/** @file Copyright (c) 2006 - 2007, Intel Corporation All rights reserved. This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. Module Name: Udp4Io.c Abstract: Help functions to access UDP service, it is used by both the DHCP and MTFTP. **/ #include #include #include #include #include #include #include STATIC VOID EFIAPI UdpIoOnDgramSent ( IN EFI_EVENT Event, IN VOID *Context ); STATIC VOID EFIAPI UdpIoOnDgramRcvd ( IN EFI_EVENT Event, IN VOID *Context ); /** Wrap a transmit request into a UDP_TX_TOKEN. @param UdpIo The UdpIo port to send packet to @param Packet The user's packet @param EndPoint The local and remote access point @param Gateway The overrided next hop @param CallBack The function to call when transmission completed. @param Context The opaque parameter to the call back @return The wrapped transmission request or NULL if failed to allocate resources. **/ STATIC UDP_TX_TOKEN * UdpIoWrapTx ( IN UDP_IO_PORT *UdpIo, IN NET_BUF *Packet, IN UDP_POINTS *EndPoint, OPTIONAL IN IP4_ADDR Gateway, IN UDP_IO_CALLBACK CallBack, IN VOID *Context ) { UDP_TX_TOKEN *Token; EFI_UDP4_COMPLETION_TOKEN *UdpToken; EFI_UDP4_TRANSMIT_DATA *UdpTxData; EFI_STATUS Status; UINT32 Count; Token = NetAllocatePool (sizeof (UDP_TX_TOKEN) + sizeof (EFI_UDP4_FRAGMENT_DATA) * (Packet->BlockOpNum - 1)); if (Token == NULL) { return NULL; } Token->Signature = UDP_IO_TX_SIGNATURE; NetListInit (&Token->Link); Token->UdpIo = UdpIo; Token->CallBack = CallBack; Token->Packet = Packet; Token->Context = Context; UdpToken = &(Token->UdpToken); UdpToken->Status = EFI_NOT_READY; Status = gBS->CreateEvent ( EVT_NOTIFY_SIGNAL, TPL_CALLBACK, UdpIoOnDgramSent, Token, &UdpToken->Event ); if (EFI_ERROR (Status)) { NetFreePool (Token); return NULL; } UdpTxData = &Token->UdpTxData; UdpToken->Packet.TxData = UdpTxData; UdpTxData->UdpSessionData = NULL; UdpTxData->GatewayAddress = NULL; if (EndPoint != NULL) { EFI_IP4 (Token->UdpSession.SourceAddress) = HTONL (EndPoint->LocalAddr); EFI_IP4 (Token->UdpSession.DestinationAddress) = HTONL (EndPoint->RemoteAddr); Token->UdpSession.SourcePort = EndPoint->LocalPort; Token->UdpSession.DestinationPort = EndPoint->RemotePort; UdpTxData->UdpSessionData = &Token->UdpSession; } if (Gateway != 0) { EFI_IP4 (Token->Gateway) = HTONL (Gateway); UdpTxData->GatewayAddress = &Token->Gateway; } UdpTxData->DataLength = Packet->TotalSize; Count = Packet->BlockOpNum; NetbufBuildExt (Packet, (NET_FRAGMENT *) UdpTxData->FragmentTable, &Count); UdpTxData->FragmentCount = Count; return Token; } /** Free a UDP_TX_TOKEN. The event is closed and memory released. @param Token The UDP_TX_TOKEN to release. @return None **/ VOID UdpIoFreeTxToken ( IN UDP_TX_TOKEN *Token ) { gBS->CloseEvent (Token->UdpToken.Event); NetFreePool (Token); } /** Create a UDP_RX_TOKEN to wrap the request. @param UdpIo The UdpIo to receive packets from @param CallBack The function to call when receive finished. @param Context The opaque parameter to the CallBack @param HeadLen The head length to reserver for the packet. @return The Wrapped request or NULL if failed to allocate resources. **/ UDP_RX_TOKEN * UdpIoCreateRxToken ( IN UDP_IO_PORT *UdpIo, IN UDP_IO_CALLBACK CallBack, IN VOID *Context, IN UINT32 HeadLen ) { UDP_RX_TOKEN *Token; EFI_STATUS Status; Token = NetAllocatePool (sizeof (UDP_RX_TOKEN)); if (Token == NULL) { return NULL; } Token->Signature = UDP_IO_RX_SIGNATURE; Token->UdpIo = UdpIo; Token->CallBack = CallBack; Token->Context = Context; Token->HeadLen = HeadLen; Token->UdpToken.Status = EFI_NOT_READY; Token->UdpToken.Packet.RxData = NULL; Status = gBS->CreateEvent ( EVT_NOTIFY_SIGNAL, TPL_CALLBACK, UdpIoOnDgramRcvd, Token, &Token->UdpToken.Event ); if (EFI_ERROR (Status)) { NetFreePool (Token); return NULL; } return Token; } /** Free a receive request wrap. @param Token The receive request to release. @return None **/ VOID UdpIoFreeRxToken ( IN UDP_RX_TOKEN *Token ) { gBS->CloseEvent (Token->UdpToken.Event); NetFreePool (Token); } /** Create a UDP IO port to access the UDP service. It will create and configure a UDP child. @param Controller The controller that has the UDP service binding protocol installed. @param Image The image handle for the driver. @param Configure The function to configure the created UDP child @param Context The opaque parameter for the Configure funtion. @return A point to just created UDP IO port or NULL if failed. **/ UDP_IO_PORT * UdpIoCreatePort ( IN EFI_HANDLE Controller, IN EFI_HANDLE Image, IN UDP_IO_CONFIG Configure, IN VOID *Context ) { UDP_IO_PORT *UdpIo; EFI_STATUS Status; ASSERT (Configure != NULL); UdpIo = NetAllocatePool (sizeof (UDP_IO_PORT)); if (UdpIo == NULL) { return NULL; } UdpIo->Signature = UDP_IO_SIGNATURE; NetListInit (&UdpIo->Link); UdpIo->RefCnt = 1; UdpIo->Controller = Controller; UdpIo->Image = Image; NetListInit (&UdpIo->SentDatagram); UdpIo->RecvRequest = NULL; UdpIo->UdpHandle = NULL; // // Create a UDP child then open and configure it // Status = NetLibCreateServiceChild ( Controller, Image, &gEfiUdp4ServiceBindingProtocolGuid, &UdpIo->UdpHandle ); if (EFI_ERROR (Status)) { goto FREE_MEM; } Status = gBS->OpenProtocol ( UdpIo->UdpHandle, &gEfiUdp4ProtocolGuid, &UdpIo->Udp, Image, Controller, EFI_OPEN_PROTOCOL_BY_DRIVER ); if (EFI_ERROR (Status)) { goto FREE_CHILD; } if (EFI_ERROR (Configure (UdpIo, Context))) { goto CLOSE_PROTOCOL; } Status = UdpIo->Udp->GetModeData (UdpIo->Udp, NULL, NULL, NULL, &UdpIo->SnpMode); if (EFI_ERROR (Status)) { goto CLOSE_PROTOCOL; } return UdpIo; CLOSE_PROTOCOL: gBS->CloseProtocol (UdpIo->UdpHandle, &gEfiUdp4ProtocolGuid, Image, Controller); FREE_CHILD: NetLibDestroyServiceChild ( Controller, Image, &gEfiUdp4ServiceBindingProtocolGuid, UdpIo->UdpHandle ); FREE_MEM: NetFreePool (UdpIo); return NULL; } /** Cancel all the sent datagram that pass the selection of ToCancel. If ToCancel is NULL, all the datagrams are cancelled. @param UdpIo The UDP IO port to cancel packet @param IoStatus The IoStatus to return to the packet owners. @param ToCancel The select funtion to test whether to cancel this packet or not. @param Context The opaque parameter to the ToCancel. @return None **/ STATIC VOID UdpIoCancelDgrams ( IN UDP_IO_PORT *UdpIo, IN EFI_STATUS IoStatus, IN UDP_IO_TO_CANCEL ToCancel, OPTIONAL IN VOID *Context ) { NET_LIST_ENTRY *Entry; NET_LIST_ENTRY *Next; UDP_TX_TOKEN *Token; NET_LIST_FOR_EACH_SAFE (Entry, Next, &UdpIo->SentDatagram) { Token = NET_LIST_USER_STRUCT (Entry, UDP_TX_TOKEN, Link); if ((ToCancel == NULL) || (ToCancel (Token, Context))) { NetListRemoveEntry (Entry); UdpIo->Udp->Cancel (UdpIo->Udp, &Token->UdpToken); Token->CallBack (Token->Packet, NULL, IoStatus, Token->Context); UdpIoFreeTxToken (Token); } } } /** Free the UDP IO port and all its related resources including all the transmitted packet. @param UdpIo The UDP IO port to free. @retval EFI_SUCCESS The UDP IO port is freed. **/ EFI_STATUS UdpIoFreePort ( IN UDP_IO_PORT *UdpIo ) { UDP_RX_TOKEN *RxToken; // // Cancel all the sent datagram and receive requests. The // callbacks of transmit requests are executed to allow the // caller to release the resource. The callback of receive // request are NOT executed. This is because it is most // likely that the current user of the UDP IO port is closing // itself. // UdpIoCancelDgrams (UdpIo, EFI_ABORTED, NULL, NULL); if ((RxToken = UdpIo->RecvRequest) != NULL) { UdpIo->RecvRequest = NULL; UdpIo->Udp->Cancel (UdpIo->Udp, &RxToken->UdpToken); UdpIoFreeRxToken (RxToken); } // // Close then destory the UDP child // gBS->CloseProtocol ( UdpIo->UdpHandle, &gEfiUdp4ProtocolGuid, UdpIo->Image, UdpIo->Controller ); NetLibDestroyServiceChild ( UdpIo->Controller, UdpIo->Image, &gEfiUdp4ServiceBindingProtocolGuid, UdpIo->UdpHandle ); NetListRemoveEntry (&UdpIo->Link); NetFreePool (UdpIo); return EFI_SUCCESS; } /** Clean up the UDP IO port. It will release all the transmitted datagrams and receive request. It will also configure NULL the UDP child. @param UdpIo UDP IO port to clean up. @return None **/ VOID UdpIoCleanPort ( IN UDP_IO_PORT *UdpIo ) { UDP_RX_TOKEN *RxToken; // // Cancel all the sent datagram and receive requests. // UdpIoCancelDgrams (UdpIo, EFI_ABORTED, NULL, NULL); if ((RxToken = UdpIo->RecvRequest) != NULL) { UdpIo->RecvRequest = NULL; UdpIo->Udp->Cancel (UdpIo->Udp, &RxToken->UdpToken); UdpIoFreeRxToken (RxToken); } UdpIo->Udp->Configure (UdpIo->Udp, NULL); } /** The callback function when the packet is sent by UDP. It will remove the packet from the local list then call the packet owner's callback function. @param Event The event signalled. @param Context The UDP TX Token. @return None **/ STATIC VOID EFIAPI UdpIoOnDgramSent ( IN EFI_EVENT Event, IN VOID *Context ) { UDP_TX_TOKEN *Token; Token = (UDP_TX_TOKEN *) Context; ASSERT (Token->Signature == UDP_IO_TX_SIGNATURE); NetListRemoveEntry (&Token->Link); Token->CallBack (Token->Packet, NULL, Token->UdpToken.Status, Token->Context); UdpIoFreeTxToken (Token); } /** Send a packet through the UDP IO port. @param UdpIo The UDP IO Port to send the packet through @param Packet The packet to send @param EndPoint The local and remote access point @param Gateway The gateway to use @param CallBack The call back function to call when packet is transmitted or failed. @param Context The opque parameter to the CallBack @retval EFI_OUT_OF_RESOURCES Failed to allocate resource for the packet @retval EFI_SUCCESS The packet is successfully delivered to UDP for transmission. **/ EFI_STATUS UdpIoSendDatagram ( IN UDP_IO_PORT *UdpIo, IN NET_BUF *Packet, IN UDP_POINTS *EndPoint, OPTIONAL IN IP4_ADDR Gateway, IN UDP_IO_CALLBACK CallBack, IN VOID *Context ) { UDP_TX_TOKEN *Token; EFI_STATUS Status; Token = UdpIoWrapTx (UdpIo, Packet, EndPoint, Gateway, CallBack, Context); if (Token == NULL) { return EFI_OUT_OF_RESOURCES; } Status = UdpIo->Udp->Transmit (UdpIo->Udp, &Token->UdpToken); if (EFI_ERROR (Status)) { UdpIoFreeTxToken (Token); return Status; } NetListInsertHead (&UdpIo->SentDatagram, &Token->Link); return EFI_SUCCESS; } /** The selection function to cancel a single sent datagram. @param Token The UDP TX token to test againist. @param Context The context @return TRUE if the packet is to be cancelled, otherwise FALSE. **/ STATIC BOOLEAN UdpIoCancelSingleDgram ( IN UDP_TX_TOKEN *Token, IN VOID *Context ) { NET_BUF *Packet; Packet = (NET_BUF *) Context; if (Token->Packet == Packet) { return TRUE; } return FALSE; } /** Cancel a single sent datagram. @param UdpIo The UDP IO port to cancel the packet from @param Packet The packet to cancel @return None **/ VOID UdpIoCancelSentDatagram ( IN UDP_IO_PORT *UdpIo, IN NET_BUF *Packet ) { UdpIoCancelDgrams (UdpIo, EFI_ABORTED, UdpIoCancelSingleDgram, Packet); } /** Recycle the received UDP data. @param Context The UDP_RX_TOKEN @return None **/ STATIC VOID UdpIoRecycleDgram ( IN VOID *Context ) { UDP_RX_TOKEN *Token; Token = (UDP_RX_TOKEN *) Context; gBS->SignalEvent (Token->UdpToken.Packet.RxData->RecycleSignal); UdpIoFreeRxToken (Token); } /** The event handle for UDP receive request. It will build a NET_BUF from the recieved UDP data, then deliver it to the receiver. @param Event The UDP receive request event @param Context The UDP RX token. @return None **/ STATIC VOID EFIAPI UdpIoOnDgramRcvd ( IN EFI_EVENT Event, IN VOID *Context ) { EFI_UDP4_COMPLETION_TOKEN *UdpToken; EFI_UDP4_RECEIVE_DATA *UdpRxData; EFI_UDP4_SESSION_DATA *UdpSession; UDP_RX_TOKEN *Token; UDP_POINTS Points; NET_BUF *Netbuf; Token = (UDP_RX_TOKEN *) Context; ASSERT ((Token->Signature == UDP_IO_RX_SIGNATURE) && (Token == Token->UdpIo->RecvRequest)); // // Clear the receive request first in case that the caller // wants to restart the receive in the callback. // Token->UdpIo->RecvRequest = NULL; UdpToken = &Token->UdpToken; UdpRxData = UdpToken->Packet.RxData; if (EFI_ERROR (UdpToken->Status) || (UdpRxData == NULL)) { Token->CallBack (NULL, NULL, UdpToken->Status, Token->Context); UdpIoFreeRxToken (Token); goto ON_EXIT; } // // Build a NET_BUF from the UDP receive data, then deliver it up. // Netbuf = NetbufFromExt ( (NET_FRAGMENT *) UdpRxData->FragmentTable, UdpRxData->FragmentCount, 0, (UINT32) Token->HeadLen, UdpIoRecycleDgram, Token ); if (Netbuf == NULL) { gBS->SignalEvent (UdpRxData->RecycleSignal); Token->CallBack (NULL, NULL, EFI_OUT_OF_RESOURCES, Token->Context); UdpIoFreeRxToken (Token); goto ON_EXIT; } UdpSession = &UdpRxData->UdpSession; Points.LocalAddr = EFI_NTOHL (UdpSession->DestinationAddress); Points.LocalPort = UdpSession->DestinationPort; Points.RemoteAddr = EFI_NTOHL (UdpSession->SourceAddress); Points.RemotePort = UdpSession->SourcePort; Token->CallBack (Netbuf, &Points, EFI_SUCCESS, Token->Context); ON_EXIT: return; } /** Issue a receive request to the UDP IO port. @param UdpIo The UDP IO port to recieve the packet from. @param CallBack The call back function to execute when receive finished. @param Context The opque context to the call back @param HeadLen The lenght of the application's header @retval EFI_ALREADY_STARTED There is already a pending receive request. Only one receive request is supported. @retval EFI_OUT_OF_RESOURCES Failed to allocate some resource. @retval EFI_SUCCESS The receive request is issued successfully. **/ EFI_STATUS UdpIoRecvDatagram ( IN UDP_IO_PORT *UdpIo, IN UDP_IO_CALLBACK CallBack, IN VOID *Context, IN UINT32 HeadLen ) { UDP_RX_TOKEN *Token; EFI_STATUS Status; if (UdpIo->RecvRequest != NULL) { return EFI_ALREADY_STARTED; } Token = UdpIoCreateRxToken (UdpIo, CallBack, Context, HeadLen); if (Token == NULL) { return EFI_OUT_OF_RESOURCES; } Status = UdpIo->Udp->Receive (UdpIo->Udp, &Token->UdpToken); if (EFI_ERROR (Status)) { UdpIoFreeRxToken (Token); return Status; } UdpIo->RecvRequest = Token; return EFI_SUCCESS; }