#include "stdafx.h" #include "shlcom.h" TGroupNode* FindGroupNode(TGroupNode *p, const DWORD Hash, int Depth) { while (p != NULL) { if (p->Hash == Hash && p->Depth == Depth) return p; if (p->Left != NULL) { TGroupNode *q = FindGroupNode(p->Left, Hash, Depth); if (q != NULL) return q; } p = p->Right; } return p; } TGroupNode* AllocGroupNode(TGroupNodeList *list, TGroupNode *Root, int Depth) { TGroupNode *p = (TGroupNode*)calloc(1, sizeof(TGroupNode)); p->Depth = Depth; if (Depth > 0) { if (Root->Left == NULL) Root->Left = p; else { Root = Root->Left; while (Root->Right != NULL) Root = Root->Right; Root->Right = p; } } else { if (list->First == NULL) list->First = p; if (list->Last != NULL) list->Last->Right = p; list->Last = p; } return p; } void ipcPrepareRequests(int ipcPacketSize, THeaderIPC *pipch, DWORD fRequests) { // some fields may already have values like the event object name to open pipch->cbSize = sizeof(THeaderIPC); pipch->dwVersion = PLUGIN_MAKE_VERSION(2, 0, 1, 2); pipch->dwFlags = 0; pipch->pServerBaseAddress = NULL; pipch->pClientBaseAddress = pipch; pipch->fRequests = fRequests; pipch->Slots = 0; pipch->IconsBegin = NULL; pipch->ContactsBegin = NULL; pipch->GroupsBegin = NULL; pipch->NewIconsBegin = NULL; pipch->DataSize = ipcPacketSize - pipch->cbSize; // the server side will adjust these pointers as soon as it opens // the mapped file to it's base address, these are set 'ere because ipcAlloc() // maybe used on the client side and are translated by the server side. // ipcAlloc() is used on the client side when transferring filenames // to the ST thread. pipch->DataPtr = (TSlotIPC*)(LPSTR(pipch) + sizeof(THeaderIPC)); pipch->DataPtrEnd = (TSlotIPC*)(LPSTR(pipch->DataPtr) + pipch->DataSize); pipch->DataFramePtr = pipch->DataPtr; // fill the data area memset(pipch->DataPtr, pipch->DataSize, 0); } DWORD ipcSendRequest(HANDLE hSignal, HANDLE hWaitFor, THeaderIPC *pipch, DWORD dwTimeoutMsecs) { // signal ST to work SetEvent(hSignal); // wait for reply, it should open a handle to hWaitFor... while (true) { switch ( WaitForSingleObjectEx(hWaitFor, dwTimeoutMsecs, true)) { case WAIT_OBJECT_0: return pipch->fRequests; case WAIT_IO_COMPLETION: // APC call... break; default: return REPLY_FAIL; } } } TSlotIPC* ipcAlloc(THeaderIPC *pipch, int nSize) { // nSize maybe zero, in that case there is no string section --- UINT_PTR PSP = UINT_PTR(pipch->DataFramePtr) + sizeof(TSlotIPC) + nSize; // is it past the end? if (PSP >= UINT_PTR(pipch->DataPtrEnd)) return NULL; // return the pointer TSlotIPC *p = (TSlotIPC*)pipch->DataFramePtr; // set up the item p->cbSize = sizeof(TSlotIPC); p->cbStrSection = nSize; // update the frame ptr pipch->DataFramePtr = (void*)PSP; // let this item jump to the next yet-to-be-allocated-item which should be null anyway p->Next = (TSlotIPC*)PSP; return p; } void ipcFixupAddresses(BOOL FromServer, THeaderIPC *pipch) { if (pipch->pServerBaseAddress == pipch->pClientBaseAddress) return; INT_PTR diff = INT_PTR(pipch->pClientBaseAddress) - INT_PTR(pipch->pServerBaseAddress); // fix up all the pointers in the header if (pipch->IconsBegin != NULL) pipch->IconsBegin = (TSlotIPC*)(UINT_PTR(pipch->IconsBegin) + diff); if (pipch->ContactsBegin != NULL) pipch->ContactsBegin = (TSlotIPC*)(UINT_PTR(pipch->ContactsBegin) + diff); if (pipch->GroupsBegin != NULL) pipch->GroupsBegin = (TSlotIPC*)(UINT_PTR(pipch->GroupsBegin) + diff); if (pipch->NewIconsBegin != NULL) pipch->NewIconsBegin = (TSlotIPC*)(UINT_PTR(pipch->NewIconsBegin) + diff); pipch->DataPtr = (TSlotIPC*)(UINT_PTR(pipch->DataPtr) + diff); pipch->DataPtrEnd = (TSlotIPC*)(UINT_PTR(pipch->DataPtrEnd) + diff); pipch->DataFramePtr = (void*)(UINT_PTR(pipch->DataFramePtr) + diff); // and the link list TSlotIPC *pct = pipch->DataPtr; while (pct != NULL) { // the first pointer is already fixed up, have to get a pointer // to the next pointer and modify where it jumps to TSlotIPC **q = &pct->Next; if (*q != NULL) *q = (TSlotIPC*)(UINT_PTR(*q) + diff); pct = *q; } }