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FoxiGram/TMessagesProj/jni/boringssl/pki/pem.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 2010 The Chromium Authors
//
// 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 "pem.h"
#include "string_util.h"
#include <string_view>
namespace {
constexpr std::string_view kPEMHeaderBeginBlock = "-----BEGIN ";
constexpr std::string_view kPEMHeaderEndBlock = "-----END ";
constexpr std::string_view kPEMHeaderTail = "-----";
} // namespace
BSSL_NAMESPACE_BEGIN
struct PEMTokenizer::PEMType {
std::string type;
std::string header;
std::string footer;
};
PEMTokenizer::PEMTokenizer(
std::string_view str, const std::vector<std::string> &allowed_block_types) {
Init(str, allowed_block_types);
}
PEMTokenizer::~PEMTokenizer() = default;
bool PEMTokenizer::GetNext() {
while (pos_ != std::string_view::npos) {
// Scan for the beginning of the next PEM encoded block.
pos_ = str_.find(kPEMHeaderBeginBlock, pos_);
if (pos_ == std::string_view::npos) {
return false; // No more PEM blocks
}
std::vector<PEMType>::const_iterator it;
// Check to see if it is of an acceptable block type.
for (it = block_types_.begin(); it != block_types_.end(); ++it) {
if (!bssl::string_util::StartsWith(str_.substr(pos_), it->header)) {
continue;
}
// Look for a footer matching the header. If none is found, then all
// data following this point is invalid and should not be parsed.
std::string_view::size_type footer_pos = str_.find(it->footer, pos_);
if (footer_pos == std::string_view::npos) {
pos_ = std::string_view::npos;
return false;
}
// Chop off the header and footer and parse the data in between.
std::string_view::size_type data_begin = pos_ + it->header.size();
pos_ = footer_pos + it->footer.size();
block_type_ = it->type;
std::string_view encoded =
str_.substr(data_begin, footer_pos - data_begin);
if (!string_util::Base64Decode(
string_util::CollapseWhitespaceASCII(encoded, true), &data_)) {
// The most likely cause for a decode failure is a datatype that
// includes PEM headers, which are not supported.
break;
}
return true;
}
// If the block did not match any acceptable type, move past it and
// continue the search. Otherwise, |pos_| has been updated to the most
// appropriate search position to continue searching from and should not
// be adjusted.
if (it == block_types_.end()) {
pos_ += kPEMHeaderBeginBlock.size();
}
}
return false;
}
void PEMTokenizer::Init(std::string_view str,
const std::vector<std::string> &allowed_block_types) {
str_ = str;
pos_ = 0;
// Construct PEM header/footer strings for all the accepted types, to
// reduce parsing later.
for (const auto &allowed_block_type : allowed_block_types) {
PEMType allowed_type;
allowed_type.type = allowed_block_type;
allowed_type.header = kPEMHeaderBeginBlock;
allowed_type.header.append(allowed_block_type);
allowed_type.header.append(kPEMHeaderTail);
allowed_type.footer = kPEMHeaderEndBlock;
allowed_type.footer.append(allowed_block_type);
allowed_type.footer.append(kPEMHeaderTail);
block_types_.push_back(allowed_type);
}
}
std::string PEMEncode(std::string_view data, const std::string &type) {
std::string b64_encoded;
string_util::Base64Encode(data, &b64_encoded);
// Divide the Base-64 encoded data into 64-character chunks, as per
// 4.3.2.4 of RFC 1421.
static const size_t kChunkSize = 64;
size_t chunks = (b64_encoded.size() + (kChunkSize - 1)) / kChunkSize;
std::string pem_encoded;
pem_encoded.reserve(
// header & footer
17 + 15 + type.size() * 2 +
// encoded data
b64_encoded.size() +
// newline characters for line wrapping in encoded data
chunks);
pem_encoded = kPEMHeaderBeginBlock;
pem_encoded.append(type);
pem_encoded.append(kPEMHeaderTail);
pem_encoded.append("\n");
for (size_t i = 0, chunk_offset = 0; i < chunks;
++i, chunk_offset += kChunkSize) {
pem_encoded.append(b64_encoded, chunk_offset, kChunkSize);
pem_encoded.append("\n");
}
pem_encoded.append(kPEMHeaderEndBlock);
pem_encoded.append(type);
pem_encoded.append(kPEMHeaderTail);
pem_encoded.append("\n");
return pem_encoded;
}
BSSL_NAMESPACE_END
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