// Copyright (c) 2010 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/base/pem_tokenizer.h" #include "base/base64.h" #include "base/string_util.h" #include "base/stringprintf.h" namespace { const char kPEMSearchBlock[] = "-----BEGIN "; const char kPEMBeginBlock[] = "-----BEGIN %s-----"; const char kPEMEndBlock[] = "-----END %s-----"; } // namespace namespace net { using base::StringPiece; struct PEMTokenizer::PEMType { std::string type; std::string header; std::string footer; }; PEMTokenizer::PEMTokenizer( const StringPiece& str, const std::vector& allowed_block_types) { Init(str, allowed_block_types); } PEMTokenizer::~PEMTokenizer() { } bool PEMTokenizer::GetNext() { while (pos_ != StringPiece::npos) { // Scan for the beginning of the next PEM encoded block. pos_ = str_.find(kPEMSearchBlock, pos_); if (pos_ == StringPiece::npos) return false; // No more PEM blocks std::vector::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 (!str_.substr(pos_).starts_with(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. StringPiece::size_type footer_pos = str_.find(it->footer, pos_); if (footer_pos == StringPiece::npos) { pos_ = StringPiece::npos; return false; } // Chop off the header and footer and parse the data in between. StringPiece::size_type data_begin = pos_ + it->header.size(); pos_ = footer_pos + it->footer.size(); block_type_ = it->type; StringPiece encoded = str_.substr(data_begin, footer_pos - data_begin); if (!base::Base64Decode(CollapseWhitespaceASCII(encoded.as_string(), 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_ += sizeof(kPEMSearchBlock); } return false; } void PEMTokenizer::Init( const StringPiece& str, const std::vector& allowed_block_types) { str_ = str; pos_ = 0; // Construct PEM header/footer strings for all the accepted types, to // reduce parsing later. for (std::vector::const_iterator it = allowed_block_types.begin(); it != allowed_block_types.end(); ++it) { PEMType allowed_type; allowed_type.type = *it; allowed_type.header = base::StringPrintf(kPEMBeginBlock, it->c_str()); allowed_type.footer = base::StringPrintf(kPEMEndBlock, it->c_str()); block_types_.push_back(allowed_type); } } } // namespace net