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minetest/src/clientmedia.cpp

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Rewrite client media download and support hash-based remote download Move most of the media-related code in client.cpp into a new class ClientMediaDownloader (clientmedia.cpp, clientmedia.h). Among other things, this class does the following things: - Download [remote_server][sha1] instead of [remote_server][name]. This is to support servers that provide the same file name with different contents. - Initially fetch [remote_server]index.mth. This file should follow the Minetest Hashset format (currently version 1) and contain a list of SHA1 hashes that exist on the server. - The list of needed SHA1s is uploaded (via HTTP POST) when index.mth is requested, so servers can optionally narrow down the list to the needs of the client. - If index.mth is missing (HTTP response code 404), we enter compat mode, fetching [remote_server][name] as before this commit. - remote_server can now contain multiple servers, separated by commas. The downloader code attempts to split requests between the different servers, as permitted by each server's index.mth. If one server claims to have a file but actually doesn't (or something fails), we ask a different server that also claims to have it. - As before, when none of the remote servers provide a particular file, we download it via the conventional method, i.e. using the minetest protocol: TOSERVER_REQUEST_MEDIA / TOCLIENT_MEDIA. - Bugfix: Every downloaded file's SHA1 is now verified against the SHA1 announced by the minetest server (before loading it and inserting it into the file cache). - Bugfix: Only send TOSERVER_RECEIVED_MEDIA when we actually have all media. This should fix #863.
2013-08-28 23:22:18 -04:00
/*
Minetest
Copyright (C) 2013 celeron55, Perttu Ahola <celeron55@gmail.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "clientmedia.h"
#include "httpfetch.h"
#include "client.h"
#include "clientserver.h"
#include "filecache.h"
#include "hex.h"
#include "sha1.h"
#include "debug.h"
#include "log.h"
#include "porting.h"
#include "settings.h"
#include "main.h"
#include "util/serialize.h"
#include "util/string.h"
static std::string getMediaCacheDir()
{
return porting::path_user + DIR_DELIM + "cache" + DIR_DELIM + "media";
}
/*
ClientMediaDownloader
*/
ClientMediaDownloader::ClientMediaDownloader():
m_media_cache(getMediaCacheDir())
{
m_initial_step_done = false;
m_name_bound = ""; // works because "" is an invalid file name
m_uncached_count = 0;
m_uncached_received_count = 0;
m_httpfetch_caller = HTTPFETCH_DISCARD;
m_httpfetch_active = 0;
m_httpfetch_active_limit = 0;
m_httpfetch_next_id = 0;
m_httpfetch_timeout = 0;
m_outstanding_hash_sets = 0;
}
ClientMediaDownloader::~ClientMediaDownloader()
{
if (m_httpfetch_caller != HTTPFETCH_DISCARD)
httpfetch_caller_free(m_httpfetch_caller);
for (std::map<std::string, FileStatus*>::iterator it = m_files.begin();
it != m_files.end(); ++it)
delete it->second;
for (u32 i = 0; i < m_remotes.size(); ++i)
delete m_remotes[i];
}
void ClientMediaDownloader::addFile(std::string name, std::string sha1)
{
assert(!m_initial_step_done);
// if name was already announced, ignore the new announcement
if (m_files.count(name) != 0) {
errorstream << "Client: ignoring duplicate media announcement "
<< "sent by server: \"" << name << "\""
<< std::endl;
return;
}
// if name is empty or contains illegal characters, ignore the file
if (name.empty() || !string_allowed(name, TEXTURENAME_ALLOWED_CHARS)) {
errorstream << "Client: ignoring illegal file name "
<< "sent by server: \"" << name << "\""
<< std::endl;
return;
}
// length of sha1 must be exactly 20 (160 bits), else ignore the file
if (sha1.size() != 20) {
errorstream << "Client: ignoring illegal SHA1 sent by server: "
<< hex_encode(sha1) << " \"" << name << "\""
<< std::endl;
return;
}
FileStatus *filestatus = new FileStatus;
filestatus->received = false;
filestatus->sha1 = sha1;
filestatus->current_remote = -1;
m_files.insert(std::make_pair(name, filestatus));
}
void ClientMediaDownloader::addRemoteServer(std::string baseurl)
{
assert(!m_initial_step_done);
#ifdef USE_CURL
infostream << "Client: Adding remote server \""
<< baseurl << "\" for media download" << std::endl;
RemoteServerStatus *remote = new RemoteServerStatus;
remote->baseurl = baseurl;
remote->active_count = 0;
remote->request_by_filename = false;
m_remotes.push_back(remote);
#else
infostream << "Client: Ignoring remote server \""
<< baseurl << "\" because cURL support is not compiled in"
<< std::endl;
#endif
}
void ClientMediaDownloader::step(Client *client)
{
if (!m_initial_step_done) {
initialStep(client);
m_initial_step_done = true;
}
// Remote media: check for completion of fetches
if (m_httpfetch_active) {
bool fetched_something = false;
HTTPFetchResult fetchresult;
while (httpfetch_async_get(m_httpfetch_caller, fetchresult)) {
m_httpfetch_active--;
fetched_something = true;
// Is this a hashset (index.mth) or a media file?
if (fetchresult.request_id < m_remotes.size())
remoteHashSetReceived(fetchresult);
else
remoteMediaReceived(fetchresult, client);
}
if (fetched_something)
startRemoteMediaTransfers();
// Did all remote transfers end and no new ones can be started?
// If so, request still missing files from the minetest server
// (Or report that we have all files.)
if (m_httpfetch_active == 0) {
if (m_uncached_received_count < m_uncached_count) {
infostream << "Client: Failed to remote-fetch "
<< (m_uncached_count-m_uncached_received_count)
<< " files. Requesting them"
<< " the usual way." << std::endl;
}
startConventionalTransfers(client);
}
}
}
void ClientMediaDownloader::initialStep(Client *client)
{
// Check media cache
m_uncached_count = m_files.size();
for (std::map<std::string, FileStatus*>::iterator
it = m_files.begin();
it != m_files.end(); ++it) {
std::string name = it->first;
FileStatus *filestatus = it->second;
const std::string &sha1 = filestatus->sha1;
std::ostringstream tmp_os(std::ios_base::binary);
bool found_in_cache = m_media_cache.load(hex_encode(sha1), tmp_os);
// If found in cache, try to load it from there
if (found_in_cache) {
bool success = checkAndLoad(name, sha1,
tmp_os.str(), true, client);
if (success) {
filestatus->received = true;
m_uncached_count--;
}
}
}
assert(m_uncached_received_count == 0);
// Create the media cache dir if we are likely to write to it
if (m_uncached_count != 0) {
bool did = fs::CreateAllDirs(getMediaCacheDir());
if (!did) {
errorstream << "Client: "
<< "Could not create media cache directory: "
<< getMediaCacheDir()
<< std::endl;
}
}
// If we found all files in the cache, report this fact to the server.
// If the server reported no remote servers, immediately start
// conventional transfers. Note: if cURL support is not compiled in,
// m_remotes is always empty, so "!USE_CURL" is redundant but may
// reduce the size of the compiled code
if (!USE_CURL || m_uncached_count == 0 || m_remotes.empty()) {
startConventionalTransfers(client);
}
else {
// Otherwise start off by requesting each server's sha1 set
// This is the first time we use httpfetch, so alloc a caller ID
m_httpfetch_caller = httpfetch_caller_alloc();
m_httpfetch_timeout = g_settings->getS32("curl_timeout");
// Set the active fetch limit to curl_parallel_limit or 84,
// whichever is greater. This gives us some leeway so that
// inefficiencies in communicating with the httpfetch thread
// don't slow down fetches too much. (We still want some limit
// so that when the first remote server returns its hash set,
// not all files are requested from that server immediately.)
// One such inefficiency is that ClientMediaDownloader::step()
// is only called a couple times per second, while httpfetch
// might return responses much faster than that.
// Note that httpfetch strictly enforces curl_parallel_limit
// but at no inter-thread communication cost. This however
// doesn't help with the aforementioned inefficiencies.
// The signifance of 84 is that it is 2*6*9 in base 13.
m_httpfetch_active_limit = g_settings->getS32("curl_parallel_limit");
m_httpfetch_active_limit = MYMAX(m_httpfetch_active_limit, 84);
// Write a list of hashes that we need. This will be POSTed
// to the server using Content-Type: application/octet-stream
std::string required_hash_set = serializeRequiredHashSet();
// minor fixme: this loop ignores m_httpfetch_active_limit
// another minor fixme, unlikely to matter in normal usage:
// these index.mth fetches do (however) count against
// m_httpfetch_active_limit when starting actual media file
// requests, so if there are lots of remote servers that are
// not responding, those will stall new media file transfers.
for (u32 i = 0; i < m_remotes.size(); ++i) {
assert(m_httpfetch_next_id == i);
RemoteServerStatus *remote = m_remotes[i];
actionstream << "Client: Contacting remote server \""
<< remote->baseurl << "\"" << std::endl;
HTTPFetchRequest fetchrequest;
fetchrequest.url =
remote->baseurl + MTHASHSET_FILE_NAME;
fetchrequest.caller = m_httpfetch_caller;
fetchrequest.request_id = m_httpfetch_next_id; // == i
fetchrequest.timeout = m_httpfetch_timeout;
fetchrequest.connect_timeout = m_httpfetch_timeout;
fetchrequest.post_fields = required_hash_set;
fetchrequest.extra_headers.push_back(
"Content-Type: application/octet-stream");
httpfetch_async(fetchrequest);
m_httpfetch_active++;
m_httpfetch_next_id++;
m_outstanding_hash_sets++;
}
}
}
void ClientMediaDownloader::remoteHashSetReceived(
const HTTPFetchResult &fetchresult)
{
u32 remote_id = fetchresult.request_id;
assert(remote_id < m_remotes.size());
RemoteServerStatus *remote = m_remotes[remote_id];
m_outstanding_hash_sets--;
if (fetchresult.succeeded) {
try {
// Server sent a list of file hashes that are
// available on it, try to parse the list
std::set<std::string> sha1_set;
deSerializeHashSet(fetchresult.data, sha1_set);
// Parsing succeeded: For every file that is
// available on this server, add this server
// to the available_remotes array
for(std::map<std::string, FileStatus*>::iterator
it = m_files.upper_bound(m_name_bound);
it != m_files.end(); ++it) {
FileStatus *f = it->second;
if (!f->received && sha1_set.count(f->sha1))
f->available_remotes.push_back(remote_id);
}
}
catch (SerializationError &e) {
infostream << "Client: Remote server \""
<< remote->baseurl << "\" sent invalid hash set: "
<< e.what() << std::endl;
}
}
// For compatibility: If index.mth is not found, assume that the
// server contains files named like the original files (not their sha1)
if (!fetchresult.succeeded && !fetchresult.timeout &&
fetchresult.response_code == 404) {
infostream << "Client: Enabling compatibility mode for remote "
<< "server \"" << remote->baseurl << "\"" << std::endl;
remote->request_by_filename = true;
// Assume every file is available on this server
for(std::map<std::string, FileStatus*>::iterator
it = m_files.upper_bound(m_name_bound);
it != m_files.end(); ++it) {
FileStatus *f = it->second;
if (!f->received)
f->available_remotes.push_back(remote_id);
}
}
}
void ClientMediaDownloader::remoteMediaReceived(
const HTTPFetchResult &fetchresult,
Client *client)
{
// Some remote server sent us a file.
// -> decrement number of active fetches
// -> mark file as received if fetch succeeded
// -> try to load media
std::string name;
{
std::map<unsigned long, std::string>::iterator it =
m_remote_file_transfers.find(fetchresult.request_id);
assert(it != m_remote_file_transfers.end());
name = it->second;
m_remote_file_transfers.erase(it);
}
assert(m_files.count(name) != 0);
FileStatus *filestatus = m_files[name];
assert(!filestatus->received);
assert(filestatus->current_remote >= 0);
RemoteServerStatus *remote = m_remotes[filestatus->current_remote];
filestatus->current_remote = -1;
remote->active_count--;
// If fetch succeeded, try to load media file
if (fetchresult.succeeded) {
bool success = checkAndLoad(name, filestatus->sha1,
fetchresult.data, false, client);
if (success) {
filestatus->received = true;
assert(m_uncached_received_count < m_uncached_count);
m_uncached_received_count++;
}
}
}
s32 ClientMediaDownloader::selectRemoteServer(FileStatus *filestatus)
{
assert(filestatus != NULL);
assert(!filestatus->received);
assert(filestatus->current_remote < 0);
if (filestatus->available_remotes.empty())
return -1;
else {
// Of all servers that claim to provide the file (and haven't
// been unsuccessfully tried before), find the one with the
// smallest number of currently active transfers
s32 best = 0;
s32 best_remote_id = filestatus->available_remotes[best];
s32 best_active_count = m_remotes[best_remote_id]->active_count;
for (u32 i = 1; i < filestatus->available_remotes.size(); ++i) {
s32 remote_id = filestatus->available_remotes[i];
s32 active_count = m_remotes[remote_id]->active_count;
if (active_count < best_active_count) {
best = i;
best_remote_id = remote_id;
best_active_count = active_count;
}
}
filestatus->available_remotes.erase(
filestatus->available_remotes.begin() + best);
return best_remote_id;
}
}
void ClientMediaDownloader::startRemoteMediaTransfers()
{
bool changing_name_bound = true;
for (std::map<std::string, FileStatus*>::iterator
files_iter = m_files.upper_bound(m_name_bound);
files_iter != m_files.end(); ++files_iter) {
// Abort if active fetch limit is exceeded
if (m_httpfetch_active >= m_httpfetch_active_limit)
break;
const std::string &name = files_iter->first;
FileStatus *filestatus = files_iter->second;
if (!filestatus->received && filestatus->current_remote < 0) {
// File has not been received yet and is not currently
// being transferred. Choose a server for it.
s32 remote_id = selectRemoteServer(filestatus);
if (remote_id >= 0) {
// Found a server, so start fetching
RemoteServerStatus *remote =
m_remotes[remote_id];
std::string url = remote->baseurl +
(remote->request_by_filename ? name :
hex_encode(filestatus->sha1));
verbosestream << "Client: "
<< "Requesting remote media file "
<< "\"" << name << "\" "
<< "\"" << url << "\"" << std::endl;
HTTPFetchRequest fetchrequest;
fetchrequest.url = url;
fetchrequest.caller = m_httpfetch_caller;
fetchrequest.request_id = m_httpfetch_next_id;
fetchrequest.timeout = 0; // no data timeout!
fetchrequest.connect_timeout =
m_httpfetch_timeout;
httpfetch_async(fetchrequest);
m_remote_file_transfers.insert(std::make_pair(
m_httpfetch_next_id,
name));
filestatus->current_remote = remote_id;
remote->active_count++;
m_httpfetch_active++;
m_httpfetch_next_id++;
}
}
if (filestatus->received ||
(filestatus->current_remote < 0 &&
!m_outstanding_hash_sets)) {
// If we arrive here, we conclusively know that we
// won't fetch this file from a remote server in the
// future. So update the name bound if possible.
if (changing_name_bound)
m_name_bound = name;
}
else
changing_name_bound = false;
}
}
void ClientMediaDownloader::startConventionalTransfers(Client *client)
{
assert(m_httpfetch_active == 0);
if (m_uncached_received_count != m_uncached_count) {
Rewrite client media download and support hash-based remote download Move most of the media-related code in client.cpp into a new class ClientMediaDownloader (clientmedia.cpp, clientmedia.h). Among other things, this class does the following things: - Download [remote_server][sha1] instead of [remote_server][name]. This is to support servers that provide the same file name with different contents. - Initially fetch [remote_server]index.mth. This file should follow the Minetest Hashset format (currently version 1) and contain a list of SHA1 hashes that exist on the server. - The list of needed SHA1s is uploaded (via HTTP POST) when index.mth is requested, so servers can optionally narrow down the list to the needs of the client. - If index.mth is missing (HTTP response code 404), we enter compat mode, fetching [remote_server][name] as before this commit. - remote_server can now contain multiple servers, separated by commas. The downloader code attempts to split requests between the different servers, as permitted by each server's index.mth. If one server claims to have a file but actually doesn't (or something fails), we ask a different server that also claims to have it. - As before, when none of the remote servers provide a particular file, we download it via the conventional method, i.e. using the minetest protocol: TOSERVER_REQUEST_MEDIA / TOCLIENT_MEDIA. - Bugfix: Every downloaded file's SHA1 is now verified against the SHA1 announced by the minetest server (before loading it and inserting it into the file cache). - Bugfix: Only send TOSERVER_RECEIVED_MEDIA when we actually have all media. This should fix #863.
2013-08-28 23:22:18 -04:00
// Some media files have not been received yet, use the
// conventional slow method (minetest protocol) to get them
std::list<std::string> file_requests;
for (std::map<std::string, FileStatus*>::iterator
it = m_files.begin();
it != m_files.end(); ++it) {
if (!it->second->received)
file_requests.push_back(it->first);
}
assert((s32) file_requests.size() ==
m_uncached_count - m_uncached_received_count);
client->request_media(file_requests);
}
}
void ClientMediaDownloader::conventionalTransferDone(
const std::string &name,
const std::string &data,
Client *client)
{
// Check that file was announced
std::map<std::string, FileStatus*>::iterator
file_iter = m_files.find(name);
if (file_iter == m_files.end()) {
errorstream << "Client: server sent media file that was"
<< "not announced, ignoring it: \"" << name << "\""
<< std::endl;
return;
}
FileStatus *filestatus = file_iter->second;
assert(filestatus != NULL);
// Check that file hasn't already been received
if (filestatus->received) {
errorstream << "Client: server sent media file that we already"
<< "received, ignoring it: \"" << name << "\""
<< std::endl;
return;
}
// Mark file as received, regardless of whether loading it works and
// whether the checksum matches (because at this point there is no
// other server that could send a replacement)
filestatus->received = true;
assert(m_uncached_received_count < m_uncached_count);
m_uncached_received_count++;
// Check that received file matches announced checksum
// If so, load it
checkAndLoad(name, filestatus->sha1, data, false, client);
}
bool ClientMediaDownloader::checkAndLoad(
const std::string &name, const std::string &sha1,
const std::string &data, bool is_from_cache, Client *client)
{
const char *cached_or_received = is_from_cache ? "cached" : "received";
const char *cached_or_received_uc = is_from_cache ? "Cached" : "Received";
std::string sha1_hex = hex_encode(sha1);
// Compute actual checksum of data
std::string data_sha1;
{
SHA1 data_sha1_calculator;
data_sha1_calculator.addBytes(data.c_str(), data.size());
unsigned char *data_tmpdigest = data_sha1_calculator.getDigest();
data_sha1.assign((char*) data_tmpdigest, 20);
free(data_tmpdigest);
}
// Check that received file matches announced checksum
if (data_sha1 != sha1) {
std::string data_sha1_hex = hex_encode(data_sha1);
infostream << "Client: "
<< cached_or_received_uc << " media file "
<< sha1_hex << " \"" << name << "\" "
<< "mismatches actual checksum " << data_sha1_hex
<< std::endl;
return false;
}
// Checksum is ok, try loading the file
bool success = client->loadMedia(data, name);
if (!success) {
infostream << "Client: "
<< "Failed to load " << cached_or_received << " media: "
<< sha1_hex << " \"" << name << "\""
<< std::endl;
return false;
}
verbosestream << "Client: "
<< "Loaded " << cached_or_received << " media: "
<< sha1_hex << " \"" << name << "\""
<< std::endl;
// Update cache (unless we just loaded the file from the cache)
if (!is_from_cache)
m_media_cache.update(sha1_hex, data);
return true;
}
/*
Minetest Hashset File Format
All values are stored in big-endian byte order.
[u32] signature: 'MTHS'
[u16] version: 1
For each hash in set:
[u8*20] SHA1 hash
Version changes:
1 - Initial version
*/
std::string ClientMediaDownloader::serializeRequiredHashSet()
{
std::ostringstream os(std::ios::binary);
writeU32(os, MTHASHSET_FILE_SIGNATURE); // signature
writeU16(os, 1); // version
// Write list of hashes of files that have not been
// received (found in cache) yet
for (std::map<std::string, FileStatus*>::iterator
it = m_files.begin();
it != m_files.end(); ++it) {
if (!it->second->received) {
assert(it->second->sha1.size() == 20);
os << it->second->sha1;
}
}
return os.str();
}
void ClientMediaDownloader::deSerializeHashSet(const std::string &data,
std::set<std::string> &result)
{
if (data.size() < 6 || data.size() % 20 != 6) {
throw SerializationError(
"ClientMediaDownloader::deSerializeHashSet: "
"invalid hash set file size");
}
const u8 *data_cstr = (const u8*) data.c_str();
u32 signature = readU32(&data_cstr[0]);
if (signature != MTHASHSET_FILE_SIGNATURE) {
throw SerializationError(
"ClientMediaDownloader::deSerializeHashSet: "
"invalid hash set file signature");
}
u16 version = readU16(&data_cstr[4]);
if (version != 1) {
throw SerializationError(
"ClientMediaDownloader::deSerializeHashSet: "
"unsupported hash set file version");
}
for (u32 pos = 6; pos < data.size(); pos += 20) {
result.insert(data.substr(pos, 20));
}
}