/** @file * * Copyright (c) 2012-2014, ARM Limited. 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. * **/ #include "Lan9118Dxe.h" typedef struct { MAC_ADDR_DEVICE_PATH Lan9118; EFI_DEVICE_PATH_PROTOCOL End; } LAN9118_DEVICE_PATH; LAN9118_DEVICE_PATH Lan9118PathTemplate = { { { MESSAGING_DEVICE_PATH, MSG_MAC_ADDR_DP, { (UINT8) (sizeof(MAC_ADDR_DEVICE_PATH)), (UINT8) ((sizeof(MAC_ADDR_DEVICE_PATH)) >> 8) } }, { { 0 } }, 0 }, { END_DEVICE_PATH_TYPE, END_ENTIRE_DEVICE_PATH_SUBTYPE, { sizeof(EFI_DEVICE_PATH_PROTOCOL), 0 } } }; /* ** Entry point for the LAN9118 driver ** */ EFI_STATUS Lan9118DxeEntry ( IN EFI_HANDLE Handle, IN EFI_SYSTEM_TABLE *SystemTable ) { EFI_STATUS Status; LAN9118_DRIVER *LanDriver; EFI_SIMPLE_NETWORK_PROTOCOL *Snp; EFI_SIMPLE_NETWORK_MODE *SnpMode; LAN9118_DEVICE_PATH *Lan9118Path; EFI_HANDLE ControllerHandle; // The PcdLan9118DxeBaseAddress PCD must be defined ASSERT (PcdGet32 (PcdLan9118DxeBaseAddress) != 0); // Allocate Resources LanDriver = AllocateZeroPool (sizeof (LAN9118_DRIVER)); if (LanDriver == NULL) { return EFI_OUT_OF_RESOURCES; } Lan9118Path = (LAN9118_DEVICE_PATH*)AllocateCopyPool (sizeof (LAN9118_DEVICE_PATH), &Lan9118PathTemplate); if (Lan9118Path == NULL) { return EFI_OUT_OF_RESOURCES; } // Initialize pointers Snp = &(LanDriver->Snp); SnpMode = &(LanDriver->SnpMode); Snp->Mode = SnpMode; // Set the signature of the LAN Driver structure LanDriver->Signature = LAN9118_SIGNATURE; // Assign fields and func pointers Snp->Revision = EFI_SIMPLE_NETWORK_PROTOCOL_REVISION; Snp->WaitForPacket = NULL; Snp->Initialize = SnpInitialize; Snp->Start = SnpStart; Snp->Stop = SnpStop; Snp->Reset = SnpReset; Snp->Shutdown = SnpShutdown; Snp->ReceiveFilters = SnpReceiveFilters; Snp->StationAddress = SnpStationAddress; Snp->Statistics = SnpStatistics; Snp->MCastIpToMac = SnpMcastIptoMac; Snp->NvData = SnpNvData; Snp->GetStatus = SnpGetStatus; Snp->Transmit = SnpTransmit; Snp->Receive = SnpReceive; // Start completing simple network mode structure SnpMode->State = EfiSimpleNetworkStopped; SnpMode->HwAddressSize = NET_ETHER_ADDR_LEN; // HW address is 6 bytes SnpMode->MediaHeaderSize = sizeof(ETHER_HEAD); // Not sure of this SnpMode->MaxPacketSize = EFI_PAGE_SIZE; // Preamble + SOF + Ether Frame (with VLAN tag +4bytes) SnpMode->NvRamSize = 0; // No NVRAM with this device SnpMode->NvRamAccessSize = 0; // No NVRAM with this device // // Claim that all receive filter settings are supported, though the MULTICAST mode // is not completely supported. The LAN9118 Ethernet controller is only able to // do a "hash filtering" and not a perfect filtering on multicast addresses. The // controller does not filter the multicast addresses directly but a hash value // of them. The hash value of a multicast address is derived from its CRC and // ranges from 0 to 63 included. // We claim that the perfect MULTICAST filtering mode is supported because // we do not want the user to switch directly to the PROMISCOUS_MULTICAST mode // and thus not being able to take advantage of the hash filtering. // SnpMode->ReceiveFilterMask = EFI_SIMPLE_NETWORK_RECEIVE_UNICAST | EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST | EFI_SIMPLE_NETWORK_RECEIVE_BROADCAST | EFI_SIMPLE_NETWORK_RECEIVE_PROMISCUOUS | EFI_SIMPLE_NETWORK_RECEIVE_PROMISCUOUS_MULTICAST; // We do not intend to receive anything for the time being. SnpMode->ReceiveFilterSetting = 0; // LAN9118 has 64bit hash table, can filter 64 MCast MAC Addresses SnpMode->MaxMCastFilterCount = MAX_MCAST_FILTER_CNT; SnpMode->MCastFilterCount = 0; ZeroMem (&SnpMode->MCastFilter, MAX_MCAST_FILTER_CNT * sizeof(EFI_MAC_ADDRESS)); // Set the interface type (1: Ethernet or 6: IEEE 802 Networks) SnpMode->IfType = NET_IFTYPE_ETHERNET; // Mac address is changeable as it is loaded from erasable memory SnpMode->MacAddressChangeable = TRUE; // Can only transmit one packet at a time SnpMode->MultipleTxSupported = FALSE; // MediaPresent checks for cable connection and partner link SnpMode->MediaPresentSupported = TRUE; SnpMode->MediaPresent = FALSE; // Set broadcast address SetMem (&SnpMode->BroadcastAddress, sizeof (EFI_MAC_ADDRESS), 0xFF); // Power up the device so we can find the MAC address Status = Lan9118Initialize (Snp); if (EFI_ERROR (Status)) { DEBUG ((EFI_D_ERROR, "LAN9118: Error initialising hardware\n")); return EFI_DEVICE_ERROR; } // Assign fields for device path CopyMem (&Lan9118Path->Lan9118.MacAddress, &Snp->Mode->CurrentAddress, NET_ETHER_ADDR_LEN); Lan9118Path->Lan9118.IfType = Snp->Mode->IfType; // Initialise the protocol ControllerHandle = NULL; Status = gBS->InstallMultipleProtocolInterfaces ( &ControllerHandle, &gEfiSimpleNetworkProtocolGuid, Snp, &gEfiDevicePathProtocolGuid, Lan9118Path, NULL ); // Say what the status of loading the protocol structure is if (EFI_ERROR(Status)) { FreePool (LanDriver); } else { LanDriver->ControllerHandle = ControllerHandle; } return Status; } /* * UEFI Start() function * * Parameters: * * @param Snp: A pointer to the EFI_SIMPLE_NETWORK_PROTOCOL instance. * * Description: * * This function starts a network interface. If the network interface successfully starts, then * EFI_SUCCESS will be returned. */ EFI_STATUS EFIAPI SnpStart ( IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp ) { // Check Snp instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // Check state if ((Snp->Mode->State == EfiSimpleNetworkStarted) || (Snp->Mode->State == EfiSimpleNetworkInitialized) ) { return EFI_ALREADY_STARTED; } // Change state Snp->Mode->State = EfiSimpleNetworkStarted; return EFI_SUCCESS; } /* * UEFI Stop() function * */ EFI_STATUS EFIAPI SnpStop ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp ) { // Check Snp Instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // Check state of the driver if (Snp->Mode->State == EfiSimpleNetworkStopped) { return EFI_NOT_STARTED; } // Stop the Tx and Rx StopTx (STOP_TX_CFG | STOP_TX_MAC, Snp); StopRx (0, Snp); // Change the state switch (Snp->Mode->State) { case EfiSimpleNetworkStarted: case EfiSimpleNetworkInitialized: Snp->Mode->State = EfiSimpleNetworkStopped; break; default: return EFI_DEVICE_ERROR; } // Put the device into a power saving mode ? return EFI_SUCCESS; } // Allocated receive and transmit buffers STATIC UINT32 gTxBuffer = 0; /* * UEFI Initialize() function * */ EFI_STATUS EFIAPI SnpInitialize ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp, IN UINTN RxBufferSize OPTIONAL, IN UINTN TxBufferSize OPTIONAL ) { EFI_STATUS Status; UINT32 PmConf; INT32 AllocResult; UINT32 RxStatusSize; UINT32 TxStatusSize; // Initialize variables // Global variables to hold tx and rx FIFO allocation gTxBuffer = 0; // Check Snp Instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // First check that driver has not already been initialized if (Snp->Mode->State == EfiSimpleNetworkInitialized) { DEBUG ((EFI_D_WARN, "LAN9118 Driver already initialized\n")); return EFI_SUCCESS; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "LAN9118 Driver not started\n")); return EFI_NOT_STARTED; } // Initiate a PHY reset Status = PhySoftReset (PHY_RESET_PMT, Snp); if (EFI_ERROR (Status)) { Snp->Mode->State = EfiSimpleNetworkStopped; DEBUG ((EFI_D_WARN, "Warning: Link not ready after TimeOut. Check ethernet cable\n")); return EFI_NOT_STARTED; } // Initiate a software reset Status = SoftReset (0, Snp); if (EFI_ERROR(Status)) { DEBUG ((EFI_D_WARN, "Soft Reset Failed: Hardware Error\n")); return EFI_DEVICE_ERROR; } // Read the PM register PmConf = MmioRead32 (LAN9118_PMT_CTRL); // MPTCTRL_WOL_EN: Allow Wake-On-Lan to detect wake up frames or magic packets // MPTCTRL_ED_EN: Allow energy detection to allow lowest power consumption mode // MPTCTRL_PME_EN: Allow Power Management Events PmConf = 0; PmConf |= (MPTCTRL_WOL_EN | MPTCTRL_ED_EN | MPTCTRL_PME_EN); // Write the current configuration to the register MmioWrite32 (LAN9118_PMT_CTRL, PmConf); gBS->Stall (LAN9118_STALL); gBS->Stall (LAN9118_STALL); // Configure GPIO and HW Status = ConfigureHardware (HW_CONF_USE_LEDS, Snp); if (EFI_ERROR(Status)) { return Status; } // Assign the transmitter buffer size (default values) TxStatusSize = LAN9118_TX_STATUS_SIZE; RxStatusSize = LAN9118_RX_STATUS_SIZE; // Check that a buff size was specified if (TxBufferSize > 0) { if (RxBufferSize == 0) { RxBufferSize = LAN9118_RX_DATA_SIZE; } AllocResult = ChangeFifoAllocation ( ALLOC_USE_FIFOS, &TxBufferSize, &RxBufferSize, &TxStatusSize, &RxStatusSize, Snp ); if (AllocResult < 0) { return EFI_OUT_OF_RESOURCES; } } // Do auto-negotiation if supported Status = AutoNegotiate (AUTO_NEGOTIATE_ADVERTISE_ALL, Snp); if (EFI_ERROR(Status)) { DEBUG ((EFI_D_WARN, "LAN9118: Auto Negotiation failed.\n")); } // Configure flow control depending on speed capabilities Status = ConfigureFlow (0, 0, 0, 0, Snp); if (EFI_ERROR(Status)) { return Status; } // Enable the transmitter Status = StartTx (START_TX_MAC | START_TX_CFG, Snp); if (EFI_ERROR(Status)) { return Status; } // Now acknowledge all interrupts MmioWrite32 (LAN9118_INT_STS, ~0); // Declare the driver as initialized Snp->Mode->State = EfiSimpleNetworkInitialized; return Status; } /* * UEFI Reset () function * */ EFI_STATUS EFIAPI SnpReset ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp, IN BOOLEAN Verification ) { UINT32 PmConf; UINT32 HwConf; UINT32 ResetFlags; EFI_STATUS Status; PmConf = 0; HwConf = 0; ResetFlags = 0; // Check Snp Instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // First check that driver has not already been initialized if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not yet initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not started\n")); return EFI_NOT_STARTED; } // Initiate a PHY reset Status = PhySoftReset (PHY_RESET_PMT, Snp); if (EFI_ERROR (Status)) { Snp->Mode->State = EfiSimpleNetworkStopped; return EFI_NOT_STARTED; } // Initiate a software reset ResetFlags |= SOFT_RESET_CHECK_MAC_ADDR_LOAD | SOFT_RESET_CLEAR_INT; if (Verification) { ResetFlags |= SOFT_RESET_SELF_TEST; } Status = SoftReset (ResetFlags, Snp); if (EFI_ERROR (Status)) { DEBUG ((EFI_D_WARN, "Warning: Soft Reset Failed: Hardware Error\n")); return EFI_DEVICE_ERROR; } // Read the PM register PmConf = MmioRead32 (LAN9118_PMT_CTRL); // MPTCTRL_WOL_EN: Allow Wake-On-Lan to detect wake up frames or magic packets // MPTCTRL_ED_EN: Allow energy detection to allow lowest power consumption mode // MPTCTRL_PME_EN: Allow Power Management Events PmConf |= (MPTCTRL_WOL_EN | MPTCTRL_ED_EN | MPTCTRL_PME_EN); // Write the current configuration to the register MmioWrite32 (LAN9118_PMT_CTRL, PmConf); gBS->Stall (LAN9118_STALL); // Reactivate the LEDs Status = ConfigureHardware (HW_CONF_USE_LEDS, Snp); if (EFI_ERROR (Status)) { return Status; } // Check that a buffer size was specified in SnpInitialize if (gTxBuffer != 0) { HwConf = MmioRead32 (LAN9118_HW_CFG); // Read the HW register HwConf &= ~HW_CFG_TX_FIFO_SIZE_MASK; // Clear buffer bits first HwConf |= HW_CFG_TX_FIFO_SIZE(gTxBuffer); // assign size chosen in SnpInitialize MmioWrite32 (LAN9118_HW_CFG, HwConf); // Write the conf gBS->Stall (LAN9118_STALL); } // Enable the receiver and transmitter and clear their contents StartRx (START_RX_CLEAR, Snp); StartTx (START_TX_MAC | START_TX_CFG | START_TX_CLEAR, Snp); // Now acknowledge all interrupts MmioWrite32 (LAN9118_INT_STS, ~0); return EFI_SUCCESS; } /* * UEFI Shutdown () function * */ EFI_STATUS EFIAPI SnpShutdown ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp ) { EFI_STATUS Status; // Check Snp Instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // First check that driver has not already been initialized if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not yet initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not started\n")); return EFI_NOT_STARTED; } // Initiate a PHY reset Status = PhySoftReset (PHY_RESET_PMT, Snp); if (EFI_ERROR (Status)) { return Status; } // Initiate a software reset Status = SoftReset (0, Snp); if (EFI_ERROR (Status)) { DEBUG ((EFI_D_WARN, "Warning: Soft Reset Failed: Hardware Error\n")); return Status; } // Back to the started and thus not initialized state Snp->Mode->State = EfiSimpleNetworkStarted; return EFI_SUCCESS; } /** Enable and/or disable the receive filters of the LAN9118 Please refer to the UEFI specification for the precedence rules among the Enable, Disable and ResetMCastFilter parameters. @param[in] Snp A pointer to the EFI_SIMPLE_NETWORK_PROTOCOL instance. @param[in] Enable A bit mask of receive filters to enable. @param[in] Disable A bit mask of receive filters to disable. @param[in] ResetMCastFilter Set to TRUE to reset the contents of the multicast receive filters on the network interface to their default values. @param[in] MCastFilterCnt Number of multicast HW MAC addresses in the new MCastFilter list. This value must be less than or equal to the MCastFilterCnt field of EFI_SIMPLE_NETWORK_MODE. This field is optional if ResetMCastFilter is TRUE. @param[in] MCastFilter A pointer to a list of new multicast receive filter HW MAC addresses. This list will replace any existing multicast HW MAC address list. This field is optional if ResetMCastFilter is TRUE. @retval EFI_SUCCESS The receive filters of the LAN9118 were updated. @retval EFI_NOT_STARTED The LAN9118 has not been started. @retval EFI_INVALID_PARAMETER One or more of the following conditions is TRUE : . This is NULL . Multicast is being enabled (the EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST bit is set in Enable, it is not set in Disable, and ResetMCastFilter is FALSE) and MCastFilterCount is zero. . Multicast is being enabled and MCastFilterCount is greater than Snp->Mode->MaxMCastFilterCount. . Multicast is being enabled and MCastFilter is NULL . Multicast is being enabled and one or more of the addresses in the MCastFilter list are not valid multicast MAC addresses. @retval EFI_DEVICE_ERROR The LAN9118 has been started but not initialized. **/ EFI_STATUS EFIAPI SnpReceiveFilters ( IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, IN UINT32 Enable, IN UINT32 Disable, IN BOOLEAN ResetMCastFilter, IN UINTN MCastFilterCnt OPTIONAL, IN EFI_MAC_ADDRESS *MCastFilter OPTIONAL ) { EFI_SIMPLE_NETWORK_MODE *Mode; UINT32 MultHashTableHigh; UINT32 MultHashTableLow; UINT32 Count; UINT32 Crc; UINT8 HashValue; UINT32 MacCSRValue; UINT32 ReceiveFilterSetting; EFI_MAC_ADDRESS *Mac; EFI_MAC_ADDRESS ZeroMac; // Check Snp Instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } Mode = Snp->Mode; // Check that driver was started and initialised if (Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } if ((Enable & (~Mode->ReceiveFilterMask)) || (Disable & (~Mode->ReceiveFilterMask)) ) { return EFI_INVALID_PARAMETER; } // // Check the validity of the multicast setting and compute the // hash values of the multicast mac addresses to listen to. // MultHashTableHigh = 0; MultHashTableLow = 0; if ((!ResetMCastFilter) && ((Disable & EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST) == 0) && ((Enable & EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST) != 0) ) { if ((MCastFilterCnt == 0) || (MCastFilterCnt > Mode->MaxMCastFilterCount) || (MCastFilter == NULL) ) { return EFI_INVALID_PARAMETER; } // // Check the validity of all multicast addresses before to change // anything. // for (Count = 0; Count < MCastFilterCnt; Count++) { if ((MCastFilter[Count].Addr[0] & 1) == 0) { return EFI_INVALID_PARAMETER; } } // // Go through each filter address and set appropriate bits on hash table // for (Count = 0; Count < MCastFilterCnt; Count++) { Mac = &(MCastFilter[Count]); CopyMem (&Mode->MCastFilter[Count], Mac, sizeof(EFI_MAC_ADDRESS)); Crc = GenEtherCrc32 (Mac, NET_ETHER_ADDR_LEN); //gBS->CalculateCrc32 ((VOID*)&Mfilter[Count],6,&Crc); <-- doesn't work as desired // // The most significant 6 bits of the MAC address CRC constitute the hash // value of the MAC address. // HashValue = (Crc >> 26) & 0x3F; // Select hashlow register if MSB is not set if ((HashValue & 0x20) == 0) { MultHashTableLow |= (1 << HashValue); } else { MultHashTableHigh |= (1 << (HashValue & 0x1F)); } } Mode->MCastFilterCount = MCastFilterCnt; } else if (ResetMCastFilter) { Mode->MCastFilterCount = 0; } else { MultHashTableLow = IndirectMACRead32 (INDIRECT_MAC_INDEX_HASHL); MultHashTableHigh = IndirectMACRead32 (INDIRECT_MAC_INDEX_HASHH); } // // Before to change anything, stop and reset the reception of // packets. // StopRx (STOP_RX_CLEAR, Snp); // // Write the mask of the selected hash values for the multicast filtering. // The two masks are set to zero if the multicast filtering is not enabled. // IndirectMACWrite32 (INDIRECT_MAC_INDEX_HASHL, MultHashTableLow); IndirectMACWrite32 (INDIRECT_MAC_INDEX_HASHH, MultHashTableHigh); ReceiveFilterSetting = (Mode->ReceiveFilterSetting | Enable) & (~Disable); // // Read MAC controller // MacCSRValue = IndirectMACRead32 (INDIRECT_MAC_INDEX_CR); MacCSRValue &= ~(MACCR_HPFILT | MACCR_BCAST | MACCR_PRMS | MACCR_MCPAS); if (ReceiveFilterSetting & EFI_SIMPLE_NETWORK_RECEIVE_UNICAST) { Lan9118SetMacAddress (&Mode->CurrentAddress, Snp); DEBUG ((DEBUG_NET, "Allowing Unicast Frame Reception\n")); } else { // // The Unicast packets do not have to be listen to, set the MAC // address of the LAN9118 to be the "not configured" all zeroes // ethernet MAC address. // ZeroMem (&ZeroMac, NET_ETHER_ADDR_LEN); Lan9118SetMacAddress (&ZeroMac, Snp); } if (ReceiveFilterSetting & EFI_SIMPLE_NETWORK_RECEIVE_MULTICAST) { MacCSRValue |= MACCR_HPFILT; DEBUG ((DEBUG_NET, "Allowing Multicast Frame Reception\n")); } if (ReceiveFilterSetting & EFI_SIMPLE_NETWORK_RECEIVE_PROMISCUOUS_MULTICAST) { MacCSRValue |= MACCR_MCPAS; DEBUG ((DEBUG_NET, "Enabling Promiscuous Multicast Mode\n")); } if ((ReceiveFilterSetting & EFI_SIMPLE_NETWORK_RECEIVE_BROADCAST) == 0) { MacCSRValue |= MACCR_BCAST; } else { DEBUG ((DEBUG_NET, "Allowing Broadcast Frame Reception\n")); } if (ReceiveFilterSetting & EFI_SIMPLE_NETWORK_RECEIVE_PROMISCUOUS) { MacCSRValue |= MACCR_PRMS; DEBUG ((DEBUG_NET, "Enabling Promiscuous Mode\n")); } // // Write the options to the MAC_CSR // IndirectMACWrite32 (INDIRECT_MAC_INDEX_CR, MacCSRValue); gBS->Stall (LAN9118_STALL); // // If we have to retrieve something, start packet reception. // Mode->ReceiveFilterSetting = ReceiveFilterSetting; if (ReceiveFilterSetting != 0) { StartRx (0, Snp); } return EFI_SUCCESS; } /** Modify of reset the current station address @param[in] Snp A pointer to the EFI_SIMPLE_NETWORK_PROTOCOL instance. @param[in] Reset Flag used to reset the station address to the LAN9118's permanent address. @param[in] New New station address to be used for the network interface. @retval EFI_SUCCESS The LAN9118's station address was updated. @retval EFI_NOT_STARTED The LAN9118 has not been started. @retval EFI_INVALID_PARAMETER One or more of the following conditions is TRUE : . The "New" station address is invalid. . "Reset" is FALSE and "New" is NULL. @retval EFI_DEVICE_ERROR The LAN9118 has been started but not initialized. **/ EFI_STATUS EFIAPI SnpStationAddress ( IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, IN BOOLEAN Reset, IN EFI_MAC_ADDRESS *New ) { UINT32 Count; UINT8 PermAddr[NET_ETHER_ADDR_LEN]; DEBUG ((DEBUG_NET, "SnpStationAddress()\n")); // Check Snp instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // Check that driver was started and initialised if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } // Get the Permanent MAC address if need reset if (Reset) { // Try using EEPROM first. Read the first byte of data from EEPROM at the address 0x0 if ((IndirectEEPROMRead32 (0) & 0xFF) == EEPROM_EXTERNAL_SERIAL_EEPROM) { for (Count = 0; Count < NET_ETHER_ADDR_LEN; Count++) { PermAddr[Count] = IndirectEEPROMRead32 (Count + 1); } New = (EFI_MAC_ADDRESS *) PermAddr; Lan9118SetMacAddress ((EFI_MAC_ADDRESS *) PermAddr, Snp); } else { DEBUG ((EFI_D_ERROR, "LAN9118: Warning: No valid MAC address in EEPROM, using fallback\n")); New = (EFI_MAC_ADDRESS*) (FixedPcdGet64 (PcdLan9118DefaultMacAddress)); } } else { // Otherwise use the specified new MAC address if (New == NULL) { return EFI_INVALID_PARAMETER; } // // If it is a multicast address, it is not valid. // if (New->Addr[0] & 0x01) { return EFI_INVALID_PARAMETER; } } CopyMem (&Snp->Mode->CurrentAddress, New, NET_ETHER_ADDR_LEN); // // If packet reception is currently activated, stop and reset it, // set the new ethernet address and restart the packet reception. // Otherwise, nothing to do, the MAC address will be updated in // SnpReceiveFilters() when the UNICAST packet reception will be // activated. // if (Snp->Mode->ReceiveFilterSetting != 0) { StopRx (STOP_RX_CLEAR, Snp); Lan9118SetMacAddress (New, Snp); StartRx (0, Snp); } return EFI_SUCCESS; } /* * UEFI Statistics() function * */ EFI_STATUS EFIAPI SnpStatistics ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp, IN BOOLEAN Reset, IN OUT UINTN *StatSize, OUT EFI_NETWORK_STATISTICS *Statistics ) { LAN9118_DRIVER *LanDriver; EFI_STATUS Status; LanDriver = INSTANCE_FROM_SNP_THIS (Snp); DEBUG ((DEBUG_NET, "SnpStatistics()\n")); // Check Snp instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // Check that driver was started and initialised if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } // // Do a reset if required. It is not clearly stated in the UEFI specification // whether the reset has to be done before to copy the statistics in "Statictics" // or after. It is a bit strange to do it before but that is what is expected by // the SCT test on Statistics() with reset : "0x3de76704,0x4bf5,0x42cd,0x8c,0x89, // 0x54,0x7e,0x4f,0xad,0x4f,0x24". // if (Reset) { ZeroMem (&LanDriver->Stats, sizeof(EFI_NETWORK_STATISTICS)); } Status = EFI_SUCCESS; if (StatSize == NULL) { if (Statistics != NULL) { return EFI_INVALID_PARAMETER; } } else { if (Statistics == NULL) { Status = EFI_BUFFER_TOO_SMALL; } else { // Fill in the statistics CopyMem ( Statistics, &LanDriver->Stats, MIN (*StatSize, sizeof (EFI_NETWORK_STATISTICS)) ); if (*StatSize < sizeof (EFI_NETWORK_STATISTICS)) { Status = EFI_BUFFER_TOO_SMALL; } } *StatSize = sizeof (EFI_NETWORK_STATISTICS); } return Status; } /* * UEFI MCastIPtoMAC() function * */ EFI_STATUS EFIAPI SnpMcastIptoMac ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp, IN BOOLEAN IsIpv6, IN EFI_IP_ADDRESS *Ip, OUT EFI_MAC_ADDRESS *McastMac ) { DEBUG ((DEBUG_NET, "SnpMcastIptoMac()\n")); // Check Snp instance if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // Check that driver was started and initialised if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } // Check parameters if ((McastMac == NULL) || (Ip == NULL)) { return EFI_INVALID_PARAMETER; } // Make sure MAC address is empty ZeroMem (McastMac, sizeof(EFI_MAC_ADDRESS)); // If we need ipv4 address if (!IsIpv6) { // Most significant 25 bits of a multicast HW address are set. // 01-00-5E is the IPv4 Ethernet Multicast Address (see RFC 1112) McastMac->Addr[0] = 0x01; McastMac->Addr[1] = 0x00; McastMac->Addr[2] = 0x5E; // Lower 23 bits from ipv4 address McastMac->Addr[3] = (Ip->v4.Addr[1] & 0x7F); // Clear the most significant bit (25th bit of MAC must be 0) McastMac->Addr[4] = Ip->v4.Addr[2]; McastMac->Addr[5] = Ip->v4.Addr[3]; } else { // Most significant 16 bits of multicast v6 HW address are set // 33-33 is the IPv6 Ethernet Multicast Address (see RFC 2464) McastMac->Addr[0] = 0x33; McastMac->Addr[1] = 0x33; // lower four octets are taken from ipv6 address McastMac->Addr[2] = Ip->v6.Addr[8]; McastMac->Addr[3] = Ip->v6.Addr[9]; McastMac->Addr[4] = Ip->v6.Addr[10]; McastMac->Addr[5] = Ip->v6.Addr[11]; } return EFI_SUCCESS; } /* * UEFI NvData() function * */ EFI_STATUS EFIAPI SnpNvData ( IN EFI_SIMPLE_NETWORK_PROTOCOL* pobj, IN BOOLEAN read_write, IN UINTN offset, IN UINTN buff_size, IN OUT VOID *data ) { DEBUG ((DEBUG_NET, "SnpNvData()\n")); return EFI_UNSUPPORTED; } /* * UEFI GetStatus () function * */ EFI_STATUS EFIAPI SnpGetStatus ( IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, OUT UINT32 *IrqStat OPTIONAL, OUT VOID **TxBuff OPTIONAL ) { UINT32 FifoInt; EFI_STATUS Status; UINTN NumTxStatusEntries; UINT32 TxStatus; UINT16 PacketTag; UINT32 Interrupts; LAN9118_DRIVER *LanDriver; LanDriver = INSTANCE_FROM_SNP_THIS (Snp); // Check preliminaries if (Snp == NULL) { return EFI_INVALID_PARAMETER; } // Check that driver was started and initialised if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } // Check and acknowledge TX Status interrupt (this will happen if the // consumer of SNP does not call GetStatus.) // TODO will we lose TxStatuses if this happens? Maybe in SnpTransmit we // should check for it and dump the TX Status FIFO. FifoInt = MmioRead32 (LAN9118_FIFO_INT); // Clear the TX Status FIFO Overflow if ((FifoInt & INSTS_TXSO) == 0) { FifoInt |= INSTS_TXSO; MmioWrite32 (LAN9118_FIFO_INT, FifoInt); } // Read interrupt status if IrqStat is not NULL if (IrqStat != NULL) { *IrqStat = 0; // Check for receive interrupt if (MmioRead32 (LAN9118_INT_STS) & INSTS_RSFL) { // Data moved from rx FIFO *IrqStat |= EFI_SIMPLE_NETWORK_RECEIVE_INTERRUPT; MmioWrite32 (LAN9118_INT_STS,INSTS_RSFL); } // Check for transmit interrupt if (MmioRead32 (LAN9118_INT_STS) & INSTS_TSFL) { *IrqStat |= EFI_SIMPLE_NETWORK_TRANSMIT_INTERRUPT; MmioWrite32 (LAN9118_INT_STS,INSTS_TSFL); } // Check for software interrupt if (MmioRead32 (LAN9118_INT_STS) & INSTS_SW_INT) { *IrqStat |= EFI_SIMPLE_NETWORK_SOFTWARE_INTERRUPT; MmioWrite32 (LAN9118_INT_STS,INSTS_SW_INT); } } // Check Status of transmitted packets // (We ignore TXSTATUS_NO_CA has it might happen in Full Duplex) NumTxStatusEntries = MmioRead32(LAN9118_TX_FIFO_INF) & TXFIFOINF_TXSUSED_MASK; if (NumTxStatusEntries > 0) { TxStatus = MmioRead32 (LAN9118_TX_STATUS); PacketTag = TxStatus >> 16; TxStatus = TxStatus & 0xFFFF; if ((TxStatus & TXSTATUS_ES) && (TxStatus != (TXSTATUS_ES | TXSTATUS_NO_CA))) { DEBUG ((EFI_D_ERROR, "LAN9118: There was an error transmitting. TxStatus=0x%08x:", TxStatus)); if (TxStatus & TXSTATUS_NO_CA) { DEBUG ((EFI_D_ERROR, "- No carrier\n")); } if (TxStatus & TXSTATUS_DEF) { DEBUG ((EFI_D_ERROR, "- Packet tx was deferred\n")); } if (TxStatus & TXSTATUS_EDEF) { DEBUG ((EFI_D_ERROR, "- Tx ended because of excessive deferral\n")); } if (TxStatus & TXSTATUS_ECOLL) { DEBUG ((EFI_D_ERROR, "- Tx ended because of Excessive Collisions\n")); } if (TxStatus & TXSTATUS_LCOLL) { DEBUG ((EFI_D_ERROR, "- Packet Tx aborted after coll window of 64 bytes\n")); } if (TxStatus & TXSTATUS_LOST_CA) { DEBUG ((EFI_D_ERROR, "- Lost carrier during Tx\n")); } return EFI_DEVICE_ERROR; } else if (TxBuff != NULL) { LanDriver->Stats.TxTotalFrames += 1; *TxBuff = LanDriver->TxRing[PacketTag % LAN9118_TX_RING_NUM_ENTRIES]; } } // Check for a TX Error interrupt Interrupts = MmioRead32 (LAN9118_INT_STS); if (Interrupts & INSTS_TXE) { DEBUG ((EFI_D_ERROR, "LAN9118: Transmitter error. Restarting...")); // Software reset, the TXE interrupt is cleared by the reset. Status = SoftReset (0, Snp); if (EFI_ERROR (Status)) { DEBUG ((EFI_D_ERROR, "\n\tSoft Reset Failed: Hardware Error\n")); return EFI_DEVICE_ERROR; } // Reactivate the LEDs Status = ConfigureHardware (HW_CONF_USE_LEDS, Snp); if (EFI_ERROR (Status)) { return Status; } // // Restart the transmitter and if necessary the receiver. // Do not ask for FIFO reset as it has already been done // by SoftReset(). // StartTx (START_TX_MAC | START_TX_CFG, Snp); if (Snp->Mode->ReceiveFilterSetting != 0) { StartRx (0, Snp); } } // Update the media status Status = CheckLinkStatus (0, Snp); if (EFI_ERROR(Status)) { Snp->Mode->MediaPresent = FALSE; } else { Snp->Mode->MediaPresent = TRUE; } return EFI_SUCCESS; } /* * UEFI Transmit() function * */ EFI_STATUS EFIAPI SnpTransmit ( IN EFI_SIMPLE_NETWORK_PROTOCOL *Snp, IN UINTN HdrSize, IN UINTN BuffSize, IN VOID* Data, IN EFI_MAC_ADDRESS *SrcAddr OPTIONAL, IN EFI_MAC_ADDRESS *DstAddr OPTIONAL, IN UINT16 *Protocol OPTIONAL ) { LAN9118_DRIVER *LanDriver; UINT32 TxFreeSpace; UINT32 TxStatusSpace; INT32 Count; UINT32 CommandA; UINT32 CommandB; UINT16 LocalProtocol; UINT32 *LocalData; UINT16 PacketTag; #if defined(EVAL_PERFORMANCE) UINT64 Perf; UINT64 StartClock; UINT64 EndClock; Perf = GetPerformanceCounterProperties (NULL, NULL); StartClock = GetPerformanceCounter (); #endif LanDriver = INSTANCE_FROM_SNP_THIS (Snp); // Check preliminaries if ((Snp == NULL) || (Data == NULL)) { return EFI_INVALID_PARAMETER; } // Check that driver was started and initialised if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } // Ensure header is correct size if non-zero if (HdrSize) { if (HdrSize != Snp->Mode->MediaHeaderSize) { return EFI_INVALID_PARAMETER; } if ((DstAddr == NULL) || (Protocol == NULL)) { return EFI_INVALID_PARAMETER; } } // // Check validity of BufferSize // if (BuffSize < Snp->Mode->MediaHeaderSize) { return EFI_BUFFER_TOO_SMALL; } // Before transmitting check the link status /*if (CheckLinkStatus (0, Snp) < 0) { return EFI_NOT_READY; }*/ // Get DATA FIFO free space in bytes TxFreeSpace = TxDataFreeSpace (0, Snp); if (TxFreeSpace < BuffSize) { return EFI_NOT_READY; } // Get STATUS FIFO used space in bytes TxStatusSpace = TxStatusUsedSpace (0, Snp); if (TxStatusSpace > 500) { return EFI_NOT_READY; } // If DstAddr is not provided, get it from Buffer (we trust that the caller // has provided a well-formed frame). if (DstAddr == NULL) { DstAddr = (EFI_MAC_ADDRESS *) Data; } // Check for the nature of the frame if ((DstAddr->Addr[0] & 0x1) == 1) { LanDriver->Stats.TxMulticastFrames += 1; } else { LanDriver->Stats.TxUnicastFrames += 1; } // Check if broadcast if (DstAddr->Addr[0] == 0xFF) { LanDriver->Stats.TxBroadcastFrames += 1; } PacketTag = LanDriver->NextPacketTag; LanDriver->NextPacketTag++; if (HdrSize) { // Format pointer LocalData = (UINT32*) Data; LocalProtocol = *Protocol; // Create first buffer to pass to controller (for the header) CommandA = TX_CMD_A_FIRST_SEGMENT | TX_CMD_A_BUFF_SIZE (HdrSize); CommandB = TX_CMD_B_PACKET_TAG (PacketTag) | TX_CMD_B_PACKET_LENGTH (BuffSize); // Write the commands first MmioWrite32 (LAN9118_TX_DATA, CommandA); MmioWrite32 (LAN9118_TX_DATA, CommandB); // Write the destination address MmioWrite32 (LAN9118_TX_DATA, (DstAddr->Addr[0]) | (DstAddr->Addr[1] << 8) | (DstAddr->Addr[2] << 16) | (DstAddr->Addr[3] << 24) ); MmioWrite32 (LAN9118_TX_DATA, (DstAddr->Addr[4]) | (DstAddr->Addr[5] << 8) | (SrcAddr->Addr[0] << 16) | // Write the Source Address (SrcAddr->Addr[1] << 24) ); MmioWrite32 (LAN9118_TX_DATA, (SrcAddr->Addr[2]) | (SrcAddr->Addr[3] << 8) | (SrcAddr->Addr[4] << 16) | (SrcAddr->Addr[5] << 24) ); // Write the Protocol MmioWrite32 (LAN9118_TX_DATA, (UINT32)(HTONS (LocalProtocol))); // Next buffer is the payload CommandA = TX_CMD_A_LAST_SEGMENT | TX_CMD_A_BUFF_SIZE (BuffSize - HdrSize) | TX_CMD_A_COMPLETION_INT | TX_CMD_A_DATA_START_OFFSET (2); // 2 bytes beginning offset // Write the commands MmioWrite32 (LAN9118_TX_DATA, CommandA); MmioWrite32 (LAN9118_TX_DATA, CommandB); // Write the payload for (Count = 0; Count < ((BuffSize + 3) >> 2) - 3; Count++) { MmioWrite32 (LAN9118_TX_DATA, LocalData[Count + 3]); } } else { // Format pointer LocalData = (UINT32*) Data; // Create a buffer to pass to controller CommandA = TX_CMD_A_FIRST_SEGMENT | TX_CMD_A_LAST_SEGMENT | TX_CMD_A_BUFF_SIZE (BuffSize) | TX_CMD_A_COMPLETION_INT; CommandB = TX_CMD_B_PACKET_TAG (PacketTag) | TX_CMD_B_PACKET_LENGTH (BuffSize); // Write the commands first MmioWrite32 (LAN9118_TX_DATA, CommandA); MmioWrite32 (LAN9118_TX_DATA, CommandB); // Write all the data for (Count = 0; Count < ((BuffSize + 3) >> 2); Count++) { MmioWrite32 (LAN9118_TX_DATA, LocalData[Count]); } } // Save the address of the submitted packet so we can notify the consumer that // it has been sent in GetStatus. When the packet tag appears in the Tx Status // Fifo, we will return Buffer in the TxBuff parameter of GetStatus. LanDriver->TxRing[PacketTag % LAN9118_TX_RING_NUM_ENTRIES] = Data; #if defined(EVAL_PERFORMANCE) EndClock = GetPerformanceCounter (); DEBUG ((EFI_D_ERROR, "Time processing: %d counts @ %d Hz\n", StartClock - EndClock,Perf)); #endif LanDriver->Stats.TxGoodFrames += 1; return EFI_SUCCESS; } /* * UEFI Receive() function * */ EFI_STATUS EFIAPI SnpReceive ( IN EFI_SIMPLE_NETWORK_PROTOCOL* Snp, OUT UINTN *HdrSize OPTIONAL, IN OUT UINTN *BuffSize, OUT VOID *Data, OUT EFI_MAC_ADDRESS *SrcAddr OPTIONAL, OUT EFI_MAC_ADDRESS *DstAddr OPTIONAL, OUT UINT16 *Protocol OPTIONAL ) { LAN9118_DRIVER *LanDriver; UINT32 IntSts; UINT32 RxFifoStatus; UINT32 NumPackets; UINT32 RxCfgValue; UINT32 PLength; // Packet length UINT32 ReadLimit; UINT32 Count; UINT32 Padding; UINT32 *RawData; EFI_MAC_ADDRESS Dst; EFI_MAC_ADDRESS Src; UINTN DroppedFrames; EFI_STATUS Status; LanDriver = INSTANCE_FROM_SNP_THIS (Snp); #if defined(EVAL_PERFORMANCE) UINT64 Perf = GetPerformanceCounterProperties (NULL, NULL); UINT64 StartClock = GetPerformanceCounter (); #endif // Check preliminaries if ((Snp == NULL) || (Data == NULL) || (BuffSize == NULL)) { return EFI_INVALID_PARAMETER; } // Check that driver was started and initialised if (Snp->Mode->State == EfiSimpleNetworkStarted) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver not initialized\n")); return EFI_DEVICE_ERROR; } else if (Snp->Mode->State == EfiSimpleNetworkStopped) { DEBUG ((EFI_D_WARN, "Warning: LAN9118 Driver in stopped state\n")); return EFI_NOT_STARTED; } // // If the receiver raised the RXE error bit, check if the receiver status // FIFO is full and if not just acknowledge the error. The two other // conditions to get a RXE error are : // . the RX data FIFO is read whereas being empty. // . the RX status FIFO is read whereas being empty. // The RX data and status FIFO are read by this driver only in the following // code of this function. After the readings, the RXE error bit is checked // and if raised, the controller is reset. Thus, at this point, we consider // that the only valid reason to get an RXE error is the receiver status // FIFO being full. And if this is not the case, we consider that this is // a spurious error and we just get rid of it. We experienced such 'spurious' // errors when running the driver on an A57 on Juno. No valid reason to // explain those errors has been found so far and everything seems to // work perfectly when they are just ignored. // IntSts = MmioRead32 (LAN9118_INT_STS); if ((IntSts & INSTS_RXE) && (!(IntSts & INSTS_RSFF))) { MmioWrite32 (LAN9118_INT_STS, INSTS_RXE); } // Count dropped frames DroppedFrames = MmioRead32 (LAN9118_RX_DROP); LanDriver->Stats.RxDroppedFrames += DroppedFrames; NumPackets = RxStatusUsedSpace (0, Snp) / 4; if (!NumPackets) { return EFI_NOT_READY; } // Read Rx Status (only if not empty) RxFifoStatus = MmioRead32 (LAN9118_RX_STATUS); LanDriver->Stats.RxTotalFrames += 1; // First check for errors if ((RxFifoStatus & RXSTATUS_MII_ERROR) || (RxFifoStatus & RXSTATUS_RXW_TO) || (RxFifoStatus & RXSTATUS_FTL) || (RxFifoStatus & RXSTATUS_LCOLL) || (RxFifoStatus & RXSTATUS_LE) || (RxFifoStatus & RXSTATUS_DB)) { DEBUG ((EFI_D_WARN, "Warning: There was an error on frame reception.\n")); return EFI_DEVICE_ERROR; } // Check if we got a CRC error if (RxFifoStatus & RXSTATUS_CRC_ERROR) { DEBUG ((EFI_D_WARN, "Warning: Crc Error\n")); LanDriver->Stats.RxCrcErrorFrames += 1; LanDriver->Stats.RxDroppedFrames += 1; return EFI_DEVICE_ERROR; } // Check if we got a runt frame if (RxFifoStatus & RXSTATUS_RUNT) { DEBUG ((EFI_D_WARN, "Warning: Runt Frame\n")); LanDriver->Stats.RxUndersizeFrames += 1; LanDriver->Stats.RxDroppedFrames += 1; return EFI_DEVICE_ERROR; } // Check filtering status for this packet if (RxFifoStatus & RXSTATUS_FILT_FAIL) { DEBUG ((EFI_D_WARN, "Warning: Frame Failed Filtering\n")); // fast forward? } // Check if we got a broadcast frame if (RxFifoStatus & RXSTATUS_BCF) { LanDriver->Stats.RxBroadcastFrames += 1; } // Check if we got a multicast frame if (RxFifoStatus & RXSTATUS_MCF) { LanDriver->Stats.RxMulticastFrames += 1; } // Check if we got a unicast frame if ((RxFifoStatus & RXSTATUS_BCF) && ((RxFifoStatus & RXSTATUS_MCF) == 0)) { LanDriver->Stats.RxUnicastFrames += 1; } // Get the received packet length PLength = GET_RXSTATUS_PACKET_LENGTH(RxFifoStatus); LanDriver->Stats.RxTotalBytes += (PLength - 4); // If padding is applied, read more DWORDs if (PLength % 4) { Padding = 4 - (PLength % 4); ReadLimit = (PLength + Padding)/4; } else { ReadLimit = PLength/4; Padding = 0; } // Check buffer size if (*BuffSize < (PLength + Padding)) { *BuffSize = PLength + Padding; return EFI_BUFFER_TOO_SMALL; } // Set the amount of data to be transfered out of FIFO for THIS packet // This can be used to trigger an interrupt, and status can be checked RxCfgValue = MmioRead32 (LAN9118_RX_CFG); RxCfgValue &= ~(RXCFG_RX_DMA_CNT_MASK); RxCfgValue |= RXCFG_RX_DMA_CNT (ReadLimit); // Set end alignment to 4-bytes RxCfgValue &= ~(RXCFG_RX_END_ALIGN_MASK); MmioWrite32 (LAN9118_RX_CFG, RxCfgValue); // Update buffer size *BuffSize = PLength; // -4 bytes may be needed: Received in buffer as // 4 bytes longer than packet actually is, unless // packet is < 64 bytes if (HdrSize != NULL) *HdrSize = Snp->Mode->MediaHeaderSize; // Format the pointer RawData = (UINT32*)Data; // Read Rx Packet for (Count = 0; Count < ReadLimit; Count++) { RawData[Count] = MmioRead32 (LAN9118_RX_DATA); } // Get the destination address if (DstAddr != NULL) { Dst.Addr[0] = (RawData[0] & 0xFF); Dst.Addr[1] = (RawData[0] & 0xFF00) >> 8; Dst.Addr[2] = (RawData[0] & 0xFF0000) >> 16; Dst.Addr[3] = (RawData[0] & 0xFF000000) >> 24; Dst.Addr[4] = (RawData[1] & 0xFF); Dst.Addr[5] = (RawData[1] & 0xFF00) >> 8; CopyMem (DstAddr, &Dst, NET_ETHER_ADDR_LEN); } // Get the source address if (SrcAddr != NULL) { Src.Addr[0] = (RawData[1] & 0xFF0000) >> 16; Src.Addr[1] = (RawData[1] & 0xFF000000) >> 24; Src.Addr[2] = (RawData[2] & 0xFF); Src.Addr[3] = (RawData[2] & 0xFF00) >> 8; Src.Addr[4] = (RawData[2] & 0xFF0000) >> 16; Src.Addr[5] = (RawData[2] & 0xFF000000) >> 24; CopyMem (SrcAddr, &Src, NET_ETHER_ADDR_LEN); } // Get the protocol if (Protocol != NULL) { *Protocol = NTOHS (RawData[3] & 0xFFFF); } // Check for Rx errors (worst possible error) if (MmioRead32 (LAN9118_INT_STS) & INSTS_RXE) { DEBUG ((EFI_D_WARN, "Warning: Receiver Error. Restarting...\n")); // Software reset, the RXE interrupt is cleared by the reset. Status = SoftReset (0, Snp); if (EFI_ERROR (Status)) { DEBUG ((EFI_D_ERROR, "Error: Soft Reset Failed: Hardware Error.\n")); return EFI_DEVICE_ERROR; } // Reactivate the LEDs Status = ConfigureHardware (HW_CONF_USE_LEDS, Snp); if (EFI_ERROR (Status)) { return Status; } // // Restart the receiver and the transmitter without reseting the FIFOs // as it has been done by SoftReset(). // StartRx (0, Snp); StartTx (START_TX_MAC | START_TX_CFG, Snp); // Say that command could not be sent return EFI_DEVICE_ERROR; } #if defined(EVAL_PERFORMANCE) UINT64 EndClock = GetPerformanceCounter (); DEBUG ((EFI_D_ERROR, "Receive Time processing: %d counts @ %d Hz\n", StartClock - EndClock,Perf)); #endif LanDriver->Stats.RxGoodFrames += 1; return EFI_SUCCESS; }