premiere-libtorrent/test/setup_transfer.cpp

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/*
Copyright (c) 2008, Arvid Norberg
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
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#include <fstream>
#include <deque>
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#include "libtorrent/session.hpp"
#include "libtorrent/hasher.hpp"
#include "libtorrent/http_parser.hpp"
#include "libtorrent/thread.hpp"
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#include "libtorrent/thread.hpp"
#include <boost/tuple/tuple.hpp>
#include <boost/bind.hpp>
#include "test.hpp"
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#include "libtorrent/assert.hpp"
#include "libtorrent/alert_types.hpp"
#include "libtorrent/create_torrent.hpp"
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#include "libtorrent/socket_io.hpp" // print_endpoint
#include "libtorrent/socket_type.hpp"
#include "libtorrent/instantiate_connection.hpp"
#ifdef TORRENT_USE_OPENSSL
#include <boost/asio/ssl/stream.hpp>
#include <boost/asio/ssl/context.hpp>
#endif
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#define DEBUG_WEB_SERVER 0
#define DLOG if (DEBUG_WEB_SERVER) fprintf
using namespace libtorrent;
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bool tests_failure = false;
void report_failure(char const* err, char const* file, int line)
{
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#if defined TORRENT_WINDOWS && defined TORRENT_MINGW
HANDLE console = CreateConsoleScreenBuffer(GENERIC_READ | GENERIC_WRITE, 0, 0, CONSOLE_TEXTMODE_BUFFER, 0);
SetConsoleTextAttribute(console, FOREGROUND_RED);
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fprintf(stderr, "\n**** %s:%d \"%s\" ****\n\n", file, line, err);
CloseHandle(console);
#else
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fprintf(stderr, "\033[31m %s:%d \"%s\"\033[0m\n", file, line, err);
#endif
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tests_failure = true;
}
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bool print_alerts(libtorrent::session& ses, char const* name
, bool allow_disconnects, bool allow_no_torrents, bool allow_failed_fastresume
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, bool (*predicate)(libtorrent::alert*), bool no_output)
{
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bool ret = false;
std::vector<torrent_handle> handles = ses.get_torrents();
TEST_CHECK(!handles.empty() || allow_no_torrents);
torrent_handle h;
if (!handles.empty()) h = handles[0];
std::deque<alert*> alerts;
ses.pop_alerts(&alerts);
for (std::deque<alert*>::iterator i = alerts.begin(); i != alerts.end(); ++i)
{
if (predicate && predicate(*i)) ret = true;
if (peer_disconnected_alert* p = alert_cast<peer_disconnected_alert>(*i))
{
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fprintf(stderr, "%s(%s): %s\n", name, print_endpoint(p->ip).c_str(), p->message().c_str());
}
else if ((*i)->message() != "block downloading"
&& (*i)->message() != "block finished"
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&& (*i)->message() != "piece finished"
&& !no_output)
{
fprintf(stderr, "%s: %s\n", name, (*i)->message().c_str());
}
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TEST_CHECK(alert_cast<fastresume_rejected_alert>(*i) == 0 || allow_failed_fastresume);
peer_error_alert* pea = alert_cast<peer_error_alert>(*i);
if (pea)
{
fprintf(stderr, "peer error: %s\n", pea->error.message().c_str());
TEST_CHECK((!handles.empty() && h.status().is_seeding)
|| pea->error.message() == "connecting to peer"
|| pea->error.message() == "closing connection to ourself"
|| pea->error.message() == "duplicate connection"
|| pea->error.message() == "duplicate peer-id"
|| pea->error.message() == "upload to upload connection"
|| pea->error.message() == "stopping torrent"
|| (allow_disconnects && pea->error.message() == "Broken pipe")
|| (allow_disconnects && pea->error.message() == "Connection reset by peer")
|| (allow_disconnects && pea->error.message() == "End of file."));
}
delete *i;
}
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return ret;
}
bool listen_done = false;
bool listen_alert(libtorrent::alert* a)
{
if (alert_cast<listen_failed_alert>(a)
|| alert_cast<listen_succeeded_alert>(a))
listen_done = true;
return true;
}
void wait_for_listen(libtorrent::session& ses, char const* name)
{
listen_done = false;
alert const* a = 0;
do
{
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print_alerts(ses, name, true, true, true, &listen_alert, false);
if (listen_done) break;
a = ses.wait_for_alert(milliseconds(500));
} while (a);
}
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void test_sleep(int millisec)
{
libtorrent::sleep(millisec);
}
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void stop_proxy(int port)
{
char buf[100];
snprintf(buf, sizeof(buf), "delegated -P%d -Fkill", port);
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int ret = system(buf);
if (ret == 0)
{
perror("system");
}
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}
int start_proxy(int proxy_type)
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{
using namespace libtorrent;
int port = 10000 + (rand() % 50000);
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stop_proxy(port);
char const* type = "";
char const* auth = "";
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switch (proxy_type)
{
case proxy_settings::socks4:
type = "socks4";
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break;
case proxy_settings::socks5:
type = "socks5";
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break;
case proxy_settings::socks5_pw:
type = "socks5";
auth = "AUTHORIZER=-list{testuser:testpass}";
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break;
case proxy_settings::http:
type = "http";
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break;
case proxy_settings::http_pw:
type = "http";
auth = "AUTHORIZER=-list{testuser:testpass}";
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break;
}
char buf[512];
// we need to echo n since dg will ask us to configure it
snprintf(buf, sizeof(buf), "echo n | delegated -P%d ADMIN=test@test.com "
"PERMIT=\"*:*:localhost\" REMITTABLE=\"*\" RELAY=proxy,delegate "
"SERVER=%s %s"
, port, type, auth);
fprintf(stderr, "starting delegated proxy on port %d (%s %s)...\n", port, type, auth);
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int r = system(buf);
if (r != 0)
{
fprintf(stderr, "failed (%d) %s\n", errno, strerror(errno));
exit(1);
}
fprintf(stderr, "launched\n");
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// apparently delegate takes a while to open its listen port
test_sleep(500);
return port;
}
using namespace libtorrent;
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template <class T>
boost::intrusive_ptr<T> clone_ptr(boost::intrusive_ptr<T> const& ptr)
{
return boost::intrusive_ptr<T>(new T(*ptr));
}
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void create_random_files(std::string const& path, const int file_sizes[], int num_files)
{
error_code ec;
char* random_data = (char*)malloc(300000);
for (int i = 0; i != num_files; ++i)
{
std::generate(random_data, random_data + 300000, &std::rand);
char filename[200];
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snprintf(filename, sizeof(filename), "test%d", i);
std::string full_path = combine_path(path, filename);
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int to_write = file_sizes[i];
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file f(full_path, file::write_only, ec);
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if (ec) fprintf(stderr, "failed to create file \"%s\": (%d) %s\n"
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, full_path.c_str(), ec.value(), ec.message().c_str());
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size_type offset = 0;
while (to_write > 0)
{
int s = (std::min)(to_write, 300000);
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file::iovec_t b = { random_data, size_t(s)};
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f.writev(offset, &b, 1, ec);
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if (ec) fprintf(stderr, "failed to write file \"%s\": (%d) %s\n"
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, full_path.c_str(), ec.value(), ec.message().c_str());
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offset += s;
to_write -= s;
}
}
free(random_data);
}
boost::intrusive_ptr<torrent_info> create_torrent(std::ostream* file, int piece_size
, int num_pieces, bool add_tracker, bool encrypted_torrent)
{
char const* tracker_url = "http://non-existent-name.com/announce";
// excercise the path when encountering invalid urls
char const* invalid_tracker_url = "http:";
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char const* invalid_tracker_protocol = "foo://non/existent-name.com/announce";
file_storage fs;
int total_size = piece_size * num_pieces;
fs.add_file("temporary", total_size);
libtorrent::create_torrent t(fs, piece_size);
if (add_tracker)
{
t.add_tracker(tracker_url);
t.add_tracker(invalid_tracker_url);
t.add_tracker(invalid_tracker_protocol);
}
std::vector<char> piece(piece_size);
for (int i = 0; i < int(piece.size()); ++i)
piece[i] = (i % 26) + 'A';
// calculate the hash for all pieces
int num = t.num_pieces();
sha1_hash ph = hasher(&piece[0], piece.size()).final();
for (int i = 0; i < num; ++i)
t.set_hash(i, ph);
if (file)
{
while (total_size > 0)
{
file->write(&piece[0], (std::min)(int(piece.size()), total_size));
total_size -= piece.size();
}
}
std::vector<char> tmp;
std::back_insert_iterator<std::vector<char> > out(tmp);
entry tor = t.generate();
if (encrypted_torrent)
{
std::string key;
key.resize(32);
std::generate(key.begin(), key.end(), &std::rand);
tor["info"]["encryption-key"] = key;
}
bencode(out, tor);
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error_code ec;
return boost::intrusive_ptr<torrent_info>(new torrent_info(
&tmp[0], tmp.size(), ec));
}
boost::tuple<torrent_handle, torrent_handle, torrent_handle>
setup_transfer(session* ses1, session* ses2, session* ses3
, bool clear_files, bool use_metadata_transfer, bool connect_peers
, std::string suffix, int piece_size
, boost::intrusive_ptr<torrent_info>* torrent, bool super_seeding
, add_torrent_params const* p, bool stop_lsd, bool encrypted_torrent)
{
assert(ses1);
assert(ses2);
if (stop_lsd)
{
ses1->stop_lsd();
ses2->stop_lsd();
if (ses3) ses3->stop_lsd();
}
session_settings sess_set = ses1->settings();
if (ses3) sess_set.allow_multiple_connections_per_ip = true;
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sess_set.ignore_limits_on_local_network = false;
sess_set.mixed_mode_algorithm = session_settings::prefer_tcp;
sess_set.max_failcount = 1;
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ses1->set_settings(sess_set);
ses2->set_settings(sess_set);
if (ses3) ses3->set_settings(sess_set);
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ses1->set_alert_mask(~(alert::progress_notification | alert::stats_notification));
ses2->set_alert_mask(~(alert::progress_notification | alert::stats_notification));
if (ses3) ses3->set_alert_mask(~(alert::progress_notification | alert::stats_notification));
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std::srand((unsigned int)time(0));
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peer_id pid;
std::generate(&pid[0], &pid[0] + 20, std::rand);
ses1->set_peer_id(pid);
std::generate(&pid[0], &pid[0] + 20, std::rand);
ses2->set_peer_id(pid);
assert(ses1->id() != ses2->id());
if (ses3)
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{
std::generate(&pid[0], &pid[0] + 20, std::rand);
ses3->set_peer_id(pid);
assert(ses3->id() != ses2->id());
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}
boost::intrusive_ptr<torrent_info> t;
if (torrent == 0)
{
error_code ec;
create_directory("tmp1" + suffix, ec);
std::ofstream file(combine_path("tmp1" + suffix, "temporary").c_str());
t = ::create_torrent(&file, piece_size, 19, true, encrypted_torrent);
file.close();
if (clear_files)
{
remove_all(combine_path("tmp2" + suffix, "temporary"), ec);
remove_all(combine_path("tmp3" + suffix, "temporary"), ec);
}
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char ih_hex[41];
to_hex((char const*)&t->info_hash()[0], 20, ih_hex);
fprintf(stderr, "generated torrent: %s tmp1%s/temporary\n", ih_hex, suffix.c_str());
}
else
{
t = *torrent;
}
// they should not use the same save dir, because the
// file pool will complain if two torrents are trying to
// use the same files
add_torrent_params param;
param.flags &= ~add_torrent_params::flag_paused;
param.flags &= ~add_torrent_params::flag_auto_managed;
if (p) param = *p;
param.ti = clone_ptr(t);
param.save_path = "tmp1" + suffix;
param.flags |= add_torrent_params::flag_seed_mode;
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error_code ec;
torrent_handle tor1 = ses1->add_torrent(param, ec);
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tor1.super_seeding(super_seeding);
// the downloader cannot use seed_mode
param.flags &= ~add_torrent_params::flag_seed_mode;
TEST_CHECK(!ses1->get_torrents().empty());
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torrent_handle tor2;
torrent_handle tor3;
if (ses3)
{
param.ti = clone_ptr(t);
param.save_path = "tmp3" + suffix;
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tor3 = ses3->add_torrent(param, ec);
TEST_CHECK(!ses3->get_torrents().empty());
}
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if (use_metadata_transfer)
{
param.ti = 0;
param.info_hash = t->info_hash();
}
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else
{
param.ti = clone_ptr(t);
}
param.save_path = "tmp2" + suffix;
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tor2 = ses2->add_torrent(param, ec);
TEST_CHECK(!ses2->get_torrents().empty());
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assert(ses1->get_torrents().size() == 1);
assert(ses2->get_torrents().size() == 1);
// test_sleep(100);
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if (connect_peers)
{
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fprintf(stderr, "connecting peer\n");
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error_code ec;
tor1.connect_peer(tcp::endpoint(address::from_string("127.0.0.1", ec)
, ses2->listen_port()));
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if (ses3)
{
// give the other peers some time to get an initial
// set of pieces before they start sharing with each-other
tor3.connect_peer(tcp::endpoint(
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address::from_string("127.0.0.1", ec)
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, ses2->listen_port()));
tor3.connect_peer(tcp::endpoint(
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address::from_string("127.0.0.1", ec)
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, ses1->listen_port()));
}
}
return boost::make_tuple(tor1, tor2, tor3);
}
boost::asio::io_service* tracker_ios = 0;
boost::shared_ptr<libtorrent::thread> tracker_server;
libtorrent::mutex tracker_lock;
libtorrent::event tracker_initialized;
bool udp_failed = false;
void stop_tracker()
{
if (tracker_server && tracker_ios)
{
tracker_ios->stop();
tracker_server->join();
tracker_server.reset();
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delete tracker_ios;
tracker_ios = 0;
}
}
void udp_tracker_thread(int* port);
int start_tracker()
{
stop_tracker();
{
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libtorrent::mutex::scoped_lock l(tracker_lock);
tracker_initialized.clear(l);
}
int port = 0;
tracker_server.reset(new libtorrent::thread(boost::bind(&udp_tracker_thread, &port)));
{
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libtorrent::mutex::scoped_lock l(tracker_lock);
tracker_initialized.wait(l);
}
// test_sleep(100);
return port;
}
int g_udp_tracker_requests = 0;
int g_http_tracker_requests = 0;
void on_udp_receive(error_code const& ec, size_t bytes_transferred, udp::endpoint const* from, char* buffer, udp::socket* sock)
{
if (ec)
{
fprintf(stderr, "UDP tracker, read failed: %s\n", ec.message().c_str());
return;
}
udp_failed = false;
if (bytes_transferred < 16)
{
fprintf(stderr, "UDP message too short\n");
return;
}
char* ptr = buffer;
detail::read_uint64(ptr);
boost::uint32_t action = detail::read_uint32(ptr);
boost::uint32_t transaction_id = detail::read_uint32(ptr);
error_code e;
switch (action)
{
case 0: // connect
ptr = buffer;
detail::write_uint32(0, ptr); // action = connect
detail::write_uint32(transaction_id, ptr); // transaction_id
detail::write_uint64(10, ptr); // connection_id
sock->send_to(asio::buffer(buffer, 16), *from, 0, e);
break;
case 1: // announce
ptr = buffer;
detail::write_uint32(1, ptr); // action = announce
detail::write_uint32(transaction_id, ptr); // transaction_id
detail::write_uint32(1800, ptr); // interval
detail::write_uint32(1, ptr); // incomplete
detail::write_uint32(1, ptr); // complete
++g_udp_tracker_requests;
// 0 peers
sock->send_to(asio::buffer(buffer, 20), *from, 0, e);
break;
default: // ignore scrapes
break;
}
}
void udp_tracker_thread(int* port)
{
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tracker_ios = new io_service;
udp::socket acceptor(*tracker_ios);
error_code ec;
acceptor.open(udp::v4(), ec);
if (ec)
{
fprintf(stderr, "Error opening listen UDP socket: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(tracker_lock);
tracker_initialized.signal(l);
return;
}
acceptor.bind(udp::endpoint(address_v4::any(), 0), ec);
if (ec)
{
fprintf(stderr, "Error binding UDP socket to port 0: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(tracker_lock);
tracker_initialized.signal(l);
return;
}
*port = acceptor.local_endpoint().port();
fprintf(stderr, "UDP tracker initialized on port %d\n", *port);
{
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libtorrent::mutex::scoped_lock l(tracker_lock);
tracker_initialized.signal(l);
}
char buffer[2000];
for (;;)
{
error_code ec;
udp::endpoint from;
udp_failed = true;
acceptor.async_receive_from(
asio::buffer(buffer, sizeof(buffer)), from, boost::bind(
&on_udp_receive, _1, _2, &from, &buffer[0], &acceptor));
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tracker_ios->run_one(ec);
if (udp_failed) return;
if (ec)
{
fprintf(stderr, "Error receiving on UDP socket: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(tracker_lock);
tracker_initialized.signal(l);
return;
}
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tracker_ios->reset();
}
}
boost::asio::io_service* web_ios = 0;
boost::shared_ptr<libtorrent::thread> web_server;
libtorrent::mutex web_lock;
libtorrent::event web_initialized;
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bool stop_thread = false;
static void terminate_web_thread()
{
stop_thread = true;
web_ios->stop();
web_ios = 0;
}
void stop_web_server()
{
if (web_server && web_ios)
{
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fprintf(stderr, "stopping web server thread\n");
web_ios->post(&terminate_web_thread);
web_server->join();
web_server.reset();
}
}
void web_server_thread(int* port, bool ssl, bool chunked);
int start_web_server(bool ssl, bool chunked_encoding)
{
stop_web_server();
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stop_thread = false;
{
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.clear(l);
}
if (ssl)
{
system("echo . > tmp");
system("echo test province >>tmp");
system("echo test city >> tmp");
system("echo test company >> tmp");
system("echo test department >> tmp");
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system("echo 127.0.0.1 >> tmp");
system("echo test@test.com >> tmp");
system("openssl req -new -x509 -keyout server.pem -out server.pem "
"-days 365 -nodes <tmp");
}
int port = 0;
web_server.reset(new libtorrent::thread(boost::bind(
&web_server_thread, &port, ssl, chunked_encoding)));
{
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.wait(l);
}
// create this directory so that the path
// "relative/../test_file" can resolve
error_code ec;
create_directory("relative", ec);
// test_sleep(100);
return port;
}
void send_response(socket_type& s, error_code& ec
, int code, char const* status_message, char const** extra_header
, int len)
{
char msg[600];
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int pkt_len = snprintf(msg, sizeof(msg), "HTTP/1.1 %d %s\r\n"
"content-length: %d\r\n"
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"%s"
"%s"
"%s"
"%s"
"\r\n"
, code, status_message, len
, extra_header[0]
, extra_header[1]
, extra_header[2]
, extra_header[3]);
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DLOG(stderr, ">> %s\n", msg);
write(s, boost::asio::buffer(msg, pkt_len), boost::asio::transfer_all(), ec);
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if (ec) fprintf(stderr, "*** send failed: %s\n", ec.message().c_str());
}
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void on_accept(error_code& accept_ec, error_code const& ec, bool* done)
{
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accept_ec = ec;
*done = true;
}
void send_content(socket_type& s, char const* file, int size, bool chunked)
{
error_code ec;
if (chunked)
{
int chunk_size = 13;
char head[20];
std::vector<boost::asio::const_buffer> bufs(3);
bufs[2] = asio::const_buffer("\r\n", 2);
while (chunk_size > 0)
{
chunk_size = std::min(chunk_size, size);
int len = snprintf(head, sizeof(head), "%x\r\n", chunk_size);
bufs[0] = asio::const_buffer(head, len);
if (chunk_size == 0)
{
// terminate
bufs.erase(bufs.begin()+1);
}
else
{
bufs[1] = asio::const_buffer(file, chunk_size);
}
write(s, bufs, boost::asio::transfer_all(), ec);
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if (ec) fprintf(stderr, "*** send failed: %s\n", ec.message().c_str());
size -= chunk_size;
file += chunk_size;
chunk_size *= 2;
}
}
else
{
write(s, boost::asio::buffer(file, size), boost::asio::transfer_all(), ec);
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if (ec) fprintf(stderr, "*** send failed: %s\n", ec.message().c_str());
}
}
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void on_read(error_code const& ec, size_t bytes_transferred, size_t* bt, error_code* e, bool* done)
{
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DLOG(stderr, "on_read %d [ ec: %s ]\n", int(bytes_transferred), ec.message().c_str());
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*bt = bytes_transferred;
*e = ec;
*done = true;
}
void on_read_timeout(error_code const& ec, bool* timed_out)
{
if (ec) return;
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fprintf(stderr, "read timed out\n");
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*timed_out = true;
}
void web_server_thread(int* port, bool ssl, bool chunked)
{
io_service ios;
socket_acceptor acceptor(ios);
error_code ec;
acceptor.open(tcp::v4(), ec);
if (ec)
{
fprintf(stderr, "Error opening listen socket: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.signal(l);
return;
}
acceptor.set_option(socket_acceptor::reuse_address(true), ec);
if (ec)
{
fprintf(stderr, "Error setting listen socket to reuse addr: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.signal(l);
return;
}
acceptor.bind(tcp::endpoint(address_v4::any(), 0), ec);
if (ec)
{
fprintf(stderr, "Error binding listen socket to port 0: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.signal(l);
return;
}
*port = acceptor.local_endpoint().port();
acceptor.listen(10, ec);
if (ec)
{
fprintf(stderr, "Error listening on socket: %s\n", ec.message().c_str());
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.signal(l);
return;
}
web_ios = &ios;
fprintf(stderr, "web server initialized on port %d\n", *port);
{
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libtorrent::mutex::scoped_lock l(web_lock);
web_initialized.signal(l);
}
char buf[10000];
int len = 0;
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int offset = 0;
bool connection_close = false;
socket_type s(ios);
void* ctx = 0;
#ifdef TORRENT_USE_OPENSSL
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boost::asio::ssl::context ssl_ctx(ios, boost::asio::ssl::context::sslv23_server);
ssl_ctx.use_certificate_chain_file("server.pem");
ssl_ctx.use_private_key_file("server.pem", asio::ssl::context::pem);
ssl_ctx.set_verify_mode(boost::asio::ssl::context::verify_none);
if (ssl) ctx = &ssl_ctx;
#endif
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proxy_settings p;
instantiate_connection(ios, p, s, ctx);
for (;;)
{
if (connection_close)
{
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error_code ec;
#ifdef TORRENT_USE_OPENSSL
if (ssl)
{
DLOG(stderr, "shutting down SSL connection\n");
s.get<ssl_stream<stream_socket> >()->shutdown(ec);
if (ec) fprintf(stderr, "SSL shutdown failed: %s\n", ec.message().c_str());
ec.clear();
}
#endif
DLOG(stderr, "closing connection\n");
s.close(ec);
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if (ec) fprintf(stderr, "close failed: %s\n", ec.message().c_str());
connection_close = false;
}
if (!s.is_open())
{
len = 0;
offset = 0;
error_code ec;
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instantiate_connection(ios, p, s, ctx);
stream_socket* sock;
#ifdef TORRENT_USE_OPENSSL
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if (ssl) sock = &s.get<ssl_stream<stream_socket> >()->next_layer();
else
#endif
sock = s.get<stream_socket>();
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bool accept_done = false;
DLOG(stderr, "waiting for incoming connection\n");
acceptor.async_accept(*sock, boost::bind(&on_accept, boost::ref(ec), _1, &accept_done));
while (!accept_done)
{
error_code e;
ios.reset();
if (stop_thread || ios.run_one(e) == 0)
{
fprintf(stderr, "io_service stopped: %s\n", e.message().c_str());
break;
}
}
if (stop_thread) break;
if (ec)
{
fprintf(stderr, "accept failed: %s\n", ec.message().c_str());
return;
}
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DLOG(stderr, "accepting incoming connection\n");
if (!s.is_open())
{
fprintf(stderr, "incoming connection closed\n");
continue;
}
#ifdef TORRENT_USE_OPENSSL
if (ssl)
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{
DLOG(stderr, "SSL handshake\n");
s.get<ssl_stream<stream_socket> >()->accept_handshake(ec);
if (ec)
{
fprintf(stderr, "SSL handshake failed: %s\n", ec.message().c_str());
connection_close = true;
continue;
}
}
#endif
}
http_parser p;
bool failed = false;
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do
{
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p.reset();
bool error = false;
p.incoming(buffer::const_interval(buf + offset, buf + len), error);
char const* extra_header[4] = {"","","",""};
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TEST_CHECK(error == false);
if (error)
{
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fprintf(stderr, "parse failed\n");
failed = true;
break;
}
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while (!p.finished())
{
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TORRENT_ASSERT(len < int(sizeof(buf)));
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size_t received = 0;
bool done = false;
bool timed_out = false;
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DLOG(stderr, "async_read_some %d bytes [ len: %d ]\n", int(sizeof(buf) - len), len);
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s.async_read_some(boost::asio::buffer(&buf[len]
, sizeof(buf) - len), boost::bind(&on_read, _1, _2, &received, &ec, &done));
deadline_timer timer(ios);
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timer.expires_at(time_now_hires() + seconds(2));
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timer.async_wait(boost::bind(&on_read_timeout, _1, &timed_out));
while (!done && !timed_out)
{
error_code e;
ios.reset();
if (stop_thread || ios.run_one(e) == 0)
{
fprintf(stderr, "io_service stopped: %s\n", e.message().c_str());
break;
}
}
if (timed_out)
{
fprintf(stderr, "read timed out, closing connection\n");
failed = true;
break;
}
// fprintf(stderr, "read: %d\n", int(received));
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if (ec || received <= 0)
{
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fprintf(stderr, "read failed: \"%s\" (%s) received: %d\n"
, ec.message().c_str(), ec.category().name(), int(received));
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failed = true;
break;
}
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timer.cancel(ec);
if (ec)
fprintf(stderr, "timer.cancel failed: %s\n", ec.message().c_str());
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len += received;
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p.incoming(buffer::const_interval(buf + offset, buf + len), error);
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TEST_CHECK(error == false);
if (error)
{
fprintf(stderr, "parse failed\n");
failed = true;
break;
}
}
std::string connection = p.header("connection");
std::string via = p.header("via");
// The delegate proxy doesn't say connection close, but it expects it to be closed
// the Via: header is an indicator of delegate making the request
if (connection == "close" || !via.empty())
{
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DLOG(stderr, "*** got connection close\n");
connection_close = true;
}
if (p.protocol() == "HTTP/1.0")
{
DLOG(stderr, "*** HTTP/1.0, closing connection when done\n");
connection_close = true;
}
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DLOG(stderr, "%s", std::string(buf + offset, p.body_start()).c_str());
if (failed)
{
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fprintf(stderr, "*** connection failed\n");
connection_close = true;
break;
}
offset += int(p.body_start() + p.content_length());
// fprintf(stderr, "offset: %d len: %d\n", offset, len);
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if (p.method() != "get" && p.method() != "post")
{
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fprintf(stderr, "*** incorrect method: %s\n", p.method().c_str());
connection_close = true;
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break;
}
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std::string path = p.path();
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fprintf(stderr, "%s\n", path.c_str());
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if (path == "/redirect")
{
extra_header[0] = "Location: /test_file\r\n";
send_response(s, ec, 301, "Moved Permanently", extra_header, 0);
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break;
}
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if (path == "/infinite_redirect")
{
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extra_header[0] = "Location: /infinite_redirect\r\n";
send_response(s, ec, 301, "Moved Permanently", extra_header, 0);
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break;
}
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if (path == "/relative/redirect")
{
extra_header[0] = "Location: ../test_file\r\n";
send_response(s, ec, 301, "Moved Permanently", extra_header, 0);
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break;
}
if (path.substr(0, 9) == "/announce")
{
fprintf(stderr, "%s\n", path.c_str());
entry announce;
announce["interval"] = 1800;
announce["complete"] = 1;
announce["incomplete"] = 1;
announce["peers"].string();
std::vector<char> buf;
bencode(std::back_inserter(buf), announce);
++g_http_tracker_requests;
send_response(s, ec, 200, "OK", extra_header, buf.size());
write(s, boost::asio::buffer(&buf[0], buf.size()), boost::asio::transfer_all(), ec);
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if (ec)
fprintf(stderr, "*** send failed: %s\n", ec.message().c_str());
}
if (path.substr(0, 6) == "/seed?")
{
char const* piece = strstr(path.c_str(), "&piece=");
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if (piece == 0) piece = strstr(path.c_str(), "?piece=");
if (piece == 0)
{
fprintf(stderr, "invalid web seed request: %s\n", path.c_str());
break;
}
boost::uint64_t idx = atoi(piece + 7);
char const* range = strstr(path.c_str(), "&ranges=");
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if (range == 0) range = strstr(path.c_str(), "?ranges=");
int range_end = 0;
int range_start = 0;
if (range)
{
range_start = atoi(range + 8);
range = strchr(range, '-');
if (range == 0)
{
fprintf(stderr, "invalid web seed request: %s\n", path.c_str());
break;
}
range_end = atoi(range + 1);
}
else
{
range_start = 0;
// assume piece size of 64kiB
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range_end = 64*1024+1;
}
int size = range_end - range_start + 1;
boost::uint64_t off = idx * 64 * 1024 + range_start;
std::vector<char> file_buf;
error_code ec;
int res = load_file(combine_path("tmp1_web_seed", "seed"), file_buf, ec);
if (res == -1 || file_buf.empty())
{
send_response(s, ec, 404, "Not Found", extra_header, 0);
continue;
}
send_response(s, ec, 200, "OK", extra_header, size);
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DLOG(stderr, "sending %d bytes of payload [%d, %d) piece: %d\n"
, size, int(off), int(off + size), int(idx));
write(s, boost::asio::buffer(&file_buf[0] + off, size)
, boost::asio::transfer_all(), ec);
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if (ec)
fprintf(stderr, "*** send failed: %s\n", ec.message().c_str());
else
{
DLOG(stderr, "*** done\n");
}
memmove(buf, buf + offset, len - offset);
len -= offset;
offset = 0;
continue;
}
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// fprintf(stderr, ">> serving file %s\n", path.c_str());
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std::vector<char> file_buf;
// remove the / from the path
path = path.substr(1);
error_code ec;
int res = load_file(path, file_buf, ec);
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if (res == -1)
{
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fprintf(stderr, ">> file not found: %s\n", path.c_str());
send_response(s, ec, 404, "Not Found", extra_header, 0);
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continue;
}
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if (res != 0)
{
// this means the file was either too big or couldn't be read
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fprintf(stderr, ">> file too big: %s\n", path.c_str());
send_response(s, ec, 503, "Internal Error", extra_header, 0);
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continue;
}
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// serve file
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if (extension(path) == ".gz")
{
extra_header[0] = "Content-Encoding: gzip\r\n";
}
if (chunked)
{
extra_header[2] = "Transfer-Encoding: chunked\r\n";
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}
if (!p.header("range").empty())
{
std::string range = p.header("range");
int start, end;
sscanf(range.c_str(), "bytes=%d-%d", &start, &end);
char eh[400];
snprintf(eh, sizeof(eh), "Content-Range: bytes %d-%d\r\n", start, end);
extra_header[1] = eh;
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if (end - start + 1 >= 1000)
{
fprintf(stderr, "request size: %.2f kB\n", int(end - start + 1)/1000.f);
}
else
{
fprintf(stderr, "request size: %d Bytes\n", int(end - start + 1));
}
send_response(s, ec, 206, "Partial", extra_header, end - start + 1);
if (!file_buf.empty())
{
send_content(s, &file_buf[0] + start, end - start + 1, chunked);
}
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DLOG(stderr, "send %d bytes of payload\n", end - start + 1);
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}
else
{
send_response(s, ec, 200, "OK", extra_header, file_buf.size());
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if (!file_buf.empty())
send_content(s, &file_buf[0], file_buf.size(), chunked);
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}
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DLOG(stderr, "%d bytes left in receive buffer. offset: %d\n", len - offset, offset);
memmove(buf, buf + offset, len - offset);
len -= offset;
offset = 0;
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} while (offset < len);
}
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web_ios = 0;
fprintf(stderr, "exiting web server thread\n");
}