/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
Additional permissions under GNU GPL version 3 section 7
If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the
licensors of this Program grant you additional
permission to convey the resulting work. Corresponding Source for a
non-source form of such a combination shall include the source code for
the parts of OpenSSL and IJG JPEG Library used as well as that of the covered
work.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
/*****************************************************************************
*
* $/Plasma20/Sources/Plasma/PubUtilLib/plVault/plVaultClientApi.cpp
*
***/
#include "Pch.h"
#pragma hdrstop
#ifdef CLIENT
/*****************************************************************************
*
* Private
*
***/
struct IVaultCallback {
LINK(IVaultCallback) link;
VaultCallback * cb;
};
struct INotifyAfterDownload : THashKeyVal {
HASHLINK(INotifyAfterDownload) link;
unsigned parentId;
unsigned childId;
INotifyAfterDownload (unsigned parentId, unsigned childId)
: THashKeyVal(childId)
, parentId(parentId)
, childId(childId)
{}
};
struct DeviceInbox : CHashKeyStr {
HASHLINK(DeviceInbox) link;
wchar_t inboxName[kMaxVaultNodeStringLength];
DeviceInbox (const wchar_t device[], const wchar_t inbox[])
: CHashKeyStr(device)
{
StrCopy(inboxName, inbox, arrsize(inboxName));
}
};
// A RelVaultNodeLink may be either stored in the global table,
// or stored in an IRelVaultNode's parents or children table.
struct RelVaultNodeLink : THashKeyVal {
HASHLINK(RelVaultNodeLink) link;
RelVaultNode * node;
unsigned ownerId;
bool seen;
RelVaultNodeLink (bool seen, unsigned ownerId, unsigned nodeId, RelVaultNode * node)
: THashKeyVal(nodeId)
, seen(seen)
, ownerId(ownerId)
, node(node)
{
node->IncRef();
}
~RelVaultNodeLink () {
node->DecRef();
}
};
struct IRelVaultNode {
RelVaultNode * node;
HASHTABLEDECL(
RelVaultNodeLink,
THashKeyVal,
link
) parents;
HASHTABLEDECL(
RelVaultNodeLink,
THashKeyVal,
link
) children;
IRelVaultNode (RelVaultNode * node);
~IRelVaultNode ();
// Unlink our node from all our parent and children
void UnlinkFromRelatives ();
// Unlink the node from our parent and children lists
void Unlink (RelVaultNode * other);
};
struct VaultCreateNodeTrans {
FVaultCreateNodeCallback callback;
void * state;
void * param;
unsigned nodeId;
RelVaultNode * node;
static void VaultNodeCreated (
ENetError result,
void * param,
unsigned nodeId
);
static void VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
);
void Complete (ENetError result);
};
struct VaultFindNodeTrans {
FVaultFindNodeCallback callback;
void * param;
static void VaultNodeFound (
ENetError result,
void * param,
unsigned nodeIdCount,
const unsigned nodeIds[]
);
};
struct VaultDownloadTrans {
FVaultDownloadCallback callback;
void * cbParam;
FVaultProgressCallback progressCallback;
void * cbProgressParam;
wchar_t tag[MAX_PATH];
unsigned nodeCount;
unsigned nodesLeft;
unsigned vaultId;
ENetError result;
VaultDownloadTrans ();
static void VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
);
static void VaultNodeRefsFetched (
ENetError result,
void * param,
NetVaultNodeRef * refs,
unsigned refCount
);
};
struct VaultAgeInitTrans {
FVaultInitAgeCallback callback;
void * cbState;
void * cbParam;
static void AgeInitCallback (
ENetError result,
void * param,
unsigned ageVaultId,
unsigned ageInfoVaultId
);
};
struct AddChildNodeFetchTrans {
FVaultAddChildNodeCallback callback;
void * cbParam;
ENetError result;
long opCount;
static void VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
);
static void VaultNodeRefsFetched (
ENetError result,
void * param,
NetVaultNodeRef * refs,
unsigned refCount
);
};
/*****************************************************************************
*
* Private data
*
***/
static bool s_running;
static HASHTABLEDECL(
RelVaultNodeLink,
THashKeyVal,
link
) s_nodes;
static LISTDECL(
IVaultCallback,
link
) s_callbacks;
static HASHTABLEDECL(
INotifyAfterDownload,
THashKeyVal,
link
) s_notifyAfterDownload;
static HASHTABLEDECL(
DeviceInbox,
CHashKeyStr,
link
) s_ageDeviceInboxes;
static bool s_processPlayerInbox = false;
/*****************************************************************************
*
* Local functions
*
***/
static void VaultProcessVisitNote(RelVaultNode * rvnVisit);
static void VaultProcessUnvisitNote(RelVaultNode * rvnUnVisit);
static void VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
);
static void VaultNodeFound (
ENetError result,
void * param,
unsigned nodeIdCount,
const unsigned nodeIds[]
);
//============================================================================
static void VaultNodeAddedDownloadCallback(ENetError result, void * param) {
unsigned childId = (unsigned)((uintptr_t)param);
INotifyAfterDownload* notify = s_notifyAfterDownload.Find(childId);
if (notify) {
if (IS_NET_SUCCESS(result)) {
RelVaultNodeLink* parentLink = s_nodes.Find(notify->parentId);
RelVaultNodeLink* childLink = s_nodes.Find(notify->childId);
if (parentLink && childLink) {
if (childLink->node->nodeType == plVault::kNodeType_TextNote) {
VaultTextNoteNode textNote(childLink->node);
if (textNote.noteType == plVault::kNoteType_Visit)
VaultProcessVisitNote(childLink->node);
else if (textNote.noteType == plVault::kNoteType_UnVisit)
VaultProcessUnvisitNote(childLink->node);
}
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->AddedChildNode(parentLink->node, childLink->node);
}
}
delete notify;
}
}
//============================================================================
static void CDECL LogDumpProc (
void * ,
const wchar_t fmt[],
...
) {
va_list args;
va_start(args, fmt);
LogMsgV(kLogDebug, fmt, args);
va_end(args);
}
//============================================================================
// Returns ids of nodes that had to be created (so we can fetch them)
static void BuildNodeTree (
const NetVaultNodeRef refs[],
unsigned refCount,
ARRAY(unsigned) * newNodeIds,
ARRAY(unsigned) * existingNodeIds,
bool notifyNow = true
) {
for (unsigned i = 0; i < refCount; ++i) {
// Find/Create global links
RelVaultNodeLink * parentLink = s_nodes.Find(refs[i].parentId);
if (!parentLink) {
newNodeIds->Add(refs[i].parentId);
parentLink = NEWZERO(RelVaultNodeLink)(false, 0, refs[i].parentId, NEWZERO(RelVaultNode));
parentLink->node->nodeId = refs[i].parentId; // set directly so that the field's dirty flag isn't set
s_nodes.Add(parentLink);
}
else {
existingNodeIds->Add(refs[i].parentId);
}
RelVaultNodeLink * childLink = s_nodes.Find(refs[i].childId);
if (!childLink) {
newNodeIds->Add(refs[i].childId);
childLink = NEWZERO(RelVaultNodeLink)(refs[i].seen, refs[i].ownerId, refs[i].childId, NEWZERO(RelVaultNode));
childLink->node->nodeId = refs[i].childId; // set directly so that the field's dirty flag isn't set
s_nodes.Add(childLink);
}
else {
existingNodeIds->Add(refs[i].childId);
if (unsigned ownerId = refs[i].ownerId)
childLink->ownerId = ownerId;
}
RelVaultNode * parentNode = parentLink->node;
RelVaultNode * childNode = childLink->node;
bool isImmediateParent = parentNode->IsParentOf(refs[i].childId, 1);
bool isImmediateChild = childNode->IsChildOf(refs[i].parentId, 1);
if (!isImmediateParent) {
// Add parent to child's parents table
parentLink = NEWZERO(RelVaultNodeLink)(false, 0, parentNode->nodeId, parentNode);
childNode->state->parents.Add(parentLink);
LogMsg(kLogDebug, L"Added relationship: p:%u,c:%u", refs[i].parentId, refs[i].childId);
}
if (!isImmediateChild) {
// Add child to parent's children table
childLink = NEWZERO(RelVaultNodeLink)(refs[i].seen, refs[i].ownerId, childNode->nodeId, childNode);
parentNode->state->children.Add(childLink);
if (notifyNow || childNode->nodeType != 0) {
// We made a new link, so make the callbacks
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->AddedChildNode(parentNode, childNode);
}
else {
INotifyAfterDownload* notify = NEWZERO(INotifyAfterDownload)(parentNode->nodeId, childNode->nodeId);
s_notifyAfterDownload.Add(notify);
}
}
}
}
//============================================================================
static void InitFetchedNode (RelVaultNode * rvn) {
switch (rvn->nodeType) {
case plVault::kNodeType_SDL: {
VaultSDLNode access(rvn);
if (!access.sdlData || !access.sdlDataLen)
access.InitStateDataRecord(access.sdlName);
}
break;
}
}
//============================================================================
static void FetchRefOwners (
NetVaultNodeRef * refs,
unsigned refCount
) {
ARRAY(unsigned) ownerIds;
{ for (unsigned i = 0; i < refCount; ++i)
if (unsigned ownerId = refs[i].ownerId)
ownerIds.Add(ownerId);
}
QSORT(unsigned, ownerIds.Ptr(), ownerIds.Count(), elem1 < elem2);
RelVaultNode * templateNode = NEWZERO(RelVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_PlayerInfo);
{ unsigned prevId = 0;
for (unsigned i = 0; i < ownerIds.Count(); ++i) {
if (ownerIds[i] != prevId) {
prevId = ownerIds[i];
VaultPlayerInfoNode access(templateNode);
access.SetPlayerId(refs[i].ownerId);
if (RelVaultNode * rvn = VaultGetNodeIncRef(templateNode)) {
rvn->DecRef();
continue;
}
NetCliAuthVaultNodeFind(
templateNode,
VaultNodeFound,
nil
);
}
}
}
templateNode->DecRef();
}
//============================================================================
static void FetchNodesFromRefs (
NetVaultNodeRef * refs,
unsigned refCount,
FNetCliAuthVaultNodeFetched fetchCallback,
void * fetchParam,
unsigned * fetchCount
) {
// On the side, start downloading PlayerInfo nodes of ref owners we don't already have locally
FetchRefOwners(refs, refCount);
*fetchCount = 0;
ARRAY(unsigned) newNodeIds;
ARRAY(unsigned) existingNodeIds;
BuildNodeTree(refs, refCount, &newNodeIds, &existingNodeIds);
ARRAY(unsigned) nodeIds;
nodeIds.Add(newNodeIds.Ptr(), newNodeIds.Count());
nodeIds.Add(existingNodeIds.Ptr(), existingNodeIds.Count());
QSORT(unsigned, nodeIds.Ptr(), nodeIds.Count(), elem1 < elem2);
// Fetch the nodes that do not yet have a nodetype
unsigned prevId = 0;
{for (unsigned i = 0; i < nodeIds.Count(); ++i) {
RelVaultNodeLink * link = s_nodes.Find(nodeIds[i]);
if (link->node->nodeType != 0)
continue;
// filter duplicates
if (link->node->nodeId == prevId)
continue;
prevId = link->node->nodeId;
NetCliAuthVaultNodeFetch(
nodeIds[i],
fetchCallback,
fetchParam
);
++(*fetchCount);
}}
}
//============================================================================
static void VaultNodeFound (
ENetError result,
void * ,
unsigned nodeIdCount,
const unsigned nodeIds[]
) {
// TODO: Support some sort of optional transaction object/callback state
// error?
if (IS_NET_ERROR(result))
return;
for (unsigned i = 0; i < nodeIdCount; ++i) {
// See if we already have this node
if (RelVaultNodeLink * link = s_nodes.Find(nodeIds[i]))
return;
// Start fetching the node
NetCliAuthVaultNodeFetch(nodeIds[i], VaultNodeFetched, nil);
}
}
//============================================================================
static void VaultNodeFetched (
ENetError result,
void * ,
NetVaultNode * node
) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogDebug, L"VaultNodeFetched failed: %u (%s)", result, NetErrorToString(result));
return;
}
// Add to global node table
RelVaultNodeLink * link = s_nodes.Find(node->nodeId);
if (!link) {
link = NEWZERO(RelVaultNodeLink)(false, 0, node->nodeId, NEWZERO(RelVaultNode));
link->node->nodeId = node->nodeId; // set directly so that the field's dirty flag isn't set
s_nodes.Add(link);
}
link->node->CopyFrom(node, NetVaultNode::kCopyOverwrite);
InitFetchedNode(link->node);
link->node->Print(L"Fetched", LogDumpProc, 0);
}
//============================================================================
static void ChangedVaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogDebug, L"ChangedVaultNodeFetched failed: %u (%s)", result, NetErrorToString(result));
return;
}
VaultNodeFetched(result, param, node);
RelVaultNodeLink* savedLink = s_nodes.Find(node->nodeId);
if (savedLink) {
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->ChangedNode(savedLink->node);
}
}
//============================================================================
static void VaultNodeChanged (
unsigned nodeId,
const Uuid & revisionId
) {
LogMsg(kLogDebug, L"Notify: Node changed: %u", nodeId);
RelVaultNodeLink * link = s_nodes.Find(nodeId);
// We don't have the node, so we don't care that it changed (we actually
// shouldn't have been notified)
if (!link) {
LogMsg(kLogDebug, L"rcvd change notification for node %u, but node doesn't exist locally.", nodeId);
return;
}
// We are the party responsible for the change, so we already have the
// latest version of the node; no need to fetch it.
if (link->node->revisionId == revisionId)
return;
// We have the node and we weren't the one that changed it, so fetch it.
NetCliAuthVaultNodeFetch(
nodeId,
ChangedVaultNodeFetched,
nil
);
}
//============================================================================
static void VaultNodeAdded (
unsigned parentId,
unsigned childId,
unsigned ownerId
) {
LogMsg(kLogDebug, L"Notify: Node added: p:%u,c:%u", parentId, childId);
unsigned inboxId = 0;
if (RelVaultNode * rvnInbox = VaultGetPlayerInboxFolderIncRef()) {
inboxId = rvnInbox->nodeId;
rvnInbox->DecRef();
}
// Build the relationship locally
NetVaultNodeRef refs[] = {
{ parentId, childId, ownerId }
};
ARRAY(unsigned) newNodeIds;
ARRAY(unsigned) existingNodeIds;
BuildNodeTree(refs, arrsize(refs), &newNodeIds, &existingNodeIds, false);
ARRAY(unsigned) nodeIds;
nodeIds.Add(newNodeIds.Ptr(), newNodeIds.Count());
nodeIds.Add(existingNodeIds.Ptr(), existingNodeIds.Count());
QSORT(unsigned, nodeIds.Ptr(), nodeIds.Count(), elem1 < elem2);
// Fetch the nodes that do not yet have a nodetype
unsigned prevId = 0;
unsigned i = 0;
{for (; i < nodeIds.Count(); ++i) {
RelVaultNodeLink * link = s_nodes.Find(nodeIds[i]);
if (link->node->nodeType != 0)
continue;
// filter duplicates
if (link->node->nodeId == prevId)
continue;
prevId = link->node->nodeId;
VaultDownload(
L"NodeAdded",
nodeIds[i],
VaultNodeAddedDownloadCallback,
(void*)nodeIds[i],
nil,
nil
);
}}
if (parentId == inboxId) {
if (i > 0)
s_processPlayerInbox = true;
else
VaultProcessPlayerInbox();
}
// if the added element is already downloaded then send the callbacks now
RelVaultNodeLink* parentLink = s_nodes.Find(parentId);
RelVaultNodeLink* childLink = s_nodes.Find(childId);
if (childLink->node->nodeType != 0) {
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->AddedChildNode(parentLink->node, childLink->node);
}
}
//============================================================================
static void VaultNodeRemoved (
unsigned parentId,
unsigned childId
) {
LogMsg(kLogDebug, L"Notify: Node removed: p:%u,c:%u", parentId, childId);
for (;;) {
// Unlink 'em locally, if we can
RelVaultNodeLink * parentLink = s_nodes.Find(parentId);
if (!parentLink)
break;
RelVaultNodeLink * childLink = s_nodes.Find(childId);
if (!childLink)
break;
if (parentLink->node->IsParentOf(childId, 1)) {
// We have the relationship, so make the callbacks
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->RemovingChildNode(parentLink->node, childLink->node);
}
parentLink->node->state->Unlink(childLink->node);
childLink->node->state->Unlink(parentLink->node);
break;
}
}
//============================================================================
static void VaultNodeDeleted (
unsigned nodeId
) {
LogMsg(kLogDebug, L"Notify: Node deleted: %u", nodeId);
VaultCull(nodeId);
}
//============================================================================
static void SaveDirtyNodes () {
// Save a max of 5Kb every quarter second
static const unsigned kSaveUpdateIntervalMs = 250;
static const unsigned kMaxBytesPerSaveUpdate = 5 * 1024;
static unsigned s_nextSaveMs;
unsigned currTimeMs = TimeGetMs() | 1;
if (!s_nextSaveMs || signed(s_nextSaveMs - currTimeMs) <= 0) {
s_nextSaveMs = (currTimeMs + kSaveUpdateIntervalMs) | 1;
unsigned bytesWritten = 0;
for (RelVaultNodeLink * link = s_nodes.Head(); link; link = s_nodes.Next(link)) {
if (bytesWritten >= kMaxBytesPerSaveUpdate)
break;
if (link->node->dirtyFlags) {
// Auth server needs the name of the sdl record
if (link->node->nodeType == plVault::kNodeType_SDL)
link->node->dirtyFlags |= VaultSDLNode::kSDLName;
if (unsigned bytes = NetCliAuthVaultNodeSave(link->node, nil, nil)) {
bytesWritten += bytes;
link->node->Print(L"Saving", LogDumpProc, 0);
}
}
}
}
}
//============================================================================
static RelVaultNode * GetChildFolderNode (
RelVaultNode * parent,
unsigned folderType,
unsigned maxDepth
) {
if (!parent)
return nil;
RelVaultNode * rvn = parent->GetChildFolderNodeIncRef(folderType, maxDepth);
if (rvn)
rvn->DecRef();
return rvn;
}
//============================================================================
static RelVaultNode * GetChildPlayerInfoListNode (
RelVaultNode * parent,
unsigned folderType,
unsigned maxDepth
) {
if (!parent)
return nil;
RelVaultNode * rvn = parent->GetChildPlayerInfoListNodeIncRef(folderType, maxDepth);
if (rvn)
rvn->DecRef();
return rvn;
}
/*****************************************************************************
*
* VaultCreateNodeTrans
*
***/
//============================================================================
void VaultCreateNodeTrans::VaultNodeCreated (
ENetError result,
void * param,
unsigned nodeId
) {
VaultCreateNodeTrans * trans = (VaultCreateNodeTrans *)param;
if (IS_NET_ERROR(result)) {
trans->Complete(result);
}
else {
trans->nodeId = nodeId;
NetCliAuthVaultNodeFetch(
nodeId,
VaultCreateNodeTrans::VaultNodeFetched,
trans
);
}
}
//============================================================================
void VaultCreateNodeTrans::VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
) {
::VaultNodeFetched(result, param, node);
VaultCreateNodeTrans * trans = (VaultCreateNodeTrans *)param;
if (IS_NET_SUCCESS(result))
trans->node = s_nodes.Find(node->nodeId)->node;
else
trans->node = nil;
trans->Complete(result);
}
//============================================================================
void VaultCreateNodeTrans::Complete (ENetError result) {
if (callback)
callback(
result,
state,
param,
node
);
delete this;
}
/*****************************************************************************
*
* VaultFindNodeTrans
*
***/
//============================================================================
void VaultFindNodeTrans::VaultNodeFound (
ENetError result,
void * param,
unsigned nodeIdCount,
const unsigned nodeIds[]
) {
VaultFindNodeTrans * trans = (VaultFindNodeTrans*)param;
if (trans->callback)
trans->callback(
result,
trans->param,
nodeIdCount,
nodeIds
);
delete trans;
}
/*****************************************************************************
*
* VaultDownloadTrans
*
***/
//============================================================================
VaultDownloadTrans::VaultDownloadTrans () {
ASSERT(!nodeCount); // must be alloced with
}
//============================================================================
void VaultDownloadTrans::VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
) {
::VaultNodeFetched(result, param, node);
VaultDownloadTrans * trans = (VaultDownloadTrans *)param;
if (IS_NET_ERROR(result)) {
trans->result = result;
//LogMsg(kLogError, L"Error fetching node...most likely trying to fetch a nodeid of 0");
}
--trans->nodesLeft;
// LogMsg(kLogDebug, L"(Download) %u of %u nodes fetched", trans->nodeCount - trans->nodesLeft, trans->nodeCount);
if (trans->progressCallback) {
trans->progressCallback(
trans->nodeCount,
trans->nodeCount - trans->nodesLeft,
trans->cbProgressParam
);
}
if (!trans->nodesLeft) {
VaultDump(trans->tag, trans->vaultId, LogDumpProc);
if (trans->callback)
trans->callback(
trans->result,
trans->cbParam
);
delete trans;
}
}
//============================================================================
void VaultDownloadTrans::VaultNodeRefsFetched (
ENetError result,
void * param,
NetVaultNodeRef * refs,
unsigned refCount
) {
VaultDownloadTrans * trans = (VaultDownloadTrans *)param;
if (IS_NET_ERROR(result)) {
LogMsg(kLogDebug, L"VaultNodeRefsFetched failed: %u (%s)", result, NetErrorToString(result));
trans->result = result;
trans->nodesLeft = 0;
}
else {
if (refCount) {
FetchNodesFromRefs(
refs,
refCount,
VaultDownloadTrans::VaultNodeFetched,
param,
&trans->nodeCount
);
trans->nodesLeft = trans->nodeCount;
}
else {
// root node has no child heirarchy? Make sure we still d/l the root node if necessary.
RelVaultNodeLink* rootNodeLink = s_nodes.Find(trans->vaultId);
if (!rootNodeLink || rootNodeLink->node->nodeType == 0) {
NetCliAuthVaultNodeFetch(
trans->vaultId,
VaultDownloadTrans::VaultNodeFetched,
trans
);
trans->nodesLeft = 1;
}
}
}
// Make the callback now if there are no nodes to fetch, or if error
if (!trans->nodesLeft) {
if (trans->callback)
trans->callback(
trans->result,
trans->cbParam
);
delete trans;
}
}
/*****************************************************************************
*
* VaultAgeInitTrans
*
***/
//============================================================================
void VaultAgeInitTrans::AgeInitCallback (
ENetError result,
void * param,
unsigned ageVaultId,
unsigned ageInfoVaultId
) {
VaultAgeInitTrans * trans = (VaultAgeInitTrans *)param;
if (trans->callback)
trans->callback(
result,
trans->cbState,
trans->cbParam,
ageVaultId,
ageInfoVaultId
);
delete trans;
}
/*****************************************************************************
*
* AddChildNodeFetchTrans
*
***/
//============================================================================
void AddChildNodeFetchTrans::VaultNodeRefsFetched (
ENetError result,
void * param,
NetVaultNodeRef * refs,
unsigned refCount
) {
AddChildNodeFetchTrans * trans = (AddChildNodeFetchTrans *)param;
if (IS_NET_ERROR(result)) {
trans->result = result;
}
else {
unsigned incFetchCount = 0;
FetchNodesFromRefs(
refs,
refCount,
AddChildNodeFetchTrans::VaultNodeFetched,
param,
&incFetchCount
);
AtomicAdd(&trans->opCount, incFetchCount);
}
// Make the callback now if there are no nodes to fetch, or if error
AtomicAdd(&trans->opCount, -1);
if (!trans->opCount) {
if (trans->callback)
trans->callback(
trans->result,
trans->cbParam
);
delete trans;
}
}
//============================================================================
void AddChildNodeFetchTrans::VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
) {
::VaultNodeFetched(result, param, node);
AddChildNodeFetchTrans * trans = (AddChildNodeFetchTrans *)param;
if (IS_NET_ERROR(result))
trans->result = result;
AtomicAdd(&trans->opCount, -1);
if (!trans->opCount) {
if (trans->callback)
trans->callback(
trans->result,
trans->cbParam
);
delete trans;
}
}
/*****************************************************************************
*
* IRelVaultNode
*
***/
//============================================================================
IRelVaultNode::IRelVaultNode (RelVaultNode * node)
: node(node)
{
}
//============================================================================
IRelVaultNode::~IRelVaultNode () {
ASSERT(!parents.Head());
ASSERT(!children.Head());
}
//============================================================================
void IRelVaultNode::UnlinkFromRelatives () {
RelVaultNodeLink * link, * next;
for (link = parents.Head(); link; link = next) {
next = parents.Next(link);
// We have the relationship, so make the callbacks
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->RemovingChildNode(link->node, this->node);
link->node->state->Unlink(node);
}
for (link = children.Head(); link; link = next) {
next = children.Next(link);
link->node->state->Unlink(node);
}
ASSERT(!parents.Head());
ASSERT(!children.Head());
}
//============================================================================
void IRelVaultNode::Unlink (RelVaultNode * other) {
ASSERT(other != node);
RelVaultNodeLink * link;
if (nil != (link = parents.Find(other->nodeId))) {
// make them non-findable in our parents table
link->link.Unlink();
// remove us from other's tables.
link->node->state->Unlink(node);
delete link;
}
if (nil != (link = children.Find(other->nodeId))) {
// make them non-findable in our children table
link->link.Unlink();
// remove us from other's tables.
link->node->state->Unlink(node);
delete link;
}
}
/*****************************************************************************
*
* RelVaultNode
*
***/
//============================================================================
RelVaultNode::RelVaultNode () {
state = NEWZERO(IRelVaultNode)(this);
}
//============================================================================
RelVaultNode::~RelVaultNode () {
delete state;
}
//============================================================================
bool RelVaultNode::IsParentOf (unsigned childId, unsigned maxDepth) {
if (nodeId == childId)
return false;
if (maxDepth == 0)
return false;
if (state->children.Find(childId))
return true;
RelVaultNodeLink * link = state->children.Head();
for (; link; link = state->children.Next(link))
if (link->node->IsParentOf(childId, maxDepth - 1))
return true;
return false;
}
//============================================================================
bool RelVaultNode::IsChildOf (unsigned parentId, unsigned maxDepth) {
if (nodeId == parentId)
return false;
if (maxDepth == 0)
return false;
if (state->parents.Find(parentId))
return true;
RelVaultNodeLink * link = state->parents.Head();
for (; link; link = state->parents.Next(link))
if (link->node->IsChildOf(parentId, maxDepth - 1))
return true;
return false;
}
//============================================================================
void RelVaultNode::GetRootIds (ARRAY(unsigned) * nodeIds) {
RelVaultNodeLink * link = state->parents.Head();
if (!link) {
nodeIds->Add(nodeId);
}
else {
for (; link; link = state->parents.Next(link))
link->node->GetRootIds(nodeIds);
}
}
//============================================================================
unsigned RelVaultNode::RemoveChildNodes (unsigned maxDepth) {
hsAssert(false, "eric, implement me.");
return 0;
}
//============================================================================
void RelVaultNode::GetChildNodeIds (
ARRAY(unsigned) * nodeIds,
unsigned maxDepth
) {
if (!maxDepth)
return;
RelVaultNodeLink * link = state->children.Head();
for (; link; link = state->children.Next(link)) {
nodeIds->Add(link->node->nodeId);
link->node->GetChildNodeIds(nodeIds, maxDepth-1);
}
}
//============================================================================
void RelVaultNode::GetParentNodeIds (
ARRAY(unsigned) * nodeIds,
unsigned maxDepth
) {
if (!maxDepth)
return;
RelVaultNodeLink * link = state->parents.Head();
for (; link; link = state->parents.Next(link)) {
nodeIds->Add(link->node->nodeId);
link->node->GetParentNodeIds(nodeIds, maxDepth-1);
}
}
//============================================================================
RelVaultNode * RelVaultNode::GetParentNodeIncRef (
NetVaultNode * templateNode,
unsigned maxDepth
) {
if (maxDepth == 0)
return nil;
RelVaultNodeLink * link;
link = state->parents.Head();
for (; link; link = state->parents.Next(link)) {
if (link->node->Matches(templateNode)) {
link->node->IncRef("Found");
return link->node;
}
}
link = state->parents.Head();
for (; link; link = state->parents.Next(link)) {
if (RelVaultNode * node = link->node->GetParentNodeIncRef(templateNode, maxDepth-1))
return node;
}
return nil;
}
//============================================================================
RelVaultNode * RelVaultNode::GetChildNodeIncRef (
NetVaultNode * templateNode,
unsigned maxDepth
) {
if (maxDepth == 0)
return nil;
RelVaultNodeLink * link;
link = state->children.Head();
for (; link; link = state->children.Next(link)) {
if (link->node->Matches(templateNode)) {
link->node->IncRef("Found");
return link->node;
}
}
link = state->children.Head();
for (; link; link = state->children.Next(link)) {
if (RelVaultNode * node = link->node->GetChildNodeIncRef(templateNode, maxDepth-1))
return node;
}
return nil;
}
//============================================================================
RelVaultNode * RelVaultNode::GetChildNodeIncRef (
unsigned nodeType,
unsigned maxDepth
) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(nodeType);
RelVaultNode * result = GetChildNodeIncRef(templateNode, maxDepth);
templateNode->DecRef();
return result;
}
//============================================================================
RelVaultNode * RelVaultNode::GetChildFolderNodeIncRef (
unsigned folderType,
unsigned maxDepth
) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_Folder);
VaultFolderNode folder(templateNode);
folder.SetFolderType(folderType);
RelVaultNode * result = GetChildNodeIncRef(templateNode, maxDepth);
templateNode->DecRef();
return result;
}
//============================================================================
RelVaultNode * RelVaultNode::GetChildPlayerInfoListNodeIncRef (
unsigned folderType,
unsigned maxDepth
) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_PlayerInfoList);
VaultPlayerInfoListNode access(templateNode);
access.SetFolderType(folderType);
RelVaultNode * result = GetChildNodeIncRef(templateNode, maxDepth);
templateNode->DecRef();
return result;
}
//============================================================================
RelVaultNode * RelVaultNode::GetChildAgeInfoListNodeIncRef (
unsigned folderType,
unsigned maxDepth
) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfoList);
VaultAgeInfoListNode access(templateNode);
access.SetFolderType(folderType);
RelVaultNode * result = GetChildNodeIncRef(templateNode, maxDepth);
templateNode->DecRef();
return result;
}
//============================================================================
void RelVaultNode::GetChildNodesIncRef (
unsigned maxDepth,
ARRAY(RelVaultNode*) * nodes
) {
if (maxDepth == 0)
return;
RelVaultNodeLink * link;
link = state->children.Head();
for (; link; link = state->children.Next(link)) {
nodes->Add(link->node);
link->node->IncRef();
link->node->GetChildNodesIncRef(
maxDepth - 1,
nodes
);
}
}
//============================================================================
void RelVaultNode::GetChildNodesIncRef (
NetVaultNode * templateNode,
unsigned maxDepth,
ARRAY(RelVaultNode*) * nodes
) {
RelVaultNodeLink * link;
link = state->children.Head();
for (; link; link = state->children.Next(link)) {
if (link->node->Matches(templateNode)) {
nodes->Add(link->node);
link->node->IncRef();
}
link->node->GetChildNodesIncRef(
templateNode,
maxDepth - 1,
nodes
);
}
}
//============================================================================
void RelVaultNode::GetChildNodesIncRef (
unsigned nodeType,
unsigned maxDepth,
ARRAY(RelVaultNode*) * nodes
) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(nodeType);
GetChildNodesIncRef(
templateNode,
maxDepth,
nodes
);
templateNode->DecRef();
}
//============================================================================
void RelVaultNode::GetChildFolderNodesIncRef (
unsigned folderType,
unsigned maxDepth,
ARRAY(RelVaultNode*) * nodes
) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_Folder);
VaultFolderNode fldr(templateNode);
fldr.SetFolderType(folderType);
GetChildNodesIncRef(
templateNode,
maxDepth,
nodes
);
templateNode->DecRef();
}
//============================================================================
unsigned RelVaultNode::GetRefOwnerId (unsigned parentId) {
// find our parents' link to us and return its ownerId
if (RelVaultNodeLink * parentLink = state->parents.Find(parentId))
if (RelVaultNodeLink * childLink = parentLink->node->state->children.Find(nodeId))
return childLink->ownerId;
return 0;
}
//============================================================================
bool RelVaultNode::BeenSeen (unsigned parentId) const {
// find our parents' link to us and return its seen flag
if (RelVaultNodeLink * parentLink = state->parents.Find(parentId))
if (RelVaultNodeLink * childLink = parentLink->node->state->children.Find(nodeId))
return childLink->seen;
return true;
}
//============================================================================
void RelVaultNode::SetSeen (unsigned parentId, bool seen) {
// find our parents' link to us and set its seen flag
if (RelVaultNodeLink * parentLink = state->parents.Find(parentId))
if (RelVaultNodeLink * childLink = parentLink->node->state->children.Find(nodeId))
if (childLink->seen != seen) {
childLink->seen = seen;
NetCliAuthVaultSetSeen(parentId, nodeId, seen);
}
}
//============================================================================
void RelVaultNode::Print (const wchar_t tag[], FStateDump dumpProc, unsigned level) {
wchar_t str[1024];
StrPrintf(
str,
arrsize(str),
L"%s%*s%*s%u, %S",
tag ? tag : L"",
tag ? 1 : 0,
" ",
level * 2,
" ",
nodeId,
plVault::NodeTypeStr(nodeType, false)
);
NetVaultNodeFieldArray fields(this);
for (uint64_t bit = 1; bit; bit <<= 1) {
if (!(fieldFlags & bit))
continue;
if (bit > fieldFlags)
break;
StrPack(str, L", ", arrsize(str));
StrPack(str, fields.GetFieldName(bit), arrsize(str));
if (fields.GetFieldAddress(bit)) {
StrPack(str, L"=", arrsize(str));
const unsigned chars = StrLen(str);
fields.GetFieldValueString_LCS(bit, str + chars, arrsize(str) - chars * sizeof(str[0]));
}
}
dumpProc(nil, str);
}
//============================================================================
void RelVaultNode::PrintTree (FStateDump dumpProc, unsigned level) {
Print(L"", dumpProc, level);
for (RelVaultNodeLink * link = state->children.Head(); link; link = state->children.Next(link))
link->node->PrintTree(dumpProc, level + 1);
}
//============================================================================
RelVaultNode * RelVaultNode::GetParentAgeLinkIncRef () {
// this function only makes sense when called on age info nodes
ASSERT(nodeType == plVault::kNodeType_AgeInfo);
RelVaultNode * result = nil;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeLink);
// Get our parent AgeLink node
if (RelVaultNode * rvnLink = GetParentNodeIncRef(templateNode, 1)) {
// Get the next AgeLink node in our parent tree
result = rvnLink->GetParentNodeIncRef(templateNode, 3);
}
templateNode->DecRef();
return result;
}
/*****************************************************************************
*
* Exports - Callbacks
*
***/
//============================================================================
void VaultRegisterCallback (VaultCallback * cb) {
IVaultCallback * internal = new IVaultCallback;
internal->cb = cb;
cb->internal = internal;
s_callbacks.Link(internal);
}
//============================================================================
void VaultUnregisterCallback (VaultCallback * cb) {
ASSERT(cb->internal);
delete cb->internal;
cb->internal = nil;
}
/*****************************************************************************
*
* Exports - Initialize
*
***/
//============================================================================
void VaultInitialize () {
s_running = true;
NetCliAuthVaultSetRecvNodeChangedHandler(VaultNodeChanged);
NetCliAuthVaultSetRecvNodeAddedHandler(VaultNodeAdded);
NetCliAuthVaultSetRecvNodeRemovedHandler(VaultNodeRemoved);
NetCliAuthVaultSetRecvNodeDeletedHandler(VaultNodeDeleted);
}
//============================================================================
void VaultDestroy () {
s_running = false;
NetCliAuthVaultSetRecvNodeChangedHandler(nil);
NetCliAuthVaultSetRecvNodeAddedHandler(nil);
NetCliAuthVaultSetRecvNodeRemovedHandler(nil);
NetCliAuthVaultSetRecvNodeDeletedHandler(nil);
VaultClearDeviceInboxMap();
RelVaultNodeLink * next, * link = s_nodes.Head();
for (; link; link = next) {
next = s_nodes.Next(link);
link->node->state->UnlinkFromRelatives();
delete link;
}
}
//============================================================================
void VaultUpdate () {
SaveDirtyNodes();
}
/*****************************************************************************
*
* Exports - Generic Vault Access
*
***/
//============================================================================
static RelVaultNode * GetNode (
unsigned id
) {
RelVaultNodeLink * link = s_nodes.Find(id);
if (link)
return link->node;
return nil;
}
//============================================================================
static RelVaultNode * GetNode (
NetVaultNode * templateNode
) {
ASSERT(templateNode);
RelVaultNodeLink * link = s_nodes.Head();
while (link) {
if (link->node->Matches(templateNode))
return link->node;
link = s_nodes.Next(link);
}
return nil;
}
//============================================================================
RelVaultNode * VaultGetNodeIncRef (
NetVaultNode * templateNode
) {
if (RelVaultNode * node = GetNode(templateNode)) {
node->IncRef();
return node;
}
return nil;
}
//============================================================================
RelVaultNode * VaultGetNodeIncRef (
unsigned nodeId
) {
if (RelVaultNode * node = GetNode(nodeId)) {
node->IncRef();
return node;
}
return nil;
}
//============================================================================
RelVaultNode * VaultGetNodeIncRef (
unsigned nodeId,
const char reftag[]
) {
if (RelVaultNodeLink * link = s_nodes.Find(nodeId)) {
link->node->IncRef(reftag);
return link->node;
}
return nil;
}
//============================================================================
void VaultAddChildNode (
unsigned parentId,
unsigned childId,
unsigned ownerId,
FVaultAddChildNodeCallback callback,
void * param
) {
// Make sure we only do the callback once
bool madeCallback = false;
// Too much of the client relies on the assumption that the node will be immediately
// associated with its parent. THIS SUCKS, because there's no way to guarantee the
// association won't be circular (the db checks this in a comprehensive way).
// Because the client depends on this so much, we just link 'em together here if
// we have both of them present locally.
// This directly affects: New clothing items added to the avatar outfit folder,
// new chronicle entries in some ages, and I'm sure several other situations.
if (RelVaultNodeLink * parentLink = s_nodes.Find(parentId)) {
RelVaultNodeLink * childLink = s_nodes.Find(childId);
if (!childLink) {
childLink = NEWZERO(RelVaultNodeLink)(false, ownerId, childId, NEWZERO(RelVaultNode));
childLink->node->nodeId = childId; // set directly so that the field's dirty flag isn't set
s_nodes.Add(childLink);
}
else if (ownerId) {
childLink->ownerId = ownerId;
}
// We can do a sanity check for a would-be circular link, but it isn't
// authoritative. The db will prevent circular links from entering into
// the persistent state, but because we are hacking in the association
// before the authoritative check, we're risking the local client operating
// on bad, possibly harmful vault state. Not harmful in a national security
// kinda way, but still harmful.
if (parentLink->node->IsChildOf(childId, 255)) {
LogMsg(kLogDebug, L"Node relationship would be circular: p:%u, c:%u", parentId, childId);
// callback now with error code
if (callback)
callback(kNetErrCircularReference, param);
}
else if (childLink->node->IsParentOf(parentId, 255)) {
LogMsg(kLogDebug, L"Node relationship would be circular: p:%u, c:%u", parentId, childId);
// callback now with error code
if (callback)
callback(kNetErrCircularReference, param);
}
else {
NetVaultNodeRef refs[] = {
{ parentId, childId, ownerId }
};
ARRAY(unsigned) newNodeIds;
ARRAY(unsigned) existingNodeIds;
BuildNodeTree(refs, arrsize(refs), &newNodeIds, &existingNodeIds);
if (!childLink->node->nodeType || !parentLink->node->nodeType) {
// One or more nodes need to be fetched before the callback is made
AddChildNodeFetchTrans * trans = NEWZERO(AddChildNodeFetchTrans);
trans->callback = callback;
trans->cbParam = param;
if (!childLink->node->nodeType) {
AtomicAdd(&trans->opCount, 1);
NetCliAuthVaultNodeFetch(
childId,
AddChildNodeFetchTrans::VaultNodeFetched,
trans
);
AtomicAdd(&trans->opCount, 1);
NetCliAuthVaultFetchNodeRefs(
childId,
AddChildNodeFetchTrans::VaultNodeRefsFetched,
trans
);
}
if (!parentLink->node->nodeType) {
AtomicAdd(&trans->opCount, 1);
NetCliAuthVaultNodeFetch(
parentId,
AddChildNodeFetchTrans::VaultNodeFetched,
trans
);
AtomicAdd(&trans->opCount, 1);
NetCliAuthVaultFetchNodeRefs(
parentId,
AddChildNodeFetchTrans::VaultNodeRefsFetched,
trans
);
}
}
else {
// We have both nodes already, so make the callback now.
if (callback) {
callback(kNetSuccess, param);
madeCallback = true;
}
}
}
}
else {
// Parent doesn't exist locally (and we may not want it to), just make the callback now.
if (callback) {
callback(kNetSuccess, param);
madeCallback = true;
}
}
// Send it on up to the vault. The db server filters out duplicate and
// circular node relationships. We send the request up even if we think
// the relationship would be circular since the db does a universal
// check and is the only real authority in this matter.
NetCliAuthVaultNodeAdd(
parentId,
childId,
ownerId,
madeCallback ? nil : callback,
madeCallback ? nil : param
);
}
//============================================================================
namespace _VaultAddChildNodeAndWait {
struct _AddChildNodeParam {
ENetError result;
bool complete;
};
static void _AddChildNodeCallback (
ENetError result,
void * vparam
) {
_AddChildNodeParam * param = (_AddChildNodeParam *)vparam;
param->result = result;
param->complete = true;
}
} // namespace _VaultAddChildNodeAndWait
//============================================================================
void VaultAddChildNodeAndWait (
unsigned parentId,
unsigned childId,
unsigned ownerId
) {
using namespace _VaultAddChildNodeAndWait;
_AddChildNodeParam param;
memset(¶m, 0, sizeof(param));
VaultAddChildNode(
parentId,
childId,
ownerId,
_AddChildNodeCallback,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result))
LogMsg(kLogError, L"VaultAddChildNodeAndWait: Failed to add child node: p:%u,c:%u. %s", parentId, childId, NetErrorToString(param.result));
}
//============================================================================
void VaultRemoveChildNode (
unsigned parentId,
unsigned childId,
FVaultRemoveChildNodeCallback callback,
void * param
) {
for (;;) {
// Unlink 'em locally, if we can
RelVaultNodeLink * parentLink = s_nodes.Find(parentId);
if (!parentLink)
break;
RelVaultNodeLink * childLink = s_nodes.Find(childId);
if (!childLink)
break;
if (parentLink->node->IsParentOf(childId, 1)) {
// We have the relationship, so make the callbacks
for (IVaultCallback * cb = s_callbacks.Head(); cb; cb = s_callbacks.Next(cb))
cb->cb->RemovingChildNode(parentLink->node, childLink->node);
}
parentLink->node->state->Unlink(childLink->node);
childLink->node->state->Unlink(parentLink->node);
break;
}
// Send it on up to the vault
NetCliAuthVaultNodeRemove(
parentId,
childId,
callback,
param
);
}
//============================================================================
void VaultSetNodeSeen (
unsigned nodeId,
bool seen
) {
hsAssert(false, "eric, implement me");
}
//============================================================================
void VaultDeleteNode (
unsigned nodeId
) {
// Send request up to vault. We will remove it locally upon notification of deletion.
NetCliAuthVaultNodeDelete(nodeId);
}
//============================================================================
void VaultPublishNode (
unsigned nodeId,
const wchar_t deviceName[]
) {
RelVaultNode * rvn;
rvn = VaultAgeGetDeviceInboxIncRef(deviceName);
if (!rvn) {
LogMsg(kLogDebug, L"Failed to find inbox for device %s, adding it on-the-fly", deviceName);
VaultAgeSetDeviceInboxAndWaitIncRef(deviceName, DEFAULT_DEVICE_INBOX);
rvn = VaultAgeGetDeviceInboxIncRef(deviceName);
if (!rvn) {
LogMsg(kLogDebug, L"Failed to add inbox to device %s on-the-fly", deviceName);
return;
}
}
VaultAddChildNode(rvn->nodeId, nodeId, VaultGetPlayerId(), nil, nil);
rvn->DecRef();
}
//============================================================================
void VaultSendNode (
RelVaultNode* srcNode,
unsigned dstPlayerId
) {
NetCliAuthVaultNodeSave(srcNode, nil, nil);
NetCliAuthVaultSendNode(srcNode->nodeId, dstPlayerId);
}
//============================================================================
void VaultCreateNode (
NetVaultNode * templateNode,
FVaultCreateNodeCallback callback,
void * state,
void * param
) {
VaultCreateNodeTrans * trans = NEWZERO(VaultCreateNodeTrans);
trans->callback = callback;
trans->state = state;
trans->param = param;
if (RelVaultNode * age = VaultGetAgeNodeIncRef()) {
VaultAgeNode access(age);
if (!(templateNode->fieldFlags & NetVaultNode::kCreateAgeName))
templateNode->SetCreateAgeName(access.ageName);
if (!(templateNode->fieldFlags & NetVaultNode::kCreateAgeUuid))
templateNode->SetCreateAgeUuid(access.ageInstUuid);
age->DecRef();
}
NetCliAuthVaultNodeCreate(
templateNode,
VaultCreateNodeTrans::VaultNodeCreated,
trans
);
}
//============================================================================
void VaultCreateNode (
plVault::NodeTypes nodeType,
FVaultCreateNodeCallback callback,
void * state,
void * param
) {
RelVaultNode * templateNode = NEWZERO(RelVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(nodeType);
VaultCreateNode(
templateNode,
callback,
state,
param
);
templateNode->DecRef();
}
//============================================================================
namespace _VaultCreateNodeAndWaitIncRef {
struct _CreateNodeParam {
RelVaultNode * node;
ENetError result;
bool complete;
};
static void _CreateNodeCallback (
ENetError result,
void * ,
void * vparam,
RelVaultNode * node
) {
_CreateNodeParam * param = (_CreateNodeParam *)vparam;
param->node = node;
param->result = result;
param->complete = true;
}
} // namespace _VaultCreateNodeAndWaitIncRef
RelVaultNode * VaultCreateNodeAndWaitIncRef (
NetVaultNode * templateNode,
ENetError * result
) {
using namespace _VaultCreateNodeAndWaitIncRef;
_CreateNodeParam param;
memset(¶m, 0, sizeof(param));
VaultCreateNode(
templateNode,
_CreateNodeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
*result = param.result;
if (IS_NET_SUCCESS(param.result))
param.node->IncRef();
return param.node;
}
//============================================================================
RelVaultNode * VaultCreateNodeAndWaitIncRef (
plVault::NodeTypes nodeType,
ENetError * result
) {
RelVaultNode * node;
RelVaultNode * templateNode = NEWZERO(RelVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(nodeType);
node = VaultCreateNodeAndWaitIncRef(templateNode, result);
templateNode->DecRef();
return node;
}
//============================================================================
namespace _VaultForceSaveNodeAndWait {
struct _SaveNodeParam {
ENetError result;
bool complete;
};
static void _SaveNodeCallback (
ENetError result,
void * vparam
) {
_SaveNodeParam * param = (_SaveNodeParam *)vparam;
param->result = result;
param->complete = true;
}
} // namespace _VaultForceSaveNodeAndWait
void VaultForceSaveNodeAndWait (
NetVaultNode * node
) {
using namespace _VaultForceSaveNodeAndWait;
_SaveNodeParam param;
memset(¶m, 0, sizeof(param));
NetCliAuthVaultNodeSave(
node,
_SaveNodeCallback,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
}
//============================================================================
void VaultFindNodes (
NetVaultNode * templateNode,
FVaultFindNodeCallback callback,
void * param
) {
VaultFindNodeTrans * trans = NEWZERO(VaultFindNodeTrans);
trans->callback = callback;
trans->param = param;
NetCliAuthVaultNodeFind(
templateNode,
VaultFindNodeTrans::VaultNodeFound,
trans
);
}
//============================================================================
namespace _VaultFindNodesAndWait {
struct _FindNodeParam {
ARRAY(unsigned) nodeIds;
ENetError result;
bool complete;
};
static void _FindNodeCallback (
ENetError result,
void * vparam,
unsigned nodeIdCount,
const unsigned nodeIds[]
) {
_FindNodeParam * param = (_FindNodeParam *)vparam;
param->nodeIds.Set(nodeIds, nodeIdCount);
param->result = result;
param->complete = true;
}
} // namespace _VaultFindNodesAndWait
void VaultFindNodesAndWait (
NetVaultNode * templateNode,
ARRAY(unsigned) * nodeIds
) {
using namespace _VaultFindNodesAndWait;
_FindNodeParam param;
memset(¶m, 0, sizeof(param));
NetCliAuthVaultNodeFind(
templateNode,
_FindNodeCallback,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_SUCCESS(param.result))
nodeIds->Add(param.nodeIds.Ptr(), param.nodeIds.Count());
}
//============================================================================
void VaultLocalFindNodes (
NetVaultNode * templateNode,
ARRAY(unsigned) * nodeIds
) {
for (RelVaultNodeLink * link = s_nodes.Head(); link != nil; link = s_nodes.Next(link)) {
if (link->node->Matches(templateNode))
nodeIds->Add(link->node->nodeId);
}
}
//============================================================================
namespace _VaultFetchNodesAndWait {
static void _VaultNodeFetched (
ENetError result,
void * param,
NetVaultNode * node
) {
::VaultNodeFetched(result, nil, node);
long * nodeCount = (long *)param;
AtomicAdd(nodeCount, -1);
}
} // namespace _VaultFetchNodesAndWait
void VaultFetchNodesAndWait (
const unsigned nodeIds[],
unsigned count,
bool force
) {
using namespace _VaultFetchNodesAndWait;
long nodeCount = (long)count;
for (unsigned i = 0; i < count; ++i) {
if (!force) {
// See if we already have this node
if (RelVaultNodeLink * link = s_nodes.Find(nodeIds[i])) {
AtomicAdd(&nodeCount, -1);
continue;
}
}
// Start fetching the node
NetCliAuthVaultNodeFetch(nodeIds[i], _VaultNodeFetched, (void *)&nodeCount);
}
while (nodeCount) {
NetClientUpdate();
AsyncSleep(10);
}
}
//============================================================================
void VaultInitAge (
const plAgeInfoStruct * info,
const Uuid & parentAgeInstId, // optional
FVaultInitAgeCallback callback,
void * state,
void * param
) {
VaultAgeInitTrans * trans = NEWZERO(VaultAgeInitTrans);
trans->callback = callback;
trans->cbState = state;
trans->cbParam = param;
wchar_t ageFilename[MAX_PATH];
wchar_t ageInstName[MAX_PATH];
wchar_t ageUserName[MAX_PATH];
wchar_t ageDesc[1024];
StrToUnicode(ageFilename, info->GetAgeFilename(), arrsize(ageFilename));
StrToUnicode(ageInstName, info->GetAgeInstanceName(), arrsize(ageInstName));
StrToUnicode(ageUserName, info->GetAgeUserDefinedName(), arrsize(ageUserName));
StrToUnicode(ageDesc, info->GetAgeDescription(), arrsize(ageDesc));
NetCliAuthVaultInitAge(
(Uuid)*info->GetAgeInstanceGuid(),
parentAgeInstId,
ageFilename,
ageInstName,
ageUserName,
ageDesc,
info->GetAgeSequenceNumber(),
info->GetAgeLanguage(),
VaultAgeInitTrans::AgeInitCallback,
trans
);
}
/*****************************************************************************
*
* Exports - Player Vault Access
*
***/
//============================================================================
static RelVaultNode * GetPlayerNode () {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_VNodeMgrPlayer);
if (NetCommGetPlayer())
templateNode->SetNodeId(NetCommGetPlayer()->playerInt);
RelVaultNode * result = GetNode(templateNode);
templateNode->DecRef();
return result;
}
//============================================================================
unsigned VaultGetPlayerId () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->nodeId;
return 0;
}
//============================================================================
RelVaultNode * VaultGetPlayerNodeIncRef () {
if (RelVaultNode * rvnPlr = GetPlayerNode()) {
rvnPlr->IncRef();
return rvnPlr;
}
return nil;
}
//============================================================================
RelVaultNode * VaultGetPlayerInfoNodeIncRef () {
RelVaultNode * rvnPlr = VaultGetPlayerNodeIncRef();
if (!rvnPlr)
return nil;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_PlayerInfo);
VaultPlayerInfoNode plrInfo(templateNode);
plrInfo.SetPlayerId(rvnPlr->nodeId);
rvnPlr->DecRef();
RelVaultNode * result = nil;
if (RelVaultNode * rvnPlrInfo = rvnPlr->GetChildNodeIncRef(templateNode, 1))
result = rvnPlrInfo;
templateNode->DecRef();
return result;
}
//============================================================================
RelVaultNode * VaultGetAvatarOutfitFolderIncRef () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->GetChildFolderNodeIncRef(plVault::kAvatarOutfitFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAvatarClosetFolderIncRef () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->GetChildFolderNodeIncRef(plVault::kAvatarClosetFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetChronicleFolderIncRef () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->GetChildFolderNodeIncRef(plVault::kChronicleFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgesIOwnFolderIncRef () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->GetChildAgeInfoListNodeIncRef(plVault::kAgesIOwnFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgesICanVisitFolderIncRef () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->GetChildAgeInfoListNodeIncRef(plVault::kAgesICanVisitFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetPlayerInboxFolderIncRef () {
if (RelVaultNode * rvn = GetPlayerNode())
return rvn->GetChildFolderNodeIncRef(plVault::kInboxFolder, 1);
return nil;
}
//============================================================================
bool VaultGetLinkToMyNeighborhood (plAgeLinkStruct * link) {
RelVaultNode * rvnFldr = VaultGetAgesIOwnFolderIncRef();
if (!rvnFldr)
return false;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
wchar_t str[MAX_PATH];
StrToUnicode(str, kNeighborhoodAgeFilename, arrsize(str));
ageInfo.SetAgeFilename(str);
RelVaultNode * node;
if (nil != (node = rvnFldr->GetChildNodeIncRef(templateNode, 2))) {
VaultAgeInfoNode info(node);
info.CopyTo(link->GetAgeInfo());
node->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
return node != nil;
}
//============================================================================
bool VaultGetLinkToMyPersonalAge (plAgeLinkStruct * link) {
RelVaultNode * rvnFldr = VaultGetAgesIOwnFolderIncRef();
if (!rvnFldr)
return false;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
wchar_t str[MAX_PATH];
StrToUnicode(str, kPersonalAgeFilename, arrsize(str));
ageInfo.SetAgeFilename(str);
RelVaultNode * node;
if (nil != (node = rvnFldr->GetChildNodeIncRef(templateNode, 2))) {
VaultAgeInfoNode info(node);
info.CopyTo(link->GetAgeInfo());
node->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
return node != nil;
}
//============================================================================
bool VaultGetLinkToCity (plAgeLinkStruct * link) {
RelVaultNode * rvnFldr = VaultGetAgesIOwnFolderIncRef();
if (!rvnFldr)
return false;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
wchar_t str[MAX_PATH];
StrToUnicode(str, kCityAgeFilename, arrsize(str));
ageInfo.SetAgeFilename(str);
RelVaultNode * node;
if (nil != (node = rvnFldr->GetChildNodeIncRef(templateNode, 2))) {
VaultAgeInfoNode info(node);
info.CopyTo(link->GetAgeInfo());
node->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
return node != nil;
}
//============================================================================
RelVaultNode * VaultGetOwnedAgeLinkIncRef (const plAgeInfoStruct * info) {
RelVaultNode * rvnLink = nil;
if (RelVaultNode * rvnFldr = VaultGetAgesIOwnFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
if (info->HasAgeFilename()) {
wchar_t str[MAX_PATH];
StrToUnicode(str, info->GetAgeFilename(), arrsize(str));
ageInfo.SetAgeFilename(str);
}
if (info->HasAgeInstanceGuid()) {
ageInfo.SetAgeInstGuid(*info->GetAgeInstanceGuid());
}
if (RelVaultNode * rvnInfo = rvnFldr->GetChildNodeIncRef(templateNode, 2)) {
templateNode->fieldFlags = 0;
templateNode->SetNodeType(plVault::kNodeType_AgeLink);
rvnLink = rvnInfo->GetParentNodeIncRef(templateNode, 1);
rvnInfo->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
}
return rvnLink;
}
//============================================================================
RelVaultNode * VaultGetOwnedAgeInfoIncRef (const plAgeInfoStruct * info) {
RelVaultNode * rvnInfo = nil;
if (RelVaultNode * rvnFldr = VaultGetAgesIOwnFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
if (info->HasAgeFilename()) {
wchar_t str[MAX_PATH];
StrToUnicode(str, info->GetAgeFilename(), arrsize(str));
ageInfo.SetAgeFilename(str);
}
if (info->HasAgeInstanceGuid()) {
ageInfo.SetAgeInstGuid(*info->GetAgeInstanceGuid());
}
rvnInfo = rvnFldr->GetChildNodeIncRef(templateNode, 2);
templateNode->DecRef();
rvnFldr->DecRef();
}
return rvnInfo;
}
//============================================================================
bool VaultGetOwnedAgeLink (const plAgeInfoStruct * info, plAgeLinkStruct * link) {
bool result = false;
if (RelVaultNode * rvnLink = VaultGetOwnedAgeLinkIncRef(info)) {
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode ageInfo(rvnInfo);
ageInfo.CopyTo(link->GetAgeInfo());
rvnInfo->DecRef();
result = true;
}
rvnLink->DecRef();
}
return result;
}
//============================================================================
bool VaultFindOrCreateChildAgeLinkAndWait (const wchar_t ownedAgeName[], const plAgeInfoStruct * info, plAgeLinkStruct * link) {
hsAssert(false, "eric, implement me");
return false;
}
//============================================================================
bool VaultAddOwnedAgeSpawnPoint (const Uuid & ageInstId, const plSpawnPointInfo & spawnPt) {
RelVaultNode * fldr = nil;
RelVaultNode * link = nil;
for (;;) {
if (spawnPt.GetName().IsEmpty())
break;
if (spawnPt.GetTitle().IsEmpty())
break;
fldr = VaultGetAgesIOwnFolderIncRef();
if (!fldr)
break;
ARRAY(unsigned) nodeIds;
fldr->GetChildNodeIds(&nodeIds, 1);
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode access(templateNode);
access.SetAgeInstGuid(ageInstId);
for (unsigned i = 0; i < nodeIds.Count(); ++i) {
link = VaultGetNodeIncRef(nodeIds[i]);
if (!link)
continue;
if (RelVaultNode * info = link->GetChildNodeIncRef(templateNode, 1)) {
VaultAgeLinkNode access(link);
access.AddSpawnPoint(spawnPt);
info->DecRef();
link->DecRef();
link = nil;
break;
}
}
templateNode->DecRef();
break;
}
if (fldr)
fldr->DecRef();
if (link)
link->DecRef();
return true;
}
//============================================================================
bool VaultSetOwnedAgePublicAndWait (const plAgeInfoStruct * info, bool publicOrNot) {
if (RelVaultNode * rvnLink = VaultGetOwnedAgeLinkIncRef(info)) {
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
NetCliAuthSetAgePublic(rvnInfo->nodeId, publicOrNot);
VaultAgeInfoNode access(rvnInfo);
char ageName[MAX_PATH];
StrToAnsi(ageName, access.ageFilename, arrsize(ageName));
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
if (publicOrNot)
msg->SetType(plVaultNotifyMsg::kPublicAgeCreated);
else
msg->SetType(plVaultNotifyMsg::kPublicAgeRemoved);
msg->SetResultCode(true);
msg->GetArgs()->AddString(plNetCommon::VaultTaskArgs::kAgeFilename, ageName);
msg->Send();
rvnInfo->DecRef();
}
rvnLink->DecRef();
}
return true;
}
//============================================================================
RelVaultNode * VaultGetVisitAgeLinkIncRef (const plAgeInfoStruct * info) {
RelVaultNode * rvnLink = nil;
if (RelVaultNode * rvnFldr = VaultGetAgesICanVisitFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
if (info->HasAgeFilename()) {
wchar_t str[MAX_PATH];
StrToUnicode(str, info->GetAgeFilename(), arrsize(str));
ageInfo.SetAgeFilename(str);
}
if (info->HasAgeInstanceGuid()) {
ageInfo.SetAgeInstGuid(*info->GetAgeInstanceGuid());
}
if (RelVaultNode * rvnInfo = rvnFldr->GetChildNodeIncRef(templateNode, 2)) {
templateNode->fieldFlags = 0;
templateNode->SetNodeType(plVault::kNodeType_AgeLink);
rvnLink = rvnInfo->GetParentNodeIncRef(templateNode, 1);
rvnInfo->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
}
return rvnLink;
}
//============================================================================
bool VaultGetVisitAgeLink (const plAgeInfoStruct * info, class plAgeLinkStruct * link) {
RelVaultNode * rvn = VaultGetVisitAgeLinkIncRef(info);
if (!rvn)
return false;
VaultAgeLinkNode ageLink(rvn);
ageLink.CopyTo(link);
rvn->DecRef();
return true;
}
//============================================================================
namespace _VaultRegisterOwnedAgeAndWait {
struct _InitAgeParam {
ENetError result;
bool complete;
unsigned ageInfoId;
};
static void _InitAgeCallback (
ENetError result,
void * ,
void * vparam,
unsigned ageVaultId,
unsigned ageInfoVaultId
) {
_InitAgeParam * param = (_InitAgeParam *)vparam;
param->ageInfoId = ageInfoVaultId;
param->result = result;
param->complete = true;
}
struct _FetchVaultParam {
ENetError result;
bool complete;
};
static void _FetchVaultCallback (
ENetError result,
void * vparam
) {
_FetchVaultParam * param = (_FetchVaultParam *)vparam;
param->result = result;
param->complete = true;
}
struct _CreateNodeParam {
ENetError result;
bool complete;
unsigned nodeId;
};
static void _CreateNodeCallback (
ENetError result,
void * ,
void * vparam,
RelVaultNode * node
) {
_CreateNodeParam * param = (_CreateNodeParam *)vparam;
if (IS_NET_SUCCESS(result))
param->nodeId = node->nodeId;
param->result = result;
param->complete = true;
}
struct _AddChildNodeParam {
ENetError result;
bool complete;
};
static void _AddChildNodeCallback (
ENetError result,
void * vparam
) {
_AddChildNodeParam * param = (_AddChildNodeParam *)vparam;
param->result = result;
param->complete = true;
}
} // namespace _VaultRegisterOwnedAgeAndWait
//============================================================================
bool VaultRegisterOwnedAgeAndWait (const plAgeLinkStruct * link) {
using namespace _VaultRegisterOwnedAgeAndWait;
unsigned ageLinkId = 0;
unsigned ageInfoId;
unsigned agesIOwnId;
bool result = false;
for (;;) {
if (RelVaultNode * rvn = VaultGetAgesIOwnFolderIncRef()) {
agesIOwnId = rvn->nodeId;
rvn->DecRef();
}
else {
LogMsg(kLogError, L"RegisterOwnedAge: Failed to get player's AgesIOwnFolder");
break;
}
// Check for existing link to this age
plAgeLinkStruct existing;
if (VaultGetOwnedAgeLink(link->GetAgeInfo(), &existing)) {
result = true;
break;
}
{ // Init age vault
_InitAgeParam param;
memset(¶m, 0, sizeof(param));
VaultInitAge(
link->GetAgeInfo(),
kNilGuid,
_InitAgeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"RegisterOwnedAge: Failed to init age %S", link->GetAgeInfo()->GetAgeFilename());
break;
}
ageInfoId = param.ageInfoId;
}
{ // Create age link
_CreateNodeParam param;
memset(¶m, 0, sizeof(param));
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"RegisterOwnedAge: Failed create age link node");
break;
}
ageLinkId = param.nodeId;
}
{ // Fetch age info node tree
_FetchVaultParam param;
memset(¶m, 0, sizeof(param));
VaultDownload(
L"RegisterOwnedAge",
ageInfoId,
_FetchVaultCallback,
¶m,
nil,
nil
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"RegisterOwnedAge: Failed to download age info vault");
break;
}
}
{ // Link:
// ageLink to player's bookshelf folder
// ageInfo to ageLink
// playerInfo to ageOwners
_AddChildNodeParam param1;
_AddChildNodeParam param2;
_AddChildNodeParam param3;
memset(¶m1, 0, sizeof(param1));
memset(¶m2, 0, sizeof(param2));
memset(¶m3, 0, sizeof(param3));
unsigned ageOwnersId = 0;
if (RelVaultNode * rvnAgeInfo = VaultGetNodeIncRef(ageInfoId)) {
if (RelVaultNode * rvnAgeOwners = rvnAgeInfo->GetChildPlayerInfoListNodeIncRef(plVault::kAgeOwnersFolder, 1)) {
ageOwnersId = rvnAgeOwners->nodeId;
rvnAgeOwners->DecRef();
}
rvnAgeInfo->DecRef();
}
unsigned playerInfoId = 0;
if (RelVaultNode * rvnPlayerInfo = VaultGetPlayerInfoNodeIncRef()) {
playerInfoId = rvnPlayerInfo->nodeId;
rvnPlayerInfo->DecRef();
}
VaultAddChildNode(
agesIOwnId,
ageLinkId,
0,
_AddChildNodeCallback,
¶m1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
¶m2
);
VaultAddChildNode(
ageOwnersId,
playerInfoId,
0,
_AddChildNodeCallback,
¶m3
);
while (!param1.complete && !param2.complete && !param3.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param1.result)) {
LogMsg(kLogError, L"RegisterOwnedAge: Failed to add link to player's bookshelf");
break;
}
if (IS_NET_ERROR(param2.result)) {
LogMsg(kLogError, L"RegisterOwnedAge: Failed to add info to link");
break;
}
if (IS_NET_ERROR(param3.result)) {
LogMsg(kLogError, L"RegisterOwnedAge: Failed to add playerInfo to ageOwners");
break;
}
}
// Copy the link spawn point to the link node
if (RelVaultNode * node = VaultGetNodeIncRef(ageLinkId)) {
VaultAgeLinkNode access(node);
access.AddSpawnPoint(link->SpawnPoint());
node->DecRef();
}
result = true;
break;
}
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kRegisteredOwnedAge);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, ageLinkId);
msg->Send();
return result;
}
//============================================================================
namespace _VaultRegisterOwnedAge {
struct _Params {
plSpawnPointInfo* fSpawn;
void* fAgeInfoId;
~_Params() {
delete fSpawn;
}
};
void _AddAgeInfoNode(ENetError result, void* param) {
if (IS_NET_ERROR(result))
LogMsg(kLogError, "VaultRegisterOwnedAge: Failed to add info to link (async)");
}
void _AddAgeLinkNode(ENetError result, void* param) {
if (IS_NET_ERROR(result))
LogMsg(kLogError, "VaultRegisterOwnedAge: Failed to add age to bookshelf (async)");
}
void _AddPlayerInfoNode(ENetError result, void* param) {
if (IS_NET_ERROR(result))
LogMsg(kLogError, "VaultRegisterOwnedAge: Failed to add playerInfo to ageOwners (async)");
}
void _CreateAgeLinkNode(ENetError result, void* state, void* param, RelVaultNode* node) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "VaultRegisterOwnedAge: Failed to create AgeLink (async)");
delete (_Params*)param;
return;
}
// Grab our params
_Params* p = (_Params*)param;
// Set swpoint
VaultAgeLinkNode aln(node);
aln.AddSpawnPoint(*(p->fSpawn));
// Make some refs
RelVaultNode* agesIOwn = VaultGetAgesIOwnFolderIncRef();
RelVaultNode* plyrInfo = VaultGetPlayerInfoNodeIncRef();
VaultAddChildNode(agesIOwn->nodeId, node->nodeId, 0, (FVaultAddChildNodeCallback)_AddAgeLinkNode, nil);
VaultAddChildNode(node->nodeId, (uint32_t)((uintptr_t)p->fAgeInfoId), 0, (FVaultAddChildNodeCallback)_AddAgeInfoNode, nil);
// Add our PlayerInfo to important places
if (RelVaultNode* rvnAgeInfo = VaultGetNodeIncRef((uint32_t)((uintptr_t)p->fAgeInfoId))) {
if (RelVaultNode* rvnAgeOwners = rvnAgeInfo->GetChildPlayerInfoListNodeIncRef(plVault::kAgeOwnersFolder, 1)) {
VaultAddChildNode(rvnAgeOwners->nodeId, plyrInfo->nodeId, 0, (FVaultAddChildNodeCallback)_AddPlayerInfoNode, nil);
rvnAgeOwners->DecRef();
}
rvnAgeInfo->DecRef();
}
// Fire off vault callbacks
plVaultNotifyMsg* msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kRegisteredOwnedAge);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, node->nodeId);
msg->Send();
// Don't leak memory
agesIOwn->DecRef();
plyrInfo->DecRef();
delete p;
}
void _DownloadCallback(ENetError result, void* param) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "VaultRegisterOwnedAge: Failed to download age vault (async)");
delete (_Params*)param;
} else
VaultCreateNode(plVault::kNodeType_AgeLink, (FVaultCreateNodeCallback)_CreateAgeLinkNode, nil, param);
}
void _InitAgeCallback(ENetError result, void* state, void* param, uint32_t ageVaultId, uint32_t ageInfoVaultId) {
if (IS_NET_SUCCESS(result)) {
_Params* p = new _Params();
p->fAgeInfoId = (void*)ageInfoVaultId;
p->fSpawn = (plSpawnPointInfo*)param;
VaultDownload(
L"RegisterOwnedAge",
ageInfoVaultId,
(FVaultDownloadCallback)_DownloadCallback,
p,
nil,
nil);
} else
LogMsg(kLogError, "VaultRegisterOwnedAge: Failed to init age (async)");
}
}; // namespace _VaultRegisterOwnedAge
void VaultRegisterOwnedAge(const plAgeLinkStruct* link) {
using namespace _VaultRegisterOwnedAge;
RelVaultNode* agesIOwn = VaultGetAgesIOwnFolderIncRef();
if (agesIOwn == nil) {
LogMsg(kLogError, "VaultRegisterOwnedAge: Couldn't find the stupid AgesIOwnfolder!");
return;
}
// Make sure we don't already have the age
plAgeLinkStruct existing;
if (VaultGetOwnedAgeLink(link->GetAgeInfo(), &existing))
return;
// Let's go async, my friend :)
VaultInitAge(link->GetAgeInfo(),
kNilGuid,
(FVaultInitAgeCallback)_InitAgeCallback,
nil,
new plSpawnPointInfo(link->SpawnPoint()));
}
//============================================================================
namespace _VaultRegisterVisitAgeAndWait {
struct _InitAgeParam {
ENetError result;
bool complete;
unsigned ageInfoId;
};
static void _InitAgeCallback (
ENetError result,
void * ,
void * vparam,
unsigned ageVaultId,
unsigned ageInfoVaultId
) {
_InitAgeParam * param = (_InitAgeParam *)vparam;
param->ageInfoId = ageInfoVaultId;
param->result = result;
param->complete = true;
}
struct _FetchVaultParam {
ENetError result;
bool complete;
};
static void _FetchVaultCallback (
ENetError result,
void * vparam
) {
_FetchVaultParam * param = (_FetchVaultParam *)vparam;
param->result = result;
param->complete = true;
}
struct _CreateNodeParam {
ENetError result;
bool complete;
unsigned nodeId;
};
static void _CreateNodeCallback (
ENetError result,
void * ,
void * vparam,
RelVaultNode * node
) {
_CreateNodeParam * param = (_CreateNodeParam *)vparam;
if (IS_NET_SUCCESS(result))
param->nodeId = node->nodeId;
param->result = result;
param->complete = true;
}
struct _AddChildNodeParam {
ENetError result;
bool complete;
};
static void _AddChildNodeCallback (
ENetError result,
void * vparam
) {
_AddChildNodeParam * param = (_AddChildNodeParam *)vparam;
param->result = result;
param->complete = true;
}
} // namespace _VaultRegisterVisitAgeAndWait
//============================================================================
bool VaultRegisterVisitAgeAndWait (const plAgeLinkStruct * link) {
using namespace _VaultRegisterVisitAgeAndWait;
unsigned ageLinkId = 0;
unsigned ageInfoId;
unsigned agesICanVisitId;
bool result = false;
for (;;) {
if (RelVaultNode * rvn = VaultGetAgesICanVisitFolderIncRef()) {
agesICanVisitId = rvn->nodeId;
rvn->DecRef();
}
else {
LogMsg(kLogError, L"RegisterVisitAge: Failed to get player's AgesICanVisitFolder");
break;
}
// Check for existing link to this age
plAgeLinkStruct existing;
if (VaultGetVisitAgeLink(link->GetAgeInfo(), &existing)) {
result = true;
break;
}
{ // Init age vault
_InitAgeParam param;
memset(¶m, 0, sizeof(param));
VaultInitAge(
link->GetAgeInfo(),
kNilGuid,
_InitAgeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"RegisterVisitAge: Failed to init age %S", link->GetAgeInfo()->GetAgeFilename());
break;
}
ageInfoId = param.ageInfoId;
}
{ // Create age link
_CreateNodeParam param;
memset(¶m, 0, sizeof(param));
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"RegisterVisitAge: Failed create age link node");
break;
}
ageLinkId = param.nodeId;
}
{ // Fetch age info node tree
_FetchVaultParam param;
memset(¶m, 0, sizeof(param));
VaultDownload(
L"RegisterVisitAge",
ageInfoId,
_FetchVaultCallback,
¶m,
nil,
nil
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"RegisterVisitAge: Failed to download age info vault");
break;
}
}
{ // Link:
// ageLink to player's "can visit" folder
// ageInfo to ageLink
_AddChildNodeParam param1;
_AddChildNodeParam param2;
_AddChildNodeParam param3;
memset(¶m1, 0, sizeof(param1));
memset(¶m2, 0, sizeof(param2));
memset(¶m3, 0, sizeof(param3));
unsigned ageVisitorsId = 0;
if (RelVaultNode * rvnAgeInfo = VaultGetNodeIncRef(ageInfoId)) {
if (RelVaultNode * rvnAgeVisitors = rvnAgeInfo->GetChildPlayerInfoListNodeIncRef(plVault::kCanVisitFolder, 1)) {
ageVisitorsId = rvnAgeVisitors->nodeId;
rvnAgeVisitors->DecRef();
}
rvnAgeInfo->DecRef();
}
unsigned playerInfoId = 0;
if (RelVaultNode * rvnPlayerInfo = VaultGetPlayerInfoNodeIncRef()) {
playerInfoId = rvnPlayerInfo->nodeId;
rvnPlayerInfo->DecRef();
}
VaultAddChildNode(
agesICanVisitId,
ageLinkId,
0,
_AddChildNodeCallback,
¶m1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
¶m2
);
VaultAddChildNode(
ageVisitorsId,
playerInfoId,
0,
_AddChildNodeCallback,
¶m3
);
while (!param1.complete && !param2.complete && !param3.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param1.result)) {
LogMsg(kLogError, L"RegisterVisitAge: Failed to add link to folder");
break;
}
if (IS_NET_ERROR(param2.result)) {
LogMsg(kLogError, L"RegisterVisitAge: Failed to add info to link");
break;
}
if (IS_NET_ERROR(param3.result)) {
LogMsg(kLogError, L"RegisterVisitAge: Failed to add playerInfo to canVisit folder");
break;
}
}
// Copy the link spawn point to the link node
if (RelVaultNode * node = VaultGetNodeIncRef(ageLinkId)) {
VaultAgeLinkNode access(node);
access.AddSpawnPoint(link->SpawnPoint());
node->DecRef();
}
result = true;
break;
}
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kRegisteredVisitAge);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, ageLinkId);
msg->Send();
return result;
}
//============================================================================
namespace _VaultRegisterVisitAge {
struct _Params {
plSpawnPointInfo* fSpawn;
void* fAgeInfoId;
~_Params() {
delete fSpawn;
}
};
void _CreateAgeLinkNode(ENetError result, void* state, void* param, RelVaultNode* node) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "RegisterVisitAge: Failed to create AgeLink (async)");
delete (_Params*)param;
return;
}
_Params* p = (_Params*)param;
RelVaultNode* ageInfo = VaultGetNodeIncRef((uint32_t)((uintptr_t)p->fAgeInfoId));
// Add ourselves to the Can Visit folder of the age
if (RelVaultNode * playerInfo = VaultGetPlayerInfoNodeIncRef()) {
if (RelVaultNode* canVisit = ageInfo->GetChildPlayerInfoListNodeIncRef(plVault::kCanVisitFolder, 1)) {
VaultAddChildNode(canVisit->nodeId, playerInfo->nodeId, 0, nil, nil);
canVisit->DecRef();
}
playerInfo->DecRef();
}
// Get our AgesICanVisit folder
if (RelVaultNode* iCanVisit = VaultGetAgesICanVisitFolderIncRef()) {
VaultAddChildNode(node->nodeId, ageInfo->nodeId, 0, nil, nil);
VaultAddChildNode(iCanVisit->nodeId, node->nodeId, 0, nil, nil);
}
// Update the AgeLink with a spawn point
VaultAgeLinkNode access(node);
access.AddSpawnPoint(*p->fSpawn);
// Send out the VaultNotify msg
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kRegisteredVisitAge);
msg->SetResultCode(true);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, node->nodeId);
msg->Send();
//Don't leak memory
delete (_Params*)param;
}
void _DownloadCallback(ENetError result, void* param) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "RegisterVisitAge: Failed to download age vault (async)");
delete (_Params*)param;
return;
}
// Create the AgeLink node
VaultCreateNode(plVault::kNodeType_AgeLink, (FVaultCreateNodeCallback)_CreateAgeLinkNode, nil, param);
}
void _InitAgeCallback(ENetError result, void* state, void* param, uint32_t ageVaultId, uint32_t ageInfoId) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "RegisterVisitAge: Failed to init age vault (async)");
delete (_Params*)param;
return;
}
// Save the AgeInfo nodeID, then download the age vault
_Params* p = (_Params*)param;
p->fAgeInfoId = (void*)ageInfoId;
VaultDownload(L"RegisterVisitAge",
ageInfoId,
(FVaultDownloadCallback)_DownloadCallback,
param,
nil,
nil
);
}
};
void VaultRegisterVisitAge(const plAgeLinkStruct* link) {
using namespace _VaultRegisterVisitAge;
// Test to see if we already have this visit age...
plAgeLinkStruct existing;
if (VaultGetVisitAgeLink(link->GetAgeInfo(), &existing))
return;
// Still here? We need to actually do some work, then.
_Params* p = new _Params;
p->fSpawn = new plSpawnPointInfo(link->SpawnPoint());
// This doesn't actually *create* a new age but rather fetches the
// already existing age vault. Weird? Yes...
VaultInitAge(link->GetAgeInfo(),
kNilGuid,
(FVaultInitAgeCallback)_InitAgeCallback,
nil,
p
);
}
//============================================================================
bool VaultUnregisterOwnedAgeAndWait (const plAgeInfoStruct * info) {
unsigned ageLinkId = 0;
unsigned agesIOwnId;
bool result = false;
for (;;) {
RelVaultNode * rvnLink = VaultGetOwnedAgeLinkIncRef(info);
if (!rvnLink) {
result = true;
break; // we aren't an owner of the age, just return true
}
if (RelVaultNode * rvn = VaultGetAgesIOwnFolderIncRef()) {
agesIOwnId = rvn->nodeId;
rvn->DecRef();
}
else {
LogMsg(kLogError, L"UnregisterOwnedAge: Failed to get player's AgesIOwnFolder");
break; // something's wrong with the player vault, it doesn't have a required folder node
}
ageLinkId = rvnLink->nodeId;
unsigned ageOwnersId = 0;
if (RelVaultNode * rvnAgeInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
if (RelVaultNode * rvnAgeOwners = rvnAgeInfo->GetChildPlayerInfoListNodeIncRef(plVault::kAgeOwnersFolder, 1)) {
ageOwnersId = rvnAgeOwners->nodeId;
rvnAgeOwners->DecRef();
}
rvnAgeInfo->DecRef();
}
unsigned playerInfoId = 0;
if (RelVaultNode * rvnPlayerInfo = VaultGetPlayerInfoNodeIncRef()) {
playerInfoId = rvnPlayerInfo->nodeId;
rvnPlayerInfo->DecRef();
}
rvnLink->DecRef();
// remove our playerInfo from the ageOwners folder
VaultRemoveChildNode(ageOwnersId, playerInfoId, nil, nil);
// remove the link from AgesIOwn folder
VaultRemoveChildNode(agesIOwnId, ageLinkId, nil, nil);
// delete the link node since link nodes aren't shared with anyone else
// VaultDeleteNode(ageLinkId);
result = true;
break;
}
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kUnRegisteredOwnedAge);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, ageLinkId);
msg->Send();
return result;
}
//============================================================================
bool VaultUnregisterVisitAgeAndWait (const plAgeInfoStruct * info) {
unsigned ageLinkId = 0;
unsigned agesICanVisitId;
bool result = false;
for (;;) {
RelVaultNode * rvnLink = VaultGetVisitAgeLinkIncRef(info);
if (!rvnLink) {
result = true;
break; // we aren't an owner of the age, just return true
}
if (RelVaultNode * rvn = VaultGetAgesICanVisitFolderIncRef()) {
agesICanVisitId = rvn->nodeId;
rvn->DecRef();
}
else {
LogMsg(kLogError, L"UnregisterOwnedAge: Failed to get player's AgesICanVisitFolder");
break; // something's wrong with the player vault, it doesn't have a required folder node
}
ageLinkId = rvnLink->nodeId;
unsigned ageVisitorsId = 0;
if (RelVaultNode * rvnAgeInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
if (RelVaultNode * rvnAgeVisitors = rvnAgeInfo->GetChildPlayerInfoListNodeIncRef(plVault::kCanVisitFolder, 1)) {
ageVisitorsId = rvnAgeVisitors->nodeId;
rvnAgeVisitors->DecRef();
}
rvnAgeInfo->DecRef();
}
unsigned playerInfoId = 0;
if (RelVaultNode * rvnPlayerInfo = VaultGetPlayerInfoNodeIncRef()) {
playerInfoId = rvnPlayerInfo->nodeId;
rvnPlayerInfo->DecRef();
}
rvnLink->DecRef();
// remove our playerInfo from the ageVisitors folder
VaultRemoveChildNode(ageVisitorsId, playerInfoId, nil, nil);
// remove the link from AgesICanVisit folder
VaultRemoveChildNode(agesICanVisitId, ageLinkId, nil, nil);
// delete the link node since link nodes aren't shared with anyone else
// VaultDeleteNode(ageLinkId);
result = true;
break;
}
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kUnRegisteredVisitAge);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, ageLinkId);
msg->Send();
return result;
}
//============================================================================
RelVaultNode * VaultFindChronicleEntryIncRef (const wchar_t entryName[], int entryType) {
RelVaultNode * result = nil;
if (RelVaultNode * rvnFldr = GetChildFolderNode(GetPlayerNode(), plVault::kChronicleFolder, 1)) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_Chronicle);
VaultChronicleNode chrn(templateNode);
chrn.SetEntryName(entryName);
if (entryType >= 0)
chrn.SetEntryType(entryType);
if (RelVaultNode * rvnChrn = rvnFldr->GetChildNodeIncRef(templateNode, 255))
result = rvnChrn;
templateNode->DecRef();
}
return result;
}
//============================================================================
bool VaultHasChronicleEntry (const wchar_t entryName[], int entryType) {
if (RelVaultNode * rvn = VaultFindChronicleEntryIncRef(entryName, entryType)) {
rvn->DecRef();
return true;
}
return false;
}
//============================================================================
void VaultAddChronicleEntryAndWait (
const wchar_t entryName[],
int entryType,
const wchar_t entryValue[]
) {
if (RelVaultNode * rvnChrn = VaultFindChronicleEntryIncRef(entryName, entryType)) {
VaultChronicleNode chrnNode(rvnChrn);
chrnNode.SetEntryValue(entryValue);
}
else if (RelVaultNode * rvnFldr = GetChildFolderNode(GetPlayerNode(), plVault::kChronicleFolder, 1)) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_Chronicle);
VaultChronicleNode chrnNode(templateNode);
chrnNode.SetEntryName(entryName);
chrnNode.SetEntryType(entryType);
chrnNode.SetEntryValue(entryValue);
ENetError result;
if (RelVaultNode * rvnChrn = VaultCreateNodeAndWaitIncRef(templateNode, &result)) {
VaultAddChildNode(rvnFldr->nodeId, rvnChrn->nodeId, 0, nil, nil);
rvnChrn->DecRef();
}
templateNode->DecRef();
}
}
//============================================================================
bool VaultAmIgnoringPlayer (unsigned playerId) {
bool retval = false;
if (RelVaultNode * rvnFldr = GetChildPlayerInfoListNode(GetPlayerNode(), plVault::kIgnoreListFolder, 1)) {
rvnFldr->IncRef();
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_PlayerInfo);
VaultPlayerInfoNode pinfoNode(templateNode);
pinfoNode.SetPlayerId(playerId);
if (RelVaultNode * rvnPlayerInfo = rvnFldr->GetChildNodeIncRef(templateNode, 1)) {
retval = true;
rvnPlayerInfo->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
}
return retval;
}
//============================================================================
unsigned VaultGetKILevel () {
hsAssert(false, "eric, implement me");
return pfKIMsg::kNanoKI;
}
//============================================================================
bool VaultGetCCRStatus () {
bool retval = false;
if (RelVaultNode * rvnSystem = VaultGetSystemNodeIncRef()) {
VaultSystemNode sysNode(rvnSystem);
retval = (sysNode.ccrStatus != 0);
rvnSystem->DecRef();
}
return retval;
}
//============================================================================
bool VaultSetCCRStatus (bool online) {
bool retval = false;
if (RelVaultNode * rvnSystem = VaultGetSystemNodeIncRef()) {
VaultSystemNode sysNode(rvnSystem);
sysNode.SetCCRStatus(online ? 1 : 0);
rvnSystem->DecRef();
retval = true;
}
return retval;
}
//============================================================================
void VaultDump (const wchar_t tag[], unsigned vaultId, FStateDump dumpProc) {
LogMsg(kLogDebug, L"<---- ID:%u, Begin Vault%*s%s ---->", vaultId, tag ? 1 : 0, L" ", tag);
if (RelVaultNode * rvn = GetNode(vaultId))
rvn->PrintTree(dumpProc, 0);
LogMsg(kLogDebug, L"<---- ID:%u, End Vault%*s%s ---->", vaultId, tag ? 1 : 0, L" ", tag);
}
//============================================================================
void VaultDump (const wchar_t tag[], unsigned vaultId) {
VaultDump (tag, vaultId, LogDumpProc);
}
//============================================================================
bool VaultAmInMyPersonalAge () {
bool result = false;
plAgeInfoStruct info;
info.SetAgeFilename(kPersonalAgeFilename);
if (RelVaultNode * rvnLink = VaultGetOwnedAgeLinkIncRef(&info)) {
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode ageInfo(rvnInfo);
if (RelVaultNode* currentAgeInfoNode = VaultGetAgeInfoNodeIncRef()) {
VaultAgeInfoNode curAgeInfo(currentAgeInfoNode);
if (ageInfo.ageInstUuid == curAgeInfo.ageInstUuid)
result = true;
currentAgeInfoNode->DecRef();
}
rvnInfo->DecRef();
}
rvnLink->DecRef();
}
return result;
}
//============================================================================
bool VaultAmInMyNeighborhoodAge () {
bool result = false;
plAgeInfoStruct info;
info.SetAgeFilename(kNeighborhoodAgeFilename);
if (RelVaultNode * rvnLink = VaultGetOwnedAgeLinkIncRef(&info)) {
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode ageInfo(rvnInfo);
if (RelVaultNode* currentAgeInfoNode = VaultGetAgeInfoNodeIncRef()) {
VaultAgeInfoNode curAgeInfo(currentAgeInfoNode);
if (ageInfo.ageInstUuid == curAgeInfo.ageInstUuid)
result = true;
currentAgeInfoNode->DecRef();
}
rvnInfo->DecRef();
}
rvnLink->DecRef();
}
return result;
}
//============================================================================
bool VaultAmOwnerOfCurrentAge () {
bool result = false;
if (RelVaultNode* currentAgeInfoNode = VaultGetAgeInfoNodeIncRef()) {
VaultAgeInfoNode curAgeInfo(currentAgeInfoNode);
char* ageFilename = StrDupToAnsi(curAgeInfo.ageFilename);
plAgeInfoStruct info;
info.SetAgeFilename(ageFilename);
free(ageFilename);
if (RelVaultNode * rvnLink = VaultGetOwnedAgeLinkIncRef(&info)) {
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode ageInfo(rvnInfo);
if (ageInfo.ageInstUuid == curAgeInfo.ageInstUuid)
result = true;
rvnInfo->DecRef();
}
rvnLink->DecRef();
}
currentAgeInfoNode->DecRef();
}
return result;
}
//============================================================================
bool VaultAmCzarOfCurrentAge () {
hsAssert(false, "eric, implement me");
return true;
}
//============================================================================
bool VaultAmOwnerOfAge (const Uuid & ageInstId) {
hsAssert(false, "eric, implement me");
return true;
}
//============================================================================
bool VaultAmCzarOfAge (const Uuid & ageInstId) {
// hsAssert(false, "eric, implement me");
return false;
}
//============================================================================
bool VaultRegisterMTStationAndWait (
const wchar_t stationName[],
const wchar_t linkBackSpawnPtObjName[]
) {
plAgeInfoStruct info;
info.SetAgeFilename(kCityAgeFilename);
if (RelVaultNode * rvn = VaultGetOwnedAgeLinkIncRef(&info)) {
char title[MAX_PATH], spawnPt[MAX_PATH];
StrToAnsi(title, stationName, arrsize(title));
StrToAnsi(spawnPt, linkBackSpawnPtObjName, arrsize(spawnPt));
VaultAgeLinkNode link(rvn);
link.AddSpawnPoint(plSpawnPointInfo(title, spawnPt));
rvn->DecRef();
return true;
}
return false;
}
//============================================================================
void VaultProcessVisitNote(RelVaultNode * rvnVisit) {
if (RelVaultNode * rvnInbox = VaultGetPlayerInboxFolderIncRef()) {
rvnVisit->IncRef();
VaultTextNoteNode visitAcc(rvnVisit);
plAgeLinkStruct link;
if (visitAcc.GetVisitInfo(link.GetAgeInfo())) {
// Add it to our "ages i can visit" folder
VaultRegisterVisitAge(&link);
}
// remove it from the inbox
VaultRemoveChildNode(rvnInbox->nodeId, rvnVisit->nodeId, nil, nil);
rvnVisit->DecRef();
rvnInbox->DecRef();
}
}
//============================================================================
void VaultProcessUnvisitNote(RelVaultNode * rvnUnVisit) {
if (RelVaultNode * rvnInbox = VaultGetPlayerInboxFolderIncRef()) {
rvnUnVisit->IncRef();
VaultTextNoteNode unvisitAcc(rvnUnVisit);
plAgeInfoStruct info;
if (unvisitAcc.GetVisitInfo(&info)) {
// Remove it from our "ages i can visit" folder
VaultUnregisterVisitAgeAndWait(&info);
}
// remove it from the inbox
VaultRemoveChildNode(rvnInbox->nodeId, rvnUnVisit->nodeId, nil, nil);
rvnUnVisit->DecRef();
rvnInbox->DecRef();
}
}
//============================================================================
void VaultProcessPlayerInbox () {
if (RelVaultNode * rvnInbox = VaultGetPlayerInboxFolderIncRef()) {
{ // Process new visit requests
ARRAY(RelVaultNode*) visits;
RelVaultNode * templateNode = NEWZERO(RelVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_TextNote);
VaultTextNoteNode tmpAcc(templateNode);
tmpAcc.SetNoteType(plVault::kNoteType_Visit);
rvnInbox->GetChildNodesIncRef(templateNode, 1, &visits);
templateNode->DecRef();
for (unsigned i = 0; i < visits.Count(); ++i) {
RelVaultNode * rvnVisit = visits[i];
VaultTextNoteNode visitAcc(rvnVisit);
plAgeLinkStruct link;
if (visitAcc.GetVisitInfo(link.GetAgeInfo())) {
// Add it to our "ages i can visit" folder
VaultRegisterVisitAge(&link);
}
// remove it from the inbox
VaultRemoveChildNode(rvnInbox->nodeId, rvnVisit->nodeId, nil, nil);
rvnVisit->DecRef();
}
}
{ // Process new unvisit requests
ARRAY(RelVaultNode*) unvisits;
RelVaultNode * templateNode = NEWZERO(RelVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_TextNote);
VaultTextNoteNode tmpAcc(templateNode);
tmpAcc.SetNoteType(plVault::kNoteType_UnVisit);
rvnInbox->GetChildNodesIncRef(templateNode, 1, &unvisits);
templateNode->DecRef();
for (unsigned i = 0; i < unvisits.Count(); ++i) {
RelVaultNode * rvnUnVisit = unvisits[i];
VaultTextNoteNode unvisitAcc(rvnUnVisit);
plAgeInfoStruct info;
if (unvisitAcc.GetVisitInfo(&info)) {
// Remove it from our "ages i can visit" folder
VaultUnregisterVisitAgeAndWait(&info);
}
// remove it from the inbox
VaultRemoveChildNode(rvnInbox->nodeId, rvnUnVisit->nodeId, nil, nil);
rvnUnVisit->DecRef();
}
}
rvnInbox->DecRef();
}
}
/*****************************************************************************
*
* Exports - Age Vault Access
*
***/
//============================================================================
static RelVaultNode * GetAgeNode () {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_VNodeMgrAge);
if (NetCommGetAge())
templateNode->SetNodeId(NetCommGetAge()->ageVaultId);
RelVaultNode * result = GetNode(templateNode);
templateNode->DecRef();
return result;
}
//============================================================================
RelVaultNode * VaultGetAgeNodeIncRef () {
RelVaultNode * result = nil;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_VNodeMgrAge);
if (NetCommGetAge())
templateNode->SetNodeId(NetCommGetAge()->ageVaultId);
if (RelVaultNode * rvnAge = VaultGetNodeIncRef(templateNode))
result = rvnAge;
templateNode->DecRef();
return result;
}
//============================================================================
static RelVaultNode * GetAgeInfoNode () {
RelVaultNode * rvnAge = VaultGetAgeNodeIncRef();
if (!rvnAge)
return nil;
RelVaultNode * result = nil;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
templateNode->SetCreatorId(rvnAge->nodeId);
if (RelVaultNode * rvnAgeInfo = rvnAge->GetChildNodeIncRef(templateNode, 1)) {
rvnAgeInfo->DecRef();
result = rvnAgeInfo;
}
templateNode->DecRef();
rvnAge->DecRef();
return result;
}
//============================================================================
RelVaultNode * VaultGetAgeInfoNodeIncRef () {
RelVaultNode * rvnAge = VaultGetAgeNodeIncRef();
if (!rvnAge)
return nil;
RelVaultNode * result = nil;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
templateNode->SetCreatorId(rvnAge->nodeId);
if (RelVaultNode * rvnAgeInfo = rvnAge->GetChildNodeIncRef(templateNode, 1))
result = rvnAgeInfo;
templateNode->DecRef();
rvnAge->DecRef();
return result;
}
//============================================================================
RelVaultNode * VaultGetAgeChronicleFolderIncRef () {
if (RelVaultNode * rvn = GetAgeNode())
return rvn->GetChildFolderNodeIncRef(plVault::kChronicleFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgeDevicesFolderIncRef () {
if (RelVaultNode * rvn = GetAgeNode())
return rvn->GetChildFolderNodeIncRef(plVault::kAgeDevicesFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgeAgeOwnersFolderIncRef () {
if (RelVaultNode * rvn = GetAgeInfoNode())
return rvn->GetChildPlayerInfoListNodeIncRef(plVault::kAgeOwnersFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgeCanVisitFolderIncRef () {
if (RelVaultNode * rvn = GetAgeInfoNode())
return rvn->GetChildPlayerInfoListNodeIncRef(plVault::kCanVisitFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgePeopleIKnowAboutFolderIncRef () {
if (RelVaultNode * rvn = GetAgeNode())
return rvn->GetChildPlayerInfoListNodeIncRef(plVault::kPeopleIKnowAboutFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgeSubAgesFolderIncRef () {
if (RelVaultNode * rvn = GetAgeNode())
return rvn->GetChildAgeInfoListNodeIncRef(plVault::kSubAgesFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultGetAgePublicAgesFolderIncRef () {
hsAssert(false, "eric, implement me");
return nil;
}
//============================================================================
RelVaultNode * VaultAgeGetBookshelfFolderIncRef () {
if (RelVaultNode * rvn = GetAgeNode())
return rvn->GetChildAgeInfoListNodeIncRef(plVault::kAgesIOwnFolder, 1);
return nil;
}
//============================================================================
RelVaultNode * VaultFindAgeSubAgeLinkIncRef (const plAgeInfoStruct * info) {
RelVaultNode * rvnLink = nil;
if (RelVaultNode * rvnFldr = VaultGetAgeSubAgesFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
wchar_t str[MAX_PATH];
StrToUnicode(str, info->GetAgeFilename(), arrsize(str));
ageInfo.SetAgeFilename(str);
if (RelVaultNode * rvnInfo = rvnFldr->GetChildNodeIncRef(templateNode, 2)) {
templateNode->fieldFlags = 0;
templateNode->SetNodeType(plVault::kNodeType_AgeLink);
rvnLink = rvnInfo->GetParentNodeIncRef(templateNode, 1);
rvnInfo->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
}
return rvnLink;
}
//============================================================================
RelVaultNode * VaultFindAgeChronicleEntryIncRef (const wchar_t entryName[], int entryType) {
hsAssert(false, "eric, implement me");
return nil;
}
//============================================================================
void VaultAddAgeChronicleEntry (
const wchar_t entryName[],
int entryType,
const wchar_t entryValue[]
) {
hsAssert(false, "eric, implement me");
}
//============================================================================
RelVaultNode * VaultAgeAddDeviceAndWaitIncRef (const wchar_t deviceName[]) {
if (RelVaultNode * existing = VaultAgeGetDeviceIncRef(deviceName))
return existing;
RelVaultNode * device = nil;
RelVaultNode * folder = nil;
for (;;) {
folder = VaultGetAgeDevicesFolderIncRef();
if (!folder)
break;
ENetError result;
device = VaultCreateNodeAndWaitIncRef(plVault::kNodeType_TextNote, &result);
if (!device)
break;
VaultTextNoteNode access(device);
access.SetNoteType(plVault::kNoteType_Device);
access.SetNoteTitle(deviceName);
VaultAddChildNodeAndWait(folder->nodeId, device->nodeId, 0);
break;
}
if (folder)
folder->DecRef();
return device;
}
//============================================================================
void VaultAgeRemoveDevice (const wchar_t deviceName[]) {
if (RelVaultNode * folder = VaultGetAgeDevicesFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_TextNote);
VaultTextNoteNode access(templateNode);
access.SetNoteTitle(deviceName);
if (RelVaultNode * device = folder->GetChildNodeIncRef(templateNode, 1)) {
VaultRemoveChildNode(folder->nodeId, device->nodeId, nil, nil);
device->DecRef();
if (DeviceInbox * deviceInbox = s_ageDeviceInboxes.Find(CHashKeyStr(deviceName)))
delete device;
}
templateNode->DecRef();
folder->DecRef();
}
}
//============================================================================
bool VaultAgeHasDevice (const wchar_t deviceName[]) {
bool found = false;
if (RelVaultNode * folder = VaultGetAgeDevicesFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_TextNote);
VaultTextNoteNode access(templateNode);
access.SetNoteTitle(deviceName);
if (RelVaultNode * device = folder->GetChildNodeIncRef(templateNode, 1)) {
found = true;
device->DecRef();
}
templateNode->DecRef();
folder->DecRef();
}
return found;
}
//============================================================================
RelVaultNode * VaultAgeGetDeviceIncRef (const wchar_t deviceName[]) {
RelVaultNode * result = nil;
if (RelVaultNode * folder = VaultGetAgeDevicesFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_TextNote);
VaultTextNoteNode access(templateNode);
access.SetNoteTitle(deviceName);
if (RelVaultNode * device = folder->GetChildNodeIncRef(templateNode, 1))
result = device;
templateNode->DecRef();
folder->DecRef();
}
return result;
}
//============================================================================
RelVaultNode * VaultAgeSetDeviceInboxAndWaitIncRef (const wchar_t deviceName[], const wchar_t inboxName[]) {
DeviceInbox * devInbox = s_ageDeviceInboxes.Find(CHashKeyStr(deviceName));
if (devInbox) {
StrCopy(devInbox->inboxName, inboxName, arrsize(devInbox->inboxName));
}
else {
devInbox = NEWZERO(DeviceInbox)(deviceName, inboxName);
s_ageDeviceInboxes.Add(devInbox);
}
// if we found the inbox or its a global inbox then return here, otherwise if its the default inbox and
// it wasn't found then continue on and create the inbox
RelVaultNode * existing = VaultAgeGetDeviceInboxIncRef(deviceName);
if (existing || StrCmp(inboxName, DEFAULT_DEVICE_INBOX) != 0)
return existing;
RelVaultNode * device = nil;
RelVaultNode * inbox = nil;
for (;;) {
device = VaultAgeGetDeviceIncRef(deviceName);
if (!device)
break;
ENetError result;
inbox = VaultCreateNodeAndWaitIncRef(plVault::kNodeType_Folder, &result);
if (!inbox)
break;
VaultFolderNode access(inbox);
access.SetFolderName(inboxName);
access.SetFolderType(plVault::kDeviceInboxFolder);
VaultAddChildNodeAndWait(device->nodeId, inbox->nodeId, 0);
break;
}
return inbox;
}
//============================================================================
RelVaultNode * VaultAgeGetDeviceInboxIncRef (const wchar_t deviceName[]) {
RelVaultNode * result = nil;
DeviceInbox * devInbox = s_ageDeviceInboxes.Find(CHashKeyStr(deviceName));
if (devInbox)
{
RelVaultNode * parentNode = nil;
const wchar_t * inboxName = nil;
if (StrCmp(devInbox->inboxName, DEFAULT_DEVICE_INBOX) == 0) {
parentNode = VaultAgeGetDeviceIncRef(deviceName);
}
else {
parentNode = VaultGetGlobalInboxIncRef();
}
if (parentNode) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_Folder);
VaultFolderNode access(templateNode);
access.SetFolderType(plVault::kDeviceInboxFolder);
access.SetFolderName(devInbox->inboxName);
result = parentNode->GetChildNodeIncRef(templateNode, 1);
templateNode->DecRef();
parentNode->DecRef();
}
}
return result;
}
//============================================================================
void VaultClearDeviceInboxMap () {
while (DeviceInbox * inbox = s_ageDeviceInboxes.Head()) {
delete inbox;
}
}
//============================================================================
bool VaultAgeGetAgeSDL (plStateDataRecord * out) {
bool result = false;
if (RelVaultNode * rvn = VaultGetAgeInfoNodeIncRef()) {
if (RelVaultNode * rvnSdl = rvn->GetChildNodeIncRef(plVault::kNodeType_SDL, 1)) {
VaultSDLNode sdl(rvnSdl);
result = sdl.GetStateDataRecord(out, plSDL::kKeepDirty);
if (!result) {
sdl.InitStateDataRecord(sdl.sdlName);
result = sdl.GetStateDataRecord(out, plSDL::kKeepDirty);
}
rvnSdl->DecRef();
}
rvn->DecRef();
}
return result;
}
//============================================================================
void VaultAgeUpdateAgeSDL (const plStateDataRecord * rec) {
if (RelVaultNode * rvn = VaultGetAgeInfoNodeIncRef()) {
if (RelVaultNode * rvnSdl = rvn->GetChildNodeIncRef(plVault::kNodeType_SDL, 1)) {
VaultSDLNode sdl(rvnSdl);
sdl.SetStateDataRecord(rec, plSDL::kDirtyOnly | plSDL::kTimeStampOnRead);
rvnSdl->DecRef();
}
rvn->DecRef();
}
}
//============================================================================
unsigned VaultAgeGetAgeTime () {
hsAssert(false, "eric, implement me");
return 0;
}
//============================================================================
RelVaultNode * VaultGetSubAgeLinkIncRef (const plAgeInfoStruct * info) {
RelVaultNode * rvnLink = nil;
if (RelVaultNode * rvnFldr = VaultGetAgeSubAgesFolderIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
wchar_t str[MAX_PATH];
StrToUnicode(str, info->GetAgeFilename(), arrsize(str));
ageInfo.SetAgeFilename(str);
if (RelVaultNode * rvnInfo = rvnFldr->GetChildNodeIncRef(templateNode, 2)) {
templateNode->fieldFlags = 0;
templateNode->SetNodeType(plVault::kNodeType_AgeLink);
rvnLink = rvnInfo->GetParentNodeIncRef(templateNode, 1);
rvnInfo->DecRef();
}
templateNode->DecRef();
rvnFldr->DecRef();
}
return rvnLink;
}
//============================================================================
bool VaultAgeGetSubAgeLink (const plAgeInfoStruct * info, plAgeLinkStruct * link) {
bool result = false;
if (RelVaultNode * rvnLink = VaultGetSubAgeLinkIncRef(info)) {
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode ageInfo(rvnInfo);
ageInfo.CopyTo(link->GetAgeInfo());
rvnInfo->DecRef();
result = true;
}
rvnLink->DecRef();
}
return result;
}
//============================================================================
namespace _VaultCreateSubAgeAndWait {
struct _InitAgeParam {
ENetError result;
bool complete;
unsigned ageInfoId;
};
static void _InitAgeCallback (
ENetError result,
void * ,
void * vparam,
unsigned ageVaultId,
unsigned ageInfoVaultId
) {
_InitAgeParam * param = (_InitAgeParam *)vparam;
param->ageInfoId = ageInfoVaultId;
param->result = result;
param->complete = true;
}
struct _FetchVaultParam {
ENetError result;
bool complete;
};
static void _FetchVaultCallback (
ENetError result,
void * vparam
) {
_FetchVaultParam * param = (_FetchVaultParam *)vparam;
param->result = result;
param->complete = true;
}
struct _CreateNodeParam {
ENetError result;
bool complete;
unsigned nodeId;
};
static void _CreateNodeCallback (
ENetError result,
void * ,
void * vparam,
RelVaultNode * node
) {
_CreateNodeParam * param = (_CreateNodeParam *)vparam;
if (IS_NET_SUCCESS(result))
param->nodeId = node->nodeId;
param->result = result;
param->complete = true;
}
struct _AddChildNodeParam {
ENetError result;
bool complete;
};
static void _AddChildNodeCallback (
ENetError result,
void * vparam
) {
_AddChildNodeParam * param = (_AddChildNodeParam *)vparam;
param->result = result;
param->complete = true;
}
} // namespace _VaultCreateSubAgeAndWait
//============================================================================
bool VaultAgeFindOrCreateSubAgeLinkAndWait (
const plAgeInfoStruct * info,
plAgeLinkStruct * link,
const Uuid & parentAgeInstId
) {
if (RelVaultNode * rvnLink = VaultFindAgeSubAgeLinkIncRef(info)) {
VaultAgeLinkNode linkAcc(rvnLink);
linkAcc.CopyTo(link);
if (RelVaultNode * rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode infoAcc(rvnInfo);
infoAcc.CopyTo(link->GetAgeInfo());
rvnInfo->DecRef();
rvnLink->DecRef();
return true;
}
}
using namespace _VaultCreateSubAgeAndWait;
unsigned subAgesId;
unsigned ageInfoId;
unsigned ageLinkId;
if (RelVaultNode * rvnSubAges = VaultGetAgeSubAgesFolderIncRef()) {
subAgesId = rvnSubAges->nodeId;
rvnSubAges->DecRef();
}
else {
LogMsg(kLogError, L"CreateSubAge: Failed to get ages's SubAges folder");
return false;
}
{ // Init age vault
_InitAgeParam param;
memset(¶m, 0, sizeof(param));
VaultInitAge(
info,
parentAgeInstId,
_InitAgeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"CreateSubAge: Failed to init age %S", link->GetAgeInfo()->GetAgeFilename());
return false;
}
ageInfoId = param.ageInfoId;
}
{ // Create age link
_CreateNodeParam param;
memset(¶m, 0, sizeof(param));
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"CreateSubAge: Failed create age link node");
return false;
}
ageLinkId = param.nodeId;
}
{ // Fetch age info node tree
_FetchVaultParam param;
memset(¶m, 0, sizeof(param));
VaultDownload(
L"CreateSubAge",
ageInfoId,
_FetchVaultCallback,
¶m,
nil,
nil
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"CreateSubAge: Failed to download age info vault");
return false;
}
}
{ // Link:
// ageLink to ages's subages folder
// ageInfo to ageLink
_AddChildNodeParam param1;
_AddChildNodeParam param2;
memset(¶m1, 0, sizeof(param1));
memset(¶m2, 0, sizeof(param2));
VaultAddChildNode(
subAgesId,
ageLinkId,
0,
_AddChildNodeCallback,
¶m1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
¶m2
);
while (!param1.complete && !param2.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param1.result)) {
LogMsg(kLogError, L"CreateSubAge: Failed to add link to ages's subages");
return false;
}
if (IS_NET_ERROR(param2.result)) {
LogMsg(kLogError, L"CreateSubAge: Failed to add info to link");
return false;
}
}
if (RelVaultNode * rvnLink = VaultGetNodeIncRef(ageLinkId)) {
VaultAgeLinkNode linkAcc(rvnLink);
linkAcc.CopyTo(link);
rvnLink->DecRef();
}
if (RelVaultNode * rvnInfo = VaultGetNodeIncRef(ageInfoId)) {
VaultAgeInfoNode infoAcc(rvnInfo);
infoAcc.CopyTo(link->GetAgeInfo());
rvnInfo->DecRef();
}
return true;
}
//============================================================================
namespace _VaultCreateSubAge {
void _CreateNodeCallback(ENetError result, void* state, void* param, RelVaultNode* node) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "CreateSubAge: Failed to create AgeLink (async)");
return;
}
// Add the children to the right places
VaultAddChildNode(node->nodeId, (uint32_t)((uintptr_t)param), 0, nil, nil);
if (RelVaultNode* saFldr = VaultGetAgeSubAgesFolderIncRef()) {
VaultAddChildNode(saFldr->nodeId, node->nodeId, 0, nil, nil);
saFldr->DecRef();
} else
LogMsg(kLogError, "CreateSubAge: Couldn't find SubAges folder (async)");
// Send the VaultNotify that the plNetLinkingMgr wants...
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kRegisteredSubAgeLink);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, node->nodeId);
msg->Send();
}
void _DownloadCallback(ENetError result, void* param) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "CreateSubAge: Failed to download age vault (async)");
return;
}
// Create the AgeLink node
VaultCreateNode(plVault::kNodeType_AgeLink,
(FVaultCreateNodeCallback)_CreateNodeCallback,
nil,
param
);
}
void _InitAgeCallback(ENetError result, void* state, void* param, uint32_t ageVaultId, uint32_t ageInfoId) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "CreateSubAge: Failed to init age (async)");
return;
}
// Download age vault
VaultDownload(L"CreateSubAge",
ageInfoId,
(FVaultDownloadCallback)_DownloadCallback,
(void*)ageInfoId,
nil,
nil
);
}
}; // namespace _VaultCreateSubAge
bool VaultAgeFindOrCreateSubAgeLink(const plAgeInfoStruct* info, plAgeLinkStruct* link, const Uuid& parentUuid) {
using namespace _VaultCreateSubAge;
// First, try to find an already existing subage
if (RelVaultNode* rvnLink = VaultGetSubAgeLinkIncRef(info)) {
VaultAgeLinkNode accLink(rvnLink);
accLink.CopyTo(link);
if (RelVaultNode* rvnInfo = rvnLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1)) {
VaultAgeInfoNode accInfo(rvnInfo);
accInfo.CopyTo(link->GetAgeInfo());
rvnInfo->DecRef();
}
rvnLink->DecRef();
return true;
}
VaultInitAge(info,
parentUuid,
(FVaultInitAgeCallback)_InitAgeCallback,
nil,
nil
);
return false;
}
//============================================================================
namespace _VaultCreateChildAgeAndWait {
struct _InitAgeParam {
ENetError result;
bool complete;
unsigned ageInfoId;
};
static void _InitAgeCallback (
ENetError result,
void * ,
void * vparam,
unsigned ageVaultId,
unsigned ageInfoVaultId
) {
_InitAgeParam * param = (_InitAgeParam *)vparam;
param->ageInfoId = ageInfoVaultId;
param->result = result;
param->complete = true;
}
struct _FetchVaultParam {
ENetError result;
bool complete;
};
static void _FetchVaultCallback (
ENetError result,
void * vparam
) {
_FetchVaultParam * param = (_FetchVaultParam *)vparam;
param->result = result;
param->complete = true;
}
struct _CreateNodeParam {
ENetError result;
bool complete;
unsigned nodeId;
};
static void _CreateNodeCallback (
ENetError result,
void * ,
void * vparam,
RelVaultNode * node
) {
_CreateNodeParam * param = (_CreateNodeParam *)vparam;
if (IS_NET_SUCCESS(result))
param->nodeId = node->nodeId;
param->result = result;
param->complete = true;
}
struct _AddChildNodeParam {
ENetError result;
bool complete;
};
static void _AddChildNodeCallback (
ENetError result,
void * vparam
) {
_AddChildNodeParam * param = (_AddChildNodeParam *)vparam;
param->result = result;
param->complete = true;
}
} // namespace _VaultCreateChildAgeAndWait
//============================================================================
bool VaultAgeFindOrCreateChildAgeLinkAndWait (
const wchar_t parentAgeName[],
const plAgeInfoStruct * info,
plAgeLinkStruct * link
) {
using namespace _VaultCreateChildAgeAndWait;
unsigned childAgesId;
unsigned ageInfoId;
unsigned ageLinkId;
{ // Get id of child ages folder
RelVaultNode * rvnAgeInfo = nil;
if (parentAgeName) {
char ansi[MAX_PATH];
StrToAnsi(ansi, parentAgeName, arrsize(ansi));
plAgeInfoStruct pinfo;
pinfo.SetAgeFilename(ansi);
if (RelVaultNode * rvnAgeLink = VaultGetOwnedAgeLinkIncRef(&pinfo)) {
rvnAgeInfo = rvnAgeLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1);
rvnAgeLink->DecRef();
}
}
else {
rvnAgeInfo = VaultGetAgeInfoNodeIncRef();
}
if (!rvnAgeInfo) {
LogMsg(kLogError, L"CreateChildAge: Failed to get ages's AgeInfo node");
return false;
}
RelVaultNode * rvnChildAges;
if (nil != (rvnChildAges = rvnAgeInfo->GetChildAgeInfoListNodeIncRef(plVault::kChildAgesFolder, 1))) {
childAgesId = rvnChildAges->nodeId;
}
else {
rvnAgeInfo->DecRef();
LogMsg(kLogError, L"CreateChildAge: Failed to get ages's ChildAges folder");
return false;
}
rvnAgeInfo->DecRef();
// Check for existing child age in folder
RelVaultNode * rvnLink = nil;
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode ageInfo(templateNode);
wchar_t str[MAX_PATH];
StrToUnicode(str, info->GetAgeFilename(), arrsize(str));
ageInfo.SetAgeFilename(str);
if (RelVaultNode * rvnInfo = rvnChildAges->GetChildNodeIncRef(templateNode, 2)) {
templateNode->fieldFlags = 0;
templateNode->SetNodeType(plVault::kNodeType_AgeLink);
rvnLink = rvnInfo->GetParentNodeIncRef(templateNode, 1);
rvnInfo->DecRef();
}
templateNode->DecRef();
rvnChildAges->DecRef();
if (rvnLink) {
VaultAgeLinkNode access(rvnLink);
access.CopyTo(link);
rvnLink->DecRef();
return true;
}
}
{ // Init age vault
_InitAgeParam param;
memset(¶m, 0, sizeof(param));
Uuid parentAgeInstId;
memset(&parentAgeInstId, 0, sizeof(parentAgeInstId));
if (RelVaultNode * rvnAge = VaultGetAgeNodeIncRef()) {
VaultAgeNode access(rvnAge);
parentAgeInstId = access.ageInstUuid;
rvnAge->DecRef();
}
VaultInitAge(
info,
parentAgeInstId,
_InitAgeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"CreateChildAge: Failed to init age %S", link->GetAgeInfo()->GetAgeFilename());
return false;
}
ageInfoId = param.ageInfoId;
}
{ // Create age link
_CreateNodeParam param;
memset(¶m, 0, sizeof(param));
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
¶m
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"CreateChildAge: Failed create age link node");
return false;
}
ageLinkId = param.nodeId;
}
{ // Fetch age info node tree
_FetchVaultParam param;
memset(¶m, 0, sizeof(param));
VaultDownload(
L"CreateChildAge",
ageInfoId,
_FetchVaultCallback,
¶m,
nil,
nil
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param.result)) {
LogMsg(kLogError, L"CreateChildAge: Failed to download age info vault");
return false;
}
}
{ // Link:
// ageLink to ages's subages folder
// ageInfo to ageLink
_AddChildNodeParam param1;
_AddChildNodeParam param2;
memset(¶m1, 0, sizeof(param1));
memset(¶m2, 0, sizeof(param2));
VaultAddChildNode(
childAgesId,
ageLinkId,
0,
_AddChildNodeCallback,
¶m1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
¶m2
);
while (!param1.complete && !param2.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
if (IS_NET_ERROR(param1.result)) {
LogMsg(kLogError, L"CreateChildAge: Failed to add link to ages's subages");
return false;
}
if (IS_NET_ERROR(param2.result)) {
LogMsg(kLogError, L"CreateChildAge: Failed to add info to link");
return false;
}
}
if (RelVaultNode * rvnLink = VaultGetNodeIncRef(ageLinkId)) {
VaultAgeLinkNode linkAcc(rvnLink);
linkAcc.CopyTo(link);
rvnLink->DecRef();
}
if (RelVaultNode * rvnInfo = VaultGetNodeIncRef(ageInfoId)) {
VaultAgeInfoNode infoAcc(rvnInfo);
infoAcc.CopyTo(link->GetAgeInfo());
rvnInfo->DecRef();
}
return true;
}
//============================================================================
namespace _VaultCreateChildAge {
struct _Params {
void* fChildAgesFldr;
void* fAgeInfoId;
};
void _CreateNodeCallback(ENetError result, void* state, void* param, RelVaultNode* node) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "CreateChildAge: Failed to create AgeLink (async)");
delete (_Params*)param;
return;
}
_Params* p = (_Params*)param;
// Add the children to the right places
VaultAddChildNode(node->nodeId, (uint32_t)((uintptr_t)p->fAgeInfoId), 0, nil, nil);
VaultAddChildNode((uint32_t)((uintptr_t)p->fChildAgesFldr), node->nodeId, 0, nil, nil);
// Send the VaultNotify that the plNetLinkingMgr wants...
plVaultNotifyMsg * msg = NEWZERO(plVaultNotifyMsg);
msg->SetType(plVaultNotifyMsg::kRegisteredChildAgeLink);
msg->SetResultCode(result);
msg->GetArgs()->AddInt(plNetCommon::VaultTaskArgs::kAgeLinkNode, node->nodeId);
msg->Send();
delete (_Params*)param;
}
void _DownloadCallback(ENetError result, void* param) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "CreateChildAge: Failed to download age vault (async)");
delete (_Params*)param;
return;
}
// Create the AgeLink node
VaultCreateNode(plVault::kNodeType_AgeLink,
(FVaultCreateNodeCallback)_CreateNodeCallback,
nil,
param
);
}
void _InitAgeCallback(ENetError result, void* state, void* param, uint32_t ageVaultId, uint32_t ageInfoId) {
if (IS_NET_ERROR(result)) {
LogMsg(kLogError, "CreateChildAge: Failed to init age (async)");
delete (_Params*)param;
return;
}
_Params* p = (_Params*)param;
p->fAgeInfoId = (void*)ageInfoId;
// Download age vault
VaultDownload(L"CreateChildAge",
ageInfoId,
(FVaultDownloadCallback)_DownloadCallback,
param,
nil,
nil
);
}
}; // namespace _VaultCreateAge
uint8_t VaultAgeFindOrCreateChildAgeLink(
const wchar_t parentAgeName[],
const plAgeInfoStruct* info,
plAgeLinkStruct* link)
{
using namespace _VaultCreateChildAge;
// First, try to find an already existing ChildAge
char name[MAX_PATH];
StrToAnsi(name, parentAgeName, arrsize(name));
plAgeInfoStruct search;
search.SetAgeFilename(name);
RelVaultNode* rvnParentInfo = nil;
if (RelVaultNode* rvnParentLink = VaultGetOwnedAgeLinkIncRef(&search)) {
rvnParentInfo = rvnParentLink->GetChildNodeIncRef(plVault::kNodeType_AgeInfo, 1);
rvnParentLink->DecRef();
} else // Fallback to current age
rvnParentInfo = VaultGetAgeInfoNodeIncRef();
// Test to make sure nothing went horribly wrong...
if (rvnParentInfo == nil) {
LogMsg(kLogError, "CreateChildAge: Couldn't find the parent ageinfo (async)");
return hsFail;
}
// Still here? Try to find the Child Ages folder
uint8_t retval = hsFail;
if (RelVaultNode* rvnChildAges = rvnParentInfo->GetChildAgeInfoListNodeIncRef(plVault::kChildAgesFolder, 1)) {
const char* ageName = info->GetAgeFilename();
wchar_t hack[MAX_PATH];
StrToUnicode(hack, ageName, arrsize(hack));
// Search for our age
NetVaultNode* temp = NEWZERO(NetVaultNode);
temp->SetNodeType(plVault::kNodeType_AgeInfo);
VaultAgeInfoNode theAge(temp);
theAge.SetAgeFilename(hack);
if (RelVaultNode* rvnAgeInfo = rvnChildAges->GetChildNodeIncRef(temp, 2)) {
RelVaultNode* rvnAgeLink = rvnAgeInfo->GetParentAgeLinkIncRef();
VaultAgeLinkNode accAgeLink(rvnAgeLink);
accAgeLink.CopyTo(link);
VaultAgeInfoNode accAgeInfo(rvnAgeInfo);
accAgeInfo.CopyTo(link->GetAgeInfo());
rvnAgeLink->DecRef();
rvnAgeInfo->DecRef();
retval = true;
} else {
_Params* p = new _Params;
p->fChildAgesFldr = (void*)rvnChildAges->nodeId;
VaultAgeInfoNode accParentInfo(rvnParentInfo);
VaultInitAge(info,
accParentInfo.ageInstUuid,
(FVaultInitAgeCallback)_InitAgeCallback,
nil,
p
);
retval = false;
}
temp->DecRef();
rvnChildAges->DecRef();
}
rvnParentInfo->DecRef();
return retval;
}
/*****************************************************************************
*
* CCR Vault Access
*
***/
//============================================================================
void VaultCCRDumpPlayers() {
hsAssert(false, "eric, implement me");
}
/*****************************************************************************
*
* Exports - Vault download
*
***/
//============================================================================
void VaultDownload (
const wchar_t tag[],
unsigned vaultId,
FVaultDownloadCallback callback,
void * cbParam,
FVaultProgressCallback progressCallback,
void * cbProgressParam
) {
VaultDownloadTrans * trans = NEWZERO(VaultDownloadTrans);
StrCopy(trans->tag, tag, arrsize(trans->tag));
trans->callback = callback;
trans->cbParam = cbParam;
trans->progressCallback = progressCallback;
trans->cbProgressParam = cbProgressParam;
trans->vaultId = vaultId;
NetCliAuthVaultFetchNodeRefs(
vaultId,
VaultDownloadTrans::VaultNodeRefsFetched,
trans
);
}
//============================================================================
struct _DownloadVaultParam {
ENetError result;
bool complete;
};
static void _DownloadVaultCallback (
ENetError result,
void * vparam
) {
_DownloadVaultParam * param = (_DownloadVaultParam *)vparam;
param->result = result;
param->complete = true;
}
void VaultDownloadAndWait (
const wchar_t tag[],
unsigned vaultId,
FVaultProgressCallback progressCallback,
void * cbProgressParam
) {
_DownloadVaultParam param;
memset(¶m, 0, sizeof(param));
VaultDownload(
tag,
vaultId,
_DownloadVaultCallback,
¶m,
progressCallback,
cbProgressParam
);
while (!param.complete) {
NetClientUpdate();
plgDispatch::Dispatch()->MsgQueueProcess();
AsyncSleep(10);
}
}
//============================================================================
void VaultCull (unsigned vaultId) {
// Remove the node from the global table
if (RelVaultNodeLink * link = s_nodes.Find(vaultId)) {
LogMsg(kLogDebug, L"Vault: Culling node %u", link->node->nodeId);
link->node->state->UnlinkFromRelatives();
delete link;
}
// Remove all orphaned nodes from the global table
for (RelVaultNodeLink * next, * link = s_nodes.Head(); link; link = next) {
next = s_nodes.Next(link);
if (link->node->nodeType > plVault::kNodeType_VNodeMgrLow && link->node->nodeType < plVault::kNodeType_VNodeMgrHigh)
continue;
ARRAY(unsigned) nodeIds;
link->node->GetRootIds(&nodeIds);
bool foundRoot = false;
for (unsigned i = 0; i < nodeIds.Count(); ++i) {
RelVaultNodeLink * root = s_nodes.Find(nodeIds[i]);
if (root && root->node->nodeType > plVault::kNodeType_VNodeMgrLow && root->node->nodeType < plVault::kNodeType_VNodeMgrHigh) {
foundRoot = true;
break;
}
}
if (!foundRoot) {
LogMsg(kLogDebug, L"Vault: Culling node %u", link->node->nodeId);
link->node->state->UnlinkFromRelatives();
delete link;
}
}
}
/*****************************************************************************
*
* Exports - Vault global node handling
*
***/
//============================================================================
RelVaultNode * VaultGetSystemNodeIncRef () {
RelVaultNode * result = nil;
if (RelVaultNode * player = VaultGetPlayerNodeIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_System);
if (RelVaultNode * systemNode = player->GetChildNodeIncRef(templateNode, 1))
result = systemNode;
templateNode->DecRef();
player->DecRef();
}
return result;
}
//============================================================================
RelVaultNode * VaultGetGlobalInboxIncRef () {
RelVaultNode * result = nil;
if (RelVaultNode * system = VaultGetSystemNodeIncRef()) {
NetVaultNode * templateNode = NEWZERO(NetVaultNode);
templateNode->IncRef();
templateNode->SetNodeType(plVault::kNodeType_Folder);
VaultFolderNode folder(templateNode);
folder.SetFolderType(plVault::kGlobalInboxFolder);
if (RelVaultNode * inbox = system->GetChildNodeIncRef(templateNode, 1))
result = inbox;
templateNode->DecRef();
system->DecRef();
}
return result;
}
#endif // def CLIENT