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1 //
2 // Copyright (C) 2012 The Android Open Source Project
3 //
4 // Licensed under the Apache License, Version 2.0 (the "License");
5 // you may not use this file except in compliance with the License.
6 // You may obtain a copy of the License at
7 //
8 //      http://www.apache.org/licenses/LICENSE-2.0
9 //
10 // Unless required by applicable law or agreed to in writing, software
11 // distributed under the License is distributed on an "AS IS" BASIS,
12 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 // See the License for the specific language governing permissions and
14 // limitations under the License.
15 //
16 
17 // This file implements a simple HTTP server. It can exhibit odd behavior
18 // that's useful for testing. For example, it's useful to test that
19 // the updater can continue a connection if it's dropped, or that it
20 // handles very slow data transfers.
21 
22 // To use this, simply make an HTTP connection to localhost:port and
23 // GET a url.
24 
25 #include <err.h>
26 #include <errno.h>
27 #include <fcntl.h>
28 #include <inttypes.h>
29 #include <netinet/in.h>
30 #include <signal.h>
31 #include <stdio.h>
32 #include <stdlib.h>
33 #include <string.h>
34 #include <sys/socket.h>
35 #include <sys/stat.h>
36 #include <sys/types.h>
37 #include <unistd.h>
38 
39 #include <algorithm>
40 #include <string>
41 #include <vector>
42 
43 #include <base/logging.h>
44 #include <base/posix/eintr_wrapper.h>
45 #include <base/strings/string_split.h>
46 #include <base/strings/string_util.h>
47 #include <base/strings/stringprintf.h>
48 
49 #include "update_engine/common/http_common.h"
50 
51 // HTTP end-of-line delimiter; sorry, this needs to be a macro.
52 #define EOL "\r\n"
53 
54 using std::string;
55 using std::vector;
56 
57 namespace chromeos_update_engine {
58 
59 static const char* kListeningMsgPrefix = "listening on port ";
60 
61 enum {
62   RC_OK = 0,
63   RC_BAD_ARGS,
64   RC_ERR_READ,
65   RC_ERR_SETSOCKOPT,
66   RC_ERR_BIND,
67   RC_ERR_LISTEN,
68   RC_ERR_GETSOCKNAME,
69   RC_ERR_REPORT,
70 };
71 
72 struct HttpRequest {
73   string raw_headers;
74   string host;
75   string url;
76   off_t start_offset{0};
77   off_t end_offset{0};  // non-inclusive, zero indicates unspecified.
78   HttpResponseCode return_code{kHttpResponseOk};
79 };
80 
ParseRequest(int fd,HttpRequest * request)81 bool ParseRequest(int fd, HttpRequest* request) {
82   string headers;
83   do {
84     char buf[1024];
85     ssize_t r = read(fd, buf, sizeof(buf));
86     if (r < 0) {
87       perror("read");
88       exit(RC_ERR_READ);
89     }
90     headers.append(buf, r);
91   } while (!base::EndsWith(headers, EOL EOL, base::CompareCase::SENSITIVE));
92 
93   LOG(INFO) << "got headers:\n--8<------8<------8<------8<----\n"
94             << headers << "\n--8<------8<------8<------8<----";
95   request->raw_headers = headers;
96 
97   // Break header into lines.
98   vector<string> lines = base::SplitStringUsingSubstr(
99       headers.substr(0, headers.length() - strlen(EOL EOL)),
100       EOL,
101       base::TRIM_WHITESPACE,
102       base::SPLIT_WANT_ALL);
103 
104   // Decode URL line.
105   vector<string> terms = base::SplitString(lines[0],
106                                            base::kWhitespaceASCII,
107                                            base::KEEP_WHITESPACE,
108                                            base::SPLIT_WANT_NONEMPTY);
109   CHECK_EQ(terms.size(), static_cast<vector<string>::size_type>(3));
110   CHECK_EQ(terms[0], "GET");
111   request->url = terms[1];
112   LOG(INFO) << "URL: " << request->url;
113 
114   // Decode remaining lines.
115   size_t i{};
116   for (i = 1; i < lines.size(); i++) {
117     terms = base::SplitString(lines[i],
118                               base::kWhitespaceASCII,
119                               base::KEEP_WHITESPACE,
120                               base::SPLIT_WANT_NONEMPTY);
121 
122     if (terms[0] == "Range:") {
123       CHECK_EQ(terms.size(), static_cast<vector<string>::size_type>(2));
124       string& range = terms[1];
125       LOG(INFO) << "range attribute: " << range;
126       CHECK(base::StartsWith(range, "bytes=", base::CompareCase::SENSITIVE) &&
127             range.find('-') != string::npos);
128       request->start_offset = atoll(range.c_str() + strlen("bytes="));
129       // Decode end offset and increment it by one (so it is non-inclusive).
130       if (range.find('-') < range.length() - 1)
131         request->end_offset = atoll(range.c_str() + range.find('-') + 1) + 1;
132       request->return_code = kHttpResponsePartialContent;
133       string tmp_str = base::StringPrintf(
134           "decoded range offsets: "
135           "start=%jd end=",
136           (intmax_t)request->start_offset);
137       if (request->end_offset > 0)
138         base::StringAppendF(
139             &tmp_str, "%jd (non-inclusive)", (intmax_t)request->end_offset);
140       else
141         base::StringAppendF(&tmp_str, "unspecified");
142       LOG(INFO) << tmp_str;
143     } else if (terms[0] == "Host:") {
144       CHECK_EQ(terms.size(), static_cast<vector<string>::size_type>(2));
145       request->host = terms[1];
146       LOG(INFO) << "host attribute: " << request->host;
147     } else {
148       LOG(WARNING) << "ignoring HTTP attribute: `" << lines[i] << "'";
149     }
150   }
151 
152   return true;
153 }
154 
Itoa(off_t num)155 string Itoa(off_t num) {
156   char buf[100] = {0};
157   snprintf(buf, sizeof(buf), "%" PRIi64, num);
158   return buf;
159 }
160 
161 // Writes a string into a file. Returns total number of bytes written or -1 if a
162 // write error occurred.
WriteString(int fd,const string & str)163 ssize_t WriteString(int fd, const string& str) {
164   const size_t total_size = str.size();
165   size_t remaining_size = total_size;
166   char const* data = str.data();
167 
168   while (remaining_size) {
169     ssize_t written = write(fd, data, remaining_size);
170     if (written < 0) {
171       perror("write");
172       LOG(INFO) << "write failed";
173       return -1;
174     }
175     data += written;
176     remaining_size -= written;
177   }
178 
179   return total_size;
180 }
181 
182 // Writes the headers of an HTTP response into a file.
WriteHeaders(int fd,const off_t start_offset,const off_t end_offset,HttpResponseCode return_code)183 ssize_t WriteHeaders(int fd,
184                      const off_t start_offset,
185                      const off_t end_offset,
186                      HttpResponseCode return_code) {
187   ssize_t written = 0, ret{};
188 
189   ret = WriteString(fd,
190                     string("HTTP/1.1 ") + Itoa(return_code) + " " +
191                         GetHttpResponseDescription(return_code) +
192                         EOL "Content-Type: application/octet-stream" EOL
193                             "Connection: close" EOL);
194   if (ret < 0)
195     return -1;
196   written += ret;
197 
198   // Compute content legnth.
199   const off_t content_length = end_offset - start_offset;
200 
201   // A start offset that equals the end offset indicates that the response
202   // should contain the full range of bytes in the requested resource.
203   if (start_offset || start_offset == end_offset) {
204     ret = WriteString(
205         fd,
206         string("Accept-Ranges: bytes" EOL "Content-Range: bytes ") +
207             Itoa(start_offset == end_offset ? 0 : start_offset) + "-" +
208             Itoa(end_offset - 1) + "/" + Itoa(end_offset) + EOL);
209     if (ret < 0)
210       return -1;
211     written += ret;
212   }
213 
214   ret = WriteString(
215       fd, string("Content-Length: ") + Itoa(content_length) + EOL EOL);
216   if (ret < 0)
217     return -1;
218   written += ret;
219 
220   return written;
221 }
222 
223 // Writes a predetermined payload of lines of ascending bytes to a file. The
224 // first byte of output is appropriately offset with respect to the request line
225 // length.  Returns the number of successfully written bytes.
WritePayload(int fd,const off_t start_offset,const off_t end_offset,const char first_byte,const size_t line_len)226 size_t WritePayload(int fd,
227                     const off_t start_offset,
228                     const off_t end_offset,
229                     const char first_byte,
230                     const size_t line_len) {
231   CHECK_LE(start_offset, end_offset);
232   CHECK_GT(line_len, static_cast<size_t>(0));
233 
234   LOG(INFO) << "writing payload: " << line_len << "-byte lines starting with `"
235             << first_byte << "', offset range " << start_offset << " -> "
236             << end_offset;
237 
238   // Populate line of ascending characters.
239   string line;
240   line.reserve(line_len);
241   char byte = first_byte;
242   size_t i{};
243   for (i = 0; i < line_len; i++)
244     line += byte++;
245 
246   const size_t total_len = end_offset - start_offset;
247   size_t remaining_len = total_len;
248   bool success = true;
249 
250   // If start offset is not aligned with line boundary, output partial line up
251   // to the first line boundary.
252   size_t start_modulo = start_offset % line_len;
253   if (start_modulo) {
254     string partial = line.substr(start_modulo, remaining_len);
255     ssize_t ret = WriteString(fd, partial);
256     if ((success = (ret >= 0 && static_cast<size_t>(ret) == partial.length())))
257       remaining_len -= partial.length();
258   }
259 
260   // Output full lines up to the maximal line boundary below the end offset.
261   while (success && remaining_len >= line_len) {
262     ssize_t ret = WriteString(fd, line);
263     if ((success = (ret >= 0 && static_cast<size_t>(ret) == line_len)))
264       remaining_len -= line_len;
265   }
266 
267   // Output a partial line up to the end offset.
268   if (success && remaining_len) {
269     string partial = line.substr(0, remaining_len);
270     ssize_t ret = WriteString(fd, partial);
271     if ((success = (ret >= 0 && static_cast<size_t>(ret) == partial.length())))
272       remaining_len -= partial.length();
273   }
274 
275   return (total_len - remaining_len);
276 }
277 
278 // Write default payload lines of the form 'abcdefghij'.
WritePayload(int fd,const off_t start_offset,const off_t end_offset)279 inline size_t WritePayload(int fd,
280                            const off_t start_offset,
281                            const off_t end_offset) {
282   return WritePayload(fd, start_offset, end_offset, 'a', 10);
283 }
284 
285 // Send an empty response, then kill the server.
HandleQuit(int fd)286 void HandleQuit(int fd) {
287   WriteHeaders(fd, 0, 0, kHttpResponseOk);
288   LOG(INFO) << "pid(" << getpid() << "): HTTP server exiting ...";
289   exit(RC_OK);
290 }
291 
292 // Generates an HTTP response with payload corresponding to requested offsets
293 // and length.  Optionally, truncate the payload at a given length and add a
294 // pause midway through the transfer.  Returns the total number of bytes
295 // delivered or -1 for error.
HandleGet(int fd,const HttpRequest & request,const size_t total_length,const size_t truncate_length,const int sleep_every,const int sleep_secs)296 ssize_t HandleGet(int fd,
297                   const HttpRequest& request,
298                   const size_t total_length,
299                   const size_t truncate_length,
300                   const int sleep_every,
301                   const int sleep_secs) {
302   ssize_t ret{};
303   size_t written = 0;
304 
305   // Obtain start offset, make sure it is within total payload length.
306   const size_t start_offset = request.start_offset;
307   if (start_offset >= total_length) {
308     LOG(WARNING) << "start offset (" << start_offset
309                  << ") exceeds total length (" << total_length
310                  << "), generating error response ("
311                  << kHttpResponseReqRangeNotSat << ")";
312     return WriteHeaders(
313         fd, total_length, total_length, kHttpResponseReqRangeNotSat);
314   }
315 
316   // Obtain end offset, adjust to fit in total payload length and ensure it does
317   // not preceded the start offset.
318   size_t end_offset =
319       (request.end_offset > 0 ? request.end_offset : total_length);
320   if (end_offset < start_offset) {
321     LOG(WARNING) << "end offset (" << end_offset << ") precedes start offset ("
322                  << start_offset << "), generating error response";
323     return WriteHeaders(fd, 0, 0, kHttpResponseBadRequest);
324   }
325   if (end_offset > total_length) {
326     LOG(INFO) << "requested end offset (" << end_offset
327               << ") exceeds total length (" << total_length << "), adjusting";
328     end_offset = total_length;
329   }
330 
331   // Generate headers
332   LOG(INFO) << "generating response header: range=" << start_offset << "-"
333             << (end_offset - 1) << "/" << (end_offset - start_offset)
334             << ", return code=" << request.return_code;
335   if ((ret = WriteHeaders(fd, start_offset, end_offset, request.return_code)) <
336       0)
337     return -1;
338   LOG(INFO) << ret << " header bytes written";
339   written += ret;
340 
341   // Compute payload length, truncate as necessary.
342   size_t payload_length = end_offset - start_offset;
343   if (truncate_length > 0 && truncate_length < payload_length) {
344     LOG(INFO) << "truncating request payload length (" << payload_length
345               << ") at " << truncate_length;
346     payload_length = truncate_length;
347     end_offset = start_offset + payload_length;
348   }
349 
350   LOG(INFO) << "generating response payload: range=" << start_offset << "-"
351             << (end_offset - 1) << "/" << (end_offset - start_offset);
352 
353   // Decide about optional midway delay.
354   if (truncate_length > 0 && sleep_every > 0 && sleep_secs >= 0 &&
355       start_offset % (truncate_length * sleep_every) == 0) {
356     const off_t midway_offset = start_offset + payload_length / 2;
357 
358     if ((ret = WritePayload(fd, start_offset, midway_offset)) < 0)
359       return -1;
360     LOG(INFO) << ret << " payload bytes written (first chunk)";
361     written += ret;
362 
363     LOG(INFO) << "sleeping for " << sleep_secs << " seconds...";
364     sleep(sleep_secs);
365 
366     if ((ret = WritePayload(fd, midway_offset, end_offset)) < 0)
367       return -1;
368     LOG(INFO) << ret << " payload bytes written (second chunk)";
369     written += ret;
370   } else {
371     if ((ret = WritePayload(fd, start_offset, end_offset)) < 0)
372       return -1;
373     LOG(INFO) << ret << " payload bytes written";
374     written += ret;
375   }
376 
377   LOG(INFO) << "response generation complete, " << written
378             << " total bytes written";
379   return written;
380 }
381 
HandleGet(int fd,const HttpRequest & request,const size_t total_length)382 ssize_t HandleGet(int fd,
383                   const HttpRequest& request,
384                   const size_t total_length) {
385   return HandleGet(fd, request, total_length, 0, 0, 0);
386 }
387 
388 // Handles /redirect/<code>/<url> requests by returning the specified
389 // redirect <code> with a location pointing to /<url>.
HandleRedirect(int fd,const HttpRequest & request)390 void HandleRedirect(int fd, const HttpRequest& request) {
391   LOG(INFO) << "Redirecting...";
392   string url = request.url;
393   CHECK_EQ(static_cast<size_t>(0), url.find("/redirect/"));
394   url.erase(0, strlen("/redirect/"));
395   string::size_type url_start = url.find('/');
396   CHECK_NE(url_start, string::npos);
397   HttpResponseCode code = StringToHttpResponseCode(url.c_str());
398   url.erase(0, url_start);
399   url = "http://" + request.host + url;
400   const char* status = GetHttpResponseDescription(code);
401   if (!status)
402     CHECK(false) << "Unrecognized redirection code: " << code;
403   LOG(INFO) << "Code: " << code << " " << status;
404   LOG(INFO) << "New URL: " << url;
405 
406   ssize_t ret{};
407   if ((ret = WriteString(fd, "HTTP/1.1 " + Itoa(code) + " " + status + EOL)) <
408       0)
409     return;
410   WriteString(fd, "Connection: close" EOL);
411   WriteString(fd, "Location: " + url + EOL);
412 }
413 
414 // Generate a page not found error response with actual text payload. Return
415 // number of bytes written or -1 for error.
HandleError(int fd,const HttpRequest & request)416 ssize_t HandleError(int fd, const HttpRequest& request) {
417   LOG(INFO) << "Generating error HTTP response";
418 
419   ssize_t ret{};
420   size_t written = 0;
421 
422   const string data("This is an error page.");
423 
424   if ((ret = WriteHeaders(fd, 0, data.size(), kHttpResponseNotFound)) < 0)
425     return -1;
426   written += ret;
427 
428   if ((ret = WriteString(fd, data)) < 0)
429     return -1;
430   written += ret;
431 
432   return written;
433 }
434 
435 // Generate an error response if the requested offset is nonzero, up to a given
436 // maximal number of successive failures.  The error generated is an "Internal
437 // Server Error" (500).
HandleErrorIfOffset(int fd,const HttpRequest & request,size_t end_offset,int max_fails)438 ssize_t HandleErrorIfOffset(int fd,
439                             const HttpRequest& request,
440                             size_t end_offset,
441                             int max_fails) {
442   static int num_fails = 0;
443 
444   if (request.start_offset > 0 && num_fails < max_fails) {
445     LOG(INFO) << "Generating error HTTP response";
446 
447     ssize_t ret{};
448     size_t written = 0;
449 
450     const string data("This is an error page.");
451 
452     if ((ret = WriteHeaders(
453              fd, 0, data.size(), kHttpResponseInternalServerError)) < 0)
454       return -1;
455     written += ret;
456 
457     if ((ret = WriteString(fd, data)) < 0)
458       return -1;
459     written += ret;
460 
461     num_fails++;
462     return written;
463   } else {
464     num_fails = 0;
465     return HandleGet(fd, request, end_offset);
466   }
467 }
468 
469 // Returns a valid response echoing in the body of the response all the headers
470 // sent by the client.
HandleEchoHeaders(int fd,const HttpRequest & request)471 void HandleEchoHeaders(int fd, const HttpRequest& request) {
472   WriteHeaders(fd, 0, request.raw_headers.size(), kHttpResponseOk);
473   WriteString(fd, request.raw_headers);
474 }
475 
HandleHang(int fd)476 void HandleHang(int fd) {
477   LOG(INFO) << "Hanging until the other side of the connection is closed.";
478   char c{};
479   while (HANDLE_EINTR(read(fd, &c, 1)) > 0) {
480   }
481 }
482 
HandleDefault(int fd,const HttpRequest & request)483 void HandleDefault(int fd, const HttpRequest& request) {
484   const off_t start_offset = request.start_offset;
485   const string data("unhandled path");
486   const size_t size = data.size();
487   ssize_t ret{};
488 
489   if ((ret = WriteHeaders(fd, start_offset, size, request.return_code)) < 0)
490     return;
491   WriteString(
492       fd,
493       (start_offset < static_cast<off_t>(size) ? data.substr(start_offset)
494                                                : ""));
495 }
496 
497 // Break a URL into terms delimited by slashes.
498 class UrlTerms {
499  public:
UrlTerms(const string & url,size_t num_terms)500   UrlTerms(const string& url, size_t num_terms) {
501     // URL must be non-empty and start with a slash.
502     CHECK_GT(url.size(), static_cast<size_t>(0));
503     CHECK_EQ(url[0], '/');
504 
505     // Split it into terms delimited by slashes, omitting the preceding slash.
506     terms = base::SplitString(
507         url.substr(1), "/", base::KEEP_WHITESPACE, base::SPLIT_WANT_ALL);
508 
509     // Ensure expected length.
510     CHECK_EQ(terms.size(), num_terms);
511   }
512 
Get(const off_t index) const513   inline const string& Get(const off_t index) const { return terms[index]; }
GetCStr(const off_t index) const514   inline const char* GetCStr(const off_t index) const {
515     return Get(index).c_str();
516   }
GetInt(const off_t index) const517   inline int GetInt(const off_t index) const { return atoi(GetCStr(index)); }
GetSizeT(const off_t index) const518   inline size_t GetSizeT(const off_t index) const {
519     return static_cast<size_t>(atol(GetCStr(index)));
520   }
521 
522  private:
523   vector<string> terms;
524 };
525 
HandleConnection(int fd)526 void HandleConnection(int fd) {
527   HttpRequest request;
528   ParseRequest(fd, &request);
529 
530   string& url = request.url;
531   LOG(INFO) << "pid(" << getpid() << "): handling url " << url;
532   if (url == "/quitquitquit") {
533     HandleQuit(fd);
534   } else if (base::StartsWith(
535                  url, "/download/", base::CompareCase::SENSITIVE)) {
536     const UrlTerms terms(url, 2);
537     HandleGet(fd, request, terms.GetSizeT(1));
538   } else if (base::StartsWith(url, "/flaky/", base::CompareCase::SENSITIVE)) {
539     const UrlTerms terms(url, 5);
540     HandleGet(fd,
541               request,
542               terms.GetSizeT(1),
543               terms.GetSizeT(2),
544               terms.GetInt(3),
545               terms.GetInt(4));
546   } else if (url.find("/redirect/") == 0) {
547     HandleRedirect(fd, request);
548   } else if (url == "/error") {
549     HandleError(fd, request);
550   } else if (base::StartsWith(
551                  url, "/error-if-offset/", base::CompareCase::SENSITIVE)) {
552     const UrlTerms terms(url, 3);
553     HandleErrorIfOffset(fd, request, terms.GetSizeT(1), terms.GetInt(2));
554   } else if (url == "/echo-headers") {
555     HandleEchoHeaders(fd, request);
556   } else if (url == "/hang") {
557     HandleHang(fd);
558   } else {
559     HandleDefault(fd, request);
560   }
561 
562   close(fd);
563 }
564 
565 }  // namespace chromeos_update_engine
566 
567 using namespace chromeos_update_engine;  // NOLINT(build/namespaces)
568 
usage(const char * prog_arg)569 void usage(const char* prog_arg) {
570   fprintf(stderr,
571           "Usage: %s [ FILE ]\n"
572           "Once accepting connections, the following is written to FILE (or "
573           "stdout):\n"
574           "\"%sN\" (where N is an integer port number)\n",
575           basename(prog_arg),
576           kListeningMsgPrefix);
577 }
578 
main(int argc,char ** argv)579 int main(int argc, char** argv) {
580   // Check invocation.
581   if (argc > 2)
582     errx(RC_BAD_ARGS, "unexpected number of arguments (use -h for usage)");
583 
584   // Parse (optional) argument.
585   int report_fd = STDOUT_FILENO;
586   if (argc == 2) {
587     if (!strcmp(argv[1], "-h")) {
588       usage(argv[0]);
589       exit(RC_OK);
590     }
591 
592     report_fd = open(argv[1], O_WRONLY | O_CREAT, 00644);
593   }
594 
595   // Ignore SIGPIPE on write() to sockets.
596   signal(SIGPIPE, SIG_IGN);
597 
598   int listen_fd = socket(AF_INET, SOCK_STREAM, 0);
599   if (listen_fd < 0)
600     LOG(FATAL) << "socket() failed";
601 
602   struct sockaddr_in server_addr = sockaddr_in();
603   server_addr.sin_family = AF_INET;
604   server_addr.sin_addr.s_addr = INADDR_ANY;
605   server_addr.sin_port = 0;
606 
607   {
608     // Get rid of "Address in use" error
609     int tr = 1;
610     if (setsockopt(listen_fd, SOL_SOCKET, SO_REUSEADDR, &tr, sizeof(int)) ==
611         -1) {
612       perror("setsockopt");
613       exit(RC_ERR_SETSOCKOPT);
614     }
615   }
616 
617   // Bind the socket and set for listening.
618   if (bind(listen_fd,
619            reinterpret_cast<struct sockaddr*>(&server_addr),
620            sizeof(server_addr)) < 0) {
621     perror("bind");
622     exit(RC_ERR_BIND);
623   }
624   if (listen(listen_fd, 5) < 0) {
625     perror("listen");
626     exit(RC_ERR_LISTEN);
627   }
628 
629   // Check the actual port.
630   struct sockaddr_in bound_addr = sockaddr_in();
631   socklen_t bound_addr_len = sizeof(bound_addr);
632   if (getsockname(listen_fd,
633                   reinterpret_cast<struct sockaddr*>(&bound_addr),
634                   &bound_addr_len) < 0) {
635     perror("getsockname");
636     exit(RC_ERR_GETSOCKNAME);
637   }
638   in_port_t port = ntohs(bound_addr.sin_port);
639 
640   // Output the listening port, indicating that the server is processing
641   // requests. IMPORTANT! (a) the format of this message is as expected by some
642   // unit tests, avoid unilateral changes; (b) it is necessary to flush/sync the
643   // file to prevent the spawning process from waiting indefinitely for this
644   // message.
645   string listening_msg = base::StringPrintf("%s%hu", kListeningMsgPrefix, port);
646   LOG(INFO) << listening_msg;
647   CHECK_EQ(write(report_fd, listening_msg.c_str(), listening_msg.length()),
648            static_cast<int>(listening_msg.length()));
649   CHECK_EQ(write(report_fd, "\n", 1), 1);
650   if (report_fd == STDOUT_FILENO)
651     fsync(report_fd);
652   else
653     close(report_fd);
654 
655   while (1) {
656     LOG(INFO) << "pid(" << getpid() << "): waiting to accept new connection";
657     int client_fd = accept(listen_fd, nullptr, nullptr);
658     LOG(INFO) << "got past accept";
659     if (client_fd < 0)
660       LOG(FATAL) << "ERROR on accept";
661     HandleConnection(client_fd);
662   }
663 }
664