net/tools/transport_security_state_generator/preloaded_state_generator.cc - chromium/src - Git at Google

 // Copyright (c) 2016 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/tools/transport_security_state_generator/preloaded_state_generator.h"

 #include <string>

 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_util.h"
 #include "base/strings/stringprintf.h"
 #include "net/tools/huffman_trie/huffman/huffman_builder.h"
 #include "net/tools/transport_security_state_generator/cert_util.h"
 #include "net/tools/transport_security_state_generator/spki_hash.h"

 namespace net {

 namespace transport_security_state {

 namespace {

 static const char kNewLine[] = "\n";
 static const char kIndent[] = "  ";

 std::string FormatSPKIName(const std::string& name) {
   return "kSPKIHash_" + name;
 }

 std::string FormatAcceptedKeyName(const std::string& name) {
   return "k" + name + "AcceptableCerts";
 }

 std::string FormatRejectedKeyName(const std::string& name) {
   return "k" + name + "RejectedCerts";
 }

 std::string FormatReportURIName(const std::string& name) {
   return "k" + name + "ReportURI";
 }

 // Replaces the first occurrence of "[[" + name + "]]" in |*tpl| with
 // |value|.
 bool ReplaceTag(const std::string& name,
                 const std::string& value,
                 std::string* tpl) {
   std::string tag = "[[" + name + "]]";

   size_t start_pos = tpl->find(tag);
   if (start_pos == std::string::npos) {
     return false;
   }

   tpl->replace(start_pos, tag.length(), value);
   return true;
 }

 // Formats the bytes in |bytes| as an C++ array initializer and returns the
 // resulting string.
 std::string FormatVectorAsArray(const std::vector<uint8_t>& bytes) {
   std::string output = "{";
   output.append(kNewLine);
   output.append(kIndent);
   output.append(kIndent);

   size_t bytes_on_current_line = 0;

   for (size_t i = 0; i < bytes.size(); ++i) {
     base::StringAppendF(&output, "0x%02x,", bytes[i]);

     bytes_on_current_line++;
     if (bytes_on_current_line >= 12 && i + 1 < bytes.size()) {
       output.append(kNewLine);
       output.append(kIndent);
       output.append(kIndent);

       bytes_on_current_line = 0;
     } else if (i + 1 < bytes.size()) {
       output.append(" ");
     }
   }

   output.append(kNewLine);
   output.append("}");

   return output;
 }

 std::string WritePinsetList(const std::string& name,
                             const std::vector<std::string>& pins) {
   std::string output = "static const char* const " + name + "[] = {";
   output.append(kNewLine);

   for (const auto& pin_name : pins) {
     output.append(kIndent);
     output.append(kIndent);
     output.append(FormatSPKIName(pin_name));
     output.append(",");
     output.append(kNewLine);
   }

   output.append(kIndent);
   output.append(kIndent);
   output.append("nullptr,");
   output.append(kNewLine);
   output.append("};");

   return output;
 }

 huffman_trie::HuffmanRepresentationTable ApproximateHuffman(
     const TransportSecurityStateEntries& entries) {
   huffman_trie::HuffmanBuilder huffman_builder;
   for (const auto& entry : entries) {
     for (const auto& c : entry->hostname) {
       huffman_builder.RecordUsage(c);
     }

     huffman_builder.RecordUsage(huffman_trie::kTerminalValue);
     huffman_builder.RecordUsage(huffman_trie::kEndOfTableValue);
   }

   return huffman_builder.ToTable();
 }

 }  // namespace

 PreloadedStateGenerator::PreloadedStateGenerator() = default;

 PreloadedStateGenerator::~PreloadedStateGenerator() = default;

 std::string PreloadedStateGenerator::Generate(
     const std::string& preload_template,
     const TransportSecurityStateEntries& entries,
     const Pinsets& pinsets) {
   std::string output = preload_template;

   ProcessSPKIHashes(pinsets, &output);

   NameIDMap expect_ct_report_uri_map;
   ProcessExpectCTURIs(entries, &expect_ct_report_uri_map, &output);

   NameIDMap pinsets_map;
   ProcessPinsets(pinsets, &pinsets_map, &output);

   std::vector<std::unique_ptr<TransportSecurityStateTrieEntry>> trie_entries;
   std::vector<huffman_trie::TrieEntry*> raw_trie_entries;
   for (const auto& entry : entries) {
     std::unique_ptr<TransportSecurityStateTrieEntry> trie_entry(
         new TransportSecurityStateTrieEntry(expect_ct_report_uri_map,
                                             pinsets_map, entry.get()));
     raw_trie_entries.push_back(trie_entry.get());
     trie_entries.push_back(std::move(trie_entry));
   }

   // The trie generation process is ran twice, the first time using an
   // approximate Huffman table. During this first run, the correct character
   // frequencies are collected which are then used to calculate the most space
   // efficient Huffman table for the given inputs. This table is used for the
   // second run.
   huffman_trie::HuffmanRepresentationTable table = ApproximateHuffman(entries);
   huffman_trie::HuffmanBuilder huffman_builder;
   huffman_trie::TrieWriter writer(table, &huffman_builder);
   uint32_t root_position;
   if (!writer.WriteEntries(raw_trie_entries, &root_position)) {
     return std::string();
   }

   huffman_trie::HuffmanRepresentationTable optimal_table =
       huffman_builder.ToTable();
   huffman_trie::TrieWriter new_writer(optimal_table, nullptr);

   if (!new_writer.WriteEntries(raw_trie_entries, &root_position)) {
     return std::string();
   }

   uint32_t new_length = new_writer.position();
   std::vector<uint8_t> huffman_tree = huffman_builder.ToVector();
   new_writer.Flush();

   ReplaceTag("HUFFMAN_TREE", FormatVectorAsArray(huffman_tree), &output);
   ReplaceTag("HSTS_TRIE", FormatVectorAsArray(new_writer.bytes()), &output);

   ReplaceTag("HSTS_TRIE_BITS", base::NumberToString(new_length), &output);
   ReplaceTag("HSTS_TRIE_ROOT", base::NumberToString(root_position), &output);

   return output;
 }

 void PreloadedStateGenerator::ProcessSPKIHashes(const Pinsets& pinset,
                                                 std::string* tpl) {
   std::string output;

   const SPKIHashMap& hashes = pinset.spki_hashes();
   for (const auto& current : hashes) {
     const std::string& name = current.first;
     const SPKIHash& hash = current.second;

     output.append("static const char " + FormatSPKIName(name) + "[] =");
     output.append(kNewLine);

     for (size_t i = 0; i < hash.size() / 16; ++i) {
       output.append(kIndent);
       output.append(kIndent);
       output.append("\"");

       for (size_t j = i * 16; j < ((i + 1) * 16); ++j) {
         base::StringAppendF(&output, "\\x%02x", hash.data()[j]);
       }

       output.append("\"");
       if (i + 1 == hash.size() / 16) {
         output.append(";");
       }
       output.append(kNewLine);
     }

     output.append(kNewLine);
   }

   base::TrimString(output, kNewLine, &output);
   ReplaceTag("SPKI_HASHES", output, tpl);
 }

 void PreloadedStateGenerator::ProcessExpectCTURIs(
     const TransportSecurityStateEntries& entries,
     NameIDMap* expect_ct_report_uri_map,
     std::string* tpl) {
   std::string output = "{";
   output.append(kNewLine);

   for (const auto& entry : entries) {
     const std::string& url = entry->expect_ct_report_uri;
     if (entry->expect_ct && url.size() &&
         expect_ct_report_uri_map->find(url) ==
             expect_ct_report_uri_map->cend()) {
       output.append(kIndent);
       output.append(kIndent);
       output.append("\"" + entry->expect_ct_report_uri + "\",");
       output.append(kNewLine);

       expect_ct_report_uri_map->insert(
           NameIDPair(entry->expect_ct_report_uri,
                      static_cast<uint32_t>(expect_ct_report_uri_map->size())));
     }
   }

   output.append(kIndent);
   output.append(kIndent);
   output.append("nullptr,");
   output.append(kNewLine);

   output.append("}");
   ReplaceTag("EXPECT_CT_REPORT_URIS", output, tpl);
 }

 void PreloadedStateGenerator::ProcessPinsets(const Pinsets& pinset,
                                              NameIDMap* pinset_map,
                                              std::string* tpl) {
   std::string certs_output;
   std::string pinsets_output = "{";
   pinsets_output.append(kNewLine);

   const PinsetMap& pinsets = pinset.pinsets();
   for (const auto& current : pinsets) {
     const std::unique_ptr<Pinset>& pinset = current.second;
     std::string uppercased_name = pinset->name();
     uppercased_name[0] = base::ToUpperASCII(uppercased_name[0]);

     const std::string& accepted_pins_names =
         FormatAcceptedKeyName(uppercased_name);
     certs_output.append(
         WritePinsetList(accepted_pins_names, pinset->static_spki_hashes()));
     certs_output.append(kNewLine);

     std::string rejected_pins_names = "kNoRejectedPublicKeys";
     if (pinset->bad_static_spki_hashes().size()) {
       rejected_pins_names = FormatRejectedKeyName(uppercased_name);
       certs_output.append(WritePinsetList(rejected_pins_names,
                                           pinset->bad_static_spki_hashes()));
       certs_output.append(kNewLine);
     }

     std::string report_uri = "kNoReportURI";
     if (pinset->report_uri().size()) {
       report_uri = FormatReportURIName(uppercased_name);
       certs_output.append("static const char " + report_uri + "[] = ");
       certs_output.append("\"");
       certs_output.append(pinset->report_uri());
       certs_output.append("\";");
       certs_output.append(kNewLine);
     }
     certs_output.append(kNewLine);

     pinsets_output.append(kIndent);
     pinsets_output.append(kIndent);
     pinsets_output.append("{" + accepted_pins_names + ", " +
                           rejected_pins_names + ", " + report_uri + "},");
     pinsets_output.append(kNewLine);

     pinset_map->insert(
         NameIDPair(pinset->name(), static_cast<uint32_t>(pinset_map->size())));
   }

   pinsets_output.append("}");

   base::TrimString(certs_output, kNewLine, &certs_output);

   ReplaceTag("ACCEPTABLE_CERTS", certs_output, tpl);
   ReplaceTag("PINSETS", pinsets_output, tpl);
 }

 }  // namespace transport_security_state

 }  // namespace net
	// Copyright (c) 2016 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/tools/transport_security_state_generator/preloaded_state_generator.h"

	#include <string>

	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_util.h"
	#include "base/strings/stringprintf.h"
	#include "net/tools/huffman_trie/huffman/huffman_builder.h"
	#include "net/tools/transport_security_state_generator/cert_util.h"
	#include "net/tools/transport_security_state_generator/spki_hash.h"

	namespace net {

	namespace transport_security_state {

	namespace {

	static const char kNewLine[] = "\n";
	static const char kIndent[] = " ";

	std::string FormatSPKIName(const std::string& name) {
	return "kSPKIHash_" + name;
	}

	std::string FormatAcceptedKeyName(const std::string& name) {
	return "k" + name + "AcceptableCerts";
	}

	std::string FormatRejectedKeyName(const std::string& name) {
	return "k" + name + "RejectedCerts";
	}

	std::string FormatReportURIName(const std::string& name) {
	return "k" + name + "ReportURI";
	}

	// Replaces the first occurrence of "[[" + name + "]]" in \|*tpl\| with
	// \|value\|.
	bool ReplaceTag(const std::string& name,
	const std::string& value,
	std::string* tpl) {
	std::string tag = "[[" + name + "]]";

	size_t start_pos = tpl->find(tag);
	if (start_pos == std::string::npos) {
	return false;
	}

	tpl->replace(start_pos, tag.length(), value);
	return true;
	}

	// Formats the bytes in \|bytes\| as an C++ array initializer and returns the
	// resulting string.
	std::string FormatVectorAsArray(const std::vector<uint8_t>& bytes) {
	std::string output = "{";
	output.append(kNewLine);
	output.append(kIndent);
	output.append(kIndent);

	size_t bytes_on_current_line = 0;

	for (size_t i = 0; i < bytes.size(); ++i) {
	base::StringAppendF(&output, "0x%02x,", bytes[i]);

	bytes_on_current_line++;
	if (bytes_on_current_line >= 12 && i + 1 < bytes.size()) {
	output.append(kNewLine);
	output.append(kIndent);
	output.append(kIndent);

	bytes_on_current_line = 0;
	} else if (i + 1 < bytes.size()) {
	output.append(" ");
	}
	}

	output.append(kNewLine);
	output.append("}");

	return output;
	}

	std::string WritePinsetList(const std::string& name,
	const std::vector<std::string>& pins) {
	std::string output = "static const char* const " + name + "[] = {";
	output.append(kNewLine);

	for (const auto& pin_name : pins) {
	output.append(kIndent);
	output.append(kIndent);
	output.append(FormatSPKIName(pin_name));
	output.append(",");
	output.append(kNewLine);
	}

	output.append(kIndent);
	output.append(kIndent);
	output.append("nullptr,");
	output.append(kNewLine);
	output.append("};");

	return output;
	}

	huffman_trie::HuffmanRepresentationTable ApproximateHuffman(
	const TransportSecurityStateEntries& entries) {
	huffman_trie::HuffmanBuilder huffman_builder;
	for (const auto& entry : entries) {
	for (const auto& c : entry->hostname) {
	huffman_builder.RecordUsage(c);
	}

	huffman_builder.RecordUsage(huffman_trie::kTerminalValue);
	huffman_builder.RecordUsage(huffman_trie::kEndOfTableValue);
	}

	return huffman_builder.ToTable();
	}

	} // namespace

	PreloadedStateGenerator::PreloadedStateGenerator() = default;

	PreloadedStateGenerator::~PreloadedStateGenerator() = default;

	std::string PreloadedStateGenerator::Generate(
	const std::string& preload_template,
	const TransportSecurityStateEntries& entries,
	const Pinsets& pinsets) {
	std::string output = preload_template;

	ProcessSPKIHashes(pinsets, &output);

	NameIDMap expect_ct_report_uri_map;
	ProcessExpectCTURIs(entries, &expect_ct_report_uri_map, &output);

	NameIDMap pinsets_map;
	ProcessPinsets(pinsets, &pinsets_map, &output);

	std::vector<std::unique_ptr<TransportSecurityStateTrieEntry>> trie_entries;
	std::vector<huffman_trie::TrieEntry*> raw_trie_entries;
	for (const auto& entry : entries) {
	std::unique_ptr<TransportSecurityStateTrieEntry> trie_entry(
	new TransportSecurityStateTrieEntry(expect_ct_report_uri_map,
	pinsets_map, entry.get()));
	raw_trie_entries.push_back(trie_entry.get());
	trie_entries.push_back(std::move(trie_entry));
	}

	// The trie generation process is ran twice, the first time using an
	// approximate Huffman table. During this first run, the correct character
	// frequencies are collected which are then used to calculate the most space
	// efficient Huffman table for the given inputs. This table is used for the
	// second run.
	huffman_trie::HuffmanRepresentationTable table = ApproximateHuffman(entries);
	huffman_trie::HuffmanBuilder huffman_builder;
	huffman_trie::TrieWriter writer(table, &huffman_builder);
	uint32_t root_position;
	if (!writer.WriteEntries(raw_trie_entries, &root_position)) {
	return std::string();
	}

	huffman_trie::HuffmanRepresentationTable optimal_table =
	huffman_builder.ToTable();
	huffman_trie::TrieWriter new_writer(optimal_table, nullptr);

	if (!new_writer.WriteEntries(raw_trie_entries, &root_position)) {
	return std::string();
	}

	uint32_t new_length = new_writer.position();
	std::vector<uint8_t> huffman_tree = huffman_builder.ToVector();
	new_writer.Flush();

	ReplaceTag("HUFFMAN_TREE", FormatVectorAsArray(huffman_tree), &output);
	ReplaceTag("HSTS_TRIE", FormatVectorAsArray(new_writer.bytes()), &output);

	ReplaceTag("HSTS_TRIE_BITS", base::NumberToString(new_length), &output);
	ReplaceTag("HSTS_TRIE_ROOT", base::NumberToString(root_position), &output);

	return output;
	}

	void PreloadedStateGenerator::ProcessSPKIHashes(const Pinsets& pinset,
	std::string* tpl) {
	std::string output;

	const SPKIHashMap& hashes = pinset.spki_hashes();
	for (const auto& current : hashes) {
	const std::string& name = current.first;
	const SPKIHash& hash = current.second;

	output.append("static const char " + FormatSPKIName(name) + "[] =");
	output.append(kNewLine);

	for (size_t i = 0; i < hash.size() / 16; ++i) {
	output.append(kIndent);
	output.append(kIndent);
	output.append("\"");

	for (size_t j = i * 16; j < ((i + 1) * 16); ++j) {
	base::StringAppendF(&output, "\\x%02x", hash.data()[j]);
	}

	output.append("\"");
	if (i + 1 == hash.size() / 16) {
	output.append(";");
	}
	output.append(kNewLine);
	}

	output.append(kNewLine);
	}

	base::TrimString(output, kNewLine, &output);
	ReplaceTag("SPKI_HASHES", output, tpl);
	}

	void PreloadedStateGenerator::ProcessExpectCTURIs(
	const TransportSecurityStateEntries& entries,
	NameIDMap* expect_ct_report_uri_map,
	std::string* tpl) {
	std::string output = "{";
	output.append(kNewLine);

	for (const auto& entry : entries) {
	const std::string& url = entry->expect_ct_report_uri;
	if (entry->expect_ct && url.size() &&
	expect_ct_report_uri_map->find(url) ==
	expect_ct_report_uri_map->cend()) {
	output.append(kIndent);
	output.append(kIndent);
	output.append("\"" + entry->expect_ct_report_uri + "\",");
	output.append(kNewLine);

	expect_ct_report_uri_map->insert(
	NameIDPair(entry->expect_ct_report_uri,
	static_cast<uint32_t>(expect_ct_report_uri_map->size())));
	}
	}

	output.append(kIndent);
	output.append(kIndent);
	output.append("nullptr,");
	output.append(kNewLine);

	output.append("}");
	ReplaceTag("EXPECT_CT_REPORT_URIS", output, tpl);
	}

	void PreloadedStateGenerator::ProcessPinsets(const Pinsets& pinset,
	NameIDMap* pinset_map,
	std::string* tpl) {
	std::string certs_output;
	std::string pinsets_output = "{";
	pinsets_output.append(kNewLine);

	const PinsetMap& pinsets = pinset.pinsets();
	for (const auto& current : pinsets) {
	const std::unique_ptr<Pinset>& pinset = current.second;
	std::string uppercased_name = pinset->name();
	uppercased_name[0] = base::ToUpperASCII(uppercased_name[0]);

	const std::string& accepted_pins_names =
	FormatAcceptedKeyName(uppercased_name);
	certs_output.append(
	WritePinsetList(accepted_pins_names, pinset->static_spki_hashes()));
	certs_output.append(kNewLine);

	std::string rejected_pins_names = "kNoRejectedPublicKeys";
	if (pinset->bad_static_spki_hashes().size()) {
	rejected_pins_names = FormatRejectedKeyName(uppercased_name);
	certs_output.append(WritePinsetList(rejected_pins_names,
	pinset->bad_static_spki_hashes()));
	certs_output.append(kNewLine);
	}

	std::string report_uri = "kNoReportURI";
	if (pinset->report_uri().size()) {
	report_uri = FormatReportURIName(uppercased_name);
	certs_output.append("static const char " + report_uri + "[] = ");
	certs_output.append("\"");
	certs_output.append(pinset->report_uri());
	certs_output.append("\";");
	certs_output.append(kNewLine);
	}
	certs_output.append(kNewLine);

	pinsets_output.append(kIndent);
	pinsets_output.append(kIndent);
	pinsets_output.append("{" + accepted_pins_names + ", " +
	rejected_pins_names + ", " + report_uri + "},");
	pinsets_output.append(kNewLine);

	pinset_map->insert(
	NameIDPair(pinset->name(), static_cast<uint32_t>(pinset_map->size())));
	}

	pinsets_output.append("}");

	base::TrimString(certs_output, kNewLine, &certs_output);

	ReplaceTag("ACCEPTABLE_CERTS", certs_output, tpl);
	ReplaceTag("PINSETS", pinsets_output, tpl);
	}

	} // namespace transport_security_state

	} // namespace net