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FoxiGram/TMessagesProj/jni/boringssl/crypto/evp/p_rsa_asn1.cc
instant992 8e79f2ee9c FoxiGram: Telegram client with built-in Xray VLESS proxy 
Based on Nekogram. Key additions:
- Rebrand to FoxiGram (app name, APK name, applicationId com.foxigram.app)
- Embedded Xray (VLESS+Reality) proxy client via JNI libxray.so
- Bundled hidden one-tap proxies (LTE + WiFi), read-only in UI
- Auto-restore proxy on restart, rebind to active network (LTE/WiFi)
- Server credentials externalized to git-ignored XrayServers.java (+ template)
- libxray Go source included; compiled .so, keystore, google-services.json ignored
2026-06-08 16:41:07 +04:00

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// Copyright 2006-2016 The OpenSSL Project Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <openssl/evp.h>
#include <openssl/bn.h>
#include <openssl/bytestring.h>
#include <openssl/digest.h>
#include <openssl/err.h>
#include <openssl/mem.h>
#include <openssl/rsa.h>
#include "../fipsmodule/rsa/internal.h"
#include "internal.h"
static int rsa_pub_encode(CBB *out, const EVP_PKEY *key) {
// See RFC 3279, section 2.3.1.
const RSA *rsa = reinterpret_cast<const RSA *>(key->pkey);
CBB spki, algorithm, oid, null, key_bitstring;
if (!CBB_add_asn1(out, &spki, CBS_ASN1_SEQUENCE) ||
!CBB_add_asn1(&spki, &algorithm, CBS_ASN1_SEQUENCE) ||
!CBB_add_asn1(&algorithm, &oid, CBS_ASN1_OBJECT) ||
!CBB_add_bytes(&oid, rsa_asn1_meth.oid, rsa_asn1_meth.oid_len) ||
!CBB_add_asn1(&algorithm, &null, CBS_ASN1_NULL) ||
!CBB_add_asn1(&spki, &key_bitstring, CBS_ASN1_BITSTRING) ||
!CBB_add_u8(&key_bitstring, 0 /* padding */) ||
!RSA_marshal_public_key(&key_bitstring, rsa) || //
!CBB_flush(out)) {
OPENSSL_PUT_ERROR(EVP, EVP_R_ENCODE_ERROR);
return 0;
}
return 1;
}
static int rsa_pub_decode(EVP_PKEY *out, CBS *params, CBS *key) {
// See RFC 3279, section 2.3.1.
// The parameters must be NULL.
CBS null;
if (!CBS_get_asn1(params, &null, CBS_ASN1_NULL) || CBS_len(&null) != 0 ||
CBS_len(params) != 0) {
OPENSSL_PUT_ERROR(EVP, EVP_R_DECODE_ERROR);
return 0;
}
RSA *rsa = RSA_parse_public_key(key);
if (rsa == NULL || CBS_len(key) != 0) {
OPENSSL_PUT_ERROR(EVP, EVP_R_DECODE_ERROR);
RSA_free(rsa);
return 0;
}
EVP_PKEY_assign_RSA(out, rsa);
return 1;
}
static int rsa_pub_cmp(const EVP_PKEY *a, const EVP_PKEY *b) {
const RSA *a_rsa = reinterpret_cast<const RSA *>(a->pkey);
const RSA *b_rsa = reinterpret_cast<const RSA *>(b->pkey);
return BN_cmp(RSA_get0_n(b_rsa), RSA_get0_n(a_rsa)) == 0 &&
BN_cmp(RSA_get0_e(b_rsa), RSA_get0_e(a_rsa)) == 0;
}
static int rsa_priv_encode(CBB *out, const EVP_PKEY *key) {
const RSA *rsa = reinterpret_cast<const RSA *>(key->pkey);
CBB pkcs8, algorithm, oid, null, private_key;
if (!CBB_add_asn1(out, &pkcs8, CBS_ASN1_SEQUENCE) ||
!CBB_add_asn1_uint64(&pkcs8, 0 /* version */) ||
!CBB_add_asn1(&pkcs8, &algorithm, CBS_ASN1_SEQUENCE) ||
!CBB_add_asn1(&algorithm, &oid, CBS_ASN1_OBJECT) ||
!CBB_add_bytes(&oid, rsa_asn1_meth.oid, rsa_asn1_meth.oid_len) ||
!CBB_add_asn1(&algorithm, &null, CBS_ASN1_NULL) ||
!CBB_add_asn1(&pkcs8, &private_key, CBS_ASN1_OCTETSTRING) ||
!RSA_marshal_private_key(&private_key, rsa) || //
!CBB_flush(out)) {
OPENSSL_PUT_ERROR(EVP, EVP_R_ENCODE_ERROR);
return 0;
}
return 1;
}
static int rsa_priv_decode(EVP_PKEY *out, CBS *params, CBS *key) {
// Per RFC 3447, A.1, the parameters have type NULL.
CBS null;
if (!CBS_get_asn1(params, &null, CBS_ASN1_NULL) || CBS_len(&null) != 0 ||
CBS_len(params) != 0) {
OPENSSL_PUT_ERROR(EVP, EVP_R_DECODE_ERROR);
return 0;
}
RSA *rsa = RSA_parse_private_key(key);
if (rsa == NULL || CBS_len(key) != 0) {
OPENSSL_PUT_ERROR(EVP, EVP_R_DECODE_ERROR);
RSA_free(rsa);
return 0;
}
EVP_PKEY_assign_RSA(out, rsa);
return 1;
}
static int rsa_opaque(const EVP_PKEY *pkey) {
const RSA *rsa = reinterpret_cast<const RSA *>(pkey->pkey);
return RSA_is_opaque(rsa);
}
static int int_rsa_size(const EVP_PKEY *pkey) {
const RSA *rsa = reinterpret_cast<const RSA *>(pkey->pkey);
return RSA_size(rsa);
}
static int rsa_bits(const EVP_PKEY *pkey) {
const RSA *rsa = reinterpret_cast<const RSA *>(pkey->pkey);
return RSA_bits(rsa);
}
static void int_rsa_free(EVP_PKEY *pkey) {
RSA_free(reinterpret_cast<RSA *>(pkey->pkey));
pkey->pkey = NULL;
}
const EVP_PKEY_ASN1_METHOD rsa_asn1_meth = {
EVP_PKEY_RSA,
// 1.2.840.113549.1.1.1
{0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x01, 0x01, 0x01},
9,
&rsa_pkey_meth,
rsa_pub_decode,
rsa_pub_encode,
rsa_pub_cmp,
rsa_priv_decode,
rsa_priv_encode,
/*set_priv_raw=*/NULL,
/*set_pub_raw=*/NULL,
/*get_priv_raw=*/NULL,
/*get_pub_raw=*/NULL,
/*set1_tls_encodedpoint=*/NULL,
/*get1_tls_encodedpoint=*/NULL,
rsa_opaque,
int_rsa_size,
rsa_bits,
0,
0,
0,
int_rsa_free,
};
int EVP_PKEY_set1_RSA(EVP_PKEY *pkey, RSA *key) {
if (EVP_PKEY_assign_RSA(pkey, key)) {
RSA_up_ref(key);
return 1;
}
return 0;
}
int EVP_PKEY_assign_RSA(EVP_PKEY *pkey, RSA *key) {
evp_pkey_set_method(pkey, &rsa_asn1_meth);
pkey->pkey = key;
return key != NULL;
}
RSA *EVP_PKEY_get0_RSA(const EVP_PKEY *pkey) {
if (pkey->type != EVP_PKEY_RSA) {
OPENSSL_PUT_ERROR(EVP, EVP_R_EXPECTING_AN_RSA_KEY);
return NULL;
}
return reinterpret_cast<RSA *>(pkey->pkey);
}
RSA *EVP_PKEY_get1_RSA(const EVP_PKEY *pkey) {
RSA *rsa = EVP_PKEY_get0_RSA(pkey);
if (rsa != NULL) {
RSA_up_ref(rsa);
}
return rsa;
}
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