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1// -*- mode: cpp; mode: fold -*-
2// Description /*{{{*/
3// $Id: http.cc,v 1.59 2004/05/08 19:42:35 mdz Exp $
4/* ######################################################################
5
6 HTTP Acquire Method - This is the HTTP acquire method for APT.
7
8 It uses HTTP/1.1 and many of the fancy options there-in, such as
9 pipelining, range, if-range and so on.
10
11 It is based on a doubly buffered select loop. A groupe of requests are
12 fed into a single output buffer that is constantly fed out the
13 socket. This provides ideal pipelining as in many cases all of the
14 requests will fit into a single packet. The input socket is buffered
15 the same way and fed into the fd for the file (may be a pipe in future).
16
17 This double buffering provides fairly substantial transfer rates,
18 compared to wget the http method is about 4% faster. Most importantly,
19 when HTTP is compared with FTP as a protocol the speed difference is
20 huge. In tests over the internet from two sites to llug (via ATM) this
21 program got 230k/s sustained http transfer rates. FTP on the other
22 hand topped out at 170k/s. That combined with the time to setup the
23 FTP connection makes HTTP a vastly superior protocol.
24
25 ##################################################################### */
26 /*}}}*/
27// Include Files /*{{{*/
28#include <config.h>
29
30#include <apt-pkg/fileutl.h>
31#include <apt-pkg/configuration.h>
32#include <apt-pkg/error.h>
33#include <apt-pkg/hashes.h>
34#include <apt-pkg/netrc.h>
35#include <apt-pkg/strutl.h>
36#include <apt-pkg/proxy.h>
37
38#include <stddef.h>
39#include <stdlib.h>
40#include <sys/select.h>
41#include <cstring>
42#include <sys/stat.h>
43#include <sys/time.h>
44#include <unistd.h>
45#include <stdio.h>
46#include <errno.h>
47#include <arpa/inet.h>
48#include <iostream>
49#include <sstream>
50
51#include "config.h"
52#include "connect.h"
53#include "http.h"
54
55#include <apti18n.h>
56 /*}}}*/
57using namespace std;
58
59unsigned long long CircleBuf::BwReadLimit=0;
60unsigned long long CircleBuf::BwTickReadData=0;
61struct timeval CircleBuf::BwReadTick={0,0};
62const unsigned int CircleBuf::BW_HZ=10;
63
64// CircleBuf::CircleBuf - Circular input buffer /*{{{*/
65// ---------------------------------------------------------------------
66/* */
67CircleBuf::CircleBuf(HttpMethod const * const Owner, unsigned long long Size)
68 : Size(Size), Hash(NULL), TotalWriten(0)
69{
70 Buf = new unsigned char[Size];
71 Reset();
72
73 CircleBuf::BwReadLimit = Owner->ConfigFindI("Dl-Limit", 0) * 1024;
74}
75 /*}}}*/
76// CircleBuf::Reset - Reset to the default state /*{{{*/
77// ---------------------------------------------------------------------
78/* */
79void CircleBuf::Reset()
80{
81 InP = 0;
82 OutP = 0;
83 StrPos = 0;
84 TotalWriten = 0;
85 MaxGet = (unsigned long long)-1;
86 OutQueue = string();
87 if (Hash != NULL)
88 {
89 delete Hash;
90 Hash = NULL;
91 }
92}
93 /*}}}*/
94// CircleBuf::Read - Read from a FD into the circular buffer /*{{{*/
95// ---------------------------------------------------------------------
96/* This fills up the buffer with as much data as is in the FD, assuming it
97 is non-blocking.. */
98bool CircleBuf::Read(int Fd)
99{
100 while (1)
101 {
102 // Woops, buffer is full
103 if (InP - OutP == Size)
104 return true;
105
106 // what's left to read in this tick
107 unsigned long long const BwReadMax = CircleBuf::BwReadLimit/BW_HZ;
108
109 if(CircleBuf::BwReadLimit) {
110 struct timeval now;
111 gettimeofday(&now,0);
112
113 unsigned long long d = (now.tv_sec-CircleBuf::BwReadTick.tv_sec)*1000000 +
114 now.tv_usec-CircleBuf::BwReadTick.tv_usec;
115 if(d > 1000000/BW_HZ) {
116 CircleBuf::BwReadTick = now;
117 CircleBuf::BwTickReadData = 0;
118 }
119
120 if(CircleBuf::BwTickReadData >= BwReadMax) {
121 usleep(1000000/BW_HZ);
122 return true;
123 }
124 }
125
126 // Write the buffer segment
127 ssize_t Res;
128 if(CircleBuf::BwReadLimit) {
129 Res = read(Fd,Buf + (InP%Size),
130 BwReadMax > LeftRead() ? LeftRead() : BwReadMax);
131 } else
132 Res = read(Fd,Buf + (InP%Size),LeftRead());
133
134 if(Res > 0 && BwReadLimit > 0)
135 CircleBuf::BwTickReadData += Res;
136
137 if (Res == 0)
138 return false;
139 if (Res < 0)
140 {
141 if (errno == EAGAIN)
142 return true;
143 return false;
144 }
145
146 if (InP == 0)
147 gettimeofday(&Start,0);
148 InP += Res;
149 }
150}
151 /*}}}*/
152// CircleBuf::Read - Put the string into the buffer /*{{{*/
153// ---------------------------------------------------------------------
154/* This will hold the string in and fill the buffer with it as it empties */
155bool CircleBuf::Read(string const &Data)
156{
157 OutQueue.append(Data);
158 FillOut();
159 return true;
160}
161 /*}}}*/
162// CircleBuf::FillOut - Fill the buffer from the output queue /*{{{*/
163// ---------------------------------------------------------------------
164/* */
165void CircleBuf::FillOut()
166{
167 if (OutQueue.empty() == true)
168 return;
169 while (1)
170 {
171 // Woops, buffer is full
172 if (InP - OutP == Size)
173 return;
174
175 // Write the buffer segment
176 unsigned long long Sz = LeftRead();
177 if (OutQueue.length() - StrPos < Sz)
178 Sz = OutQueue.length() - StrPos;
179 memcpy(Buf + (InP%Size),OutQueue.c_str() + StrPos,Sz);
180
181 // Advance
182 StrPos += Sz;
183 InP += Sz;
184 if (OutQueue.length() == StrPos)
185 {
186 StrPos = 0;
187 OutQueue = "";
188 return;
189 }
190 }
191}
192 /*}}}*/
193// CircleBuf::Write - Write from the buffer into a FD /*{{{*/
194// ---------------------------------------------------------------------
195/* This empties the buffer into the FD. */
196bool CircleBuf::Write(int Fd)
197{
198 while (1)
199 {
200 FillOut();
201
202 // Woops, buffer is empty
203 if (OutP == InP)
204 return true;
205
206 if (OutP == MaxGet)
207 return true;
208
209 // Write the buffer segment
210 ssize_t Res;
211 Res = write(Fd,Buf + (OutP%Size),LeftWrite());
212
213 if (Res == 0)
214 return false;
215 if (Res < 0)
216 {
217 if (errno == EAGAIN)
218 return true;
219
220 return false;
221 }
222
223 TotalWriten += Res;
224
225 if (Hash != NULL)
226 Hash->Add(Buf + (OutP%Size),Res);
227
228 OutP += Res;
229 }
230}
231 /*}}}*/
232// CircleBuf::WriteTillEl - Write from the buffer to a string /*{{{*/
233// ---------------------------------------------------------------------
234/* This copies till the first empty line */
235bool CircleBuf::WriteTillEl(string &Data,bool Single)
236{
237 // We cheat and assume it is unneeded to have more than one buffer load
238 for (unsigned long long I = OutP; I < InP; I++)
239 {
240 if (Buf[I%Size] != '\n')
241 continue;
242 ++I;
243
244 if (Single == false)
245 {
246 if (I < InP && Buf[I%Size] == '\r')
247 ++I;
248 if (I >= InP || Buf[I%Size] != '\n')
249 continue;
250 ++I;
251 }
252
253 Data = "";
254 while (OutP < I)
255 {
256 unsigned long long Sz = LeftWrite();
257 if (Sz == 0)
258 return false;
259 if (I - OutP < Sz)
260 Sz = I - OutP;
261 Data += string((char *)(Buf + (OutP%Size)),Sz);
262 OutP += Sz;
263 }
264 return true;
265 }
266 return false;
267}
268 /*}}}*/
269// CircleBuf::Stats - Print out stats information /*{{{*/
270// ---------------------------------------------------------------------
271/* */
272void CircleBuf::Stats()
273{
274 if (InP == 0)
275 return;
276
277 struct timeval Stop;
278 gettimeofday(&Stop,0);
279/* float Diff = Stop.tv_sec - Start.tv_sec +
280 (float)(Stop.tv_usec - Start.tv_usec)/1000000;
281 clog << "Got " << InP << " in " << Diff << " at " << InP/Diff << endl;*/
282}
283 /*}}}*/
284CircleBuf::~CircleBuf()
285{
286 delete [] Buf;
287 delete Hash;
288}
289
290// HttpServerState::HttpServerState - Constructor /*{{{*/
291HttpServerState::HttpServerState(URI Srv,HttpMethod *Owner) : ServerState(Srv, Owner), In(Owner, 64*1024), Out(Owner, 4*1024)
292{
293 TimeOut = Owner->ConfigFindI("Timeout", TimeOut);
294 Reset();
295}
296 /*}}}*/
297// HttpServerState::Open - Open a connection to the server /*{{{*/
298// ---------------------------------------------------------------------
299/* This opens a connection to the server. */
300static bool TalkToSocksProxy(int const ServerFd, std::string const &Proxy,
301 char const * const type, bool const ReadWrite, uint8_t * const ToFrom,
302 unsigned int const Size, unsigned int const Timeout)
303{
304 if (WaitFd(ServerFd, ReadWrite, Timeout) == false)
305 return _error->Error("Waiting for the SOCKS proxy %s to %s timed out", URI::SiteOnly(Proxy).c_str(), type);
306 if (ReadWrite == false)
307 {
308 if (FileFd::Read(ServerFd, ToFrom, Size) == false)
309 return _error->Error("Reading the %s from SOCKS proxy %s failed", type, URI::SiteOnly(Proxy).c_str());
310 }
311 else
312 {
313 if (FileFd::Write(ServerFd, ToFrom, Size) == false)
314 return _error->Error("Writing the %s to SOCKS proxy %s failed", type, URI::SiteOnly(Proxy).c_str());
315 }
316 return true;
317}
318bool HttpServerState::Open()
319{
320 // Use the already open connection if possible.
321 if (ServerFd != -1)
322 return true;
323
324 Close();
325 In.Reset();
326 Out.Reset();
327 Persistent = true;
328
329 // Determine the proxy setting
330 AutoDetectProxy(ServerName);
331 string SpecificProxy = Owner->ConfigFind("Proxy::" + ServerName.Host, "");
332 if (!SpecificProxy.empty())
333 {
334 if (SpecificProxy == "DIRECT")
335 Proxy = "";
336 else
337 Proxy = SpecificProxy;
338 }
339 else
340 {
341 string DefProxy = Owner->ConfigFind("Proxy", "");
342 if (!DefProxy.empty())
343 {
344 Proxy = DefProxy;
345 }
346 else
347 {
348 char* result = getenv("http_proxy");
349 Proxy = result ? result : "";
350 }
351 }
352
353 // Parse no_proxy, a , separated list of domains
354 if (getenv("no_proxy") != 0)
355 {
356 if (CheckDomainList(ServerName.Host,getenv("no_proxy")) == true)
357 Proxy = "";
358 }
359
360 if (Proxy.empty() == false)
361 Owner->AddProxyAuth(Proxy, ServerName);
362
363 if (Proxy.Access == "socks5h")
364 {
365 if (Connect(Proxy.Host, Proxy.Port, "socks", 1080, ServerFd, TimeOut, Owner) == false)
366 return false;
367
368 /* We implement a very basic SOCKS5 client here complying mostly to RFC1928 expect
369 * for not offering GSSAPI auth which is a must (we only do no or user/pass auth).
370 * We also expect the SOCKS5 server to do hostname lookup (aka socks5h) */
371 std::string const ProxyInfo = URI::SiteOnly(Proxy);
372 Owner->Status(_("Connecting to %s (%s)"),"SOCKS5h proxy",ProxyInfo.c_str());
373 auto const Timeout = Owner->ConfigFindI("TimeOut", 120);
374 #define APT_WriteOrFail(TYPE, DATA, LENGTH) if (TalkToSocksProxy(ServerFd, ProxyInfo, TYPE, true, DATA, LENGTH, Timeout) == false) return false
375 #define APT_ReadOrFail(TYPE, DATA, LENGTH) if (TalkToSocksProxy(ServerFd, ProxyInfo, TYPE, false, DATA, LENGTH, Timeout) == false) return false
376 if (ServerName.Host.length() > 255)
377 return _error->Error("Can't use SOCKS5h as hostname %s is too long!", ServerName.Host.c_str());
378 if (Proxy.User.length() > 255 || Proxy.Password.length() > 255)
379 return _error->Error("Can't use user&pass auth as they are too long (%lu and %lu) for the SOCKS5!", Proxy.User.length(), Proxy.Password.length());
380 if (Proxy.User.empty())
381 {
382 uint8_t greeting[] = { 0x05, 0x01, 0x00 };
383 APT_WriteOrFail("greet-1", greeting, sizeof(greeting));
384 }
385 else
386 {
387 uint8_t greeting[] = { 0x05, 0x02, 0x00, 0x02 };
388 APT_WriteOrFail("greet-2", greeting, sizeof(greeting));
389 }
390 uint8_t greeting[2];
391 APT_ReadOrFail("greet back", greeting, sizeof(greeting));
392 if (greeting[0] != 0x05)
393 return _error->Error("SOCKS proxy %s greets back with wrong version: %d", ProxyInfo.c_str(), greeting[0]);
394 if (greeting[1] == 0x00)
395 ; // no auth has no method-dependent sub-negotiations
396 else if (greeting[1] == 0x02)
397 {
398 if (Proxy.User.empty())
399 return _error->Error("SOCKS proxy %s negotiated user&pass auth, but we had not offered it!", ProxyInfo.c_str());
400 // user&pass auth sub-negotiations are defined by RFC1929
401 std::vector<uint8_t> auth = {{ 0x01, static_cast<uint8_t>(Proxy.User.length()) }};
402 std::copy(Proxy.User.begin(), Proxy.User.end(), std::back_inserter(auth));
403 auth.push_back(static_cast<uint8_t>(Proxy.Password.length()));
404 std::copy(Proxy.Password.begin(), Proxy.Password.end(), std::back_inserter(auth));
405 APT_WriteOrFail("user&pass auth", auth.data(), auth.size());
406 uint8_t authstatus[2];
407 APT_ReadOrFail("auth report", authstatus, sizeof(authstatus));
408 if (authstatus[0] != 0x01)
409 return _error->Error("SOCKS proxy %s auth status response with wrong version: %d", ProxyInfo.c_str(), authstatus[0]);
410 if (authstatus[1] != 0x00)
411 return _error->Error("SOCKS proxy %s reported authorization failure: username or password incorrect? (%d)", ProxyInfo.c_str(), authstatus[1]);
412 }
413 else
414 return _error->Error("SOCKS proxy %s greets back having not found a common authorization method: %d", ProxyInfo.c_str(), greeting[1]);
415 union { uint16_t * i; uint8_t * b; } portu;
416 uint16_t port = htons(static_cast<uint16_t>(ServerName.Port == 0 ? 80 : ServerName.Port));
417 portu.i = &port;
418 std::vector<uint8_t> request = {{ 0x05, 0x01, 0x00, 0x03, static_cast<uint8_t>(ServerName.Host.length()) }};
419 std::copy(ServerName.Host.begin(), ServerName.Host.end(), std::back_inserter(request));
420 request.push_back(portu.b[0]);
421 request.push_back(portu.b[1]);
422 APT_WriteOrFail("request", request.data(), request.size());
423 uint8_t response[4];
424 APT_ReadOrFail("first part of response", response, sizeof(response));
425 if (response[0] != 0x05)
426 return _error->Error("SOCKS proxy %s response with wrong version: %d", ProxyInfo.c_str(), response[0]);
427 if (response[2] != 0x00)
428 return _error->Error("SOCKS proxy %s has unexpected non-zero reserved field value: %d", ProxyInfo.c_str(), response[2]);
429 std::string bindaddr;
430 if (response[3] == 0x01) // IPv4 address
431 {
432 uint8_t ip4port[6];
433 APT_ReadOrFail("IPv4+Port of response", ip4port, sizeof(ip4port));
434 portu.b[0] = ip4port[4];
435 portu.b[1] = ip4port[5];
436 port = ntohs(*portu.i);
437 strprintf(bindaddr, "%d.%d.%d.%d:%d", ip4port[0], ip4port[1], ip4port[2], ip4port[3], port);
438 }
439 else if (response[3] == 0x03) // hostname
440 {
441 uint8_t namelength;
442 APT_ReadOrFail("hostname length of response", &namelength, 1);
443 uint8_t hostname[namelength + 2];
444 APT_ReadOrFail("hostname of response", hostname, sizeof(hostname));
445 portu.b[0] = hostname[namelength];
446 portu.b[1] = hostname[namelength + 1];
447 port = ntohs(*portu.i);
448 hostname[namelength] = '\0';
449 strprintf(bindaddr, "%s:%d", hostname, port);
450 }
451 else if (response[3] == 0x04) // IPv6 address
452 {
453 uint8_t ip6port[18];
454 APT_ReadOrFail("IPv6+port of response", ip6port, sizeof(ip6port));
455 portu.b[0] = ip6port[16];
456 portu.b[1] = ip6port[17];
457 port = ntohs(*portu.i);
458 strprintf(bindaddr, "[%02X%02X:%02X%02X:%02X%02X:%02X%02X:%02X%02X:%02X%02X:%02X%02X:%02X%02X]:%d",
459 ip6port[0], ip6port[1], ip6port[2], ip6port[3], ip6port[4], ip6port[5], ip6port[6], ip6port[7],
460 ip6port[8], ip6port[9], ip6port[10], ip6port[11], ip6port[12], ip6port[13], ip6port[14], ip6port[15],
461 port);
462 }
463 else
464 return _error->Error("SOCKS proxy %s destination address is of unknown type: %d",
465 ProxyInfo.c_str(), response[3]);
466 if (response[1] != 0x00)
467 {
468 char const * errstr;
469 switch (response[1])
470 {
471 case 0x01: errstr = "general SOCKS server failure"; Owner->SetFailReason("SOCKS"); break;
472 case 0x02: errstr = "connection not allowed by ruleset"; Owner->SetFailReason("SOCKS"); break;
473 case 0x03: errstr = "Network unreachable"; Owner->SetFailReason("ConnectionTimedOut"); break;
474 case 0x04: errstr = "Host unreachable"; Owner->SetFailReason("ConnectionTimedOut"); break;
475 case 0x05: errstr = "Connection refused"; Owner->SetFailReason("ConnectionRefused"); break;
476 case 0x06: errstr = "TTL expired"; Owner->SetFailReason("Timeout"); break;
477 case 0x07: errstr = "Command not supported"; Owner->SetFailReason("SOCKS"); break;
478 case 0x08: errstr = "Address type not supported"; Owner->SetFailReason("SOCKS"); break;
479 default: errstr = "Unknown error"; Owner->SetFailReason("SOCKS"); break;
480 }
481 return _error->Error("SOCKS proxy %s didn't grant the connect to %s due to: %s (%d)", ProxyInfo.c_str(), bindaddr.c_str(), errstr, response[1]);
482 }
483 else if (Owner->DebugEnabled())
484 ioprintf(std::clog, "http: SOCKS proxy %s connection established to %s\n", ProxyInfo.c_str(), bindaddr.c_str());
485
486 if (WaitFd(ServerFd, true, Timeout) == false)
487 return _error->Error("SOCKS proxy %s reported connection, but timed out", ProxyInfo.c_str());
488 #undef APT_ReadOrFail
489 #undef APT_WriteOrFail
490 }
491 else
492 {
493 // Determine what host and port to use based on the proxy settings
494 int Port = 0;
495 string Host;
496 if (Proxy.empty() == true || Proxy.Host.empty() == true)
497 {
498 if (ServerName.Port != 0)
499 Port = ServerName.Port;
500 Host = ServerName.Host;
501 }
502 else if (Proxy.Access != "http")
503 return _error->Error("Unsupported proxy configured: %s", URI::SiteOnly(Proxy).c_str());
504 else
505 {
506 if (Proxy.Port != 0)
507 Port = Proxy.Port;
508 Host = Proxy.Host;
509 }
510 return Connect(Host,Port,"http",80,ServerFd,TimeOut,Owner);
511 }
512 return true;
513}
514 /*}}}*/
515// HttpServerState::Close - Close a connection to the server /*{{{*/
516// ---------------------------------------------------------------------
517/* */
518bool HttpServerState::Close()
519{
520 close(ServerFd);
521 ServerFd = -1;
522 return true;
523}
524 /*}}}*/
525// HttpServerState::RunData - Transfer the data from the socket /*{{{*/
526bool HttpServerState::RunData(FileFd * const File)
527{
528 State = Data;
529
530 // Chunked transfer encoding is fun..
531 if (Encoding == Chunked)
532 {
533 while (1)
534 {
535 // Grab the block size
536 bool Last = true;
537 string Data;
538 In.Limit(-1);
539 do
540 {
541 if (In.WriteTillEl(Data,true) == true)
542 break;
543 }
544 while ((Last = Go(false, File)) == true);
545
546 if (Last == false)
547 return false;
548
549 // See if we are done
550 unsigned long long Len = strtoull(Data.c_str(),0,16);
551 if (Len == 0)
552 {
553 In.Limit(-1);
554
555 // We have to remove the entity trailer
556 Last = true;
557 do
558 {
559 if (In.WriteTillEl(Data,true) == true && Data.length() <= 2)
560 break;
561 }
562 while ((Last = Go(false, File)) == true);
563 if (Last == false)
564 return false;
565 return !_error->PendingError();
566 }
567
568 // Transfer the block
569 In.Limit(Len);
570 while (Go(true, File) == true)
571 if (In.IsLimit() == true)
572 break;
573
574 // Error
575 if (In.IsLimit() == false)
576 return false;
577
578 // The server sends an extra new line before the next block specifier..
579 In.Limit(-1);
580 Last = true;
581 do
582 {
583 if (In.WriteTillEl(Data,true) == true)
584 break;
585 }
586 while ((Last = Go(false, File)) == true);
587 if (Last == false)
588 return false;
589 }
590 }
591 else
592 {
593 /* Closes encoding is used when the server did not specify a size, the
594 loss of the connection means we are done */
595 if (JunkSize != 0)
596 In.Limit(JunkSize);
597 else if (DownloadSize != 0)
598 In.Limit(DownloadSize);
599 else if (Persistent == false)
600 In.Limit(-1);
601
602 // Just transfer the whole block.
603 do
604 {
605 if (In.IsLimit() == false)
606 continue;
607
608 In.Limit(-1);
609 return !_error->PendingError();
610 }
611 while (Go(true, File) == true);
612 }
613
614 return Owner->Flush() && !_error->PendingError();
615}
616 /*}}}*/
617bool HttpServerState::RunDataToDevNull() /*{{{*/
618{
619 FileFd DevNull("/dev/null", FileFd::WriteOnly);
620 return RunData(&DevNull);
621}
622 /*}}}*/
623bool HttpServerState::ReadHeaderLines(std::string &Data) /*{{{*/
624{
625 return In.WriteTillEl(Data);
626}
627 /*}}}*/
628bool HttpServerState::LoadNextResponse(bool const ToFile, FileFd * const File)/*{{{*/
629{
630 return Go(ToFile, File);
631}
632 /*}}}*/
633bool HttpServerState::WriteResponse(const std::string &Data) /*{{{*/
634{
635 return Out.Read(Data);
636}
637 /*}}}*/
638APT_PURE bool HttpServerState::IsOpen() /*{{{*/
639{
640 return (ServerFd != -1);
641}
642 /*}}}*/
643bool HttpServerState::InitHashes(HashStringList const &ExpectedHashes) /*{{{*/
644{
645 delete In.Hash;
646 In.Hash = new Hashes(ExpectedHashes);
647 return true;
648}
649 /*}}}*/
650void HttpServerState::Reset(bool const Everything) /*{{{*/
651{
652 ServerState::Reset(Everything);
653 if (Everything)
654 ServerFd = -1;
655}
656 /*}}}*/
657
658APT_PURE Hashes * HttpServerState::GetHashes() /*{{{*/
659{
660 return In.Hash;
661}
662 /*}}}*/
663// HttpServerState::Die - The server has closed the connection. /*{{{*/
664bool HttpServerState::Die(FileFd * const File)
665{
666 unsigned int LErrno = errno;
667
668 // Dump the buffer to the file
669 if (State == ServerState::Data)
670 {
671 if (File == nullptr)
672 return true;
673 // on GNU/kFreeBSD, apt dies on /dev/null because non-blocking
674 // can't be set
675 if (File->Name() != "/dev/null")
676 SetNonBlock(File->Fd(),false);
677 while (In.WriteSpace() == true)
678 {
679 if (In.Write(File->Fd()) == false)
680 return _error->Errno("write",_("Error writing to the file"));
681
682 // Done
683 if (In.IsLimit() == true)
684 return true;
685 }
686 }
687
688 // See if this is because the server finished the data stream
689 if (In.IsLimit() == false && State != HttpServerState::Header &&
690 Persistent == true)
691 {
692 Close();
693 if (LErrno == 0)
694 return _error->Error(_("Error reading from server. Remote end closed connection"));
695 errno = LErrno;
696 return _error->Errno("read",_("Error reading from server"));
697 }
698 else
699 {
700 In.Limit(-1);
701
702 // Nothing left in the buffer
703 if (In.WriteSpace() == false)
704 return false;
705
706 // We may have got multiple responses back in one packet..
707 Close();
708 return true;
709 }
710
711 return false;
712}
713 /*}}}*/
714// HttpServerState::Flush - Dump the buffer into the file /*{{{*/
715// ---------------------------------------------------------------------
716/* This takes the current input buffer from the Server FD and writes it
717 into the file */
718bool HttpServerState::Flush(FileFd * const File)
719{
720 if (File != NULL)
721 {
722 // on GNU/kFreeBSD, apt dies on /dev/null because non-blocking
723 // can't be set
724 if (File->Name() != "/dev/null")
725 SetNonBlock(File->Fd(),false);
726 if (In.WriteSpace() == false)
727 return true;
728
729 while (In.WriteSpace() == true)
730 {
731 if (In.Write(File->Fd()) == false)
732 return _error->Errno("write",_("Error writing to file"));
733 if (In.IsLimit() == true)
734 return true;
735 }
736
737 if (In.IsLimit() == true || Persistent == false)
738 return true;
739 }
740 return false;
741}
742 /*}}}*/
743// HttpServerState::Go - Run a single loop /*{{{*/
744// ---------------------------------------------------------------------
745/* This runs the select loop over the server FDs, Output file FDs and
746 stdin. */
747bool HttpServerState::Go(bool ToFile, FileFd * const File)
748{
749 // Server has closed the connection
750 if (ServerFd == -1 && (In.WriteSpace() == false ||
751 ToFile == false))
752 return false;
753
754 fd_set rfds,wfds;
755 FD_ZERO(&rfds);
756 FD_ZERO(&wfds);
757
758 /* Add the server. We only send more requests if the connection will
759 be persisting */
760 if (Out.WriteSpace() == true && ServerFd != -1
761 && Persistent == true)
762 FD_SET(ServerFd,&wfds);
763 if (In.ReadSpace() == true && ServerFd != -1)
764 FD_SET(ServerFd,&rfds);
765
766 // Add the file
767 int FileFD = -1;
768 if (File != NULL)
769 FileFD = File->Fd();
770
771 if (In.WriteSpace() == true && ToFile == true && FileFD != -1)
772 FD_SET(FileFD,&wfds);
773
774 // Add stdin
775 if (Owner->ConfigFindB("DependOnSTDIN", true) == true)
776 FD_SET(STDIN_FILENO,&rfds);
777
778 // Figure out the max fd
779 int MaxFd = FileFD;
780 if (MaxFd < ServerFd)
781 MaxFd = ServerFd;
782
783 // Select
784 struct timeval tv;
785 tv.tv_sec = TimeOut;
786 tv.tv_usec = 0;
787 int Res = 0;
788 if ((Res = select(MaxFd+1,&rfds,&wfds,0,&tv)) < 0)
789 {
790 if (errno == EINTR)
791 return true;
792 return _error->Errno("select",_("Select failed"));
793 }
794
795 if (Res == 0)
796 {
797 _error->Error(_("Connection timed out"));
798 return Die(File);
799 }
800
801 // Handle server IO
802 if (ServerFd != -1 && FD_ISSET(ServerFd,&rfds))
803 {
804 errno = 0;
805 if (In.Read(ServerFd) == false)
806 return Die(File);
807 }
808
809 if (ServerFd != -1 && FD_ISSET(ServerFd,&wfds))
810 {
811 errno = 0;
812 if (Out.Write(ServerFd) == false)
813 return Die(File);
814 }
815
816 // Send data to the file
817 if (FileFD != -1 && FD_ISSET(FileFD,&wfds))
818 {
819 if (In.Write(FileFD) == false)
820 return _error->Errno("write",_("Error writing to output file"));
821 }
822
823 if (MaximumSize > 0 && File && File->Tell() > MaximumSize)
824 {
825 Owner->SetFailReason("MaximumSizeExceeded");
826 return _error->Error("Writing more data than expected (%llu > %llu)",
827 File->Tell(), MaximumSize);
828 }
829
830 // Handle commands from APT
831 if (FD_ISSET(STDIN_FILENO,&rfds))
832 {
833 if (Owner->Run(true) != -1)
834 exit(100);
835 }
836
837 return true;
838}
839 /*}}}*/
840
841// HttpMethod::SendReq - Send the HTTP request /*{{{*/
842// ---------------------------------------------------------------------
843/* This places the http request in the outbound buffer */
844void HttpMethod::SendReq(FetchItem *Itm)
845{
846 URI Uri = Itm->Uri;
847 {
848 auto const plus = Binary.find('+');
849 if (plus != std::string::npos)
850 Uri.Access = Binary.substr(plus + 1);
851 }
852
853 // The HTTP server expects a hostname with a trailing :port
854 std::stringstream Req;
855 string ProperHost;
856
857 if (Uri.Host.find(':') != string::npos)
858 ProperHost = '[' + Uri.Host + ']';
859 else
860 ProperHost = Uri.Host;
861
862 /* RFC 2616 ยง5.1.2 requires absolute URIs for requests to proxies,
863 but while its a must for all servers to accept absolute URIs,
864 it is assumed clients will sent an absolute path for non-proxies */
865 std::string requesturi;
866 if (Server->Proxy.Access != "http" || Server->Proxy.empty() == true || Server->Proxy.Host.empty())
867 requesturi = Uri.Path;
868 else
869 requesturi = Uri;
870
871 // The "+" is encoded as a workaround for a amazon S3 bug
872 // see LP bugs #1003633 and #1086997.
873 requesturi = QuoteString(requesturi, "+~ ");
874
875 /* Build the request. No keep-alive is included as it is the default
876 in 1.1, can cause problems with proxies, and we are an HTTP/1.1
877 client anyway.
878 C.f. https://tools.ietf.org/wg/httpbis/trac/ticket/158 */
879 Req << "GET " << requesturi << " HTTP/1.1\r\n";
880 if (Uri.Port != 0)
881 Req << "Host: " << ProperHost << ":" << std::to_string(Uri.Port) << "\r\n";
882 else
883 Req << "Host: " << ProperHost << "\r\n";
884
885 // generate a cache control header (if needed)
886 if (ConfigFindB("No-Cache",false) == true)
887 Req << "Cache-Control: no-cache\r\n"
888 << "Pragma: no-cache\r\n";
889 else if (Itm->IndexFile == true)
890 Req << "Cache-Control: max-age=" << std::to_string(ConfigFindI("Max-Age", 0)) << "\r\n";
891 else if (ConfigFindB("No-Store", false) == true)
892 Req << "Cache-Control: no-store\r\n";
893
894 // If we ask for uncompressed files servers might respond with content-
895 // negotiation which lets us end up with compressed files we do not support,
896 // see 657029, 657560 and co, so if we have no extension on the request
897 // ask for text only. As a sidenote: If there is nothing to negotate servers
898 // seem to be nice and ignore it.
899 if (ConfigFindB("SendAccept", true) == true)
900 {
901 size_t const filepos = Itm->Uri.find_last_of('/');
902 string const file = Itm->Uri.substr(filepos + 1);
903 if (flExtension(file) == file)
904 Req << "Accept: text/*\r\n";
905 }
906
907 // Check for a partial file and send if-queries accordingly
908 struct stat SBuf;
909 if (Server->RangesAllowed && stat(Itm->DestFile.c_str(),&SBuf) >= 0 && SBuf.st_size > 0)
910 Req << "Range: bytes=" << std::to_string(SBuf.st_size) << "-\r\n"
911 << "If-Range: " << TimeRFC1123(SBuf.st_mtime, false) << "\r\n";
912 else if (Itm->LastModified != 0)
913 Req << "If-Modified-Since: " << TimeRFC1123(Itm->LastModified, false).c_str() << "\r\n";
914
915 if (Server->Proxy.Access == "http" &&
916 (Server->Proxy.User.empty() == false || Server->Proxy.Password.empty() == false))
917 Req << "Proxy-Authorization: Basic "
918 << Base64Encode(Server->Proxy.User + ":" + Server->Proxy.Password) << "\r\n";
919
920 maybe_add_auth (Uri, _config->FindFile("Dir::Etc::netrc"));
921 if (Uri.User.empty() == false || Uri.Password.empty() == false)
922 Req << "Authorization: Basic "
923 << Base64Encode(Uri.User + ":" + Uri.Password) << "\r\n";
924
925 Req << "User-Agent: " << ConfigFind("User-Agent",
926 "Debian APT-HTTP/1.3 (" PACKAGE_VERSION ")") << "\r\n";
927
928 Req << "\r\n";
929
930 if (Debug == true)
931 cerr << Req.str() << endl;
932
933 Server->WriteResponse(Req.str());
934}
935 /*}}}*/
936std::unique_ptr<ServerState> HttpMethod::CreateServerState(URI const &uri)/*{{{*/
937{
938 return std::unique_ptr<ServerState>(new HttpServerState(uri, this));
939}
940 /*}}}*/
941void HttpMethod::RotateDNS() /*{{{*/
942{
943 ::RotateDNS();
944}
945 /*}}}*/
946ServerMethod::DealWithHeadersResult HttpMethod::DealWithHeaders(FetchResult &Res)/*{{{*/
947{
948 auto ret = ServerMethod::DealWithHeaders(Res);
949 if (ret != ServerMethod::FILE_IS_OPEN)
950 return ret;
951
952 // Open the file
953 delete File;
954 File = new FileFd(Queue->DestFile,FileFd::WriteAny);
955 if (_error->PendingError() == true)
956 return ERROR_NOT_FROM_SERVER;
957
958 FailFile = Queue->DestFile;
959 FailFile.c_str(); // Make sure we don't do a malloc in the signal handler
960 FailFd = File->Fd();
961 FailTime = Server->Date;
962
963 if (Server->InitHashes(Queue->ExpectedHashes) == false || Server->AddPartialFileToHashes(*File) == false)
964 {
965 _error->Errno("read",_("Problem hashing file"));
966 return ERROR_NOT_FROM_SERVER;
967 }
968 if (Server->StartPos > 0)
969 Res.ResumePoint = Server->StartPos;
970
971 SetNonBlock(File->Fd(),true);
972 return FILE_IS_OPEN;
973}
974 /*}}}*/
975HttpMethod::HttpMethod(std::string &&pProg) : ServerMethod(pProg.c_str(), "1.2", Pipeline | SendConfig)/*{{{*/
976{
977 auto addName = std::inserter(methodNames, methodNames.begin());
978 if (Binary != "http")
979 addName = "http";
980 auto const plus = Binary.find('+');
981 if (plus != std::string::npos)
982 addName = Binary.substr(0, plus);
983 File = 0;
984 Server = 0;
985}
986 /*}}}*/