/* * 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. */ #include "shrpx_log.h" #ifdef HAVE_SYSLOG_H # include #endif // HAVE_SYSLOG_H #ifdef HAVE_UNISTD_H # include #endif // HAVE_UNISTD_H #ifdef HAVE_INTTYPES_H # include #endif // HAVE_INTTYPES_H #include #include #ifdef HAVE_FCNTL_H # include #endif // HAVE_FCNTL_H #include #include #include #include #include #include #include #include "shrpx_config.h" #include "shrpx_downstream.h" #include "shrpx_worker.h" #include "util.h" #include "template.h" using namespace nghttp2; namespace shrpx { namespace { constexpr StringRef SEVERITY_STR[] = { StringRef::from_lit("INFO"), StringRef::from_lit("NOTICE"), StringRef::from_lit("WARN"), StringRef::from_lit("ERROR"), StringRef::from_lit("FATAL")}; } // namespace namespace { constexpr const char *SEVERITY_COLOR[] = { "\033[1;32m", // INFO "\033[1;36m", // NOTICE "\033[1;33m", // WARN "\033[1;31m", // ERROR "\033[1;35m", // FATAL }; } // namespace #ifndef NOTHREADS # ifdef HAVE_THREAD_LOCAL namespace { thread_local LogBuffer logbuf_; } // namespace namespace { LogBuffer *get_logbuf() { return &logbuf_; } } // namespace # else // !HAVE_THREAD_LOCAL namespace { pthread_key_t lckey; pthread_once_t lckey_once = PTHREAD_ONCE_INIT; } // namespace namespace { void make_key() { pthread_key_create(&lckey, nullptr); } } // namespace LogBuffer *get_logbuf() { pthread_once(&lckey_once, make_key); auto buf = static_cast(pthread_getspecific(lckey)); if (!buf) { buf = new LogBuffer(); pthread_setspecific(lckey, buf); } return buf; } # endif // !HAVE_THREAD_LOCAL #else // NOTHREADS namespace { LogBuffer *get_logbuf() { static LogBuffer logbuf; return &logbuf; } } // namespace #endif // NOTHREADS int Log::severity_thres_ = NOTICE; void Log::set_severity_level(int severity) { severity_thres_ = severity; } int Log::get_severity_level_by_name(const StringRef &name) { for (size_t i = 0, max = array_size(SEVERITY_STR); i < max; ++i) { if (name == SEVERITY_STR[i]) { return i; } } return -1; } int severity_to_syslog_level(int severity) { switch (severity) { case (INFO): return LOG_INFO; case (NOTICE): return LOG_NOTICE; case (WARN): return LOG_WARNING; case (ERROR): return LOG_ERR; case (FATAL): return LOG_CRIT; default: return -1; } } Log::Log(int severity, const char *filename, int linenum) : buf_(*get_logbuf()), begin_(buf_.data()), end_(begin_ + buf_.size()), last_(begin_), filename_(filename), flags_(0), severity_(severity), linenum_(linenum), full_(false) {} Log::~Log() { int rv; auto config = get_config(); if (!config) { return; } auto lgconf = log_config(); auto &errorconf = config->logging.error; if (!log_enabled(severity_) || (lgconf->errorlog_fd == -1 && !errorconf.syslog)) { return; } if (errorconf.syslog) { if (severity_ == NOTICE) { syslog(severity_to_syslog_level(severity_), "[%s] %.*s", SEVERITY_STR[severity_].c_str(), static_cast(rleft()), begin_); } else { syslog(severity_to_syslog_level(severity_), "[%s] %.*s (%s:%d)", SEVERITY_STR[severity_].c_str(), static_cast(rleft()), begin_, filename_, linenum_); } return; } char buf[4_k]; auto tty = lgconf->errorlog_tty; lgconf->update_tstamp_millis(std::chrono::system_clock::now()); // Error log format:

// (:) rv = snprintf(buf, sizeof(buf), "%s %d %d %s %s%s%s (%s:%d) %.*s\n", lgconf->tstamp->time_iso8601.c_str(), config->pid, lgconf->pid, lgconf->thread_id.c_str(), tty ? SEVERITY_COLOR[severity_] : "", SEVERITY_STR[severity_].c_str(), tty ? "\033[0m" : "", filename_, linenum_, static_cast(rleft()), begin_); if (rv < 0) { return; } auto nwrite = std::min(static_cast(rv), sizeof(buf) - 1); while (write(lgconf->errorlog_fd, buf, nwrite) == -1 && errno == EINTR) ; } Log &Log::operator<<(const std::string &s) { write_seq(std::begin(s), std::end(s)); return *this; } Log &Log::operator<<(const StringRef &s) { write_seq(std::begin(s), std::end(s)); return *this; } Log &Log::operator<<(const char *s) { write_seq(s, s + strlen(s)); return *this; } Log &Log::operator<<(const ImmutableString &s) { write_seq(std::begin(s), std::end(s)); return *this; } Log &Log::operator<<(long long n) { if (n >= 0) { return *this << static_cast(n); } if (flags_ & fmt_hex) { write_hex(n); return *this; } if (full_) { return *this; } n *= -1; size_t nlen = 0; for (auto t = n; t; t /= 10, ++nlen) ; if (wleft() < 1 /* sign */ + nlen) { full_ = true; return *this; } *last_++ = '-'; last_ += nlen; update_full(); auto p = last_ - 1; for (; n; n /= 10) { *p-- = (n % 10) + '0'; } return *this; } Log &Log::operator<<(unsigned long long n) { if (flags_ & fmt_hex) { write_hex(n); return *this; } if (full_) { return *this; } if (n == 0) { *last_++ = '0'; update_full(); return *this; } size_t nlen = 0; for (auto t = n; t; t /= 10, ++nlen) ; if (wleft() < nlen) { full_ = true; return *this; } last_ += nlen; update_full(); auto p = last_ - 1; for (; n; n /= 10) { *p-- = (n % 10) + '0'; } return *this; } Log &Log::operator<<(double n) { if (full_) { return *this; } auto left = wleft(); auto rv = snprintf(reinterpret_cast(last_), left, "%.9f", n); if (rv > static_cast(left)) { full_ = true; return *this; } last_ += rv; update_full(); return *this; } Log &Log::operator<<(long double n) { if (full_) { return *this; } auto left = wleft(); auto rv = snprintf(reinterpret_cast(last_), left, "%.9Lf", n); if (rv > static_cast(left)) { full_ = true; return *this; } last_ += rv; update_full(); return *this; } Log &Log::operator<<(bool n) { if (full_) { return *this; } *last_++ = n ? '1' : '0'; update_full(); return *this; } Log &Log::operator<<(const void *p) { if (full_) { return *this; } write_hex(reinterpret_cast(p)); return *this; } namespace log { void hex(Log &log) { log.set_flags(Log::fmt_hex); }; void dec(Log &log) { log.set_flags(Log::fmt_dec); }; } // namespace log namespace { template std::pair copy(const char *src, size_t srclen, OutputIterator d_first, OutputIterator d_last) { auto nwrite = std::min(static_cast(std::distance(d_first, d_last)), srclen); return std::make_pair(std::copy_n(src, nwrite, d_first), d_last); } } // namespace namespace { template std::pair copy(const char *src, OutputIterator d_first, OutputIterator d_last) { return copy(src, strlen(src), d_first, d_last); } } // namespace namespace { template std::pair copy(const StringRef &src, OutputIterator d_first, OutputIterator d_last) { return copy(src.c_str(), src.size(), d_first, d_last); } } // namespace namespace { template std::pair copy_l(const char (&src)[N], OutputIterator d_first, OutputIterator d_last) { return copy(src, N - 1, d_first, d_last); } } // namespace namespace { template std::pair copy(char c, OutputIterator d_first, OutputIterator d_last) { if (d_first == d_last) { return std::make_pair(d_last, d_last); } *d_first++ = c; return std::make_pair(d_first, d_last); } } // namespace namespace { constexpr char LOWER_XDIGITS[] = "0123456789abcdef"; } // namespace namespace { template std::pair copy_hex_low(const uint8_t *src, size_t srclen, OutputIterator d_first, OutputIterator d_last) { auto nwrite = std::min(static_cast(std::distance(d_first, d_last)), srclen * 2) / 2; for (size_t i = 0; i < nwrite; ++i) { *d_first++ = LOWER_XDIGITS[src[i] >> 4]; *d_first++ = LOWER_XDIGITS[src[i] & 0xf]; } return std::make_pair(d_first, d_last); } } // namespace namespace { template std::pair copy(T n, OutputIterator d_first, OutputIterator d_last) { if (static_cast(std::distance(d_first, d_last)) < NGHTTP2_MAX_UINT64_DIGITS) { return std::make_pair(d_last, d_last); } return std::make_pair(util::utos(d_first, n), d_last); } } // namespace namespace { // 1 means that character must be escaped as "\xNN", where NN is ascii // code of the character in hex notation. constexpr uint8_t ESCAPE_TBL[] = { 1 /* NUL */, 1 /* SOH */, 1 /* STX */, 1 /* ETX */, 1 /* EOT */, 1 /* ENQ */, 1 /* ACK */, 1 /* BEL */, 1 /* BS */, 1 /* HT */, 1 /* LF */, 1 /* VT */, 1 /* FF */, 1 /* CR */, 1 /* SO */, 1 /* SI */, 1 /* DLE */, 1 /* DC1 */, 1 /* DC2 */, 1 /* DC3 */, 1 /* DC4 */, 1 /* NAK */, 1 /* SYN */, 1 /* ETB */, 1 /* CAN */, 1 /* EM */, 1 /* SUB */, 1 /* ESC */, 1 /* FS */, 1 /* GS */, 1 /* RS */, 1 /* US */, 0 /* SPC */, 0 /* ! */, 1 /* " */, 0 /* # */, 0 /* $ */, 0 /* % */, 0 /* & */, 0 /* ' */, 0 /* ( */, 0 /* ) */, 0 /* * */, 0 /* + */, 0 /* , */, 0 /* - */, 0 /* . */, 0 /* / */, 0 /* 0 */, 0 /* 1 */, 0 /* 2 */, 0 /* 3 */, 0 /* 4 */, 0 /* 5 */, 0 /* 6 */, 0 /* 7 */, 0 /* 8 */, 0 /* 9 */, 0 /* : */, 0 /* ; */, 0 /* < */, 0 /* = */, 0 /* > */, 0 /* ? */, 0 /* @ */, 0 /* A */, 0 /* B */, 0 /* C */, 0 /* D */, 0 /* E */, 0 /* F */, 0 /* G */, 0 /* H */, 0 /* I */, 0 /* J */, 0 /* K */, 0 /* L */, 0 /* M */, 0 /* N */, 0 /* O */, 0 /* P */, 0 /* Q */, 0 /* R */, 0 /* S */, 0 /* T */, 0 /* U */, 0 /* V */, 0 /* W */, 0 /* X */, 0 /* Y */, 0 /* Z */, 0 /* [ */, 1 /* \ */, 0 /* ] */, 0 /* ^ */, 0 /* _ */, 0 /* ` */, 0 /* a */, 0 /* b */, 0 /* c */, 0 /* d */, 0 /* e */, 0 /* f */, 0 /* g */, 0 /* h */, 0 /* i */, 0 /* j */, 0 /* k */, 0 /* l */, 0 /* m */, 0 /* n */, 0 /* o */, 0 /* p */, 0 /* q */, 0 /* r */, 0 /* s */, 0 /* t */, 0 /* u */, 0 /* v */, 0 /* w */, 0 /* x */, 0 /* y */, 0 /* z */, 0 /* { */, 0 /* | */, 0 /* } */, 0 /* ~ */, 1 /* DEL */, 1 /* 0x80 */, 1 /* 0x81 */, 1 /* 0x82 */, 1 /* 0x83 */, 1 /* 0x84 */, 1 /* 0x85 */, 1 /* 0x86 */, 1 /* 0x87 */, 1 /* 0x88 */, 1 /* 0x89 */, 1 /* 0x8a */, 1 /* 0x8b */, 1 /* 0x8c */, 1 /* 0x8d */, 1 /* 0x8e */, 1 /* 0x8f */, 1 /* 0x90 */, 1 /* 0x91 */, 1 /* 0x92 */, 1 /* 0x93 */, 1 /* 0x94 */, 1 /* 0x95 */, 1 /* 0x96 */, 1 /* 0x97 */, 1 /* 0x98 */, 1 /* 0x99 */, 1 /* 0x9a */, 1 /* 0x9b */, 1 /* 0x9c */, 1 /* 0x9d */, 1 /* 0x9e */, 1 /* 0x9f */, 1 /* 0xa0 */, 1 /* 0xa1 */, 1 /* 0xa2 */, 1 /* 0xa3 */, 1 /* 0xa4 */, 1 /* 0xa5 */, 1 /* 0xa6 */, 1 /* 0xa7 */, 1 /* 0xa8 */, 1 /* 0xa9 */, 1 /* 0xaa */, 1 /* 0xab */, 1 /* 0xac */, 1 /* 0xad */, 1 /* 0xae */, 1 /* 0xaf */, 1 /* 0xb0 */, 1 /* 0xb1 */, 1 /* 0xb2 */, 1 /* 0xb3 */, 1 /* 0xb4 */, 1 /* 0xb5 */, 1 /* 0xb6 */, 1 /* 0xb7 */, 1 /* 0xb8 */, 1 /* 0xb9 */, 1 /* 0xba */, 1 /* 0xbb */, 1 /* 0xbc */, 1 /* 0xbd */, 1 /* 0xbe */, 1 /* 0xbf */, 1 /* 0xc0 */, 1 /* 0xc1 */, 1 /* 0xc2 */, 1 /* 0xc3 */, 1 /* 0xc4 */, 1 /* 0xc5 */, 1 /* 0xc6 */, 1 /* 0xc7 */, 1 /* 0xc8 */, 1 /* 0xc9 */, 1 /* 0xca */, 1 /* 0xcb */, 1 /* 0xcc */, 1 /* 0xcd */, 1 /* 0xce */, 1 /* 0xcf */, 1 /* 0xd0 */, 1 /* 0xd1 */, 1 /* 0xd2 */, 1 /* 0xd3 */, 1 /* 0xd4 */, 1 /* 0xd5 */, 1 /* 0xd6 */, 1 /* 0xd7 */, 1 /* 0xd8 */, 1 /* 0xd9 */, 1 /* 0xda */, 1 /* 0xdb */, 1 /* 0xdc */, 1 /* 0xdd */, 1 /* 0xde */, 1 /* 0xdf */, 1 /* 0xe0 */, 1 /* 0xe1 */, 1 /* 0xe2 */, 1 /* 0xe3 */, 1 /* 0xe4 */, 1 /* 0xe5 */, 1 /* 0xe6 */, 1 /* 0xe7 */, 1 /* 0xe8 */, 1 /* 0xe9 */, 1 /* 0xea */, 1 /* 0xeb */, 1 /* 0xec */, 1 /* 0xed */, 1 /* 0xee */, 1 /* 0xef */, 1 /* 0xf0 */, 1 /* 0xf1 */, 1 /* 0xf2 */, 1 /* 0xf3 */, 1 /* 0xf4 */, 1 /* 0xf5 */, 1 /* 0xf6 */, 1 /* 0xf7 */, 1 /* 0xf8 */, 1 /* 0xf9 */, 1 /* 0xfa */, 1 /* 0xfb */, 1 /* 0xfc */, 1 /* 0xfd */, 1 /* 0xfe */, 1 /* 0xff */, }; } // namespace namespace { template std::pair copy_escape(const char *src, size_t srclen, OutputIterator d_first, OutputIterator d_last) { auto safe_first = src; for (auto p = src; p != src + srclen && d_first != d_last; ++p) { unsigned char c = *p; if (!ESCAPE_TBL[c]) { continue; } auto n = std::min(std::distance(d_first, d_last), std::distance(safe_first, p)); d_first = std::copy_n(safe_first, n, d_first); if (std::distance(d_first, d_last) < 4) { return std::make_pair(d_first, d_last); } *d_first++ = '\\'; *d_first++ = 'x'; *d_first++ = LOWER_XDIGITS[c >> 4]; *d_first++ = LOWER_XDIGITS[c & 0xf]; safe_first = p + 1; } auto n = std::min(std::distance(d_first, d_last), std::distance(safe_first, src + srclen)); return std::make_pair(std::copy_n(safe_first, n, d_first), d_last); } } // namespace namespace { template std::pair copy_escape(const StringRef &src, OutputIterator d_first, OutputIterator d_last) { return copy_escape(src.c_str(), src.size(), d_first, d_last); } } // namespace namespace { // Construct absolute request URI from |Request|, mainly to log // request URI for proxy request (HTTP/2 proxy or client proxy). This // is mostly same routine found in // HttpDownstreamConnection::push_request_headers(), but vastly // simplified since we only care about absolute URI. StringRef construct_absolute_request_uri(BlockAllocator &balloc, const Request &req) { if (req.authority.empty()) { return req.path; } auto len = req.authority.size() + req.path.size(); if (req.scheme.empty()) { len += str_size("http://"); } else { len += req.scheme.size() + str_size("://"); } auto iov = make_byte_ref(balloc, len + 1); auto p = iov.base; if (req.scheme.empty()) { // We may have to log the request which lacks scheme (e.g., // http/1.1 with origin form). p = util::copy_lit(p, "http://"); } else { p = std::copy(std::begin(req.scheme), std::end(req.scheme), p); p = util::copy_lit(p, "://"); } p = std::copy(std::begin(req.authority), std::end(req.authority), p); p = std::copy(std::begin(req.path), std::end(req.path), p); *p = '\0'; return StringRef{iov.base, p}; } } // namespace void upstream_accesslog(const std::vector &lfv, const LogSpec &lgsp) { auto config = get_config(); auto lgconf = log_config(); auto &accessconf = get_config()->logging.access; if (lgconf->accesslog_fd == -1 && !accessconf.syslog) { return; } std::array buf; auto downstream = lgsp.downstream; const auto &req = downstream->request(); const auto &resp = downstream->response(); const auto &tstamp = req.tstamp; auto &balloc = downstream->get_block_allocator(); auto downstream_addr = downstream->get_addr(); auto method = req.method == -1 ? StringRef::from_lit("") : http2::to_method_string(req.method); auto path = req.method == HTTP_CONNECT ? req.authority : config->http2_proxy ? construct_absolute_request_uri(balloc, req) : req.path.empty() ? req.method == HTTP_OPTIONS ? StringRef::from_lit("*") : StringRef::from_lit("-") : req.path; auto path_without_query = req.method == HTTP_CONNECT ? path : StringRef{std::begin(path), std::find(std::begin(path), std::end(path), '?')}; auto p = std::begin(buf); auto last = std::end(buf) - 2; for (auto &lf : lfv) { switch (lf.type) { case LogFragmentType::LITERAL: std::tie(p, last) = copy(lf.value, p, last); break; case LogFragmentType::REMOTE_ADDR: std::tie(p, last) = copy(lgsp.remote_addr, p, last); break; case LogFragmentType::TIME_LOCAL: std::tie(p, last) = copy(tstamp->time_local, p, last); break; case LogFragmentType::TIME_ISO8601: std::tie(p, last) = copy(tstamp->time_iso8601, p, last); break; case LogFragmentType::REQUEST: std::tie(p, last) = copy(method, p, last); std::tie(p, last) = copy(' ', p, last); std::tie(p, last) = copy_escape(path, p, last); std::tie(p, last) = copy_l(" HTTP/", p, last); std::tie(p, last) = copy(req.http_major, p, last); if (req.http_major < 2) { std::tie(p, last) = copy('.', p, last); std::tie(p, last) = copy(req.http_minor, p, last); } break; case LogFragmentType::METHOD: std::tie(p, last) = copy(method, p, last); break; case LogFragmentType::PATH: std::tie(p, last) = copy_escape(path, p, last); break; case LogFragmentType::PATH_WITHOUT_QUERY: std::tie(p, last) = copy_escape(path_without_query, p, last); break; case LogFragmentType::PROTOCOL_VERSION: std::tie(p, last) = copy_l("HTTP/", p, last); std::tie(p, last) = copy(req.http_major, p, last); if (req.http_major < 2) { std::tie(p, last) = copy('.', p, last); std::tie(p, last) = copy(req.http_minor, p, last); } break; case LogFragmentType::STATUS: std::tie(p, last) = copy(resp.http_status, p, last); break; case LogFragmentType::BODY_BYTES_SENT: std::tie(p, last) = copy(downstream->response_sent_body_length, p, last); break; case LogFragmentType::HTTP: { auto hd = req.fs.header(lf.value); if (hd) { std::tie(p, last) = copy_escape((*hd).value, p, last); break; } std::tie(p, last) = copy('-', p, last); break; } case LogFragmentType::AUTHORITY: if (!req.authority.empty()) { std::tie(p, last) = copy(req.authority, p, last); break; } std::tie(p, last) = copy('-', p, last); break; case LogFragmentType::REMOTE_PORT: std::tie(p, last) = copy(lgsp.remote_port, p, last); break; case LogFragmentType::SERVER_PORT: std::tie(p, last) = copy(lgsp.server_port, p, last); break; case LogFragmentType::REQUEST_TIME: { auto t = std::chrono::duration_cast( lgsp.request_end_time - downstream->get_request_start_time()) .count(); std::tie(p, last) = copy(t / 1000, p, last); std::tie(p, last) = copy('.', p, last); auto frac = t % 1000; if (frac < 100) { auto n = frac < 10 ? 2 : 1; std::tie(p, last) = copy("000", n, p, last); } std::tie(p, last) = copy(frac, p, last); break; } case LogFragmentType::PID: std::tie(p, last) = copy(lgsp.pid, p, last); break; case LogFragmentType::ALPN: std::tie(p, last) = copy_escape(lgsp.alpn, p, last); break; case LogFragmentType::TLS_CIPHER: if (!lgsp.ssl) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(SSL_get_cipher_name(lgsp.ssl), p, last); break; case LogFragmentType::TLS_PROTOCOL: if (!lgsp.ssl) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(nghttp2::tls::get_tls_protocol(lgsp.ssl), p, last); break; case LogFragmentType::TLS_SESSION_ID: { auto session = SSL_get_session(lgsp.ssl); if (!session) { std::tie(p, last) = copy('-', p, last); break; } unsigned int session_id_length = 0; auto session_id = SSL_SESSION_get_id(session, &session_id_length); if (session_id_length == 0) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy_hex_low(session_id, session_id_length, p, last); break; } case LogFragmentType::TLS_SESSION_REUSED: if (!lgsp.ssl) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(SSL_session_reused(lgsp.ssl) ? 'r' : '.', p, last); break; case LogFragmentType::TLS_SNI: if (lgsp.sni.empty()) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy_escape(lgsp.sni, p, last); break; case LogFragmentType::TLS_CLIENT_FINGERPRINT_SHA1: case LogFragmentType::TLS_CLIENT_FINGERPRINT_SHA256: { if (!lgsp.ssl) { std::tie(p, last) = copy('-', p, last); break; } #if OPENSSL_3_0_0_API auto x = SSL_get0_peer_certificate(lgsp.ssl); #else // !OPENSSL_3_0_0_API auto x = SSL_get_peer_certificate(lgsp.ssl); #endif // !OPENSSL_3_0_0_API if (!x) { std::tie(p, last) = copy('-', p, last); break; } std::array buf; auto len = tls::get_x509_fingerprint( buf.data(), buf.size(), x, lf.type == LogFragmentType::TLS_CLIENT_FINGERPRINT_SHA256 ? EVP_sha256() : EVP_sha1()); #if !OPENSSL_3_0_0_API X509_free(x); #endif // !OPENSSL_3_0_0_API if (len <= 0) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy_hex_low(buf.data(), len, p, last); break; } case LogFragmentType::TLS_CLIENT_ISSUER_NAME: case LogFragmentType::TLS_CLIENT_SUBJECT_NAME: { if (!lgsp.ssl) { std::tie(p, last) = copy('-', p, last); break; } #if OPENSSL_3_0_0_API auto x = SSL_get0_peer_certificate(lgsp.ssl); #else // !OPENSSL_3_0_0_API auto x = SSL_get_peer_certificate(lgsp.ssl); #endif // !OPENSSL_3_0_0_API if (!x) { std::tie(p, last) = copy('-', p, last); break; } auto name = lf.type == LogFragmentType::TLS_CLIENT_ISSUER_NAME ? tls::get_x509_issuer_name(balloc, x) : tls::get_x509_subject_name(balloc, x); #if !OPENSSL_3_0_0_API X509_free(x); #endif // !OPENSSL_3_0_0_API if (name.empty()) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(name, p, last); break; } case LogFragmentType::TLS_CLIENT_SERIAL: { if (!lgsp.ssl) { std::tie(p, last) = copy('-', p, last); break; } #if OPENSSL_3_0_0_API auto x = SSL_get0_peer_certificate(lgsp.ssl); #else // !OPENSSL_3_0_0_API auto x = SSL_get_peer_certificate(lgsp.ssl); #endif // !OPENSSL_3_0_0_API if (!x) { std::tie(p, last) = copy('-', p, last); break; } auto sn = tls::get_x509_serial(balloc, x); #if !OPENSSL_3_0_0_API X509_free(x); #endif // !OPENSSL_3_0_0_API if (sn.empty()) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(sn, p, last); break; } case LogFragmentType::BACKEND_HOST: if (!downstream_addr) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(downstream_addr->host, p, last); break; case LogFragmentType::BACKEND_PORT: if (!downstream_addr) { std::tie(p, last) = copy('-', p, last); break; } std::tie(p, last) = copy(downstream_addr->port, p, last); break; case LogFragmentType::NONE: break; default: break; } } *p = '\0'; if (accessconf.syslog) { syslog(LOG_INFO, "%s", buf.data()); return; } *p++ = '\n'; auto nwrite = std::distance(std::begin(buf), p); while (write(lgconf->accesslog_fd, buf.data(), nwrite) == -1 && errno == EINTR) ; } int reopen_log_files(const LoggingConfig &loggingconf) { int res = 0; int new_accesslog_fd = -1; int new_errorlog_fd = -1; auto lgconf = log_config(); auto &accessconf = loggingconf.access; auto &errorconf = loggingconf.error; if (!accessconf.syslog && !accessconf.file.empty()) { new_accesslog_fd = open_log_file(accessconf.file.c_str()); if (new_accesslog_fd == -1) { LOG(ERROR) << "Failed to open accesslog file " << accessconf.file; res = -1; } } if (!errorconf.syslog && !errorconf.file.empty()) { new_errorlog_fd = open_log_file(errorconf.file.c_str()); if (new_errorlog_fd == -1) { if (lgconf->errorlog_fd != -1) { LOG(ERROR) << "Failed to open errorlog file " << errorconf.file; } else { std::cerr << "Failed to open errorlog file " << errorconf.file << std::endl; } res = -1; } } close_log_file(lgconf->accesslog_fd); close_log_file(lgconf->errorlog_fd); lgconf->accesslog_fd = new_accesslog_fd; lgconf->errorlog_fd = new_errorlog_fd; lgconf->errorlog_tty = (new_errorlog_fd == -1) ? false : isatty(new_errorlog_fd); return res; } void log_chld(pid_t pid, int rstatus, const char *msg) { std::string signalstr; if (WIFSIGNALED(rstatus)) { signalstr += "; signal "; auto sig = WTERMSIG(rstatus); auto s = strsignal(sig); if (s) { signalstr += s; signalstr += '('; } else { signalstr += "UNKNOWN("; } signalstr += util::utos(sig); signalstr += ')'; } LOG(NOTICE) << msg << ": [" << pid << "] exited " << (WIFEXITED(rstatus) ? "normally" : "abnormally") << " with status " << log::hex << rstatus << log::dec << "; exit status " << (WIFEXITED(rstatus) ? WEXITSTATUS(rstatus) : 0) << (signalstr.empty() ? "" : signalstr.c_str()); } void redirect_stderr_to_errorlog(const LoggingConfig &loggingconf) { auto lgconf = log_config(); auto &errorconf = loggingconf.error; if (errorconf.syslog || lgconf->errorlog_fd == -1) { return; } dup2(lgconf->errorlog_fd, STDERR_FILENO); } namespace { int STDERR_COPY = -1; int STDOUT_COPY = -1; } // namespace void store_original_fds() { // consider dup'ing stdout too STDERR_COPY = dup(STDERR_FILENO); STDOUT_COPY = STDOUT_FILENO; // no race here, since it is called early util::make_socket_closeonexec(STDERR_COPY); } void restore_original_fds() { dup2(STDERR_COPY, STDERR_FILENO); } void close_log_file(int &fd) { if (fd != STDERR_COPY && fd != STDOUT_COPY && fd != -1) { close(fd); } fd = -1; } int open_log_file(const char *path) { if (strcmp(path, "/dev/stdout") == 0 || strcmp(path, "/proc/self/fd/1") == 0) { return STDOUT_COPY; } if (strcmp(path, "/dev/stderr") == 0 || strcmp(path, "/proc/self/fd/2") == 0) { return STDERR_COPY; } #ifdef O_CLOEXEC auto fd = open(path, O_WRONLY | O_APPEND | O_CREAT | O_CLOEXEC, S_IRUSR | S_IWUSR | S_IRGRP); #else // !O_CLOEXEC auto fd = open(path, O_WRONLY | O_APPEND | O_CREAT, S_IRUSR | S_IWUSR | S_IRGRP); // We get race condition if execve is called at the same time. if (fd != -1) { util::make_socket_closeonexec(fd); } #endif // !O_CLOEXEC if (fd == -1) { return -1; } return fd; } } // namespace shrpx