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|
/**
* @file llcachename.cpp
* @brief A hierarchical cache of first and last names queried based on UUID.
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library 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;
* version 2.1 of the License only.
*
* This library 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 library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llcachename.h"
// linden library includes
#include "lldbstrings.h"
#include "llframetimer.h"
#include "llhost.h"
#include "llrand.h"
#include "llsdserialize.h"
#include "lluuid.h"
#include "message.h"
#include "llmemtype.h"
#include <boost/regex.hpp>
// llsd serialization constants
static const std::string AGENTS("agents");
static const std::string GROUPS("groups");
static const std::string CTIME("ctime");
static const std::string FIRST("first");
static const std::string LAST("last");
static const std::string NAME("name");
// We track name requests in flight for up to this long.
// We won't re-request a name during this time
const U32 PENDING_TIMEOUT_SECS = 5 * 60;
// File version number
const S32 CN_FILE_VERSION = 2;
// Globals
LLCacheName* gCacheName = NULL;
std::map<std::string, std::string> LLCacheName::sCacheName;
/// ---------------------------------------------------------------------------
/// class LLCacheNameEntry
/// ---------------------------------------------------------------------------
class LLCacheNameEntry
{
public:
LLCacheNameEntry();
public:
bool mIsGroup;
U32 mCreateTime; // unix time_t
// IDEVO TODO collapse names to one field, which will eliminate
// many string compares on "Resident"
std::string mFirstName;
std::string mLastName;
std::string mGroupName;
};
LLCacheNameEntry::LLCacheNameEntry()
: mIsGroup(false),
mCreateTime(0)
{
}
class PendingReply
{
public:
LLUUID mID;
LLCacheNameSignal mSignal;
LLHost mHost;
PendingReply(const LLUUID& id, const LLHost& host)
: mID(id), mHost(host)
{
}
boost::signals2::connection setCallback(const LLCacheNameCallback& cb)
{
return mSignal.connect(cb);
}
void done() { mID.setNull(); }
bool isDone() const { return mID.isNull() != FALSE; }
};
class ReplySender
{
public:
ReplySender(LLMessageSystem* msg);
~ReplySender();
void send(const LLUUID& id,
const LLCacheNameEntry& entry, const LLHost& host);
private:
void flush();
LLMessageSystem* mMsg;
bool mPending;
bool mCurrIsGroup;
LLHost mCurrHost;
};
ReplySender::ReplySender(LLMessageSystem* msg)
: mMsg(msg), mPending(false), mCurrIsGroup(false)
{ }
ReplySender::~ReplySender()
{
flush();
}
void ReplySender::send(const LLUUID& id,
const LLCacheNameEntry& entry, const LLHost& host)
{
if (mPending)
{
if (mCurrIsGroup != entry.mIsGroup
|| mCurrHost != host)
{
flush();
}
}
if (!mPending)
{
mPending = true;
mCurrIsGroup = entry.mIsGroup;
mCurrHost = host;
if(mCurrIsGroup)
mMsg->newMessageFast(_PREHASH_UUIDGroupNameReply);
else
mMsg->newMessageFast(_PREHASH_UUIDNameReply);
}
mMsg->nextBlockFast(_PREHASH_UUIDNameBlock);
mMsg->addUUIDFast(_PREHASH_ID, id);
if(mCurrIsGroup)
{
mMsg->addStringFast(_PREHASH_GroupName, entry.mGroupName);
}
else
{
mMsg->addStringFast(_PREHASH_FirstName, entry.mFirstName);
mMsg->addStringFast(_PREHASH_LastName, entry.mLastName);
}
if(mMsg->isSendFullFast(_PREHASH_UUIDNameBlock))
{
flush();
}
}
void ReplySender::flush()
{
if (mPending)
{
mMsg->sendReliable(mCurrHost);
mPending = false;
}
}
typedef std::set<LLUUID> AskQueue;
typedef std::list<PendingReply*> ReplyQueue;
typedef std::map<LLUUID,U32> PendingQueue;
typedef std::map<LLUUID, LLCacheNameEntry*> Cache;
typedef std::map<std::string, LLUUID> ReverseCache;
class LLCacheName::Impl
{
public:
LLMessageSystem* mMsg;
LLHost mUpstreamHost;
Cache mCache;
// the map of UUIDs to names
ReverseCache mReverseCache;
// map of names to UUIDs
AskQueue mAskNameQueue;
AskQueue mAskGroupQueue;
// UUIDs to ask our upstream host about
PendingQueue mPendingQueue;
// UUIDs that have been requested but are not in cache yet.
ReplyQueue mReplyQueue;
// requests awaiting replies from us
LLCacheNameSignal mSignal;
LLFrameTimer mProcessTimer;
Impl(LLMessageSystem* msg);
~Impl();
BOOL getName(const LLUUID& id, std::string& first, std::string& last);
boost::signals2::connection addPending(const LLUUID& id, const LLCacheNameCallback& callback);
void addPending(const LLUUID& id, const LLHost& host);
void processPendingAsks();
void processPendingReplies();
void sendRequest(const char* msg_name, const AskQueue& queue);
bool isRequestPending(const LLUUID& id);
// Message system callbacks.
void processUUIDRequest(LLMessageSystem* msg, bool isGroup);
void processUUIDReply(LLMessageSystem* msg, bool isGroup);
static void handleUUIDNameRequest(LLMessageSystem* msg, void** userdata);
static void handleUUIDNameReply(LLMessageSystem* msg, void** userdata);
static void handleUUIDGroupNameRequest(LLMessageSystem* msg, void** userdata);
static void handleUUIDGroupNameReply(LLMessageSystem* msg, void** userdata);
};
/// --------------------------------------------------------------------------
/// class LLCacheName
/// ---------------------------------------------------------------------------
LLCacheName::LLCacheName(LLMessageSystem* msg)
: impl(* new Impl(msg))
{ }
LLCacheName::LLCacheName(LLMessageSystem* msg, const LLHost& upstream_host)
: impl(* new Impl(msg))
{
sCacheName["waiting"] = "(Loading...)";
sCacheName["nobody"] = "(nobody)";
sCacheName["none"] = "(none)";
setUpstream(upstream_host);
}
LLCacheName::~LLCacheName()
{
delete &impl;
}
LLCacheName::Impl::Impl(LLMessageSystem* msg)
: mMsg(msg), mUpstreamHost(LLHost::invalid)
{
mMsg->setHandlerFuncFast(
_PREHASH_UUIDNameRequest, handleUUIDNameRequest, (void**)this);
mMsg->setHandlerFuncFast(
_PREHASH_UUIDNameReply, handleUUIDNameReply, (void**)this);
mMsg->setHandlerFuncFast(
_PREHASH_UUIDGroupNameRequest, handleUUIDGroupNameRequest, (void**)this);
mMsg->setHandlerFuncFast(
_PREHASH_UUIDGroupNameReply, handleUUIDGroupNameReply, (void**)this);
}
LLCacheName::Impl::~Impl()
{
for_each(mCache.begin(), mCache.end(), DeletePairedPointer());
for_each(mReplyQueue.begin(), mReplyQueue.end(), DeletePointer());
}
boost::signals2::connection LLCacheName::Impl::addPending(const LLUUID& id, const LLCacheNameCallback& callback)
{
PendingReply* reply = new PendingReply(id, LLHost());
boost::signals2::connection res = reply->setCallback(callback);
mReplyQueue.push_back(reply);
return res;
}
void LLCacheName::Impl::addPending(const LLUUID& id, const LLHost& host)
{
PendingReply* reply = new PendingReply(id, host);
mReplyQueue.push_back(reply);
}
void LLCacheName::setUpstream(const LLHost& upstream_host)
{
impl.mUpstreamHost = upstream_host;
}
boost::signals2::connection LLCacheName::addObserver(const LLCacheNameCallback& callback)
{
return impl.mSignal.connect(callback);
}
bool LLCacheName::importFile(std::istream& istr)
{
LLSD data;
if(LLSDSerialize::fromXMLDocument(data, istr) < 1)
return false;
// We'll expire entries more than a week old
U32 now = (U32)time(NULL);
const U32 SECS_PER_DAY = 60 * 60 * 24;
U32 delete_before_time = now - (7 * SECS_PER_DAY);
// iterate over the agents
S32 count = 0;
LLSD agents = data[AGENTS];
LLSD::map_iterator iter = agents.beginMap();
LLSD::map_iterator end = agents.endMap();
for( ; iter != end; ++iter)
{
LLUUID id((*iter).first);
LLSD agent = (*iter).second;
U32 ctime = (U32)agent[CTIME].asInteger();
if(ctime < delete_before_time) continue;
LLCacheNameEntry* entry = new LLCacheNameEntry();
entry->mIsGroup = false;
entry->mCreateTime = ctime;
entry->mFirstName = agent[FIRST].asString();
entry->mLastName = agent[LAST].asString();
impl.mCache[id] = entry;
std::string fullname = buildFullName(entry->mFirstName, entry->mLastName);
impl.mReverseCache[fullname] = id;
++count;
}
llinfos << "LLCacheName loaded " << count << " agent names" << llendl;
count = 0;
LLSD groups = data[GROUPS];
iter = groups.beginMap();
end = groups.endMap();
for( ; iter != end; ++iter)
{
LLUUID id((*iter).first);
LLSD group = (*iter).second;
U32 ctime = (U32)group[CTIME].asInteger();
if(ctime < delete_before_time) continue;
LLCacheNameEntry* entry = new LLCacheNameEntry();
entry->mIsGroup = true;
entry->mCreateTime = ctime;
entry->mGroupName = group[NAME].asString();
impl.mCache[id] = entry;
impl.mReverseCache[entry->mGroupName] = id;
++count;
}
llinfos << "LLCacheName loaded " << count << " group names" << llendl;
return true;
}
void LLCacheName::exportFile(std::ostream& ostr)
{
LLSD data;
Cache::iterator iter = impl.mCache.begin();
Cache::iterator end = impl.mCache.end();
for( ; iter != end; ++iter)
{
// Only write entries for which we have valid data.
LLCacheNameEntry* entry = iter->second;
if(!entry
|| (std::string::npos != entry->mFirstName.find('?'))
|| (std::string::npos != entry->mGroupName.find('?')))
{
continue;
}
// store it
LLUUID id = iter->first;
std::string id_str = id.asString();
// IDEVO TODO: Should we store SLIDs with last name "Resident" or not?
if(!entry->mFirstName.empty() && !entry->mLastName.empty())
{
data[AGENTS][id_str][FIRST] = entry->mFirstName;
data[AGENTS][id_str][LAST] = entry->mLastName;
data[AGENTS][id_str][CTIME] = (S32)entry->mCreateTime;
}
else if(entry->mIsGroup && !entry->mGroupName.empty())
{
data[GROUPS][id_str][NAME] = entry->mGroupName;
data[GROUPS][id_str][CTIME] = (S32)entry->mCreateTime;
}
}
LLSDSerialize::toPrettyXML(data, ostr);
}
BOOL LLCacheName::Impl::getName(const LLUUID& id, std::string& first, std::string& last)
{
if(id.isNull())
{
first = sCacheName["nobody"];
last.clear();
return TRUE;
}
LLCacheNameEntry* entry = get_ptr_in_map(mCache, id );
if (entry)
{
first = entry->mFirstName;
last = entry->mLastName;
return TRUE;
}
else
{
first = sCacheName["waiting"];
last.clear();
if (!isRequestPending(id))
{
mAskNameQueue.insert(id);
}
return FALSE;
}
}
// static
void LLCacheName::localizeCacheName(std::string key, std::string value)
{
if (key!="" && value!= "" )
sCacheName[key]=value;
else
llwarns<< " Error localizing cache key " << key << " To "<< value<<llendl;
}
BOOL LLCacheName::getFullName(const LLUUID& id, std::string& fullname)
{
std::string first_name, last_name;
BOOL res = impl.getName(id, first_name, last_name);
fullname = buildFullName(first_name, last_name);
return res;
}
BOOL LLCacheName::getGroupName(const LLUUID& id, std::string& group)
{
if(id.isNull())
{
group = sCacheName["none"];
return TRUE;
}
LLCacheNameEntry* entry = get_ptr_in_map(impl.mCache,id);
if (entry && entry->mGroupName.empty())
{
// COUNTER-HACK to combat James' HACK in exportFile()...
// this group name was loaded from a name cache that did not
// bother to save the group name ==> we must ask for it
lldebugs << "LLCacheName queuing HACK group request: " << id << llendl;
entry = NULL;
}
if (entry)
{
group = entry->mGroupName;
return TRUE;
}
else
{
group = sCacheName["waiting"];
if (!impl.isRequestPending(id))
{
impl.mAskGroupQueue.insert(id);
}
return FALSE;
}
}
BOOL LLCacheName::getUUID(const std::string& first, const std::string& last, LLUUID& id)
{
std::string full_name = buildFullName(first, last);
return getUUID(full_name, id);
}
BOOL LLCacheName::getUUID(const std::string& full_name, LLUUID& id)
{
ReverseCache::iterator iter = impl.mReverseCache.find(full_name);
if (iter != impl.mReverseCache.end())
{
id = iter->second;
return TRUE;
}
else
{
return FALSE;
}
}
//static
std::string LLCacheName::buildFullName(const std::string& first, const std::string& last)
{
std::string fullname = first;
if (!last.empty()
&& last != "Resident")
{
fullname += ' ';
fullname += last;
}
return fullname;
}
//static
std::string LLCacheName::cleanFullName(const std::string& full_name)
{
return full_name.substr(0, full_name.find(" Resident"));
}
//static
std::string LLCacheName::buildUsername(const std::string& full_name)
{
// rare, but handle hard-coded error names returned from server
if (full_name == "(\?\?\?) (\?\?\?)")
{
return "(\?\?\?)";
}
std::string::size_type index = full_name.find(' ');
if (index != std::string::npos)
{
std::string username;
username = full_name.substr(0, index);
std::string lastname = full_name.substr(index+1);
if (lastname != "Resident")
{
username = username + "." + lastname;
}
LLStringUtil::toLower(username);
return username;
}
// if the input wasn't a correctly formatted legacy name just return it unchanged
return full_name;
}
//static
std::string LLCacheName::buildLegacyName(const std::string& complete_name)
{
//boost::regexp was showing up in the crashreporter, so doing
//painfully manual parsing using substr. LF
S32 open_paren = complete_name.rfind(" (");
S32 close_paren = complete_name.rfind(')');
if (open_paren != std::string::npos &&
close_paren == complete_name.length()-1)
{
S32 length = close_paren - open_paren - 2;
std::string legacy_name = complete_name.substr(open_paren+2, length);
if (legacy_name.length() > 0)
{
std::string cap_letter = legacy_name.substr(0, 1);
LLStringUtil::toUpper(cap_letter);
legacy_name = cap_letter + legacy_name.substr(1);
S32 separator = legacy_name.find('.');
if (separator != std::string::npos)
{
std::string last_name = legacy_name.substr(separator+1);
legacy_name = legacy_name.substr(0, separator);
if (last_name.length() > 0)
{
cap_letter = last_name.substr(0, 1);
LLStringUtil::toUpper(cap_letter);
legacy_name = legacy_name + " " + cap_letter + last_name.substr(1);
}
}
return legacy_name;
}
}
return complete_name;
}
// This is a little bit kludgy. LLCacheNameCallback is a slot instead of a function pointer.
// The reason it is a slot is so that the legacy get() function below can bind an old callback
// and pass it as a slot. The reason it isn't a boost::function is so that trackable behavior
// doesn't get lost. As a result, we have to bind the slot to a signal to call it, even when
// we call it immediately. -Steve
// NOTE: Even though passing first and last name is a bit of extra overhead, it eliminates the
// potential need for any parsing should any code need to handle first and last name independently.
boost::signals2::connection LLCacheName::get(const LLUUID& id, bool is_group, const LLCacheNameCallback& callback)
{
boost::signals2::connection res;
if(id.isNull())
{
LLCacheNameSignal signal;
signal.connect(callback);
signal(id, sCacheName["nobody"], is_group);
return res;
}
LLCacheNameEntry* entry = get_ptr_in_map(impl.mCache, id );
if (entry)
{
LLCacheNameSignal signal;
signal.connect(callback);
// id found in map therefore we can call the callback immediately.
if (entry->mIsGroup)
{
signal(id, entry->mGroupName, entry->mIsGroup);
}
else
{
std::string fullname =
buildFullName(entry->mFirstName, entry->mLastName);
signal(id, fullname, entry->mIsGroup);
}
}
else
{
// id not found in map so we must queue the callback call until available.
if (!impl.isRequestPending(id))
{
if (is_group)
{
impl.mAskGroupQueue.insert(id);
}
else
{
impl.mAskNameQueue.insert(id);
}
}
res = impl.addPending(id, callback);
}
return res;
}
boost::signals2::connection LLCacheName::getGroup(const LLUUID& group_id,
const LLCacheNameCallback& callback)
{
return get(group_id, true, callback);
}
boost::signals2::connection LLCacheName::get(const LLUUID& id, bool is_group, old_callback_t callback, void* user_data)
{
return get(id, is_group, boost::bind(callback, _1, _2, _3, user_data));
}
void LLCacheName::processPending()
{
LLMemType mt_pp(LLMemType::MTYPE_CACHE_PROCESS_PENDING);
const F32 SECS_BETWEEN_PROCESS = 0.1f;
if(!impl.mProcessTimer.checkExpirationAndReset(SECS_BETWEEN_PROCESS))
{
return;
}
if(!impl.mUpstreamHost.isOk())
{
lldebugs << "LLCacheName::processPending() - bad upstream host."
<< llendl;
return;
}
impl.processPendingAsks();
impl.processPendingReplies();
}
void LLCacheName::deleteEntriesOlderThan(S32 secs)
{
U32 now = (U32)time(NULL);
U32 expire_time = now - secs;
for(Cache::iterator iter = impl.mCache.begin(); iter != impl.mCache.end(); )
{
Cache::iterator curiter = iter++;
LLCacheNameEntry* entry = curiter->second;
if (entry->mCreateTime < expire_time)
{
delete entry;
impl.mCache.erase(curiter);
}
}
// These are pending requests that we never heard back from.
U32 pending_expire_time = now - PENDING_TIMEOUT_SECS;
for(PendingQueue::iterator p_iter = impl.mPendingQueue.begin();
p_iter != impl.mPendingQueue.end(); )
{
PendingQueue::iterator p_curitor = p_iter++;
if (p_curitor->second < pending_expire_time)
{
impl.mPendingQueue.erase(p_curitor);
}
}
}
void LLCacheName::dump()
{
for (Cache::iterator iter = impl.mCache.begin(),
end = impl.mCache.end();
iter != end; iter++)
{
LLCacheNameEntry* entry = iter->second;
if (entry->mIsGroup)
{
llinfos
<< iter->first << " = (group) "
<< entry->mGroupName
<< " @ " << entry->mCreateTime
<< llendl;
}
else
{
llinfos
<< iter->first << " = "
<< buildFullName(entry->mFirstName, entry->mLastName)
<< " @ " << entry->mCreateTime
<< llendl;
}
}
}
void LLCacheName::dumpStats()
{
llinfos << "Queue sizes: "
<< " Cache=" << impl.mCache.size()
<< " AskName=" << impl.mAskNameQueue.size()
<< " AskGroup=" << impl.mAskGroupQueue.size()
<< " Pending=" << impl.mPendingQueue.size()
<< " Reply=" << impl.mReplyQueue.size()
// << " Observers=" << impl.mSignal.size()
<< llendl;
}
void LLCacheName::clear()
{
for_each(impl.mCache.begin(), impl.mCache.end(), DeletePairedPointer());
impl.mCache.clear();
}
//static
std::string LLCacheName::getDefaultName()
{
return sCacheName["waiting"];
}
//static
std::string LLCacheName::getDefaultLastName()
{
return "Resident";
}
void LLCacheName::Impl::processPendingAsks()
{
LLMemType mt_ppa(LLMemType::MTYPE_CACHE_PROCESS_PENDING_ASKS);
sendRequest(_PREHASH_UUIDNameRequest, mAskNameQueue);
sendRequest(_PREHASH_UUIDGroupNameRequest, mAskGroupQueue);
mAskNameQueue.clear();
mAskGroupQueue.clear();
}
void LLCacheName::Impl::processPendingReplies()
{
LLMemType mt_ppr(LLMemType::MTYPE_CACHE_PROCESS_PENDING_REPLIES);
// First call all the callbacks, because they might send messages.
for(ReplyQueue::iterator it = mReplyQueue.begin(); it != mReplyQueue.end(); ++it)
{
PendingReply* reply = *it;
LLCacheNameEntry* entry = get_ptr_in_map(mCache, reply->mID);
if(!entry) continue;
if (!entry->mIsGroup)
{
std::string fullname =
LLCacheName::buildFullName(entry->mFirstName, entry->mLastName);
(reply->mSignal)(reply->mID, fullname, false);
}
else
{
(reply->mSignal)(reply->mID, entry->mGroupName, true);
}
}
// Forward on all replies, if needed.
ReplySender sender(mMsg);
for(ReplyQueue::iterator it = mReplyQueue.begin(); it != mReplyQueue.end(); ++it)
{
PendingReply* reply = *it;
LLCacheNameEntry* entry = get_ptr_in_map(mCache, reply->mID);
if(!entry) continue;
if (reply->mHost.isOk())
{
sender.send(reply->mID, *entry, reply->mHost);
}
reply->done();
}
for(ReplyQueue::iterator it = mReplyQueue.begin(); it != mReplyQueue.end(); )
{
ReplyQueue::iterator curit = it++;
PendingReply* reply = *curit;
if (reply->isDone())
{
delete reply;
mReplyQueue.erase(curit);
}
}
}
void LLCacheName::Impl::sendRequest(
const char* msg_name,
const AskQueue& queue)
{
if(queue.empty())
{
return;
}
bool start_new_message = true;
AskQueue::const_iterator it = queue.begin();
AskQueue::const_iterator end = queue.end();
for(; it != end; ++it)
{
if(start_new_message)
{
start_new_message = false;
mMsg->newMessageFast(msg_name);
}
mMsg->nextBlockFast(_PREHASH_UUIDNameBlock);
mMsg->addUUIDFast(_PREHASH_ID, (*it));
if(mMsg->isSendFullFast(_PREHASH_UUIDNameBlock))
{
start_new_message = true;
mMsg->sendReliable(mUpstreamHost);
}
}
if(!start_new_message)
{
mMsg->sendReliable(mUpstreamHost);
}
}
bool LLCacheName::Impl::isRequestPending(const LLUUID& id)
{
U32 now = (U32)time(NULL);
U32 expire_time = now - PENDING_TIMEOUT_SECS;
PendingQueue::iterator iter = mPendingQueue.find(id);
if (iter == mPendingQueue.end()
|| (iter->second < expire_time) )
{
mPendingQueue[id] = now;
return false;
}
return true;
}
void LLCacheName::Impl::processUUIDRequest(LLMessageSystem* msg, bool isGroup)
{
// You should only get this message if the cache is at the simulator
// level, hence having an upstream provider.
if (!mUpstreamHost.isOk())
{
llwarns << "LLCacheName - got UUID name/group request, but no upstream provider!" << llendl;
return;
}
LLHost fromHost = msg->getSender();
ReplySender sender(msg);
S32 count = msg->getNumberOfBlocksFast(_PREHASH_UUIDNameBlock);
for(S32 i = 0; i < count; ++i)
{
LLUUID id;
msg->getUUIDFast(_PREHASH_UUIDNameBlock, _PREHASH_ID, id, i);
LLCacheNameEntry* entry = get_ptr_in_map(mCache, id);
if(entry)
{
if (isGroup != entry->mIsGroup)
{
llwarns << "LLCacheName - Asked for "
<< (isGroup ? "group" : "user") << " name, "
<< "but found "
<< (entry->mIsGroup ? "group" : "user")
<< ": " << id << llendl;
}
else
{
// ...it's in the cache, so send it as the reply
sender.send(id, *entry, fromHost);
}
}
else
{
if (!isRequestPending(id))
{
if (isGroup)
{
mAskGroupQueue.insert(id);
}
else
{
mAskNameQueue.insert(id);
}
}
addPending(id, fromHost);
}
}
}
void LLCacheName::Impl::processUUIDReply(LLMessageSystem* msg, bool isGroup)
{
S32 count = msg->getNumberOfBlocksFast(_PREHASH_UUIDNameBlock);
for(S32 i = 0; i < count; ++i)
{
LLUUID id;
msg->getUUIDFast(_PREHASH_UUIDNameBlock, _PREHASH_ID, id, i);
LLCacheNameEntry* entry = get_ptr_in_map(mCache, id);
if (!entry)
{
entry = new LLCacheNameEntry;
mCache[id] = entry;
}
mPendingQueue.erase(id);
entry->mIsGroup = isGroup;
entry->mCreateTime = (U32)time(NULL);
if (!isGroup)
{
msg->getStringFast(_PREHASH_UUIDNameBlock, _PREHASH_FirstName, entry->mFirstName, i);
msg->getStringFast(_PREHASH_UUIDNameBlock, _PREHASH_LastName, entry->mLastName, i);
}
else
{ // is group
msg->getStringFast(_PREHASH_UUIDNameBlock, _PREHASH_GroupName, entry->mGroupName, i);
LLStringFn::replace_ascii_controlchars(entry->mGroupName, LL_UNKNOWN_CHAR);
}
if (!isGroup)
{
// NOTE: Very occasionally the server sends down a full name
// in the first name field with an empty last name, for example,
// first = "Ladanie1 Resident", last = "".
// I cannot reproduce this, nor can I find a bug in the server code.
// Ensure "Resident" does not appear via cleanFullName, because
// buildFullName only checks last name. JC
std::string full_name;
if (entry->mLastName.empty())
{
full_name = cleanFullName(entry->mFirstName);
}
else
{
full_name = LLCacheName::buildFullName(entry->mFirstName, entry->mLastName);
}
mSignal(id, full_name, false);
mReverseCache[full_name] = id;
}
else
{
mSignal(id, entry->mGroupName, true);
mReverseCache[entry->mGroupName] = id;
}
}
}
// static call back functions
void LLCacheName::Impl::handleUUIDNameReply(LLMessageSystem* msg, void** userData)
{
((LLCacheName::Impl*)userData)->processUUIDReply(msg, false);
}
void LLCacheName::Impl::handleUUIDNameRequest(LLMessageSystem* msg, void** userData)
{
((LLCacheName::Impl*)userData)->processUUIDRequest(msg, false);
}
void LLCacheName::Impl::handleUUIDGroupNameRequest(LLMessageSystem* msg, void** userData)
{
((LLCacheName::Impl*)userData)->processUUIDRequest(msg, true);
}
void LLCacheName::Impl::handleUUIDGroupNameReply(LLMessageSystem* msg, void** userData)
{
((LLCacheName::Impl*)userData)->processUUIDReply(msg, true);
}
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