quiche/quic/core/crypto/cert_compressor.cc - quiche.git - Git at Google

 // Copyright (c) 2013 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 "quiche/quic/core/crypto/cert_compressor.h"

 #include <cstdint>
 #include <memory>
 #include <string>
 #include <utility>

 #include "absl/strings/string_view.h"
 #include "quiche/quic/core/quic_utils.h"
 #include "quiche/quic/platform/api/quic_bug_tracker.h"
 #include "quiche/quic/platform/api/quic_flag_utils.h"
 #include "quiche/quic/platform/api/quic_flags.h"
 #include "zlib.h"

 namespace quic {

 namespace {

 // kCommonCertSubstrings contains ~1500 bytes of common certificate substrings
 // in order to help zlib. This was generated via a fairly dumb algorithm from
 // the Alexa Top 5000 set - we could probably do better.
 static const unsigned char kCommonCertSubstrings[] = {
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 };

 // CertEntry represents a certificate in compressed form. Each entry is one of
 // the three types enumerated in |Type|.
 struct CertEntry {
  public:
   enum Type {
     // Type 0 is reserved to mean "end of list" in the wire format.

     // COMPRESSED means that the certificate is included in the trailing zlib
     // data.
     COMPRESSED = 1,
     // CACHED means that the certificate is already known to the peer and will
     // be replaced by its 64-bit hash (in |hash|).
     CACHED = 2,
   };

   Type type;
   uint64_t hash;
   uint64_t set_hash;
   uint32_t index;
 };

 // MatchCerts returns a vector of CertEntries describing how to most
 // efficiently represent |certs| to a peer who has cached the certificates
 // with the 64-bit, FNV-1a hashes in |client_cached_cert_hashes|.
 std::vector<CertEntry> MatchCerts(const std::vector<std::string>& certs,
                                   absl::string_view client_cached_cert_hashes) {
   std::vector<CertEntry> entries;
   entries.reserve(certs.size());

   const bool cached_valid =
       client_cached_cert_hashes.size() % sizeof(uint64_t) == 0 &&
       !client_cached_cert_hashes.empty();

   for (auto i = certs.begin(); i != certs.end(); ++i) {
     CertEntry entry;

     if (cached_valid) {
       bool cached = false;

       uint64_t hash = QuicUtils::FNV1a_64_Hash(*i);
       // This assumes that the machine is little-endian.
       for (size_t j = 0; j < client_cached_cert_hashes.size();
            j += sizeof(uint64_t)) {
         uint64_t cached_hash;
         memcpy(&cached_hash, client_cached_cert_hashes.data() + j,
                sizeof(uint64_t));
         if (hash != cached_hash) {
           continue;
         }

         entry.type = CertEntry::CACHED;
         entry.hash = hash;
         entries.push_back(entry);
         cached = true;
         break;
       }

       if (cached) {
         continue;
       }
     }

     entry.type = CertEntry::COMPRESSED;
     entries.push_back(entry);
   }

   return entries;
 }

 // CertEntriesSize returns the size, in bytes, of the serialised form of
 // |entries|.
 size_t CertEntriesSize(const std::vector<CertEntry>& entries) {
   size_t entries_size = 0;

   for (auto i = entries.begin(); i != entries.end(); ++i) {
     entries_size++;
     switch (i->type) {
       case CertEntry::COMPRESSED:
         break;
       case CertEntry::CACHED:
         entries_size += sizeof(uint64_t);
         break;
     }
   }

   entries_size++;  // for end marker

   return entries_size;
 }

 // SerializeCertEntries serialises |entries| to |out|, which must have enough
 // space to contain them.
 void SerializeCertEntries(uint8_t* out, const std::vector<CertEntry>& entries) {
   for (auto i = entries.begin(); i != entries.end(); ++i) {
     *out++ = static_cast<uint8_t>(i->type);
     switch (i->type) {
       case CertEntry::COMPRESSED:
         break;
       case CertEntry::CACHED:
         memcpy(out, &i->hash, sizeof(i->hash));
         out += sizeof(uint64_t);
         break;
     }
   }

   *out++ = 0;  // end marker
 }

 // ZlibDictForEntries returns a string that contains the zlib pre-shared
 // dictionary to use in order to decompress a zlib block following |entries|.
 // |certs| is one-to-one with |entries| and contains the certificates for those
 // entries that are CACHED.
 std::string ZlibDictForEntries(const std::vector<CertEntry>& entries,
                                const std::vector<std::string>& certs) {
   std::string zlib_dict;

   // The dictionary starts with the cached certs in reverse order.
   size_t zlib_dict_size = 0;
   for (size_t i = certs.size() - 1; i < certs.size(); i--) {
     if (entries[i].type != CertEntry::COMPRESSED) {
       zlib_dict_size += certs[i].size();
     }
   }

   // At the end of the dictionary is a block of common certificate substrings.
   zlib_dict_size += sizeof(kCommonCertSubstrings);

   zlib_dict.reserve(zlib_dict_size);

   for (size_t i = certs.size() - 1; i < certs.size(); i--) {
     if (entries[i].type != CertEntry::COMPRESSED) {
       zlib_dict += certs[i];
     }
   }

   zlib_dict += std::string(reinterpret_cast<const char*>(kCommonCertSubstrings),
                            sizeof(kCommonCertSubstrings));

   QUICHE_DCHECK_EQ(zlib_dict.size(), zlib_dict_size);

   return zlib_dict;
 }

 // HashCerts returns the FNV-1a hashes of |certs|.
 std::vector<uint64_t> HashCerts(const std::vector<std::string>& certs) {
   std::vector<uint64_t> ret;
   ret.reserve(certs.size());

   for (auto i = certs.begin(); i != certs.end(); ++i) {
     ret.push_back(QuicUtils::FNV1a_64_Hash(*i));
   }

   return ret;
 }

 // ParseEntries parses the serialised form of a vector of CertEntries from
 // |in_out| and writes them to |out_entries|. CACHED entries are resolved using
 // |cached_certs| and written to |out_certs|. |in_out| is updated to contain
 // the trailing data.
 bool ParseEntries(absl::string_view* in_out,
                   const std::vector<std::string>& cached_certs,
                   std::vector<CertEntry>* out_entries,
                   std::vector<std::string>* out_certs) {
   absl::string_view in = *in_out;
   std::vector<uint64_t> cached_hashes;

   out_entries->clear();
   out_certs->clear();

   for (;;) {
     if (in.empty()) {
       return false;
     }
     CertEntry entry;
     const uint8_t type_byte = in[0];
     in.remove_prefix(1);

     if (type_byte == 0) {
       break;
     }

     entry.type = static_cast<CertEntry::Type>(type_byte);

     switch (entry.type) {
       case CertEntry::COMPRESSED:
         out_certs->push_back(std::string());
         break;
       case CertEntry::CACHED: {
         if (in.size() < sizeof(uint64_t)) {
           return false;
         }
         memcpy(&entry.hash, in.data(), sizeof(uint64_t));
         in.remove_prefix(sizeof(uint64_t));

         if (cached_hashes.size() != cached_certs.size()) {
           cached_hashes = HashCerts(cached_certs);
         }
         bool found = false;
         for (size_t i = 0; i < cached_hashes.size(); i++) {
           if (cached_hashes[i] == entry.hash) {
             out_certs->push_back(cached_certs[i]);
             found = true;
             break;
           }
         }
         if (!found) {
           return false;
         }
         break;
       }

       default:
         return false;
     }
     out_entries->push_back(entry);
   }

   *in_out = in;
   return true;
 }

 // ScopedZLib deals with the automatic destruction of a zlib context.
 class ScopedZLib {
  public:
   enum Type {
     INFLATE,
     DEFLATE,
   };

   explicit ScopedZLib(Type type) : z_(nullptr), type_(type) {}

   void reset(z_stream* z) {
     Clear();
     z_ = z;
   }

   ~ScopedZLib() { Clear(); }

  private:
   void Clear() {
     if (!z_) {
       return;
     }

     if (type_ == DEFLATE) {
       deflateEnd(z_);
     } else {
       inflateEnd(z_);
     }
     z_ = nullptr;
   }

   z_stream* z_;
   const Type type_;
 };

 }  // anonymous namespace

 // static
 std::string CertCompressor::CompressChain(
     const std::vector<std::string>& certs,
     absl::string_view client_cached_cert_hashes) {
   const std::vector<CertEntry> entries =
       MatchCerts(certs, client_cached_cert_hashes);
   QUICHE_DCHECK_EQ(entries.size(), certs.size());

   size_t uncompressed_size = 0;
   for (size_t i = 0; i < entries.size(); i++) {
     if (entries[i].type == CertEntry::COMPRESSED) {
       uncompressed_size += 4 /* uint32_t length */ + certs[i].size();
     }
   }

   size_t compressed_size = 0;
   z_stream z;
   ScopedZLib scoped_z(ScopedZLib::DEFLATE);

   if (uncompressed_size > 0) {
     memset(&z, 0, sizeof(z));
     int rv = deflateInit(&z, Z_DEFAULT_COMPRESSION);
     QUICHE_DCHECK_EQ(Z_OK, rv);
     if (rv != Z_OK) {
       return "";
     }
     scoped_z.reset(&z);

     std::string zlib_dict = ZlibDictForEntries(entries, certs);

     rv = deflateSetDictionary(
         &z, reinterpret_cast<const uint8_t*>(&zlib_dict[0]), zlib_dict.size());
     QUICHE_DCHECK_EQ(Z_OK, rv);
     if (rv != Z_OK) {
       return "";
     }

     compressed_size = deflateBound(&z, uncompressed_size);
   }

   const size_t entries_size = CertEntriesSize(entries);

   std::string result;
   result.resize(entries_size + (uncompressed_size > 0 ? 4 : 0) +
                 compressed_size);

   uint8_t* j = reinterpret_cast<uint8_t*>(&result[0]);
   SerializeCertEntries(j, entries);
   j += entries_size;

   if (uncompressed_size == 0) {
     return result;
   }

   uint32_t uncompressed_size_32 = uncompressed_size;
   memcpy(j, &uncompressed_size_32, sizeof(uint32_t));
   j += sizeof(uint32_t);

   int rv;

   z.next_out = j;
   z.avail_out = compressed_size;

   for (size_t i = 0; i < certs.size(); i++) {
     if (entries[i].type != CertEntry::COMPRESSED) {
       continue;
     }

     uint32_t length32 = certs[i].size();
     z.next_in = reinterpret_cast<uint8_t*>(&length32);
     z.avail_in = sizeof(length32);
     rv = deflate(&z, Z_NO_FLUSH);
     QUICHE_DCHECK_EQ(Z_OK, rv);
     QUICHE_DCHECK_EQ(0u, z.avail_in);
     if (rv != Z_OK || z.avail_in) {
       return "";
     }

     z.next_in =
         const_cast<uint8_t*>(reinterpret_cast<const uint8_t*>(certs[i].data()));
     z.avail_in = certs[i].size();
     rv = deflate(&z, Z_NO_FLUSH);
     QUICHE_DCHECK_EQ(Z_OK, rv);
     QUICHE_DCHECK_EQ(0u, z.avail_in);
     if (rv != Z_OK || z.avail_in) {
       return "";
     }
   }

   z.avail_in = 0;
   rv = deflate(&z, Z_FINISH);
   QUICHE_DCHECK_EQ(Z_STREAM_END, rv);
   if (rv != Z_STREAM_END) {
     return "";
   }

   result.resize(result.size() - z.avail_out);
   return result;
 }

 // static
 bool CertCompressor::DecompressChain(
     absl::string_view in, const std::vector<std::string>& cached_certs,
     std::vector<std::string>* out_certs) {
   std::vector<CertEntry> entries;
   if (!ParseEntries(&in, cached_certs, &entries, out_certs)) {
     return false;
   }
   QUICHE_DCHECK_EQ(entries.size(), out_certs->size());

   std::unique_ptr<uint8_t[]> uncompressed_data;
   absl::string_view uncompressed;

   if (!in.empty()) {
     if (in.size() < sizeof(uint32_t)) {
       return false;
     }

     uint32_t uncompressed_size;
     memcpy(&uncompressed_size, in.data(), sizeof(uncompressed_size));
     in.remove_prefix(sizeof(uint32_t));

     if (uncompressed_size > 128 * 1024) {
       return false;
     }

     uncompressed_data = std::make_unique<uint8_t[]>(uncompressed_size);
     z_stream z;
     ScopedZLib scoped_z(ScopedZLib::INFLATE);

     memset(&z, 0, sizeof(z));
     z.next_out = uncompressed_data.get();
     z.avail_out = uncompressed_size;
     z.next_in =
         const_cast<uint8_t*>(reinterpret_cast<const uint8_t*>(in.data()));
     z.avail_in = in.size();

     if (Z_OK != inflateInit(&z)) {
       return false;
     }
     scoped_z.reset(&z);

     int rv = inflate(&z, Z_FINISH);
     if (rv == Z_NEED_DICT) {
       std::string zlib_dict = ZlibDictForEntries(entries, *out_certs);
       const uint8_t* dict = reinterpret_cast<const uint8_t*>(zlib_dict.data());
       if (Z_OK != inflateSetDictionary(&z, dict, zlib_dict.size())) {
         return false;
       }
       rv = inflate(&z, Z_FINISH);
     }

     if (Z_STREAM_END != rv || z.avail_out > 0 || z.avail_in > 0) {
       return false;
     }

     uncompressed = absl::string_view(
         reinterpret_cast<char*>(uncompressed_data.get()), uncompressed_size);
   }

   for (size_t i = 0; i < entries.size(); i++) {
     switch (entries[i].type) {
       case CertEntry::COMPRESSED:
         if (uncompressed.size() < sizeof(uint32_t)) {
           return false;
         }
         uint32_t cert_len;
         memcpy(&cert_len, uncompressed.data(), sizeof(cert_len));
         uncompressed.remove_prefix(sizeof(uint32_t));
         if (uncompressed.size() < cert_len) {
           return false;
         }
         (*out_certs)[i] = std::string(uncompressed.substr(0, cert_len));
         uncompressed.remove_prefix(cert_len);
         break;
       case CertEntry::CACHED:
         break;
     }
   }

   if (!uncompressed.empty()) {
     return false;
   }

   return true;
 }

 }  // namespace quic
	// Copyright (c) 2013 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 "quiche/quic/core/crypto/cert_compressor.h"

	#include <cstdint>
	#include <memory>
	#include <string>
	#include <utility>

	#include "absl/strings/string_view.h"
	#include "quiche/quic/core/quic_utils.h"
	#include "quiche/quic/platform/api/quic_bug_tracker.h"
	#include "quiche/quic/platform/api/quic_flag_utils.h"
	#include "quiche/quic/platform/api/quic_flags.h"
	#include "zlib.h"

	namespace quic {

	namespace {

	// kCommonCertSubstrings contains ~1500 bytes of common certificate substrings
	// in order to help zlib. This was generated via a fairly dumb algorithm from
	// the Alexa Top 5000 set - we could probably do better.
	static const unsigned char kCommonCertSubstrings[] = {
	0x04, 0x02, 0x30, 0x00, 0x30, 0x1d, 0x06, 0x03, 0x55, 0x1d, 0x25, 0x04,
	0x16, 0x30, 0x14, 0x06, 0x08, 0x2b, 0x06, 0x01, 0x05, 0x05, 0x07, 0x03,
	0x01, 0x06, 0x08, 0x2b, 0x06, 0x01, 0x05, 0x05, 0x07, 0x03, 0x02, 0x30,
	0x5f, 0x06, 0x09, 0x60, 0x86, 0x48, 0x01, 0x86, 0xf8, 0x42, 0x04, 0x01,
	0x06, 0x06, 0x0b, 0x60, 0x86, 0x48, 0x01, 0x86, 0xfd, 0x6d, 0x01, 0x07,
	0x17, 0x01, 0x30, 0x33, 0x20, 0x45, 0x78, 0x74, 0x65, 0x6e, 0x64, 0x65,
	0x64, 0x20, 0x56, 0x61, 0x6c, 0x69, 0x64, 0x61, 0x74, 0x69, 0x6f, 0x6e,
	0x20, 0x53, 0x20, 0x4c, 0x69, 0x6d, 0x69, 0x74, 0x65, 0x64, 0x31, 0x34,
	0x20, 0x53, 0x53, 0x4c, 0x20, 0x43, 0x41, 0x30, 0x1e, 0x17, 0x0d, 0x31,
	0x32, 0x20, 0x53, 0x65, 0x63, 0x75, 0x72, 0x65, 0x20, 0x53, 0x65, 0x72,
	0x76, 0x65, 0x72, 0x20, 0x43, 0x41, 0x30, 0x2d, 0x61, 0x69, 0x61, 0x2e,
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	0x01, 0x05, 0x05, 0x00, 0x03, 0x82, 0x01, 0x01, 0x00, 0x4a, 0x2e, 0x63,
	0x6f, 0x6d, 0x2f, 0x72, 0x65, 0x73, 0x6f, 0x75, 0x72, 0x63, 0x65, 0x73,
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	// CertEntry represents a certificate in compressed form. Each entry is one of
	// the three types enumerated in \|Type\|.
	struct CertEntry {
	public:
	enum Type {
	// Type 0 is reserved to mean "end of list" in the wire format.

	// COMPRESSED means that the certificate is included in the trailing zlib
	// data.
	COMPRESSED = 1,
	// CACHED means that the certificate is already known to the peer and will
	// be replaced by its 64-bit hash (in \|hash\|).
	CACHED = 2,
	};

	Type type;
	uint64_t hash;
	uint64_t set_hash;
	uint32_t index;
	};

	// MatchCerts returns a vector of CertEntries describing how to most
	// efficiently represent \|certs\| to a peer who has cached the certificates
	// with the 64-bit, FNV-1a hashes in \|client_cached_cert_hashes\|.
	std::vector<CertEntry> MatchCerts(const std::vector<std::string>& certs,
	absl::string_view client_cached_cert_hashes) {
	std::vector<CertEntry> entries;
	entries.reserve(certs.size());

	const bool cached_valid =
	client_cached_cert_hashes.size() % sizeof(uint64_t) == 0 &&
	!client_cached_cert_hashes.empty();

	for (auto i = certs.begin(); i != certs.end(); ++i) {
	CertEntry entry;

	if (cached_valid) {
	bool cached = false;

	uint64_t hash = QuicUtils::FNV1a_64_Hash(*i);
	// This assumes that the machine is little-endian.
	for (size_t j = 0; j < client_cached_cert_hashes.size();
	j += sizeof(uint64_t)) {
	uint64_t cached_hash;
	memcpy(&cached_hash, client_cached_cert_hashes.data() + j,
	sizeof(uint64_t));
	if (hash != cached_hash) {
	continue;
	}

	entry.type = CertEntry::CACHED;
	entry.hash = hash;
	entries.push_back(entry);
	cached = true;
	break;
	}

	if (cached) {
	continue;
	}
	}

	entry.type = CertEntry::COMPRESSED;
	entries.push_back(entry);
	}

	return entries;
	}

	// CertEntriesSize returns the size, in bytes, of the serialised form of
	// \|entries\|.
	size_t CertEntriesSize(const std::vector<CertEntry>& entries) {
	size_t entries_size = 0;

	for (auto i = entries.begin(); i != entries.end(); ++i) {
	entries_size++;
	switch (i->type) {
	case CertEntry::COMPRESSED:
	break;
	case CertEntry::CACHED:
	entries_size += sizeof(uint64_t);
	break;
	}
	}

	entries_size++; // for end marker

	return entries_size;
	}

	// SerializeCertEntries serialises \|entries\| to \|out\|, which must have enough
	// space to contain them.
	void SerializeCertEntries(uint8_t* out, const std::vector<CertEntry>& entries) {
	for (auto i = entries.begin(); i != entries.end(); ++i) {
	*out++ = static_cast<uint8_t>(i->type);
	switch (i->type) {
	case CertEntry::COMPRESSED:
	break;
	case CertEntry::CACHED:
	memcpy(out, &i->hash, sizeof(i->hash));
	out += sizeof(uint64_t);
	break;
	}
	}

	*out++ = 0; // end marker
	}

	// ZlibDictForEntries returns a string that contains the zlib pre-shared
	// dictionary to use in order to decompress a zlib block following \|entries\|.
	// \|certs\| is one-to-one with \|entries\| and contains the certificates for those
	// entries that are CACHED.
	std::string ZlibDictForEntries(const std::vector<CertEntry>& entries,
	const std::vector<std::string>& certs) {
	std::string zlib_dict;

	// The dictionary starts with the cached certs in reverse order.
	size_t zlib_dict_size = 0;
	for (size_t i = certs.size() - 1; i < certs.size(); i--) {
	if (entries[i].type != CertEntry::COMPRESSED) {
	zlib_dict_size += certs[i].size();
	}
	}

	// At the end of the dictionary is a block of common certificate substrings.
	zlib_dict_size += sizeof(kCommonCertSubstrings);

	zlib_dict.reserve(zlib_dict_size);

	for (size_t i = certs.size() - 1; i < certs.size(); i--) {
	if (entries[i].type != CertEntry::COMPRESSED) {
	zlib_dict += certs[i];
	}
	}

	zlib_dict += std::string(reinterpret_cast<const char*>(kCommonCertSubstrings),
	sizeof(kCommonCertSubstrings));

	QUICHE_DCHECK_EQ(zlib_dict.size(), zlib_dict_size);

	return zlib_dict;
	}

	// HashCerts returns the FNV-1a hashes of \|certs\|.
	std::vector<uint64_t> HashCerts(const std::vector<std::string>& certs) {
	std::vector<uint64_t> ret;
	ret.reserve(certs.size());

	for (auto i = certs.begin(); i != certs.end(); ++i) {
	ret.push_back(QuicUtils::FNV1a_64_Hash(*i));
	}

	return ret;
	}

	// ParseEntries parses the serialised form of a vector of CertEntries from
	// \|in_out\| and writes them to \|out_entries\|. CACHED entries are resolved using
	// \|cached_certs\| and written to \|out_certs\|. \|in_out\| is updated to contain
	// the trailing data.
	bool ParseEntries(absl::string_view* in_out,
	const std::vector<std::string>& cached_certs,
	std::vector<CertEntry>* out_entries,
	std::vector<std::string>* out_certs) {
	absl::string_view in = *in_out;
	std::vector<uint64_t> cached_hashes;

	out_entries->clear();
	out_certs->clear();

	for (;;) {
	if (in.empty()) {
	return false;
	}
	CertEntry entry;
	const uint8_t type_byte = in[0];
	in.remove_prefix(1);

	if (type_byte == 0) {
	break;
	}

	entry.type = static_cast<CertEntry::Type>(type_byte);

	switch (entry.type) {
	case CertEntry::COMPRESSED:
	out_certs->push_back(std::string());
	break;
	case CertEntry::CACHED: {
	if (in.size() < sizeof(uint64_t)) {
	return false;
	}
	memcpy(&entry.hash, in.data(), sizeof(uint64_t));
	in.remove_prefix(sizeof(uint64_t));

	if (cached_hashes.size() != cached_certs.size()) {
	cached_hashes = HashCerts(cached_certs);
	}
	bool found = false;
	for (size_t i = 0; i < cached_hashes.size(); i++) {
	if (cached_hashes[i] == entry.hash) {
	out_certs->push_back(cached_certs[i]);
	found = true;
	break;
	}
	}
	if (!found) {
	return false;
	}
	break;
	}

	default:
	return false;
	}
	out_entries->push_back(entry);
	}

	*in_out = in;
	return true;
	}

	// ScopedZLib deals with the automatic destruction of a zlib context.
	class ScopedZLib {
	public:
	enum Type {
	INFLATE,
	DEFLATE,
	};

	explicit ScopedZLib(Type type) : z_(nullptr), type_(type) {}

	void reset(z_stream* z) {
	Clear();
	z_ = z;
	}

	~ScopedZLib() { Clear(); }

	private:
	void Clear() {
	if (!z_) {
	return;
	}

	if (type_ == DEFLATE) {
	deflateEnd(z_);
	} else {
	inflateEnd(z_);
	}
	z_ = nullptr;
	}

	z_stream* z_;
	const Type type_;
	};

	} // anonymous namespace

	// static
	std::string CertCompressor::CompressChain(
	const std::vector<std::string>& certs,
	absl::string_view client_cached_cert_hashes) {
	const std::vector<CertEntry> entries =
	MatchCerts(certs, client_cached_cert_hashes);
	QUICHE_DCHECK_EQ(entries.size(), certs.size());

	size_t uncompressed_size = 0;
	for (size_t i = 0; i < entries.size(); i++) {
	if (entries[i].type == CertEntry::COMPRESSED) {
	uncompressed_size += 4 /* uint32_t length */ + certs[i].size();
	}
	}

	size_t compressed_size = 0;
	z_stream z;
	ScopedZLib scoped_z(ScopedZLib::DEFLATE);

	if (uncompressed_size > 0) {
	memset(&z, 0, sizeof(z));
	int rv = deflateInit(&z, Z_DEFAULT_COMPRESSION);
	QUICHE_DCHECK_EQ(Z_OK, rv);
	if (rv != Z_OK) {
	return "";
	}
	scoped_z.reset(&z);

	std::string zlib_dict = ZlibDictForEntries(entries, certs);

	rv = deflateSetDictionary(
	&z, reinterpret_cast<const uint8_t*>(&zlib_dict[0]), zlib_dict.size());
	QUICHE_DCHECK_EQ(Z_OK, rv);
	if (rv != Z_OK) {
	return "";
	}

	compressed_size = deflateBound(&z, uncompressed_size);
	}

	const size_t entries_size = CertEntriesSize(entries);

	std::string result;
	result.resize(entries_size + (uncompressed_size > 0 ? 4 : 0) +
	compressed_size);

	uint8_t* j = reinterpret_cast<uint8_t*>(&result[0]);
	SerializeCertEntries(j, entries);
	j += entries_size;

	if (uncompressed_size == 0) {
	return result;
	}

	uint32_t uncompressed_size_32 = uncompressed_size;
	memcpy(j, &uncompressed_size_32, sizeof(uint32_t));
	j += sizeof(uint32_t);

	int rv;

	z.next_out = j;
	z.avail_out = compressed_size;

	for (size_t i = 0; i < certs.size(); i++) {
	if (entries[i].type != CertEntry::COMPRESSED) {
	continue;
	}

	uint32_t length32 = certs[i].size();
	z.next_in = reinterpret_cast<uint8_t*>(&length32);
	z.avail_in = sizeof(length32);
	rv = deflate(&z, Z_NO_FLUSH);
	QUICHE_DCHECK_EQ(Z_OK, rv);
	QUICHE_DCHECK_EQ(0u, z.avail_in);
	if (rv != Z_OK \|\| z.avail_in) {
	return "";
	}

	z.next_in =
	const_cast<uint8_t>(reinterpret_cast<const uint8_t>(certs[i].data()));
	z.avail_in = certs[i].size();
	rv = deflate(&z, Z_NO_FLUSH);
	QUICHE_DCHECK_EQ(Z_OK, rv);
	QUICHE_DCHECK_EQ(0u, z.avail_in);
	if (rv != Z_OK \|\| z.avail_in) {
	return "";
	}
	}

	z.avail_in = 0;
	rv = deflate(&z, Z_FINISH);
	QUICHE_DCHECK_EQ(Z_STREAM_END, rv);
	if (rv != Z_STREAM_END) {
	return "";
	}

	result.resize(result.size() - z.avail_out);
	return result;
	}

	// static
	bool CertCompressor::DecompressChain(
	absl::string_view in, const std::vector<std::string>& cached_certs,
	std::vector<std::string>* out_certs) {
	std::vector<CertEntry> entries;
	if (!ParseEntries(&in, cached_certs, &entries, out_certs)) {
	return false;
	}
	QUICHE_DCHECK_EQ(entries.size(), out_certs->size());

	std::unique_ptr<uint8_t[]> uncompressed_data;
	absl::string_view uncompressed;

	if (!in.empty()) {
	if (in.size() < sizeof(uint32_t)) {
	return false;
	}

	uint32_t uncompressed_size;
	memcpy(&uncompressed_size, in.data(), sizeof(uncompressed_size));
	in.remove_prefix(sizeof(uint32_t));

	if (uncompressed_size > 128 * 1024) {
	return false;
	}

	uncompressed_data = std::make_unique<uint8_t[]>(uncompressed_size);
	z_stream z;
	ScopedZLib scoped_z(ScopedZLib::INFLATE);

	memset(&z, 0, sizeof(z));
	z.next_out = uncompressed_data.get();
	z.avail_out = uncompressed_size;
	z.next_in =
	const_cast<uint8_t>(reinterpret_cast<const uint8_t>(in.data()));
	z.avail_in = in.size();

	if (Z_OK != inflateInit(&z)) {
	return false;
	}
	scoped_z.reset(&z);

	int rv = inflate(&z, Z_FINISH);
	if (rv == Z_NEED_DICT) {
	std::string zlib_dict = ZlibDictForEntries(entries, *out_certs);
	const uint8_t* dict = reinterpret_cast<const uint8_t*>(zlib_dict.data());
	if (Z_OK != inflateSetDictionary(&z, dict, zlib_dict.size())) {
	return false;
	}
	rv = inflate(&z, Z_FINISH);
	}

	if (Z_STREAM_END != rv \|\| z.avail_out > 0 \|\| z.avail_in > 0) {
	return false;
	}

	uncompressed = absl::string_view(
	reinterpret_cast<char*>(uncompressed_data.get()), uncompressed_size);
	}

	for (size_t i = 0; i < entries.size(); i++) {
	switch (entries[i].type) {
	case CertEntry::COMPRESSED:
	if (uncompressed.size() < sizeof(uint32_t)) {
	return false;
	}
	uint32_t cert_len;
	memcpy(&cert_len, uncompressed.data(), sizeof(cert_len));
	uncompressed.remove_prefix(sizeof(uint32_t));
	if (uncompressed.size() < cert_len) {
	return false;
	}
	(*out_certs)[i] = std::string(uncompressed.substr(0, cert_len));
	uncompressed.remove_prefix(cert_len);
	break;
	case CertEntry::CACHED:
	break;
	}
	}

	if (!uncompressed.empty()) {
	return false;
	}

	return true;
	}

	} // namespace quic