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CWE-ou-minkata/MOULOpenSourceClientPlugin/Plasma20/Sources/Plasma/PubUtilLib/plVault/plVaultClientApi.cpp

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/*==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 <http://www.gnu.org/licenses/>.
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<unsigned> {
HASHLINK(INotifyAfterDownload) link;
unsigned parentId;
unsigned childId;
INotifyAfterDownload (unsigned parentId, unsigned childId)
: THashKeyVal<unsigned>(childId)
, parentId(parentId)
, childId(childId)
{}
};
struct DeviceInbox : CHashKeyStr {
HASHLINK(DeviceInbox) link;
wchar inboxName[kMaxVaultNodeStringLength];
DeviceInbox (const wchar device[], const wchar 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<unsigned> {
HASHLINK(RelVaultNodeLink) link;
RelVaultNode * node;
unsigned ownerId;
bool seen;
RelVaultNodeLink (bool seen, unsigned ownerId, unsigned nodeId, RelVaultNode * node)
: THashKeyVal<unsigned>(nodeId)
, seen(seen)
, ownerId(ownerId)
, node(node)
{
node->IncRef();
}
~RelVaultNodeLink () {
node->DecRef();
}
};
struct IRelVaultNode {
RelVaultNode * node;
HASHTABLEDECL(
RelVaultNodeLink,
THashKeyVal<unsigned>,
link
) parents;
HASHTABLEDECL(
RelVaultNodeLink,
THashKeyVal<unsigned>,
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 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<unsigned>,
link
) s_nodes;
static LISTDECL(
IVaultCallback,
link
) s_callbacks;
static HASHTABLEDECL(
INotifyAfterDownload,
THashKeyVal<unsigned>,
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)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);
}
}
DEL(notify);
}
}
//============================================================================
static void __cdecl LogDumpProc (
void * ,
const wchar 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
);
DEL(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
);
DEL(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
);
DEL(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
);
DEL(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
);
DEL(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
);
DEL(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
);
DEL(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);
DEL(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);
DEL(link);
}
}
/*****************************************************************************
*
* RelVaultNode
*
***/
//============================================================================
RelVaultNode::RelVaultNode () {
state = NEWZERO(IRelVaultNode)(this);
}
//============================================================================
RelVaultNode::~RelVaultNode () {
DEL(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 false;
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 false;
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 tag[], FStateDump dumpProc, unsigned level) {
wchar 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 (qword 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);
DEL(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();
DEL(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;
ZERO(param);
VaultAddChildNode(
parentId,
childId,
ownerId,
_AddChildNodeCallback,
&param
);
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 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;
ZERO(param);
VaultCreateNode(
templateNode,
_CreateNodeCallback,
nil,
&param
);
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;
ZERO(param);
NetCliAuthVaultNodeSave(
node,
_SaveNodeCallback,
&param
);
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;
ZERO(param);
NetCliAuthVaultNodeFind(
templateNode,
_FindNodeCallback,
&param
);
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 ageFilename[MAX_PATH];
wchar ageInstName[MAX_PATH];
wchar ageUserName[MAX_PATH];
wchar 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 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 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 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 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 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 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())
break;
if (!spawnPt.GetTitle())
break;
if (!StrLen(spawnPt.GetName()))
break;
if (!StrLen(spawnPt.GetTitle()))
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 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;
ZERO(param);
VaultInitAge(
link->GetAgeInfo(),
kNilGuid,
_InitAgeCallback,
nil,
&param
);
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;
ZERO(param);
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
&param
);
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;
ZERO(param);
VaultDownload(
L"RegisterOwnedAge",
ageInfoId,
_FetchVaultCallback,
&param,
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;
ZERO(param1);
ZERO(param2);
ZERO(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,
&param1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
&param2
);
VaultAddChildNode(
ageOwnersId,
playerInfoId,
0,
_AddChildNodeCallback,
&param3
);
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 _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;
ZERO(param);
VaultInitAge(
link->GetAgeInfo(),
kNilGuid,
_InitAgeCallback,
nil,
&param
);
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;
ZERO(param);
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
&param
);
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;
ZERO(param);
VaultDownload(
L"RegisterVisitAge",
ageInfoId,
_FetchVaultCallback,
&param,
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;
ZERO(param1);
ZERO(param2);
ZERO(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,
&param1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
&param2
);
VaultAddChildNode(
ageVisitorsId,
playerInfoId,
0,
_AddChildNodeCallback,
&param3
);
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;
}
//============================================================================
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 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 entryName[], int entryType) {
if (RelVaultNode * rvn = VaultFindChronicleEntryIncRef(entryName, entryType)) {
rvn->DecRef();
return true;
}
return false;
}
//============================================================================
void VaultAddChronicleEntryAndWait (
const wchar entryName[],
int entryType,
const wchar 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 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 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 stationName[],
const wchar 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
VaultRegisterVisitAgeAndWait(&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
VaultRegisterVisitAgeAndWait(&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 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 entryName[], int entryType) {
hsAssert(false, "eric, implement me");
return nil;
}
//============================================================================
void VaultAddAgeChronicleEntry (
const wchar entryName[],
int entryType,
const wchar entryValue[]
) {
hsAssert(false, "eric, implement me");
}
//============================================================================
RelVaultNode * VaultAgeAddDeviceAndWaitIncRef (const wchar 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 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)))
DEL(device);
}
templateNode->DecRef();
folder->DecRef();
}
}
//============================================================================
bool VaultAgeHasDevice (const wchar 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 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 deviceName[], const wchar 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 deviceName[]) {
RelVaultNode * result = nil;
DeviceInbox * devInbox = s_ageDeviceInboxes.Find(CHashKeyStr(deviceName));
if (devInbox)
{
RelVaultNode * parentNode = nil;
const wchar * 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()) {
DEL(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 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;
ZERO(param);
VaultInitAge(
info,
parentAgeInstId,
_InitAgeCallback,
nil,
&param
);
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;
ZERO(param);
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
&param
);
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;
ZERO(param);
VaultDownload(
L"CreateSubAge",
ageInfoId,
_FetchVaultCallback,
&param,
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;
ZERO(param1);
ZERO(param2);
VaultAddChildNode(
subAgesId,
ageLinkId,
0,
_AddChildNodeCallback,
&param1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
&param2
);
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 _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 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 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;
ZERO(param);
Uuid parentAgeInstId;
ZERO(parentAgeInstId);
if (RelVaultNode * rvnAge = VaultGetAgeNodeIncRef()) {
VaultAgeNode access(rvnAge);
parentAgeInstId = access.ageInstUuid;
rvnAge->DecRef();
}
VaultInitAge(
info,
parentAgeInstId,
_InitAgeCallback,
nil,
&param
);
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;
ZERO(param);
VaultCreateNode(
plVault::kNodeType_AgeLink,
_CreateNodeCallback,
nil,
&param
);
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;
ZERO(param);
VaultDownload(
L"CreateChildAge",
ageInfoId,
_FetchVaultCallback,
&param,
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;
ZERO(param1);
ZERO(param2);
VaultAddChildNode(
childAgesId,
ageLinkId,
0,
_AddChildNodeCallback,
&param1
);
VaultAddChildNode(
ageLinkId,
ageInfoId,
0,
_AddChildNodeCallback,
&param2
);
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;
}
/*****************************************************************************
*
* CCR Vault Access
*
***/
//============================================================================
void VaultCCRDumpPlayers() {
hsAssert(false, "eric, implement me");
}
/*****************************************************************************
*
* Exports - Vault download
*
***/
//============================================================================
void VaultDownload (
const wchar 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 tag[],
unsigned vaultId,
FVaultProgressCallback progressCallback,
void * cbProgressParam
) {
_DownloadVaultParam param;
ZERO(param);
VaultDownload(
tag,
vaultId,
_DownloadVaultCallback,
&param,
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();
DEL(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();
DEL(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