25 ) { v26 = v25(); ASN1_item_free(v19, v26); } else { (*(void (__fastcall **)(void *))(v14 + 24))(v19); } return v10; } v15 = a3 & 0xF0000; if ( !v15 ) return 0; if ( v15 == 0x10000 ) { BIO_printf(a1, "%*s<Parse Error>", a4, &byte_1401BE510); return v10; } LABEL_4: if ( v15 == 0x20000 ) { return (unsigned int)ASN1_parse_dump_0(a1, v28, v12, a4, -1); } else if ( v15 == 196608 ) { return (unsigned int)BIO_dump_indent_fp_1((_iobuf *)a1, v28, v12, a4); } return v10; }

openssl

bool __fastcall FUNC(__int64 a1) { unsigned __int64 v1; // r8 unsigned __int64 v2; // rdx _DWORD *v3; // rcx v1 = *(_QWORD *)(a1 + 16); v2 = 0i64; if ( v1 ) { v3 = (_DWORD *)(a1 + 1408); do { if ( !*v3 ) break; ++v2; v3 += 18; } while ( v2 < v1 ); } return v2 < v1; }

openssl

__int64 __fastcall FUNC(__int64 a1, const char *a2, const char *a3) { int v5; // eax __int64 v6; // rax int v7; // eax __int64 v8; // rax char v10[2512]; // [rsp+20h] [rbp-9E8h] BYREF *(_QWORD *)(a1 + 16) = 0i64; *(_QWORD *)(a1 + 8) = 0i64; v5 = FUNC(v10, 0x9C4ui64, a3); if ( v5 >= 0 ) { v6 = FUNC(v10, v5, 0i64); *(_QWORD *)(a1 + 16) = v6; if ( v6 ) { v7 = FUNC(v10, 0x9C4ui64, a2); if ( v7 >= 0 ) { v8 = FUNC(v10, v7, 0i64); *(_QWORD *)(a1 + 8) = v8; if ( v8 ) return 1i64; } FUNC(*(_QWORD *)(a1 + 16)); *(_QWORD *)(a1 + 16) = 0i64; } } return 0i64; }

openssl

__int64 __fastcall FUNC(__int64 *a1, __int64 a2) { __int64 result; // rax __int64 *v5; // rdi int v6; // ebx __int64 v7; // rax _QWORD *v8; // rax result = FUNC(a1); v5 = (__int64 *)result; if ( result ) { v6 = 0; if ( (int)FUNC(*(unsigned int **)result) > 0 ) { while ( 1 ) { v7 = FUNC(*v5, v6); if ( !*(_DWORD *)v7 && !FUNC(*(_QWORD *)(v7 + 8), a2) ) break; if ( ++v6 >= (int)FUNC((unsigned int *)*v5) ) goto LABEL_6; } FUNC(46, 164, 175, (__int64)"crypto\\cms\\cms_lib.c", 394); return 0i64; } LABEL_6: v8 = CMS_add0_CertificateChoices(a1); if ( !v8 ) return 0i64; *(_DWORD *)v8 = 0; v8[1] = a2; return 1i64; } return result; }

openssl

__int64 __fastcall rsa_oaep_cb(int operation, struct ASN1_VALUE_st **pval, const ASN1_ITEM_st *it, void *exarg) { if ( operation == 2 ) FUNC(*((void **)*pval + 3)); return 1i64; }

openssl

int __fastcall FUNC(char **a1) { char *v1; // rax __int64 v2; // rsi int v3; // ebx BOOL v4; // r10d __int64 i; // r9 unsigned int j; // r8d int v7; // r8d char *v8; // rax int v9; // r8d unsigned int k; // ecx __int64 m; // rbp char *v12; // rbx const char *v13; // rdi char *v14; // rcx char v15; // al unsigned int v16; // eax char *n; // rcx char *v18; // r8 char *v19; // rax _BYTE *v20; // r8 _BYTE *v21; // rdx char v22; // cl unsigned int v23; // eax _BYTE *ii; // rcx bio_st *v25; // rcx bio_st *v26; // rcx char v28[96]; // [rsp+20h] [rbp-88h] BYREF v1 = *a1; v2 = (__int64)a1; v3 = 5; v4 = *a1 != "--"; for ( i = (__int64)a1; v1; i += 24i64 ) { if ( v1 != "---" ) { for ( j = 0; *v1; ++j ) { if ( j >= 0x80000000 ) break; ++v1; } v7 = (j & 0x7FFFFFFF) + 2; if ( *(_DWORD *)(i + 12) != 45 ) { v8 = FUNC(i); for ( k = 0; *v8; ++k ) { if ( k >= 0x80000000 ) break; ++v8; } v7 = v9 + (k & 0x7FFFFFFF) + 1; } if ( v7 < 30 && v7 > v3 ) v3 = v7; } v1 = *(char **)(i + 24); } if ( v4 ) LODWORD(v1) = BIO_printf(qword_1402808E8, "Usage: %s [options]\nValid options are:\n", byte_1402820E8); for ( m = v3; *(_QWORD *)v2; v2 += 24i64 ) { v12 = *(char **)v2; v13 = "(No additional info)"; if ( *(_QWORD *)(v2 + 16) ) v13 = *(const char **)(v2 + 16); if ( v12 == "--" ) { LODWORD(v1) = BIO_printf(qword_1402808E8, v13, byte_1402820E8, i); } else { memset(v28, 32, 0x50ui64); v28[80] = 0; if ( v12 != "---" ) { qmemcpy(v28, " -", 2); if ( *v12 ) { v14 = (char *)(&v28[2] - v12); do { v15 = *v12++; v12[(_QWORD)v14 - 1] = v15; } while ( v15 ); v16 = 0; for ( n = &v28[2]; *n; ++v16 ) { if ( v16 >= 0x80000000 ) break; ++n; } v18 = &v28[(v16 & 0x7FFFFFFF) + 2]; } else { v28[2] = 42; v18 = &v28[3]; } if ( *(_DWORD *)(v2 + 12) != 45 ) { *v18 = 32; v19 = FUNC(v2); v21 = v20; do { v22 = *v19; ++v21; ++v19; *(v21 - 1) = v22; } while ( v22 ); v23 = 0; for ( ii = v20; *ii; ++v23 ) { if ( v23 >= 0x80000000 ) break; ++ii; } v18 = &v20[v23 & 0x7FFFFFFF]; } *v18 = 32; if ( (int)((_DWORD)v18 - (unsigned int)v28) >= 30 ) { v25 = qword_1402808E8; *v18 = 0; BIO_printf(v25, "%s\n", v28); memset(v28, 32, 0x51ui64); } } v26 = qword_1402808E8; v28[m] = 0; LODWORD(v1) = BIO_printf(v26, "%s %s\n", v28, v13); } } return (int)v1; }

openssl

__int64 __fastcall FUNC(__int64 a1, int a2, int a3, const char *a4) { __int64 v5; // rbp __int64 v8; // rax __int64 v9; // rsi __int64 v11; // rax __int64 v12; // rax __int64 v13; // rax __int64 v14[3]; // [rsp+20h] [rbp-18h] BYREF v5 = a3; v8 = FUNC(a1); v9 = v8; if ( a2 == 1 ) return 1i64; if ( a2 <= 5 ) return 4294967294i64; if ( a2 > 7 ) { if ( a2 == 14 ) return FUNC(v8 + 24, v5); return 4294967294i64; } if ( a2 == 6 ) { v11 = v5; v14[0] = v5; } else { v12 = FUNC(a1); a4 = (const char *)FUNC(v12, v14); v11 = v14[0]; } if ( !a4 || v11 != 16 || !(unsigned int)FUNC(v9, a4, 16) ) return 0i64; v13 = FUNC(v9); return FUNC(v9 + 24, v13, 0i64, 0i64); }

openssl

CONF_VALUE *__fastcall CONF_get_section(const conf_st *conf, const char *section) { __int64 v2; // rcx __int64 v4[5]; // [rsp+20h] [rbp-28h] BYREF if ( !conf || !section ) return 0i64; v2 = *((_QWORD *)conf + 2); v4[0] = (__int64)section; v4[1] = 0i64; return (CONF_VALUE *)FUNC(v2, (__int64)v4); }

openssl

__int64 __fastcall FUNC(unsigned int *a1) { __int64 v3; // rax __int64 v4; // rax if ( !a1 ) return 0i64; v3 = FUNC(*a1); if ( !(unsigned int)FUNC(v3, 2i64, a1) ) return 0i64; v4 = FUNC(*a1); return FUNC(v4, 2i64, a1); }

openssl

void **__fastcall FUNC(void ***a1, X509_algor_st *a2, int a3) { int v3; // eax X509_algor_st *v4; // rsi void **v8; // rbx int v10; // eax int v11; // r12d X509_algor_st *v12; // rax v4 = 0i64; v8 = 0i64; if ( !a1 ) { FUNC(v3 - 37, v3 + 56, v3 + 19, (__int64)"crypto\\x509\\x509_v3.c", 104); LABEL_3: FUNC(v4); if ( a1 ) { if ( !*a1 ) FUNC(v8); } return 0i64; } v8 = *a1; if ( !*a1 ) { v8 = (void **)FUNC(); if ( !v8 ) goto LABEL_15; } v10 = FUNC((unsigned int *)v8); v11 = v10; if ( a3 <= v10 ) { if ( a3 < 0 ) a3 = v10; v11 = a3; } v12 = X509_ALGOR_dup_0_9(a2); v4 = v12; if ( !v12 ) goto LABEL_3; if ( !(unsigned int)FUNC((int *)v8, (__int64)v12, v11) ) { LABEL_15: FUNC(11, 104, 65, (__int64)"crypto\\x509\\x509_v3.c", 128); goto LABEL_3; } if ( !*a1 ) *a1 = v8; return v8; }

openssl

__int64 __fastcall FUNC(_QWORD *a1, __int64 a2, int a3) { unsigned int v3; // esi int v6; // edi int v8; // eax int v9; // r11d __int64 v10; // rcx __int64 v11; // rax unsigned __int64 v12; // r10 __int64 v13; // r9 unsigned __int64 v14; // r8 _WORD *v15; // rdx v3 = 0; v6 = 0; if ( a3 == -1 ) return 1i64; v8 = FUNC(a2, a2); v9 = v8; if ( a3 ) { LOBYTE(v3) = v8 == a3; return v3; } else { v10 = a1[1]; if ( (*(_BYTE *)(*(_QWORD *)(v10 + 192) + 96i64) & 8) != 0 || *(int *)v10 < 772 || *(_DWORD *)v10 == 0x10000 || (v11 = a1[21], !*(_QWORD *)(v11 + 752)) ) { v12 = a1[750]; } else { v12 = *(_QWORD *)(v11 + 768); v6 = 1; } v13 = 0i64; if ( v12 ) { while ( 1 ) { if ( v6 ) { v14 = 0i64; v15 = &unk_1401E1060; while ( v15[4] != *(_WORD *)(*(_QWORD *)(a1[21] + 752i64) + 2 * v13) ) { ++v14; v15 += 20; if ( v14 >= 0x1A ) { v15 = 0i64; break; } } } else { v15 = *(_WORD **)(a1[749] + 8 * v13); } if ( v9 == *((_DWORD *)v15 + 7) ) return 1i64; if ( ++v13 >= v12 ) return 0i64; } } return 0i64; } }

openssl

__int64 __fastcall FUNC() { int v0; // eax return FUNC((unsigned int)(v0 - 17)); }

openssl

_DWORD *__fastcall FUNC(__int64 a1, __int64 a2) { __int64 v3; // rdx _DWORD *result; // rax int v6; // edi __int64 v7; // rax __int64 v8; // rax v3 = *(_QWORD *)(a2 + 8); if ( v3 ) { if ( *(int *)v3 > 0 ) *(_DWORD *)(a2 + 24) = **(unsigned __int8 **)(v3 + 8); if ( *(int *)v3 > 1 ) *(_DWORD *)(a2 + 24) |= *(unsigned __int8 *)(*(_QWORD *)(v3 + 8) + 1i64) << 8; *(_DWORD *)(a2 + 24) &= 0x807Fu; } else { *(_DWORD *)(a2 + 24) = 32895; } result = *(_DWORD **)a2; if ( *(_QWORD *)a2 && *result == 1 ) { v6 = 0; if ( (int)FUNC(*(unsigned int **)(a2 + 16)) <= 0 ) goto LABEL_15; while ( 1 ) { v7 = FUNC(*(_QWORD *)(a2 + 16), v6); if ( *(_DWORD *)v7 == 4 ) break; if ( ++v6 >= (int)FUNC(*(unsigned int **)(a2 + 16)) ) goto LABEL_15; } v8 = *(_QWORD *)(v7 + 8); if ( !v8 ) LABEL_15: v8 = FUNC(a1); return (_DWORD *)FUNC(*(_QWORD *)a2, v8); } return result; }

openssl

__int64 __fastcall file_eof(ossl_store_loader_ctx_st *ctx) { __int64 result; // rax __int64 v3; // rax if ( *(_DWORD *)ctx == 2 ) return *((unsigned int *)ctx + 6); v3 = *((_QWORD *)ctx + 3); if ( !v3 ) return FUNC(*((_QWORD **)ctx + 2), 2u, 0, 0i64); result = (*(__int64 (__fastcall **)(_QWORD))(v3 + 16))(*((_QWORD *)ctx + 4)); if ( (_DWORD)result ) return FUNC(*((_QWORD **)ctx + 2), 2u, 0, 0i64); return result; }

openssl

__int64 __fastcall FUNC(_DWORD *a1, int *a2, int a3, int a4) { int v4; // ebp int v5; // r12d int v6; // r13d int v7; // r14d int v8; // r15d int v9; // r10d int v10; // r11d unsigned int v13; // r8d __int64 v14; // rsi int v15; // eax unsigned __int64 v16; // r9 unsigned int v17; // eax unsigned int v18; // r10d int v19; // eax unsigned __int64 v20; // r9 unsigned int v21; // eax int v22; // eax unsigned __int64 v23; // r9 unsigned int v24; // eax unsigned int v25; // r10d int v26; // eax unsigned __int64 v27; // r9 unsigned int v28; // eax int v29; // eax unsigned __int64 v30; // r9 unsigned int v31; // eax unsigned int v32; // r10d int v33; // eax unsigned __int64 v34; // r9 unsigned int v35; // eax int v36; // eax unsigned __int64 v37; // r9 unsigned int v38; // eax unsigned int v39; // r10d int v40; // eax unsigned __int64 v41; // r9 unsigned int v42; // eax int v43; // eax unsigned __int64 v44; // r9 unsigned int v45; // eax unsigned int v46; // r10d int v47; // eax unsigned __int64 v48; // r9 unsigned int v49; // eax int v50; // eax unsigned __int64 v51; // r9 unsigned int v52; // eax unsigned int v53; // r10d int v54; // eax unsigned __int64 v55; // r9 unsigned int v56; // eax int v57; // eax unsigned __int64 v58; // r9 unsigned int v59; // eax unsigned int v60; // r10d int v61; // eax unsigned __int64 v62; // r9 unsigned int v63; // eax int v64; // eax unsigned __int64 v65; // r9 unsigned int v66; // eax unsigned int v67; // r10d int v68; // eax unsigned __int64 v69; // r9 unsigned int v70; // eax unsigned int v71; // edx unsigned int v72; // r10d int v73; // edx int v74; // eax unsigned int v75; // edx int v76; // r10d int v77; // eax unsigned int v78; // r10d int v79; // edx int v80; // eax int v81; // edx int v82; // r10d int v83; // ecx unsigned int v84; // r10d int v85; // edx int v86; // eax int v87; // ecx __int64 result; // rax int v89; // [rsp+0h] [rbp-B8h] int v90; // [rsp+4h] [rbp-B4h] int v91; // [rsp+8h] [rbp-B0h] int v92; // [rsp+Ch] [rbp-ACh] int v93; // [rsp+10h] [rbp-A8h] int v94; // [rsp+14h] [rbp-A4h] int v95; // [rsp+18h] [rbp-A0h] int v96; // [rsp+1Ch] [rbp-9Ch] int v97; // [rsp+20h] [rbp-98h] int v98; // [rsp+24h] [rbp-94h] int v99; // [rsp+28h] [rbp-90h] int v100; // [rsp+2Ch] [rbp-8Ch] int v101; // [rsp+30h] [rbp-88h] int v102; // [rsp+34h] [rbp-84h] int v103; // [rsp+38h] [rbp-80h] int v104; // [rsp+3Ch] [rbp-7Ch] int v105; // [rsp+40h] [rbp-78h] int v106; // [rsp+44h] [rbp-74h] int v107; // [rsp+48h] [rbp-70h] int v108; // [rsp+4Ch] [rbp-6Ch] int v109; // [rsp+50h] [rbp-68h] int v110; // [rsp+54h] [rbp-64h] int v111; // [rsp+58h] [rbp-60h] int v112; // [rsp+5Ch] [rbp-5Ch] int v113; // [rsp+60h] [rbp-58h] int v115; // [rsp+C8h] [rbp+10h] unsigned int v116; // [rsp+D0h] [rbp+18h] unsigned int v117; // [rsp+D0h] [rbp+18h] unsigned int v118; // [rsp+D0h] [rbp+18h] unsigned int v119; // [rsp+D0h] [rbp+18h] unsigned int v120; // [rsp+D0h] [rbp+18h] unsigned int v121; // [rsp+D0h] [rbp+18h] unsigned int v122; // [rsp+D0h] [rbp+18h] unsigned int v123; // [rsp+D0h] [rbp+18h] v4 = *a2; v5 = a2[1]; v6 = a2[2]; v7 = a2[3]; v8 = a2[4]; v9 = 0; v10 = a2[5]; v115 = a2[6]; v90 = a2[7]; v102 = a2[8]; v92 = a2[9]; v13 = 0; v108 = a2[10]; v116 = 0; v94 = a2[11]; v14 = 25i64; v104 = a2[12]; v96 = a2[13]; v112 = a2[14]; v98 = a2[15]; v106 = a2[16]; v100 = a2[17]; v110 = a2[18]; v89 = a2[19]; v91 = a2[20]; v93 = a2[21]; v95 = a2[22]; v97 = a2[23]; v99 = a2[24]; v101 = a2[25]; v103 = a2[26]; v105 = a2[27]; v107 = a2[28]; v109 = a2[29]; v111 = a2[30]; v113 = a2[31]; do { v15 = v13 ^ HIWORD(v13); v16 = v13 ^ a3 & v15 ^ v4 ^ ((a3 & v15) << 16); v17 = __ROR4__(v13 ^ a4 & v15 ^ v5 ^ ((a4 & v15) << 16), 4); v18 = dword_140218AC0[(v16 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v17 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v16 >> 2] ^ dword_140218AC0[((unsigned __int16)v16 >> 10) + 128] ^ dword_140218AC0[((v16 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v17 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v17 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v17 >> 18) & 0x3F) + 320] ^ v9; v19 = v18 ^ HIWORD(v18); v20 = v18 ^ a3 & v19 ^ v6 ^ ((a3 & v19) << 16); v21 = __ROR4__(v18 ^ a4 & v19 ^ v7 ^ ((a4 & v19) << 16), 4); v117 = dword_140218AC0[(v20 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v21 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v20 >> 2] ^ dword_140218AC0[((unsigned __int16)v20 >> 10) + 128] ^ dword_140218AC0[((v20 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v21 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v21 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v21 >> 18) & 0x3F) + 320] ^ v116; v22 = v117 ^ HIWORD(v117); v23 = v117 ^ a3 & v22 ^ v8 ^ ((a3 & v22) << 16); v24 = __ROR4__(v117 ^ a4 & v22 ^ v10 ^ ((a4 & v22) << 16), 4); v25 = dword_140218AC0[(v23 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v24 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v23 >> 2] ^ dword_140218AC0[((unsigned __int16)v23 >> 10) + 128] ^ dword_140218AC0[((v23 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v24 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v24 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v24 >> 18) & 0x3F) + 320] ^ v18; v26 = v25 ^ HIWORD(v25); v27 = v25 ^ a3 & v26 ^ v115 ^ ((a3 & v26) << 16); v28 = __ROR4__(v25 ^ a4 & v26 ^ v90 ^ ((a4 & v26) << 16), 4); v118 = dword_140218AC0[(v27 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v28 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v27 >> 2] ^ dword_140218AC0[((unsigned __int16)v27 >> 10) + 128] ^ dword_140218AC0[((v27 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v28 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v28 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v28 >> 18) & 0x3F) + 320] ^ v117; v29 = v118 ^ HIWORD(v118); v30 = v118 ^ a3 & v29 ^ v102 ^ ((a3 & v29) << 16); v31 = __ROR4__(v118 ^ a4 & v29 ^ v92 ^ ((a4 & v29) << 16), 4); v32 = dword_140218AC0[(v30 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v31 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v30 >> 2] ^ dword_140218AC0[((unsigned __int16)v30 >> 10) + 128] ^ dword_140218AC0[((v30 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v31 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v31 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v31 >> 18) & 0x3F) + 320] ^ v25; v33 = v32 ^ HIWORD(v32); v34 = v32 ^ a3 & v33 ^ v108 ^ ((a3 & v33) << 16); v35 = __ROR4__(v32 ^ a4 & v33 ^ v94 ^ ((a4 & v33) << 16), 4); v119 = dword_140218AC0[(v34 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v35 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v34 >> 2] ^ dword_140218AC0[((unsigned __int16)v34 >> 10) + 128] ^ dword_140218AC0[((v34 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v35 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v35 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v35 >> 18) & 0x3F) + 320] ^ v118; v36 = v119 ^ HIWORD(v119); v37 = v119 ^ a3 & v36 ^ v104 ^ ((a3 & v36) << 16); v38 = __ROR4__(v119 ^ a4 & v36 ^ v96 ^ ((a4 & v36) << 16), 4); v39 = dword_140218AC0[(v37 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v38 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v37 >> 2] ^ dword_140218AC0[((unsigned __int16)v37 >> 10) + 128] ^ dword_140218AC0[((v37 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v38 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v38 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v38 >> 18) & 0x3F) + 320] ^ v32; v40 = v39 ^ HIWORD(v39); v41 = v39 ^ a3 & v40 ^ v112 ^ ((a3 & v40) << 16); v42 = __ROR4__(v39 ^ a4 & v40 ^ v98 ^ ((a4 & v40) << 16), 4); v120 = dword_140218AC0[(v41 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v42 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v41 >> 2] ^ dword_140218AC0[((unsigned __int16)v41 >> 10) + 128] ^ dword_140218AC0[((v41 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v42 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v42 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v42 >> 18) & 0x3F) + 320] ^ v119; v43 = v120 ^ HIWORD(v120); v44 = v120 ^ a3 & v43 ^ v106 ^ ((a3 & v43) << 16); v45 = __ROR4__(v120 ^ a4 & v43 ^ v100 ^ ((a4 & v43) << 16), 4); v46 = dword_140218AC0[(v44 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v45 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v44 >> 2] ^ dword_140218AC0[((unsigned __int16)v44 >> 10) + 128] ^ dword_140218AC0[((v44 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v45 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v45 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v45 >> 18) & 0x3F) + 320] ^ v39; v47 = v46 ^ HIWORD(v46); v48 = v46 ^ a3 & v47 ^ v110 ^ ((a3 & v47) << 16); v49 = __ROR4__(v46 ^ a4 & v47 ^ v89 ^ ((a4 & v47) << 16), 4); v121 = dword_140218AC0[(v48 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v49 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v48 >> 2] ^ dword_140218AC0[((unsigned __int16)v48 >> 10) + 128] ^ dword_140218AC0[((v48 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v49 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v49 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v49 >> 18) & 0x3F) + 320] ^ v120; v50 = v121 ^ HIWORD(v121); v51 = v121 ^ a3 & v50 ^ v91 ^ ((a3 & v50) << 16); v52 = __ROR4__(v121 ^ a4 & v50 ^ v93 ^ ((a4 & v50) << 16), 4); v53 = dword_140218AC0[(v51 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v52 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v51 >> 2] ^ dword_140218AC0[((unsigned __int16)v51 >> 10) + 128] ^ dword_140218AC0[((v51 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v52 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v52 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v52 >> 18) & 0x3F) + 320] ^ v46; v54 = v53 ^ HIWORD(v53); v55 = v53 ^ a3 & v54 ^ v95 ^ ((a3 & v54) << 16); v56 = __ROR4__(v53 ^ a4 & v54 ^ v97 ^ ((a4 & v54) << 16), 4); v122 = dword_140218AC0[(v55 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v56 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v55 >> 2] ^ dword_140218AC0[((unsigned __int16)v55 >> 10) + 128] ^ dword_140218AC0[((v55 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v56 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v56 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v56 >> 18) & 0x3F) + 320] ^ v121; v57 = v122 ^ HIWORD(v122); v58 = v122 ^ a3 & v57 ^ v99 ^ ((a3 & v57) << 16); v59 = __ROR4__(v122 ^ a4 & v57 ^ v101 ^ ((a4 & v57) << 16), 4); v60 = dword_140218AC0[(v58 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v59 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v58 >> 2] ^ dword_140218AC0[((unsigned __int16)v58 >> 10) + 128] ^ dword_140218AC0[((v58 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v59 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v59 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v59 >> 18) & 0x3F) + 320] ^ v53; v61 = v60 ^ HIWORD(v60); v62 = v60 ^ a3 & v61 ^ v103 ^ ((a3 & v61) << 16); v63 = __ROR4__(v60 ^ a4 & v61 ^ v105 ^ ((a4 & v61) << 16), 4); v123 = dword_140218AC0[(v62 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v63 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v62 >> 2] ^ dword_140218AC0[((unsigned __int16)v62 >> 10) + 128] ^ dword_140218AC0[((v62 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v63 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v63 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v63 >> 18) & 0x3F) + 320] ^ v122; v64 = v123 ^ HIWORD(v123); v65 = v123 ^ a3 & v64 ^ v107 ^ ((a3 & v64) << 16); v66 = __ROR4__(v123 ^ a4 & v64 ^ v109 ^ ((a4 & v64) << 16), 4); v67 = dword_140218AC0[(v65 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v66 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v65 >> 2] ^ dword_140218AC0[((unsigned __int16)v65 >> 10) + 128] ^ dword_140218AC0[((v65 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v66 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v66 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v66 >> 18) & 0x3F) + 320] ^ v60; v68 = v67 ^ HIWORD(v67); v69 = v67 ^ a3 & v68 ^ v111 ^ ((a3 & v68) << 16); v70 = __ROR4__(v67 ^ a4 & v68 ^ v113 ^ ((a4 & v68) << 16), 4); --v14; v71 = v67; v9 = dword_140218AC0[(v69 >> 26) + 384] ^ dword_140218AC0[((unsigned __int64)v70 >> 26) + 448] ^ dword_140218AC0[(unsigned __int8)v69 >> 2] ^ dword_140218AC0[((unsigned __int16)v69 >> 10) + 128] ^ dword_140218AC0[((v69 >> 18) & 0x3F) + 256] ^ dword_140218AC0[((unsigned __int8)v70 >> 2) + 64] ^ dword_140218AC0[((unsigned __int16)v70 >> 10) + 192] ^ dword_140218AC0[(((unsigned __int64)v70 >> 18) & 0x3F) + 320] ^ v123; v13 = v71; v116 = v71; } while ( v14 ); v72 = __ROR4__(v9, 3); v73 = __ROR4__(v71, 3); v74 = (v73 ^ (v72 >> 1)) & 0x55555555; v75 = v74 ^ v73; v76 = (2 * v74) ^ v72; v77 = (v76 ^ (v75 >> 8)) & 0xFF00FF; v78 = v77 ^ v76; v79 = (v77 << 8) ^ v75; v80 = (v79 ^ (v78 >> 2)) & 0x33333333; v81 = v80 ^ v79; v82 = (4 * v80) ^ v78; v83 = (unsigned __int16)(v82 ^ HIWORD(v81)); v84 = v83 ^ v82; v85 = (v83 << 16) ^ v81; v86 = (v85 ^ (v84 >> 4)) & 0xF0F0F0F; v87 = 16 * v86; result = v85 ^ (unsigned int)v86; a1[1] = v84 ^ v87; *a1 = result; return result; }

openssl

void __fastcall FUNC(__int64 a1, __int64 a2) { *(_QWORD *)(a1 + 720) = a2; }

openssl

__int64 __fastcall d2i_PKCS7_bio_1(__int64 a1, __int64 a2) { __int64 v4; // rax v4 = FUNC(); return FUNC(v4, a1, a2); }

openssl

unsigned __int64 __fastcall CAST_encrypt(int *a1, _DWORD *a2) { int v2; // r11d unsigned int v4; // r8d int v5; // r10d unsigned int v6; // eax int v7; // r11d unsigned int v8; // eax int v9; // r10d unsigned int v10; // edx int v11; // r11d unsigned int v12; // eax int v13; // r10d unsigned int v14; // eax int v15; // r11d unsigned int v16; // edx int v17; // r10d unsigned int v18; // eax int v19; // r11d unsigned int v20; // eax int v21; // r10d unsigned int v22; // edx int v23; // r11d unsigned int v24; // eax int v25; // r10d unsigned int v26; // eax int v27; // edx unsigned __int64 result; // rax int v29; // r11d unsigned int v30; // edx int v31; // r10d unsigned int v32; // eax int v33; // r11d unsigned int v34; // eax unsigned int v35; // edx v2 = a1[1]; v4 = __ROL4__(v2 + *a2, a2[1]); v5 = *a1 ^ (dword_14021C330[BYTE2(v4)] + (dword_14021BB30[(unsigned __int8)v4] ^ dword_14021B730[BYTE1(v4)]) - dword_14021BF30[(unsigned __int64)v4 >> 24]); v6 = __ROL4__(v5 ^ a2[2], a2[3]); v7 = dword_14021C330[BYTE2(v6)] ^ (dword_14021BF30[(unsigned __int64)v6 >> 24] + dword_14021B730[BYTE1(v6)] - dword_14021BB30[(unsigned __int8)v6]) ^ v2; v8 = __ROL4__(a2[4] - v7, a2[5]); v9 = ((dword_14021BF30[(unsigned __int64)v8 >> 24] ^ (dword_14021BB30[(unsigned __int8)v8] + dword_14021B730[BYTE1(v8)])) - dword_14021C330[BYTE2(v8)]) ^ v5; v10 = __ROL4__(v9 + a2[6], a2[7]); v11 = (dword_14021C330[BYTE2(v10)] + (dword_14021BB30[(unsigned __int8)v10] ^ dword_14021B730[BYTE1(v10)]) - dword_14021BF30[(unsigned __int64)v10 >> 24]) ^ v7; v12 = __ROL4__(v11 ^ a2[8], a2[9]); v13 = dword_14021C330[BYTE2(v12)] ^ (dword_14021BF30[(unsigned __int64)v12 >> 24] + dword_14021B730[BYTE1(v12)] - dword_14021BB30[(unsigned __int8)v12]) ^ v9; v14 = __ROL4__(a2[10] - v13, a2[11]); v15 = ((dword_14021BF30[(unsigned __int64)v14 >> 24] ^ (dword_14021BB30[(unsigned __int8)v14] + dword_14021B730[BYTE1(v14)])) - dword_14021C330[BYTE2(v14)]) ^ v11; v16 = __ROL4__(v15 + a2[12], a2[13]); v17 = (dword_14021C330[BYTE2(v16)] + (dword_14021BB30[(unsigned __int8)v16] ^ dword_14021B730[BYTE1(v16)]) - dword_14021BF30[(unsigned __int64)v16 >> 24]) ^ v13; v18 = __ROL4__(v17 ^ a2[14], a2[15]); v19 = dword_14021C330[BYTE2(v18)] ^ (dword_14021BF30[(unsigned __int64)v18 >> 24] + dword_14021B730[BYTE1(v18)] - dword_14021BB30[(unsigned __int8)v18]) ^ v15; v20 = __ROL4__(a2[16] - v19, a2[17]); v21 = ((dword_14021BF30[(unsigned __int64)v20 >> 24] ^ (dword_14021BB30[(unsigned __int8)v20] + dword_14021B730[BYTE1(v20)])) - dword_14021C330[BYTE2(v20)]) ^ v17; v22 = __ROL4__(v21 + a2[18], a2[19]); v23 = (dword_14021C330[BYTE2(v22)] + (dword_14021BB30[(unsigned __int8)v22] ^ dword_14021B730[BYTE1(v22)]) - dword_14021BF30[(unsigned __int64)v22 >> 24]) ^ v19; v24 = __ROL4__(v23 ^ a2[20], a2[21]); v25 = dword_14021C330[BYTE2(v24)] ^ (dword_14021BF30[(unsigned __int64)v24 >> 24] + dword_14021B730[BYTE1(v24)] - dword_14021BB30[(unsigned __int8)v24]) ^ v21; v26 = __ROL4__(a2[22] - v25, a2[23]); v27 = dword_14021BF30[(unsigned __int64)v26 >> 24] ^ (dword_14021BB30[(unsigned __int8)v26] + dword_14021B730[BYTE1(v26)]); result = BYTE2(v26); v29 = (v27 - dword_14021C330[result]) ^ v23; if ( !a2[32] ) { v30 = __ROL4__(v29 + a2[24], a2[25]); v31 = (dword_14021C330[BYTE2(v30)] + (dword_14021BB30[(unsigned __int8)v30] ^ dword_14021B730[BYTE1(v30)]) - dword_14021BF30[(unsigned __int64)v30 >> 24]) ^ v25; v32 = __ROL4__(v31 ^ a2[26], a2[27]); v33 = dword_14021C330[BYTE2(v32)] ^ (dword_14021BF30[(unsigned __int64)v32 >> 24] + dword_14021B730[BYTE1(v32)] - dword_14021BB30[(unsigned __int8)v32]) ^ v29; v34 = __ROL4__(a2[28] - v33, a2[29]); v25 = ((dword_14021BF30[(unsigned __int64)v34 >> 24] ^ (dword_14021BB30[(unsigned __int8)v34] + dword_14021B730[BYTE1(v34)])) - dword_14021C330[BYTE2(v34)]) ^ v31; v35 = __ROL4__(v25 + a2[30], a2[31]); result = (unsigned __int64)v35 >> 16; v29 = (dword_14021C330[BYTE2(v35)] + (dword_14021BB30[(unsigned __int8)v35] ^ dword_14021B730[BYTE1(v35)]) - dword_14021BF30[(unsigned __int64)v35 >> 24]) ^ v33; } *a1 = v29; a1[1] = v25; return result; }

openssl

__int64 __fastcall FUNC(__int64 a1, __int64 a2, __int64 a3, _QWORD *a4) { int v9; // eax bool v10; // zf unsigned int v11; // edi int v12; // eax if ( !*(_DWORD *)(a1 + 56) ) { FUNC(20, 529, 66, (unsigned int)"ssl\\ssl_lib.c", 1801); return 0i64; } v9 = *(_DWORD *)(a1 + 132); if ( v9 ) { if ( v9 != 8 ) { if ( v9 != 10 ) { FUNC(20, 529, 66, (unsigned int)"ssl\\ssl_lib.c", 1846); return 0i64; } goto LABEL_14; } } else if ( !(unsigned int)FUNC(a1) ) { FUNC(20, 529, 66, (unsigned int)"ssl\\ssl_lib.c", 1809); return 0i64; } v10 = *(_QWORD *)(a1 + 48) == 0i64; *(_DWORD *)(a1 + 132) = 9; if ( v10 ) FUNC(a1); if ( (int)FUNC(a1) <= 0 ) { *(_DWORD *)(a1 + 132) = 8; return 0i64; } LABEL_14: v11 = 0; if ( *(_DWORD *)(a1 + 1808) == 2 ) { *(_DWORD *)(a1 + 132) = 11; v12 = FUNC(a1, a2, a3, a4); if ( v12 >= 0 ) { if ( v12 > 0 ) { LABEL_19: *(_DWORD *)(a1 + 132) = 10; LOBYTE(v11) = v12 > 0; return v11; } } else { v12 = 0; } if ( *(_DWORD *)(a1 + 132) != 12 ) goto LABEL_19; } else { *(_DWORD *)(a1 + 132) = 12; } *a4 = 0i64; return 2i64; }

openssl

__int64 __fastcall FUNC(__int64 a1, __int64 *a2, __int64 a3, int a4) { int v4; // eax unsigned int v5; // r14d __int64 v9; // rdi int v10; // esi const char *v11; // rax __int64 v12; // r15 unsigned int v13; // ebx __int64 v14; // rsi __int64 v15; // rbx int v16; // eax __int64 v18; // [rsp+40h] [rbp-58h] BYREF __int64 v19; // [rsp+48h] [rbp-50h] BYREF __int64 v20; // [rsp+50h] [rbp-48h] BYREF unsigned __int64 v21; // [rsp+A0h] [rbp+8h] BYREF __int64 v22; // [rsp+B0h] [rbp+18h] BYREF v22 = a3; v5 = 0; v9 = 0i64; v10 = 0; if ( a1 || a2 ) { if ( !a3 ) { v11 = "system_default"; if ( !a4 ) v11 = 0i64; a3 = (__int64)v11; v22 = (__int64)v11; } if ( (unsigned int)FUNC(a3, &v20) ) { v12 = FUNC(v20, &v22, &v21); v9 = FUNC(); if ( v9 ) { v13 = 2; if ( !a4 ) v13 = 98; if ( a1 ) { v14 = *(_QWORD *)(a1 + 8); SSL_CONF_CTX_set_ssl(v9, a1); } else { v14 = *a2; SSL_CONF_CTX_set_ssl_ctx(v9, a2); } if ( *(__int64 (__fastcall **)())(v14 + 40) != FUNC ) v13 |= 8u; if ( *(__int64 (__fastcall **)())(v14 + 48) != FUNC ) v13 |= 4u; FUNC(v9, v13); v15 = 0i64; if ( v21 ) { while ( 1 ) { FUNC(v12, v15, &v19, &v18); v16 = FUNC(v9, v19, v18); v10 = v16; if ( v16 <= 0 ) break; if ( ++v15 >= v21 ) goto LABEL_24; } if ( v16 == -2 ) FUNC(20, 391, 139, (unsigned int)"ssl\\ssl_mcnf.c", 72); else FUNC(20, 391, 384, (unsigned int)"ssl\\ssl_mcnf.c", 74); ERR_add_error_data(6, "section=", v22, ", cmd=", v19, ", arg=", v18); } else { LABEL_24: v10 = SSL_CONF_CTX_finish(v9); } } } else if ( !a4 ) { FUNC(20, 391, 113, (unsigned int)"ssl\\ssl_mcnf.c", 41); ERR_add_error_data(2, "name=", v22); } } else { FUNC(v4 - 84, 391, v4 - 37, (unsigned int)"ssl\\ssl_mcnf.c", 33); } FUNC(v9); LOBYTE(v5) = v10 > 0; return v5; }

openssl

__int64 __fastcall FUNC(_QWORD *a1, __int64 a2) { return *a1 + *(unsigned int *)(a2 + 8); }

openssl

void __fastcall FUNC(__int64 a1, __int64 a2) { __int64 v2; // rsi __int64 v3; // rax __int64 v4; // rbx const void *v5; // rbp size_t v6; // rdi size_t Size; // [rsp+40h] [rbp+18h] BYREF v2 = 0i64; v3 = FUNC(a2, &Size); v4 = qword_140280AE0; v5 = (const void *)v3; if ( qword_140280AE0 ) { v6 = (unsigned int)Size; while ( (_DWORD)v6 != *(_DWORD *)(v4 + 8) || memcmp(*(const void **)v4, v5, v6) ) { v2 = v4; v4 = *(_QWORD *)(v4 + 32); if ( !v4 ) return; } if ( v2 ) *(_QWORD *)(v2 + 32) = *(_QWORD *)(v4 + 32); else qword_140280AE0 = *(_QWORD *)(v4 + 32); CRYPTO_free(*(void **)v4, "apps\\s_server.c", 3600); CRYPTO_free(*(void **)(v4 + 16), "apps\\s_server.c", 3601); CRYPTO_free((void *)v4, "apps\\s_server.c", 3602); } }

openssl

__int64 __fastcall engine_unlocked_init(engine_st *e) { __int64 result; // rax __int64 (*v3)(void); // rdx result = 1i64; if ( *((_DWORD *)e + 40) || (v3 = (__int64 (*)(void))*((_QWORD *)e + 12)) == 0i64 || (result = v3(), (_DWORD)result) ) { ++*((_DWORD *)e + 39); ++*((_DWORD *)e + 40); } return result; }

openssl

__int64 __fastcall FUNC(__int64 *a1) { __int64 v1; // rdi unsigned int v2; // ebx __int64 v3; // rsi __int64 v4; // rbp __int64 v5; // r12 v1 = *a1; v2 = 0; v3 = *(_QWORD *)(*a1 + 16); v4 = *(_QWORD *)(*a1 + 24); v5 = *(_QWORD *)(*a1 + 64); if ( dword_140282098 ) { while ( v2 != 0x7FFFFFFF ) { if ( (unsigned int)FUNC(*(_QWORD *)(v1 + 8i64 * (unsigned int)dword_140281214 + 520), v4, v5, v3, 20i64) != 1 ) { BIO_printf(qword_1402808E8, "EdDSA verify failure\n"); X509_ALGOR_dup_0(qword_1402808E8); return 0xFFFFFFFFi64; } ++v2; if ( !dword_140282098 ) return v2; } } return v2; }

openssl

__int64 __fastcall wopenfile(char *FileName, _WORD *a2, int a3, __int64 a4) { _WORD *v6; // rbx int v8; // r9d int v9; // r10d int i; // r11d int v11; // eax __int64 result; // rax int v13; // edi unsigned int v14; // ebp const wchar_t *v15; // rbx int v16; // edx wchar_t v17; // ax const wchar_t *j; // rbx int v19; // eax int FileHandle; // [rsp+68h] [rbp+10h] BYREF v6 = a2; v8 = 0; v9 = 0; for ( i = 0; *v6 == 32; ++v6 ) ; v11 = (unsigned __int16)*v6; switch ( v11 ) { case 'a': v13 = 265; break; case 'r': v13 = 0; v14 = dword_140286260 | 1; goto LABEL_12; case 'w': v13 = 769; break; default: LABEL_6: *errno() = 22; invalid_parameter(0i64, 0i64, 0i64, 0, 0i64); return 0i64; } v14 = dword_140286260 | 2; LABEL_12: v15 = v6 + 1; v16 = 1; v17 = *v15; if ( !*v15 ) goto LABEL_66; while ( v16 ) { if ( v17 > 0x53u ) { switch ( v17 ) { case 'T': if ( (v13 & 0x1000) == 0 ) { v13 |= 0x1000u; break; } goto LABEL_46; case 'b': if ( (v13 & 0xC000) != 0 ) goto LABEL_46; v13 |= 0x8000u; break; case 'c': if ( v8 ) goto LABEL_46; v8 = 1; v14 |= 0x4000u; break; case 'n': if ( v8 ) goto LABEL_46; v8 = 1; v14 &= ~0x4000u; break; case 't': if ( (v13 & 0xC000) != 0 ) goto LABEL_46; v13 |= 0x4000u; break; default: goto LABEL_6; } } else if ( v17 == 83 ) { if ( v9 ) goto LABEL_46; v9 = 1; v13 |= 0x20u; } else if ( v17 != 32 ) { switch ( v17 ) { case '+': if ( (v13 & 2) != 0 ) goto LABEL_46; v13 = v13 & 0xFFFFFFFC | 2; v14 = v14 & 0xFFFFFF7C | 0x80; break; case ',': i = 1; LABEL_46: v16 = 0; break; case 'D': if ( (v13 & 0x40) != 0 ) goto LABEL_46; v13 |= 0x40u; break; case 'N': v13 |= 0x80u; break; case 'R': if ( v9 ) goto LABEL_46; v9 = 1; v13 |= 0x10u; break; default: goto LABEL_6; } } v17 = *++v15; if ( !*v15 ) break; } if ( !i ) goto LABEL_66; while ( *v15 == 32 ) ++v15; if ( wcsncmp(L"ccs", v15, 3ui64) ) goto LABEL_6; for ( j = v15 + 3; *j == 32; ++j ) ; if ( *j != 61 ) goto LABEL_6; do ++j; while ( *j == 32 ); if ( !wcsnicmp(j, L"UTF-8", 5ui64) ) { v15 = j + 5; v13 |= 0x40000u; goto LABEL_66; } if ( !wcsnicmp(j, L"UTF-16LE", 8ui64) ) { v15 = j + 8; v13 |= 0x20000u; goto LABEL_66; } if ( wcsnicmp(j, L"UNICODE", 7ui64) ) goto LABEL_6; v15 = j + 7; v13 |= 0x10000u; LABEL_66: while ( *v15 == 32 ) ++v15; if ( *v15 ) goto LABEL_6; if ( sopen_s_0(&FileHandle, FileName, v13, a3, 384) ) return 0i64; ++dword_140285510; v19 = FileHandle; *(_DWORD *)(a4 + 24) = v14; *(_DWORD *)(a4 + 28) = v19; *(_DWORD *)(a4 + 8) = 0; *(_QWORD *)a4 = 0i64; result = a4; *(_QWORD *)(a4 + 16) = 0i64; *(_QWORD *)(a4 + 40) = 0i64; return result; }

openssl