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/*
 * nghttp2 - HTTP/2 C Library
 *
 * Copyright (c) 2012 Tatsuhiro Tsujikawa
 *
 * Permission is hereby granted, free of charge, to any person obtaining
 * a copy of this software and associated documentation files (the
 * "Software"), to deal in the Software without restriction, including
 * without limitation the rights to use, copy, modify, merge, publish,
 * distribute, sublicense, and/or sell copies of the Software, and to
 * permit persons to whom the Software is furnished to do so, subject to
 * the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
 * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
 * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
 * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 */
#ifndef UTIL_H
#define UTIL_H

#include "nghttp2_config.h"

#ifdef HAVE_UNISTD_H
#  include <unistd.h>
#endif // HAVE_UNISTD_H
#include <getopt.h>
#ifdef HAVE_NETDB_H
#  include <netdb.h>
#endif // HAVE_NETDB_H

#include <cmath>
#include <cstring>
#include <cassert>
#include <vector>
#include <string>
#include <algorithm>
#include <sstream>
#include <memory>
#include <chrono>
#include <map>
#include <random>

#ifdef HAVE_LIBEV
#  include <ev.h>
#endif // HAVE_LIBEV

#include "url-parser/url_parser.h"

#include "template.h"
#include "network.h"
#include "allocator.h"

namespace nghttp2 {

constexpr auto NGHTTP2_H2_ALPN = StringRef::from_lit("\x2h2");
constexpr auto NGHTTP2_H2 = StringRef::from_lit("h2");

// The additional HTTP/2 protocol ALPN protocol identifier we also
// supports for our applications to make smooth migration into final
// h2 ALPN ID.
constexpr auto NGHTTP2_H2_16_ALPN = StringRef::from_lit("\x5h2-16");
constexpr auto NGHTTP2_H2_16 = StringRef::from_lit("h2-16");

constexpr auto NGHTTP2_H2_14_ALPN = StringRef::from_lit("\x5h2-14");
constexpr auto NGHTTP2_H2_14 = StringRef::from_lit("h2-14");

constexpr auto NGHTTP2_H1_1_ALPN = StringRef::from_lit("\x8http/1.1");
constexpr auto NGHTTP2_H1_1 = StringRef::from_lit("http/1.1");

constexpr size_t NGHTTP2_MAX_UINT64_DIGITS = str_size("18446744073709551615");

namespace util {

extern const char UPPER_XDIGITS[];

inline bool is_alpha(const char c) {
  return ('A' <= c && c <= 'Z') || ('a' <= c && c <= 'z');
}

inline bool is_digit(const char c) { return '0' <= c && c <= '9'; }

inline bool is_hex_digit(const char c) {
  return is_digit(c) || ('A' <= c && c <= 'F') || ('a' <= c && c <= 'f');
}

// Returns true if |s| is hex string.
bool is_hex_string(const StringRef &s);

bool in_rfc3986_unreserved_chars(const char c);

bool in_rfc3986_sub_delims(const char c);

// Returns true if |c| is in token (HTTP-p1, Section 3.2.6)
bool in_token(char c);

bool in_attr_char(char c);

// Returns integer corresponding to hex notation |c|.  If
// is_hex_digit(c) is false, it returns 256.
uint32_t hex_to_uint(char c);

std::string percent_encode(const unsigned char *target, size_t len);

std::string percent_encode(const std::string &target);

template <typename InputIt>
std::string percent_decode(InputIt first, InputIt last) {
  std::string result;
  result.resize(last - first);
  auto p = std::begin(result);
  for (; first != last; ++first) {
    if (*first != '%') {
      *p++ = *first;
      continue;
    }

    if (first + 1 != last && first + 2 != last && is_hex_digit(*(first + 1)) &&
        is_hex_digit(*(first + 2))) {
      *p++ = (hex_to_uint(*(first + 1)) << 4) + hex_to_uint(*(first + 2));
      first += 2;
      continue;
    }

    *p++ = *first;
  }
  result.resize(p - std::begin(result));
  return result;
}

StringRef percent_decode(BlockAllocator &balloc, const StringRef &src);

// Percent encode |target| if character is not in token or '%'.
StringRef percent_encode_token(BlockAllocator &balloc, const StringRef &target);

template <typename OutputIt>
OutputIt percent_encode_token(OutputIt it, const StringRef &target) {
  for (auto first = std::begin(target); first != std::end(target); ++first) {
    uint8_t c = *first;

    if (c != '%' && in_token(c)) {
      *it++ = c;
      continue;
    }

    *it++ = '%';
    *it++ = UPPER_XDIGITS[c >> 4];
    *it++ = UPPER_XDIGITS[(c & 0x0f)];
  }

  return it;
}

// Returns the number of bytes written by percent_encode_token with
// the same |target| parameter.  The return value does not include a
// terminal NUL byte.
size_t percent_encode_tokenlen(const StringRef &target);

// Returns quotedString version of |target|.  Currently, this function
// just replace '"' with '\"'.
StringRef quote_string(BlockAllocator &balloc, const StringRef &target);

template <typename OutputIt>
OutputIt quote_string(OutputIt it, const StringRef &target) {
  for (auto c : target) {
    if (c == '"') {
      *it++ = '\\';
      *it++ = '"';
    } else {
      *it++ = c;
    }
  }

  return it;
}

// Returns the number of bytes written by quote_string with the same
// |target| parameter.  The return value does not include a terminal
// NUL byte.
size_t quote_stringlen(const StringRef &target);

std::string format_hex(const unsigned char *s, size_t len);

template <size_t N> std::string format_hex(const unsigned char (&s)[N]) {
  return format_hex(s, N);
}

template <size_t N> std::string format_hex(const std::array<uint8_t, N> &s) {
  return format_hex(s.data(), s.size());
}

StringRef format_hex(BlockAllocator &balloc, const StringRef &s);

static constexpr char LOWER_XDIGITS[] = "0123456789abcdef";

template <typename OutputIt>
OutputIt format_hex(OutputIt it, const StringRef &s) {
  for (auto cc : s) {
    uint8_t c = cc;
    *it++ = LOWER_XDIGITS[c >> 4];
    *it++ = LOWER_XDIGITS[c & 0xf];
  }

  return it;
}

// decode_hex decodes hex string |s|, returns the decoded byte string.
// This function assumes |s| is hex string, that is is_hex_string(s)
// == true.
StringRef decode_hex(BlockAllocator &balloc, const StringRef &s);

template <typename OutputIt>
OutputIt decode_hex(OutputIt d_first, const StringRef &s) {
  for (auto it = std::begin(s); it != std::end(s); it += 2) {
    *d_first++ = (hex_to_uint(*it) << 4) | hex_to_uint(*(it + 1));
  }

  return d_first;
}

// Returns given time |t| from epoch in HTTP Date format (e.g., Mon,
// 10 Oct 2016 10:25:58 GMT).
std::string http_date(time_t t);
// Writes given time |t| from epoch in HTTP Date format into the
// buffer pointed by |res|.  The buffer must be at least 29 bytes
// long.  This function returns the one beyond the last position.
char *http_date(char *res, time_t t);

// Returns given time |t| from epoch in Common Log format (e.g.,
// 03/Jul/2014:00:19:38 +0900)
std::string common_log_date(time_t t);
// Writes given time |t| from epoch in Common Log format into the
// buffer pointed by |res|.  The buffer must be at least 26 bytes
// long.  This function returns the one beyond the last position.
char *common_log_date(char *res, time_t t);

// Returns given millisecond |ms| from epoch in ISO 8601 format (e.g.,
// 2014-11-15T12:58:24.741Z or 2014-11-15T12:58:24.741+09:00)
std::string iso8601_date(int64_t ms);
// Writes given time |t| from epoch in ISO 8601 format into the buffer
// pointed by |res|.  The buffer must be at least 29 bytes long.  This
// function returns the one beyond the last position.
char *iso8601_date(char *res, int64_t ms);

// Writes given time |t| from epoch in ISO 8601 basic format into the
// buffer pointed by |res|.  The buffer must be at least 24 bytes
// long.  This function returns the one beyond the last position.
char *iso8601_basic_date(char *res, int64_t ms);

time_t parse_http_date(const StringRef &s);

// Parses time formatted as "MMM DD HH:MM:SS YYYY [GMT]" (e.g., Feb 3
// 00:55:52 2015 GMT), which is specifically used by OpenSSL
// ASN1_TIME_print().
time_t parse_openssl_asn1_time_print(const StringRef &s);

char upcase(char c);

inline char lowcase(char c) {
  constexpr static unsigned char tbl[] = {
      0,   1,   2,   3,   4,   5,   6,   7,   8,   9,   10,  11,  12,  13,  14,
      15,  16,  17,  18,  19,  20,  21,  22,  23,  24,  25,  26,  27,  28,  29,
      30,  31,  32,  33,  34,  35,  36,  37,  38,  39,  40,  41,  42,  43,  44,
      45,  46,  47,  48,  49,  50,  51,  52,  53,  54,  55,  56,  57,  58,  59,
      60,  61,  62,  63,  64,  'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j',
      'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y',
      'z', 91,  92,  93,  94,  95,  96,  97,  98,  99,  100, 101, 102, 103, 104,
      105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119,
      120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134,
      135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149,
      150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164,
      165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179,
      180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, 193, 194,
      195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209,
      210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224,
      225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239,
      240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254,
      255,
  };
  return tbl[static_cast<unsigned char>(c)];
}

template <typename InputIterator1, typename InputIterator2>
bool starts_with(InputIterator1 first1, InputIterator1 last1,
                 InputIterator2 first2, InputIterator2 last2) {
  if (last1 - first1 < last2 - first2) {
    return false;
  }
  return std::equal(first2, last2, first1);
}

template <typename S, typename T> bool starts_with(const S &a, const T &b) {
  return starts_with(a.begin(), a.end(), b.begin(), b.end());
}

struct CaseCmp {
  bool operator()(char lhs, char rhs) const {
    return lowcase(lhs) == lowcase(rhs);
  }
};

template <typename InputIterator1, typename InputIterator2>
bool istarts_with(InputIterator1 first1, InputIterator1 last1,
                  InputIterator2 first2, InputIterator2 last2) {
  if (last1 - first1 < last2 - first2) {
    return false;
  }
  return std::equal(first2, last2, first1, CaseCmp());
}

template <typename S, typename T> bool istarts_with(const S &a, const T &b) {
  return istarts_with(a.begin(), a.end(), b.begin(), b.end());
}

template <typename T, typename CharT, size_t N>
bool istarts_with_l(const T &a, const CharT (&b)[N]) {
  return istarts_with(a.begin(), a.end(), b, b + N - 1);
}

template <typename InputIterator1, typename InputIterator2>
bool ends_with(InputIterator1 first1, InputIterator1 last1,
               InputIterator2 first2, InputIterator2 last2) {
  if (last1 - first1 < last2 - first2) {
    return false;
  }
  return std::equal(first2, last2, last1 - (last2 - first2));
}

template <typename T, typename S> bool ends_with(const T &a, const S &b) {
  return ends_with(a.begin(), a.end(), b.begin(), b.end());
}

template <typename T, typename CharT, size_t N>
bool ends_with_l(const T &a, const CharT (&b)[N]) {
  return ends_with(a.begin(), a.end(), b, b + N - 1);
}

template <typename InputIterator1, typename InputIterator2>
bool iends_with(InputIterator1 first1, InputIterator1 last1,
                InputIterator2 first2, InputIterator2 last2) {
  if (last1 - first1 < last2 - first2) {
    return false;
  }
  return std::equal(first2, last2, last1 - (last2 - first2), CaseCmp());
}

template <typename T, typename S> bool iends_with(const T &a, const S &b) {
  return iends_with(a.begin(), a.end(), b.begin(), b.end());
}

template <typename T, typename CharT, size_t N>
bool iends_with_l(const T &a, const CharT (&b)[N]) {
  return iends_with(a.begin(), a.end(), b, b + N - 1);
}

template <typename InputIt1, typename InputIt2>
bool strieq(InputIt1 first1, InputIt1 last1, InputIt2 first2, InputIt2 last2) {
  if (std::distance(first1, last1) != std::distance(first2, last2)) {
    return false;
  }

  return std::equal(first1, last1, first2, CaseCmp());
}

template <typename T, typename S> bool strieq(const T &a, const S &b) {
  return strieq(a.begin(), a.end(), b.begin(), b.end());
}

template <typename CharT, typename InputIt, size_t N>
bool strieq_l(const CharT (&a)[N], InputIt b, size_t blen) {
  return strieq(a, a + (N - 1), b, b + blen);
}

template <typename CharT, size_t N, typename T>
bool strieq_l(const CharT (&a)[N], const T &b) {
  return strieq(a, a + (N - 1), b.begin(), b.end());
}

template <typename InputIt1, typename InputIt2>
bool streq(InputIt1 first1, InputIt1 last1, InputIt2 first2, InputIt2 last2) {
  if (std::distance(first1, last1) != std::distance(first2, last2)) {
    return false;
  }
  return std::equal(first1, last1, first2);
}

template <typename T, typename S> bool streq(const T &a, const S &b) {
  return streq(a.begin(), a.end(), b.begin(), b.end());
}

template <typename CharT, typename InputIt, size_t N>
bool streq_l(const CharT (&a)[N], InputIt b, size_t blen) {
  return streq(a, a + (N - 1), b, b + blen);
}

template <typename CharT, size_t N, typename T>
bool streq_l(const CharT (&a)[N], const T &b) {
  return streq(a, a + (N - 1), b.begin(), b.end());
}

// Returns true if |a| contains |b|.  If both |a| and |b| are empty,
// this function returns false.
template <typename S, typename T> bool strifind(const S &a, const T &b) {
  return std::search(a.begin(), a.end(), b.begin(), b.end(), CaseCmp()) !=
         a.end();
}

template <typename InputIt> void inp_strlower(InputIt first, InputIt last) {
  std::transform(first, last, first, lowcase);
}

// Lowercase |s| in place.
inline void inp_strlower(std::string &s) {
  inp_strlower(std::begin(s), std::end(s));
}

// Returns string representation of |n| with 2 fractional digits.
std::string dtos(double n);

template <typename T> std::string utos(T n) {
  std::string res;
  if (n == 0) {
    res = "0";
    return res;
  }
  size_t nlen = 0;
  for (auto t = n; t; t /= 10, ++nlen)
    ;
  res.resize(nlen);
  for (; n; n /= 10) {
    res[--nlen] = (n % 10) + '0';
  }
  return res;
}

template <typename T, typename OutputIt> OutputIt utos(OutputIt dst, T n) {
  if (n == 0) {
    *dst++ = '0';
    return dst;
  }
  size_t nlen = 0;
  for (auto t = n; t; t /= 10, ++nlen)
    ;
  auto p = dst + nlen;
  auto res = p;
  for (; n; n /= 10) {
    *--p = (n % 10) + '0';
  }
  return res;
}

template <typename T>
StringRef make_string_ref_uint(BlockAllocator &balloc, T n) {
  auto iov = make_byte_ref(balloc, NGHTTP2_MAX_UINT64_DIGITS + 1);
  auto p = iov.base;
  p = util::utos(p, n);
  *p = '\0';
  return StringRef{iov.base, p};
}

template <typename T> std::string utos_unit(T n) {
  char u = 0;
  if (n >= (1 << 30)) {
    u = 'G';
    n /= (1 << 30);
  } else if (n >= (1 << 20)) {
    u = 'M';
    n /= (1 << 20);
  } else if (n >= (1 << 10)) {
    u = 'K';
    n /= (1 << 10);
  }
  if (u == 0) {
    return utos(n);
  }
  return utos(n) + u;
}

// Like utos_unit(), but 2 digits fraction part is followed.
template <typename T> std::string utos_funit(T n) {
  char u = 0;
  int b = 0;
  if (n >= (1 << 30)) {
    u = 'G';
    b = 30;
  } else if (n >= (1 << 20)) {
    u = 'M';
    b = 20;
  } else if (n >= (1 << 10)) {
    u = 'K';
    b = 10;
  }
  if (b == 0) {
    return utos(n);
  }
  return dtos(static_cast<double>(n) / (1 << b)) + u;
}

template <typename T> std::string utox(T n) {
  std::string res;
  if (n == 0) {
    res = "0";
    return res;
  }
  int i = 0;
  T t = n;
  for (; t; t /= 16, ++i)
    ;
  res.resize(i);
  --i;
  for (; n; --i, n /= 16) {
    res[i] = UPPER_XDIGITS[(n & 0x0f)];
  }
  return res;
}

void to_token68(std::string &base64str);

StringRef to_base64(BlockAllocator &balloc, const StringRef &token68str);

void show_candidates(const char *unkopt, const option *options);

bool has_uri_field(const http_parser_url &u, http_parser_url_fields field);

bool fieldeq(const char *uri1, const http_parser_url &u1, const char *uri2,
             const http_parser_url &u2, http_parser_url_fields field);

bool fieldeq(const char *uri, const http_parser_url &u,
             http_parser_url_fields field, const char *t);

bool fieldeq(const char *uri, const http_parser_url &u,
             http_parser_url_fields field, const StringRef &t);

StringRef get_uri_field(const char *uri, const http_parser_url &u,
                        http_parser_url_fields field);

uint16_t get_default_port(const char *uri, const http_parser_url &u);

bool porteq(const char *uri1, const http_parser_url &u1, const char *uri2,
            const http_parser_url &u2);

void write_uri_field(std::ostream &o, const char *uri, const http_parser_url &u,
                     http_parser_url_fields field);

bool numeric_host(const char *hostname);

bool numeric_host(const char *hostname, int family);

// Returns numeric address string of |addr|.  If getnameinfo() is
// failed, "unknown" is returned.
std::string numeric_name(const struct sockaddr *sa, socklen_t salen);

// Returns string representation of numeric address and port of
// |addr|.  If address family is AF_UNIX, this return path to UNIX
// domain socket.  Otherwise, the format is like <HOST>:<PORT>.  For
// IPv6 address, address is enclosed by square brackets ([]).
std::string to_numeric_addr(const Address *addr);

std::string to_numeric_addr(const struct sockaddr *sa, socklen_t salen);

// Sets |port| to |addr|.
void set_port(Address &addr, uint16_t port);

// Returns ASCII dump of |data| of length |len|.  Only ASCII printable
// characters are preserved.  Other characters are replaced with ".".
std::string ascii_dump(const uint8_t *data, size_t len);

// Returns absolute path of executable path.  If argc == 0 or |cwd| is
// nullptr, this function returns nullptr.  If argv[0] starts with
// '/', this function returns argv[0].  Otherwise return cwd + "/" +
// argv[0].  If non-null is returned, it is NULL-terminated string and
// dynamically allocated by malloc.  The caller is responsible to free
// it.
char *get_exec_path(int argc, char **const argv, const char *cwd);

// Validates path so that it does not contain directory traversal
// vector.  Returns true if path is safe.  The |path| must start with
// "/" otherwise returns false.  This function should be called after
// percent-decode was performed.
bool check_path(const std::string &path);

// Returns the |tv| value as 64 bit integer using a microsecond as an
// unit.
int64_t to_time64(const timeval &tv);

// Returns true if ALPN ID |proto| is supported HTTP/2 protocol
// identifier.
bool check_h2_is_selected(const StringRef &proto);

// Selects h2 protocol ALPN ID if one of supported h2 versions are
// present in |in| of length inlen.  Returns true if h2 version is
// selected.
bool select_h2(const unsigned char **out, unsigned char *outlen,
               const unsigned char *in, unsigned int inlen);

// Selects protocol ALPN ID if one of identifiers contained in |protolist| is
// present in |in| of length inlen.  Returns true if identifier is
// selected.
bool select_protocol(const unsigned char **out, unsigned char *outlen,
                     const unsigned char *in, unsigned int inlen,
                     std::vector<std::string> proto_list);

// Returns default ALPN protocol list, which only contains supported
// HTTP/2 protocol identifier.
std::vector<unsigned char> get_default_alpn();

// Parses delimited strings in |s| and returns the array of substring,
// delimited by |delim|.  The any white spaces around substring are
// treated as a part of substring.
std::vector<std::string> parse_config_str_list(const StringRef &s,
                                               char delim = ',');

// Parses delimited strings in |s| and returns Substrings in |s|
// delimited by |delim|.  The any white spaces around substring are
// treated as a part of substring.
std::vector<StringRef> split_str(const StringRef &s, char delim);

// Behaves like split_str, but this variant splits at most |n| - 1
// times and returns at most |n| sub-strings.  If |n| is zero, it
// falls back to split_str.
std::vector<StringRef> split_str(const StringRef &s, char delim, size_t n);

// Writes given time |tp| in Common Log format (e.g.,
// 03/Jul/2014:00:19:38 +0900) in buffer pointed by |out|.  The buffer
// must be at least 27 bytes, including terminal NULL byte.  Expected
// type of |tp| is std::chrono::time_point.  This function returns
// StringRef wrapping the buffer pointed by |out|, and this string is
// terminated by NULL.
template <typename T> StringRef format_common_log(char *out, const T &tp) {
  auto t =
      std::chrono::duration_cast<std::chrono::seconds>(tp.time_since_epoch());
  auto p = common_log_date(out, t.count());
  *p = '\0';
  return StringRef{out, p};
}

// Returns given time |tp| in ISO 8601 format (e.g.,
// 2014-11-15T12:58:24.741Z or 2014-11-15T12:58:24.741+09:00).
// Expected type of |tp| is std::chrono::time_point
template <typename T> std::string format_iso8601(const T &tp) {
  auto t = std::chrono::duration_cast<std::chrono::milliseconds>(
      tp.time_since_epoch());
  return iso8601_date(t.count());
}

// Writes given time |tp| in ISO 8601 format (e.g.,
// 2014-11-15T12:58:24.741Z or 2014-11-15T12:58:24.741+09:00) in
// buffer pointed by |out|.  The buffer must be at least 30 bytes,
// including terminal NULL byte.  Expected type of |tp| is
// std::chrono::time_point.  This function returns StringRef wrapping
// the buffer pointed by |out|, and this string is terminated by NULL.
template <typename T> StringRef format_iso8601(char *out, const T &tp) {
  auto t = std::chrono::duration_cast<std::chrono::milliseconds>(
      tp.time_since_epoch());
  auto p = iso8601_date(out, t.count());
  *p = '\0';
  return StringRef{out, p};
}

// Writes given time |tp| in ISO 8601 basic format (e.g.,
// 20141115T125824.741Z or 20141115T125824.741+0900) in buffer pointed
// by |out|.  The buffer must be at least 25 bytes, including terminal
// NULL byte.  Expected type of |tp| is std::chrono::time_point.  This
// function returns StringRef wrapping the buffer pointed by |out|,
// and this string is terminated by NULL.
template <typename T> StringRef format_iso8601_basic(char *out, const T &tp) {
  auto t = std::chrono::duration_cast<std::chrono::milliseconds>(
      tp.time_since_epoch());
  auto p = iso8601_basic_date(out, t.count());
  *p = '\0';
  return StringRef{out, p};
}

// Writes given time |tp| in HTTP Date format (e.g., Mon, 10 Oct 2016
// 10:25:58 GMT) in buffer pointed by |out|.  The buffer must be at
// least 30 bytes, including terminal NULL byte.  Expected type of
// |tp| is std::chrono::time_point.  This function returns StringRef
// wrapping the buffer pointed by |out|, and this string is terminated
// by NULL.
template <typename T> StringRef format_http_date(char *out, const T &tp) {
  auto t =
      std::chrono::duration_cast<std::chrono::seconds>(tp.time_since_epoch());
  auto p = http_date(out, t.count());
  *p = '\0';
  return StringRef{out, p};
}

// Return the system precision of the template parameter |Clock| as
// a nanosecond value of type |Rep|
template <typename Clock, typename Rep> Rep clock_precision() {
  std::chrono::duration<Rep, std::nano> duration = typename Clock::duration(1);

  return duration.count();
}

#ifdef HAVE_LIBEV
template <typename Duration = std::chrono::steady_clock::duration>
Duration duration_from(ev_tstamp d) {
  return std::chrono::duration_cast<Duration>(std::chrono::duration<double>(d));
}

template <typename Duration> ev_tstamp ev_tstamp_from(const Duration &d) {
  return std::chrono::duration<double>(d).count();
}
#endif // HAVE_LIBEV

int make_socket_closeonexec(int fd);
int make_socket_nonblocking(int fd);
int make_socket_nodelay(int fd);

int create_nonblock_socket(int family);
int create_nonblock_udp_socket(int family);

int bind_any_addr_udp(int fd, int family);

bool check_socket_connected(int fd);

// Returns the error code (errno) by inspecting SO_ERROR of given
// |fd|.  This function returns the error code if it succeeds, or -1.
// Returning 0 means no error.
int get_socket_error(int fd);

// Returns true if |host| is IPv6 numeric address (e.g., ::1)
bool ipv6_numeric_addr(const char *host);

// Parses NULL terminated string |s| as unsigned integer and returns
// the parsed integer.  Additionally, if |s| ends with 'k', 'm', 'g'
// and its upper case characters, multiply the integer by 1024, 1024 *
// 1024 and 1024 * 1024 respectively.  If there is an error, returns
// -1.
int64_t parse_uint_with_unit(const char *s);
// The following overload does not require |s| is NULL terminated.
int64_t parse_uint_with_unit(const uint8_t *s, size_t len);
int64_t parse_uint_with_unit(const StringRef &s);

// Parses NULL terminated string |s| as unsigned integer and returns
// the parsed integer.  If there is an error, returns -1.
int64_t parse_uint(const char *s);
// The following overload does not require |s| is NULL terminated.
int64_t parse_uint(const uint8_t *s, size_t len);
int64_t parse_uint(const std::string &s);
int64_t parse_uint(const StringRef &s);

// Parses NULL terminated string |s| as unsigned integer and returns
// the parsed integer casted to double.  If |s| ends with "s", the
// parsed value's unit is a second.  If |s| ends with "ms", the unit
// is millisecond.  Similarly, it also supports 'm' and 'h' for
// minutes and hours respectively.  If none of them are given, the
// unit is second.  This function returns
// std::numeric_limits<double>::infinity() if error occurs.
double parse_duration_with_unit(const char *s);
// The following overload does not require |s| is NULL terminated.
double parse_duration_with_unit(const uint8_t *s, size_t len);
double parse_duration_with_unit(const StringRef &s);

// Returns string representation of time duration |t|.  If t has
// fractional part (at least more than or equal to 1e-3), |t| is
// multiplied by 1000 and the unit "ms" is appended.  Otherwise, |t|
// is left as is and "s" is appended.
std::string duration_str(double t);

// Returns string representation of time duration |t|.  It appends
// unit after the formatting.  The available units are s, ms and us.
// The unit which is equal to or less than |t| is used and 2
// fractional digits follow.
std::string format_duration(const std::chrono::microseconds &u);

// Just like above, but this takes |t| as seconds.
std::string format_duration(double t);

// The maximum buffer size including terminal NULL to store the result
// of make_hostport.
constexpr size_t max_hostport = NI_MAXHOST + /* [] for IPv6 */ 2 + /* : */ 1 +
                                /* port */ 5 + /* terminal NULL */ 1;

// Just like make_http_hostport(), but doesn't treat 80 and 443
// specially.
StringRef make_hostport(BlockAllocator &balloc, const StringRef &host,
                        uint16_t port);

template <typename OutputIt>
StringRef make_hostport(OutputIt first, const StringRef &host, uint16_t port) {
  auto ipv6 = ipv6_numeric_addr(host.c_str());
  auto serv = utos(port);
  auto p = first;

  if (ipv6) {
    *p++ = '[';
  }

  p = std::copy(std::begin(host), std::end(host), p);

  if (ipv6) {
    *p++ = ']';
  }

  *p++ = ':';

  p = std::copy(std::begin(serv), std::end(serv), p);

  *p = '\0';

  return StringRef{first, p};
}

// Creates "host:port" string using given |host| and |port|.  If
// |host| is numeric IPv6 address (e.g., ::1), it is enclosed by "["
// and "]".  If |port| is 80 or 443, port part is omitted.
StringRef make_http_hostport(BlockAllocator &balloc, const StringRef &host,
                             uint16_t port);

template <typename OutputIt>
StringRef make_http_hostport(OutputIt first, const StringRef &host,
                             uint16_t port) {
  if (port != 80 && port != 443) {
    return make_hostport(first, host, port);
  }

  auto ipv6 = ipv6_numeric_addr(host.c_str());
  auto p = first;

  if (ipv6) {
    *p++ = '[';
  }

  p = std::copy(std::begin(host), std::end(host), p);

  if (ipv6) {
    *p++ = ']';
  }

  *p = '\0';

  return StringRef{first, p};
}

// Dumps |src| of length |len| in the format similar to `hexdump -C`.
void hexdump(FILE *out, const uint8_t *src, size_t len);

// Copies 2 byte unsigned integer |n| in host byte order to |buf| in
// network byte order.
void put_uint16be(uint8_t *buf, uint16_t n);

// Copies 4 byte unsigned integer |n| in host byte order to |buf| in
// network byte order.
void put_uint32be(uint8_t *buf, uint32_t n);

// Retrieves 2 byte unsigned integer stored in |data| in network byte
// order and returns it in host byte order.
uint16_t get_uint16(const uint8_t *data);

// Retrieves 4 byte unsigned integer stored in |data| in network byte
// order and returns it in host byte order.
uint32_t get_uint32(const uint8_t *data);

// Retrieves 8 byte unsigned integer stored in |data| in network byte
// order and returns it in host byte order.
uint64_t get_uint64(const uint8_t *data);

// Reads mime types file (see /etc/mime.types), and stores extension
// -> MIME type map in |res|.  This function returns 0 if it succeeds,
// or -1.
int read_mime_types(std::map<std::string, std::string> &res,
                    const char *filename);

// Fills random alpha and digit byte to the range [|first|, |last|).
// Returns the one beyond the |last|.
template <typename OutputIt, typename Generator>
OutputIt random_alpha_digit(OutputIt first, OutputIt last, Generator &gen) {
  // If we use uint8_t instead char, gcc 6.2.0 complains by shouting
  // char-array initialized from wide string.
  static constexpr char s[] =
      "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789";
  std::uniform_int_distribution<> dis(0, 26 * 2 + 10 - 1);
  for (; first != last; ++first) {
    *first = s[dis(gen)];
  }
  return first;
}

// Fills random bytes to the range [|first|, |last|).
template <typename OutputIt, typename Generator>
void random_bytes(OutputIt first, OutputIt last, Generator &gen) {
  std::uniform_int_distribution<uint8_t> dis;
  std::generate(first, last, [&dis, &gen]() { return dis(gen); });
}

// Shuffles the range [|first|, |last|] by calling swap function |fun|
// for each pair.  |fun| takes 2 RandomIt iterators.  If |fun| is
// noop, no modification is made.
template <typename RandomIt, typename Generator, typename SwapFun>
void shuffle(RandomIt first, RandomIt last, Generator &&gen, SwapFun fun) {
  auto len = std::distance(first, last);
  if (len < 2) {
    return;
  }

  for (unsigned int i = 0; i < static_cast<unsigned int>(len - 1); ++i) {
    auto dis = std::uniform_int_distribution<unsigned int>(i, len - 1);
    auto j = dis(gen);
    if (i == j) {
      continue;
    }
    fun(first + i, first + j);
  }
}

template <typename OutputIterator, typename CharT, size_t N>
OutputIterator copy_lit(OutputIterator it, CharT (&s)[N]) {
  return std::copy_n(s, N - 1, it);
}

// Returns x**y
double int_pow(double x, size_t y);

uint32_t hash32(const StringRef &s);

// Computes SHA-256 of |s|, and stores it in |buf|.  This function
// returns 0 if it succeeds, or -1.
int sha256(uint8_t *buf, const StringRef &s);

// Computes SHA-1 of |s|, and stores it in |buf|.  This function
// returns 0 if it succeeds, or -1.
int sha1(uint8_t *buf, const StringRef &s);

// Returns host from |hostport|.  If host cannot be found in
// |hostport|, returns empty string.  The returned string might not be
// NULL-terminated.
StringRef extract_host(const StringRef &hostport);

// split_hostport splits host and port in |hostport|.  Unlike
// extract_host, square brackets enclosing host name is stripped.  If
// port is not available, it returns empty string in the second
// string.  The returned string might not be NULL-terminated.  On any
// error, it returns a pair which has empty strings.
std::pair<StringRef, StringRef> split_hostport(const StringRef &hostport);

// Returns new std::mt19937 object.
std::mt19937 make_mt19937();

// daemonize calls daemon(3).  If __APPLE__ is defined, it implements
// daemon() using fork().
int daemonize(int nochdir, int noclose);

// Returns |s| from which trailing white spaces (SPC or HTAB) are
// removed.  If any white spaces are removed, new string is allocated
// by |balloc| and returned.  Otherwise, the copy of |s| is returned
// without allocation.
StringRef rstrip(BlockAllocator &balloc, const StringRef &s);

#ifdef ENABLE_HTTP3
int msghdr_get_local_addr(Address &dest, msghdr *msg, int family);

uint8_t msghdr_get_ecn(msghdr *msg, int family);

// msghdr_get_udp_gro returns UDP_GRO value from |msg|.  If UDP_GRO is
// not found, or UDP_GRO is not supported, this function returns 0.
size_t msghdr_get_udp_gro(msghdr *msg);
#endif // ENABLE_HTTP3

} // namespace util

} // namespace nghttp2

#endif // UTIL_H