src/pki/pem.cc - boringssl.git - Git at Google

 // Copyright 2010 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "string_util.h"
 #include "pem.h"

 #include "fillins/fillins_base64.h"
 #include <string_view>

 #include "fillins/fillins_string_util.h"

 namespace {

 constexpr std::string_view kPEMHeaderBeginBlock = "-----BEGIN ";
 constexpr std::string_view kPEMHeaderEndBlock = "-----END ";
 constexpr std::string_view kPEMHeaderTail = "-----";

 }  // namespace

 namespace bssl {


 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 (!fillins::Base64Decode(fillins::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;
   fillins::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;
 }

 }  // namespace net
	// Copyright 2010 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "string_util.h"
	#include "pem.h"

	#include "fillins/fillins_base64.h"
	#include <string_view>

	#include "fillins/fillins_string_util.h"

	namespace {

	constexpr std::string_view kPEMHeaderBeginBlock = "-----BEGIN ";
	constexpr std::string_view kPEMHeaderEndBlock = "-----END ";
	constexpr std::string_view kPEMHeaderTail = "-----";

	} // namespace

	namespace bssl {



	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 (!fillins::Base64Decode(fillins::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;
	fillins::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;
	}

	} // namespace net