From daaaf0285d55745248762fe2b4ea51ab4f3712d9 Mon Sep 17 00:00:00 2001 From: Mike Frysinger Date: Sun, 16 Oct 2011 16:04:13 -0400 Subject: [PATCH] net: xilinx_enet: drop unused !NET_MULTI driver This driver doesn't support the NET_MULTI framework, and I can't find any boards/configs/files that reference this subdir, so punt it all. Signed-off-by: Mike Frysinger --- board/xilinx/xilinx_enet/emac_adapter.c | 165 --- board/xilinx/xilinx_enet/xemac.c | 844 ------------- board/xilinx/xilinx_enet/xemac.h | 673 ----------- board/xilinx/xilinx_enet/xemac_g.c | 60 - board/xilinx/xilinx_enet/xemac_i.h | 207 ---- board/xilinx/xilinx_enet/xemac_intr.c | 402 ------ board/xilinx/xilinx_enet/xemac_intr_dma.c | 1344 --------------------- board/xilinx/xilinx_enet/xemac_l.h | 462 ------- board/xilinx/xilinx_enet/xemac_options.c | 318 ----- board/xilinx/xilinx_enet/xemac_polled.c | 482 -------- 10 files changed, 4957 deletions(-) delete mode 100644 board/xilinx/xilinx_enet/emac_adapter.c delete mode 100644 board/xilinx/xilinx_enet/xemac.c delete mode 100644 board/xilinx/xilinx_enet/xemac.h delete mode 100644 board/xilinx/xilinx_enet/xemac_g.c delete mode 100644 board/xilinx/xilinx_enet/xemac_i.h delete mode 100644 board/xilinx/xilinx_enet/xemac_intr.c delete mode 100644 board/xilinx/xilinx_enet/xemac_intr_dma.c delete mode 100644 board/xilinx/xilinx_enet/xemac_l.h delete mode 100644 board/xilinx/xilinx_enet/xemac_options.c delete mode 100644 board/xilinx/xilinx_enet/xemac_polled.c diff --git a/board/xilinx/xilinx_enet/emac_adapter.c b/board/xilinx/xilinx_enet/emac_adapter.c deleted file mode 100644 index 35bcc4d9da..0000000000 --- a/board/xilinx/xilinx_enet/emac_adapter.c +++ /dev/null @@ -1,165 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ - -#include -#include -#include -#include "xemac.h" - -#if defined(XPAR_EMAC_0_DEVICE_ID) -/* - * ENET_MAX_MTU and ENET_MAX_MTU_ALIGNED are set from - * PKTSIZE and PKTSIZE_ALIGN (include/net.h) - */ - -#define ENET_MAX_MTU PKTSIZE -#define ENET_MAX_MTU_ALIGNED PKTSIZE_ALIGN -#define ENET_ADDR_LENGTH 6 - -static XEmac Emac; -static char etherrxbuff[PKTSIZE_ALIGN]; /* Receive buffer */ - -/* hardcoded MAC address for the Xilinx EMAC Core when env is nowhere*/ -#ifdef CONFIG_ENV_IS_NOWHERE -static u8 EMACAddr[ENET_ADDR_LENGTH] = { 0x00, 0x0a, 0x35, 0x00, 0x22, 0x01 }; -#endif - -static int initialized = 0; - -void -eth_halt(void) -{ - if (initialized) - (void) XEmac_Stop(&Emac); -} - -int -eth_init(bd_t * bis) -{ - u32 Options; - XStatus Result; - uchar enetaddr[6]; - -#ifdef DEBUG - printf("EMAC Initialization Started\n\r"); -#endif - - Result = XEmac_Initialize(&Emac, XPAR_EMAC_0_DEVICE_ID); - if (Result != XST_SUCCESS) { - return 0; - } - - /* make sure the Emac is stopped before it is started */ - (void) XEmac_Stop(&Emac); - - if (!eth_getenv_enetaddr("ethaddr", enetaddr)) { -#ifdef CONFIG_ENV_IS_NOWHERE - memcpy(enetaddr, EMACAddr, 6); - eth_setenv_enetaddr("ethaddr", enetaddr); -#endif - } - - Result = XEmac_SetMacAddress(&Emac, enetaddr); - if (Result != XST_SUCCESS) { - return 0; - } - - Options = - (XEM_POLLED_OPTION | XEM_UNICAST_OPTION | XEM_BROADCAST_OPTION | - XEM_FDUPLEX_OPTION | XEM_INSERT_FCS_OPTION | - XEM_INSERT_PAD_OPTION); - Result = XEmac_SetOptions(&Emac, Options); - if (Result != XST_SUCCESS) { - return 0; - } - - Result = XEmac_Start(&Emac); - if (Result != XST_SUCCESS) { - return 0; - } -#ifdef DEBUG - printf("EMAC Initialization complete\n\r"); -#endif - - initialized = 1; - - return (0); -} - -/*-----------------------------------------------------------------------------+ -+-----------------------------------------------------------------------------*/ -int -eth_send(volatile void *ptr, int len) -{ - XStatus Result; - - if (len > ENET_MAX_MTU) - len = ENET_MAX_MTU; - - Result = XEmac_PollSend(&Emac, (u8 *) ptr, len); - if (Result == XST_SUCCESS) { - return (1); - } else { - printf("Error while sending frame\n\r"); - return (0); - } - -} - -int -eth_rx(void) -{ - u32 RecvFrameLength; - XStatus Result; - - RecvFrameLength = PKTSIZE; - Result = XEmac_PollRecv(&Emac, (u8 *) etherrxbuff, &RecvFrameLength); - if (Result == XST_SUCCESS) { -#ifndef CONFIG_EMACLITE - NetReceive((uchar *)etherrxbuff, RecvFrameLength); -#else - NetReceive(etherrxbuff, RecvFrameLength); -#endif - return (1); - } else { - return (0); - } -} - -#endif diff --git a/board/xilinx/xilinx_enet/xemac.c b/board/xilinx/xilinx_enet/xemac.c deleted file mode 100644 index 48b4ede704..0000000000 --- a/board/xilinx/xilinx_enet/xemac.c +++ /dev/null @@ -1,844 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac.c -* -* The XEmac driver. Functions in this file are the minimum required functions -* for this driver. See xemac.h for a detailed description of the driver. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver   Who  Date     Changes
-* ----- ---- -------- -------------------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00b rpm  07/23/02 Removed the PHY reset from Initialize()
-* 1.00b rmm  09/23/02 Removed commented code in Initialize(). Recycled as
-*                     XEmac_mPhyReset macro in xemac_l.h.
-* 1.00c rpm  12/05/02 New version includes support for simple DMA
-* 1.00c rpm  12/12/02 Changed location of IsStarted assignment in XEmac_Start
-*                     to be sure the flag is set before the device and
-*                     interrupts are enabled.
-* 1.00c rpm  02/03/03 SelfTest was not clearing polled mode. Take driver out
-*                     of polled mode in XEmac_Reset() to fix this problem.
-* 1.00c rmm  05/13/03 Fixed diab compiler warnings relating to asserts.
-* 
-******************************************************************************/ - -/***************************** Include Files *********************************/ - -#include "xbasic_types.h" -#include "xemac_i.h" -#include "xio.h" -#include "xipif_v1_23_b.h" /* Uses v1.23b of the IPIF */ - -/************************** Constant Definitions *****************************/ - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/************************** Function Prototypes ******************************/ - -static XStatus ConfigureDma(XEmac * InstancePtr); -static XStatus ConfigureFifo(XEmac * InstancePtr); -static void StubFifoHandler(void *CallBackRef); -static void StubErrorHandler(void *CallBackRef, XStatus ErrorCode); -static void StubSgHandler(void *CallBackRef, XBufDescriptor * BdPtr, - u32 NumBds); - -/************************** Variable Definitions *****************************/ - -/*****************************************************************************/ -/** -* -* Initialize a specific XEmac instance/driver. The initialization entails: -* - Initialize fields of the XEmac structure -* - Clear the Ethernet statistics for this device -* - Initialize the IPIF component with its register base address -* - Configure the FIFO components with their register base addresses. -* - If the device is configured with DMA, configure the DMA channel components -* with their register base addresses. At some later time, memory pools for -* the scatter-gather descriptor lists may be passed to the driver. -* - Reset the Ethernet MAC -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param DeviceId is the unique id of the device controlled by this XEmac -* instance. Passing in a device id associates the generic XEmac -* instance to a specific device, as chosen by the caller or application -* developer. -* -* @return -* -* - XST_SUCCESS if initialization was successful -* - XST_DEVICE_IS_STARTED if the device has already been started -* - XST_DEVICE_NOT_FOUND if device configuration information was not found for -* a device with the supplied device ID. -* -* @note -* -* None. -* -******************************************************************************/ -XStatus -XEmac_Initialize(XEmac * InstancePtr, u16 DeviceId) -{ - XStatus Result; - XEmac_Config *ConfigPtr; /* configuration information */ - - XASSERT_NONVOID(InstancePtr != NULL); - - /* - * If the device is started, disallow the initialize and return a status - * indicating it is started. This allows the user to stop the device - * and reinitialize, but prevents a user from inadvertently initializing - */ - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - /* - * Lookup the device configuration in the temporary CROM table. Use this - * configuration info down below when initializing this component. - */ - ConfigPtr = XEmac_LookupConfig(DeviceId); - if (ConfigPtr == NULL) { - return XST_DEVICE_NOT_FOUND; - } - - /* - * Set some default values - */ - InstancePtr->IsReady = 0; - InstancePtr->IsStarted = 0; - InstancePtr->IpIfDmaConfig = ConfigPtr->IpIfDmaConfig; - InstancePtr->HasMii = ConfigPtr->HasMii; - InstancePtr->HasMulticastHash = FALSE; - - /* Always default polled to false, let user configure this mode */ - InstancePtr->IsPolled = FALSE; - InstancePtr->FifoRecvHandler = StubFifoHandler; - InstancePtr->FifoSendHandler = StubFifoHandler; - InstancePtr->ErrorHandler = StubErrorHandler; - InstancePtr->SgRecvHandler = StubSgHandler; - InstancePtr->SgSendHandler = StubSgHandler; - - /* - * Clear the statistics for this driver - */ - XEmac_mClearStruct((u8 *) & InstancePtr->Stats, sizeof (XEmac_Stats)); - - /* - * Initialize the device register base addresses - */ - InstancePtr->BaseAddress = ConfigPtr->BaseAddress; - - /* - * Configure the send and receive FIFOs in the MAC - */ - Result = ConfigureFifo(InstancePtr); - if (Result != XST_SUCCESS) { - return Result; - } - - /* - * If the device is configured for DMA, configure the send and receive DMA - * channels in the MAC. - */ - if (XEmac_mIsDma(InstancePtr)) { - Result = ConfigureDma(InstancePtr); - if (Result != XST_SUCCESS) { - return Result; - } - } - - /* - * Indicate the component is now ready to use. Note that this is done before - * we reset the device and the PHY below, which may seem a bit odd. The - * choice was made to move it here rather than remove the asserts in various - * functions (e.g., Reset() and all functions that it calls). Applications - * that use multiple threads, one to initialize the XEmac driver and one - * waiting on the IsReady condition could have a problem with this sequence. - */ - InstancePtr->IsReady = XCOMPONENT_IS_READY; - - /* - * Reset the MAC to get it into its initial state. It is expected that - * device configuration by the user will take place after this - * initialization is done, but before the device is started. - */ - XEmac_Reset(InstancePtr); - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Start the Ethernet controller as follows: -* - If not in polled mode -* - Set the internal interrupt enable registers appropriately -* - Enable interrupts within the device itself. Note that connection of -* the driver's interrupt handler to the interrupt source (typically -* done using the interrupt controller component) is done by the higher -* layer software. -* - If the device is configured with scatter-gather DMA, start the DMA -* channels if the descriptor lists are not empty -* - Enable the transmitter -* - Enable the receiver -* -* The PHY is enabled after driver initialization. We assume the upper layer -* software has configured it and the EMAC appropriately before this function -* is called. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* - XST_SUCCESS if the device was started successfully -* - XST_NO_CALLBACK if a callback function has not yet been registered using -* the SetxxxHandler function. This is required if in interrupt mode. -* - XST_DEVICE_IS_STARTED if the device is already started -* - XST_DMA_SG_NO_LIST if configured for scatter-gather DMA and a descriptor -* list has not yet been created for the send or receive channel. -* -* @note -* -* The driver tries to match the hardware configuration. So if the hardware -* is configured with scatter-gather DMA, the driver expects to start the -* scatter-gather channels and expects that the user has set up the buffer -* descriptor lists already. If the user expects to use the driver in a mode -* different than how the hardware is configured, the user should modify the -* configuration table to reflect the mode to be used. Modifying the config -* table is a workaround for now until we get some experience with how users -* are intending to use the hardware in its different configurations. For -* example, if the hardware is built with scatter-gather DMA but the user is -* intending to use only simple DMA, the user either needs to modify the config -* table as a workaround or rebuild the hardware with only simple DMA. -* -* This function makes use of internal resources that are shared between the -* Start, Stop, and SetOptions functions. So if one task might be setting device -* options while another is trying to start the device, the user is required to -* provide protection of this shared data (typically using a semaphore). -* -******************************************************************************/ -XStatus -XEmac_Start(XEmac * InstancePtr) -{ - u32 ControlReg; - XStatus Result; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * If it is already started, return a status indicating so - */ - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - /* - * If not polled, enable interrupts - */ - if (!InstancePtr->IsPolled) { - /* - * Verify that the callbacks have been registered, then enable - * interrupts - */ - if (XEmac_mIsSgDma(InstancePtr)) { - if ((InstancePtr->SgRecvHandler == StubSgHandler) || - (InstancePtr->SgSendHandler == StubSgHandler)) { - return XST_NO_CALLBACK; - } - - /* Enable IPIF interrupts */ - XIIF_V123B_WRITE_DIER(InstancePtr->BaseAddress, - XEM_IPIF_DMA_DFT_MASK | - XIIF_V123B_ERROR_MASK); - XIIF_V123B_WRITE_IIER(InstancePtr->BaseAddress, - XEM_EIR_DFT_SG_MASK); - - /* Enable scatter-gather DMA interrupts */ - XDmaChannel_SetIntrEnable(&InstancePtr->RecvChannel, - XEM_DMA_SG_INTR_MASK); - XDmaChannel_SetIntrEnable(&InstancePtr->SendChannel, - XEM_DMA_SG_INTR_MASK); - } else { - if ((InstancePtr->FifoRecvHandler == StubFifoHandler) || - (InstancePtr->FifoSendHandler == StubFifoHandler)) { - return XST_NO_CALLBACK; - } - - /* Enable IPIF interrupts (used by simple DMA also) */ - XIIF_V123B_WRITE_DIER(InstancePtr->BaseAddress, - XEM_IPIF_FIFO_DFT_MASK | - XIIF_V123B_ERROR_MASK); - XIIF_V123B_WRITE_IIER(InstancePtr->BaseAddress, - XEM_EIR_DFT_FIFO_MASK); - } - - /* Enable the global IPIF interrupt output */ - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - } - - /* - * Indicate that the device is started before we enable the transmitter - * or receiver. This needs to be done before because as soon as the - * receiver is enabled we may get an interrupt, and there are functions - * in the interrupt handling path that rely on the IsStarted flag. - */ - InstancePtr->IsStarted = XCOMPONENT_IS_STARTED; - - /* - * Enable the transmitter, and receiver (do a read/modify/write to preserve - * current settings). There is no critical section here since this register - * is not modified during interrupt context. - */ - ControlReg = XIo_In32(InstancePtr->BaseAddress + XEM_ECR_OFFSET); - ControlReg &= ~(XEM_ECR_XMIT_RESET_MASK | XEM_ECR_RECV_RESET_MASK); - ControlReg |= (XEM_ECR_XMIT_ENABLE_MASK | XEM_ECR_RECV_ENABLE_MASK); - - XIo_Out32(InstancePtr->BaseAddress + XEM_ECR_OFFSET, ControlReg); - - /* - * If configured with scatter-gather DMA and not polled, restart the - * DMA channels in case there are buffers ready to be sent or received into. - * The DMA SgStart function uses data that can be modified during interrupt - * context, so a critical section is required here. - */ - if ((XEmac_mIsSgDma(InstancePtr)) && (!InstancePtr->IsPolled)) { - XIIF_V123B_GINTR_DISABLE(InstancePtr->BaseAddress); - - /* - * The only error we care about is if the list has not yet been - * created, or on receive, if no buffer descriptors have been - * added yet (the list is empty). Other errors are benign at this point. - */ - Result = XDmaChannel_SgStart(&InstancePtr->RecvChannel); - if ((Result == XST_DMA_SG_NO_LIST) - || (Result == XST_DMA_SG_LIST_EMPTY)) { - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - return Result; - } - - Result = XDmaChannel_SgStart(&InstancePtr->SendChannel); - if (Result == XST_DMA_SG_NO_LIST) { - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - return Result; - } - - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - } - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Stop the Ethernet MAC as follows: -* - If the device is configured with scatter-gather DMA, stop the DMA -* channels (wait for acknowledgment of stop) -* - Disable the transmitter and receiver -* - Disable interrupts if not in polled mode (the higher layer software is -* responsible for disabling interrupts at the interrupt controller) -* -* The PHY is left enabled after a Stop is called. -* -* If the device is configured for scatter-gather DMA, the DMA engine stops at -* the next buffer descriptor in its list. The remaining descriptors in the list -* are not removed, so anything in the list will be transmitted or received when -* the device is restarted. The side effect of doing this is that the last -* buffer descriptor processed by the DMA engine before stopping may not be the -* last descriptor in the Ethernet frame. So when the device is restarted, a -* partial frame (i.e., a bad frame) may be transmitted/received. This is only a -* concern if a frame can span multiple buffer descriptors, which is dependent -* on the size of the network buffers. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* - XST_SUCCESS if the device was stopped successfully -* - XST_DEVICE_IS_STOPPED if the device is already stopped -* -* @note -* -* This function makes use of internal resources that are shared between the -* Start, Stop, and SetOptions functions. So if one task might be setting device -* options while another is trying to start the device, the user is required to -* provide protection of this shared data (typically using a semaphore). -* -******************************************************************************/ -XStatus -XEmac_Stop(XEmac * InstancePtr) -{ - u32 ControlReg; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * If the device is already stopped, do nothing but return a status - * indicating so - */ - if (InstancePtr->IsStarted != XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STOPPED; - } - - /* - * If configured for scatter-gather DMA, stop the DMA channels. Ignore - * the XST_DMA_SG_IS_STOPPED return code. There is a critical section - * here between SgStart and SgStop, and SgStart can be called in interrupt - * context, so disable interrupts while calling SgStop. - */ - if (XEmac_mIsSgDma(InstancePtr)) { - XBufDescriptor *BdTemp; /* temporary descriptor pointer */ - - XIIF_V123B_GINTR_DISABLE(InstancePtr->BaseAddress); - - (void) XDmaChannel_SgStop(&InstancePtr->SendChannel, &BdTemp); - (void) XDmaChannel_SgStop(&InstancePtr->RecvChannel, &BdTemp); - - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - } - - /* - * Disable the transmitter and receiver. There is no critical section - * here since this register is not modified during interrupt context. - */ - ControlReg = XIo_In32(InstancePtr->BaseAddress + XEM_ECR_OFFSET); - ControlReg &= ~(XEM_ECR_XMIT_ENABLE_MASK | XEM_ECR_RECV_ENABLE_MASK); - XIo_Out32(InstancePtr->BaseAddress + XEM_ECR_OFFSET, ControlReg); - - /* - * If not in polled mode, disable interrupts for IPIF (includes MAC and - * DMAs) - */ - if (!InstancePtr->IsPolled) { - XIIF_V123B_GINTR_DISABLE(InstancePtr->BaseAddress); - } - - InstancePtr->IsStarted = 0; - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Reset the Ethernet MAC. This is a graceful reset in that the device is stopped -* first. Resets the DMA channels, the FIFOs, the transmitter, and the receiver. -* The PHY is not reset. Any frames in the scatter-gather descriptor lists will -* remain in the lists. The side effect of doing this is that after a reset and -* following a restart of the device, frames that were in the list before the -* reset may be transmitted or received. Reset must only be called after the -* driver has been initialized. -* -* The driver is also taken out of polled mode if polled mode was set. The user -* is responsbile for re-configuring the driver into polled mode after the -* reset if desired. -* -* The configuration after this reset is as follows: -* - Half duplex -* - Disabled transmitter and receiver -* - Enabled PHY (the PHY is not reset) -* - MAC transmitter does pad insertion, FCS insertion, and source address -* overwrite. -* - MAC receiver does not strip padding or FCS -* - Interframe Gap as recommended by IEEE Std. 802.3 (96 bit times) -* - Unicast addressing enabled -* - Broadcast addressing enabled -* - Multicast addressing disabled (addresses are preserved) -* - Promiscuous addressing disabled -* - Default packet threshold and packet wait bound register values for -* scatter-gather DMA operation -* - MAC address of all zeros -* - Non-polled mode -* -* The upper layer software is responsible for re-configuring (if necessary) -* and restarting the MAC after the reset. Note that the PHY is not reset. PHY -* control is left to the upper layer software. Note also that driver statistics -* are not cleared on reset. It is up to the upper layer software to clear the -* statistics if needed. -* -* When a reset is required due to an internal error, the driver notifies the -* upper layer software of this need through the ErrorHandler callback and -* specific status codes. The upper layer software is responsible for calling -* this Reset function and then re-configuring the device. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* None. -* -* @note -* -* None. -* -* @internal -* -* The reset is accomplished by setting the IPIF reset register. This takes -* care of resetting all hardware blocks, including the MAC. -* -******************************************************************************/ -void -XEmac_Reset(XEmac * InstancePtr) -{ - XASSERT_VOID(InstancePtr != NULL); - XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Stop the device first - */ - (void) XEmac_Stop(InstancePtr); - - /* - * Take the driver out of polled mode - */ - InstancePtr->IsPolled = FALSE; - - /* - * Reset the entire IPIF at once. If we choose someday to reset each - * hardware block separately, the reset should occur in the direction of - * data flow. For example, for the send direction the reset order is DMA - * first, then FIFO, then the MAC transmitter. - */ - XIIF_V123B_RESET(InstancePtr->BaseAddress); - - if (XEmac_mIsSgDma(InstancePtr)) { - /* - * After reset, configure the scatter-gather DMA packet threshold and - * packet wait bound registers to default values. Ignore the return - * values of these functions since they only return error if the device - * is not stopped. - */ - (void) XEmac_SetPktThreshold(InstancePtr, XEM_SEND, - XEM_SGDMA_DFT_THRESHOLD); - (void) XEmac_SetPktThreshold(InstancePtr, XEM_RECV, - XEM_SGDMA_DFT_THRESHOLD); - (void) XEmac_SetPktWaitBound(InstancePtr, XEM_SEND, - XEM_SGDMA_DFT_WAITBOUND); - (void) XEmac_SetPktWaitBound(InstancePtr, XEM_RECV, - XEM_SGDMA_DFT_WAITBOUND); - } -} - -/*****************************************************************************/ -/** -* -* Set the MAC address for this driver/device. The address is a 48-bit value. -* The device must be stopped before calling this function. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param AddressPtr is a pointer to a 6-byte MAC address. -* -* @return -* -* - XST_SUCCESS if the MAC address was set successfully -* - XST_DEVICE_IS_STARTED if the device has not yet been stopped -* -* @note -* -* None. -* -******************************************************************************/ -XStatus -XEmac_SetMacAddress(XEmac * InstancePtr, u8 * AddressPtr) -{ - u32 MacAddr = 0; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(AddressPtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * The device must be stopped before setting the MAC address - */ - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - /* - * Set the device station address high and low registers - */ - MacAddr = (AddressPtr[0] << 8) | AddressPtr[1]; - XIo_Out32(InstancePtr->BaseAddress + XEM_SAH_OFFSET, MacAddr); - - MacAddr = (AddressPtr[2] << 24) | (AddressPtr[3] << 16) | - (AddressPtr[4] << 8) | AddressPtr[5]; - - XIo_Out32(InstancePtr->BaseAddress + XEM_SAL_OFFSET, MacAddr); - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Get the MAC address for this driver/device. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param BufferPtr is an output parameter, and is a pointer to a buffer into -* which the current MAC address will be copied. The buffer must be at -* least 6 bytes. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -void -XEmac_GetMacAddress(XEmac * InstancePtr, u8 * BufferPtr) -{ - u32 MacAddrHi; - u32 MacAddrLo; - - XASSERT_VOID(InstancePtr != NULL); - XASSERT_VOID(BufferPtr != NULL); - XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - MacAddrHi = XIo_In32(InstancePtr->BaseAddress + XEM_SAH_OFFSET); - MacAddrLo = XIo_In32(InstancePtr->BaseAddress + XEM_SAL_OFFSET); - - BufferPtr[0] = (u8) (MacAddrHi >> 8); - BufferPtr[1] = (u8) MacAddrHi; - BufferPtr[2] = (u8) (MacAddrLo >> 24); - BufferPtr[3] = (u8) (MacAddrLo >> 16); - BufferPtr[4] = (u8) (MacAddrLo >> 8); - BufferPtr[5] = (u8) MacAddrLo; -} - -/******************************************************************************/ -/** -* -* Configure DMA capabilities. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* - XST_SUCCESS if successful initialization of DMA -* -* @note -* -* None. -* -******************************************************************************/ -static XStatus -ConfigureDma(XEmac * InstancePtr) -{ - XStatus Result; - - /* - * Initialize the DMA channels with their base addresses. We assume - * scatter-gather DMA is the only possible configuration. Descriptor space - * will need to be set later by the upper layer. - */ - Result = XDmaChannel_Initialize(&InstancePtr->RecvChannel, - InstancePtr->BaseAddress + - XEM_DMA_RECV_OFFSET); - if (Result != XST_SUCCESS) { - return Result; - } - - Result = XDmaChannel_Initialize(&InstancePtr->SendChannel, - InstancePtr->BaseAddress + - XEM_DMA_SEND_OFFSET); - - return Result; -} - -/******************************************************************************/ -/** -* -* Configure the send and receive FIFO components with their base addresses -* and interrupt masks. Currently the base addresses are defined constants. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* XST_SUCCESS if successful initialization of the packet FIFOs -* -* @note -* -* None. -* -******************************************************************************/ -static XStatus -ConfigureFifo(XEmac * InstancePtr) -{ - XStatus Result; - - /* - * Return status from the packet FIFOs initialization is ignored since - * they always return success. - */ - Result = XPacketFifoV100b_Initialize(&InstancePtr->RecvFifo, - InstancePtr->BaseAddress + - XEM_PFIFO_RXREG_OFFSET, - InstancePtr->BaseAddress + - XEM_PFIFO_RXDATA_OFFSET); - if (Result != XST_SUCCESS) { - return Result; - } - - Result = XPacketFifoV100b_Initialize(&InstancePtr->SendFifo, - InstancePtr->BaseAddress + - XEM_PFIFO_TXREG_OFFSET, - InstancePtr->BaseAddress + - XEM_PFIFO_TXDATA_OFFSET); - return Result; -} - -/******************************************************************************/ -/** -* -* This is a stub for the scatter-gather send and recv callbacks. The stub -* is here in case the upper layers forget to set the handlers. -* -* @param CallBackRef is a pointer to the upper layer callback reference -* @param BdPtr is a pointer to the first buffer descriptor in a list -* @param NumBds is the number of descriptors in the list. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -static void -StubSgHandler(void *CallBackRef, XBufDescriptor * BdPtr, u32 NumBds) -{ - XASSERT_VOID_ALWAYS(); -} - -/******************************************************************************/ -/** -* -* This is a stub for the non-DMA send and recv callbacks. The stub is here in -* case the upper layers forget to set the handlers. -* -* @param CallBackRef is a pointer to the upper layer callback reference -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -static void -StubFifoHandler(void *CallBackRef) -{ - XASSERT_VOID_ALWAYS(); -} - -/******************************************************************************/ -/** -* -* This is a stub for the asynchronous error callback. The stub is here in -* case the upper layers forget to set the handler. -* -* @param CallBackRef is a pointer to the upper layer callback reference -* @param ErrorCode is the Xilinx error code, indicating the cause of the error -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -static void -StubErrorHandler(void *CallBackRef, XStatus ErrorCode) -{ - XASSERT_VOID_ALWAYS(); -} - -/*****************************************************************************/ -/** -* -* Lookup the device configuration based on the unique device ID. The table -* EmacConfigTable contains the configuration info for each device in the system. -* -* @param DeviceId is the unique device ID of the device being looked up. -* -* @return -* -* A pointer to the configuration table entry corresponding to the given -* device ID, or NULL if no match is found. -* -* @note -* -* None. -* -******************************************************************************/ -XEmac_Config * -XEmac_LookupConfig(u16 DeviceId) -{ - XEmac_Config *CfgPtr = NULL; - int i; - - for (i = 0; i < XPAR_XEMAC_NUM_INSTANCES; i++) { - if (XEmac_ConfigTable[i].DeviceId == DeviceId) { - CfgPtr = &XEmac_ConfigTable[i]; - break; - } - } - - return CfgPtr; -} diff --git a/board/xilinx/xilinx_enet/xemac.h b/board/xilinx/xilinx_enet/xemac.h deleted file mode 100644 index 584cb7ac51..0000000000 --- a/board/xilinx/xilinx_enet/xemac.h +++ /dev/null @@ -1,673 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac.h -* -* The Xilinx Ethernet driver component. This component supports the Xilinx -* Ethernet 10/100 MAC (EMAC). -* -* The Xilinx Ethernet 10/100 MAC supports the following features: -* - Simple and scatter-gather DMA operations, as well as simple memory -* mapped direct I/O interface (FIFOs). -* - Media Independent Interface (MII) for connection to external -* 10/100 Mbps PHY transceivers. -* - MII management control reads and writes with MII PHYs -* - Independent internal transmit and receive FIFOs -* - CSMA/CD compliant operations for half-duplex modes -* - Programmable PHY reset signal -* - Unicast, broadcast, and promiscuous address filtering (no multicast yet) -* - Internal loopback -* - Automatic source address insertion or overwrite (programmable) -* - Automatic FCS insertion and stripping (programmable) -* - Automatic pad insertion and stripping (programmable) -* - Pause frame (flow control) detection in full-duplex mode -* - Programmable interframe gap -* - VLAN frame support. -* - Pause frame support -* -* The device driver supports all the features listed above. -* -* Driver Description -* -* The device driver enables higher layer software (e.g., an application) to -* communicate to the EMAC. The driver handles transmission and reception of -* Ethernet frames, as well as configuration of the controller. It does not -* handle protocol stack functionality such as Link Layer Control (LLC) or the -* Address Resolution Protocol (ARP). The protocol stack that makes use of the -* driver handles this functionality. This implies that the driver is simply a -* pass-through mechanism between a protocol stack and the EMAC. A single device -* driver can support multiple EMACs. -* -* The driver is designed for a zero-copy buffer scheme. That is, the driver will -* not copy buffers. This avoids potential throughput bottlenecks within the -* driver. -* -* Since the driver is a simple pass-through mechanism between a protocol stack -* and the EMAC, no assembly or disassembly of Ethernet frames is done at the -* driver-level. This assumes that the protocol stack passes a correctly -* formatted Ethernet frame to the driver for transmission, and that the driver -* does not validate the contents of an incoming frame -* -* PHY Communication -* -* The driver provides rudimentary read and write functions to allow the higher -* layer software to access the PHY. The EMAC provides MII registers for the -* driver to access. This management interface can be parameterized away in the -* FPGA implementation process. If this is the case, the PHY read and write -* functions of the driver return XST_NO_FEATURE. -* -* External loopback is usually supported at the PHY. It is up to the user to -* turn external loopback on or off at the PHY. The driver simply provides pass- -* through functions for configuring the PHY. The driver does not read, write, -* or reset the PHY on its own. All control of the PHY must be done by the user. -* -* Asynchronous Callbacks -* -* The driver services interrupts and passes Ethernet frames to the higher layer -* software through asynchronous callback functions. When using the driver -* directly (i.e., not with the RTOS protocol stack), the higher layer -* software must register its callback functions during initialization. The -* driver requires callback functions for received frames, for confirmation of -* transmitted frames, and for asynchronous errors. -* -* Interrupts -* -* The driver has no dependencies on the interrupt controller. The driver -* provides two interrupt handlers. XEmac_IntrHandlerDma() handles interrupts -* when the EMAC is configured with scatter-gather DMA. XEmac_IntrHandlerFifo() -* handles interrupts when the EMAC is configured for direct FIFO I/O or simple -* DMA. Either of these routines can be connected to the system interrupt -* controller by the user. -* -* Interrupt Frequency -* -* When the EMAC is configured with scatter-gather DMA, the frequency of -* interrupts can be controlled with the interrupt coalescing features of the -* scatter-gather DMA engine. The frequency of interrupts can be adjusted using -* the driver API functions for setting the packet count threshold and the packet -* wait bound values. -* -* The scatter-gather DMA engine only interrupts when the packet count threshold -* is reached, instead of interrupting for each packet. A packet is a generic -* term used by the scatter-gather DMA engine, and is equivalent to an Ethernet -* frame in our case. -* -* The packet wait bound is a timer value used during interrupt coalescing to -* trigger an interrupt when not enough packets have been received to reach the -* packet count threshold. -* -* These values can be tuned by the user to meet their needs. If there appear to -* be interrupt latency problems or delays in packet arrival that are longer than -* might be expected, the user should verify that the packet count threshold is -* set low enough to receive interrupts before the wait bound timer goes off. -* -* Device Reset -* -* Some errors that can occur in the device require a device reset. These errors -* are listed in the XEmac_SetErrorHandler() function header. The user's error -* handler is responsible for resetting the device and re-configuring it based on -* its needs (the driver does not save the current configuration). When -* integrating into an RTOS, these reset and re-configure obligations are -* taken care of by the Xilinx adapter software if it exists for that RTOS. -* -* Device Configuration -* -* The device can be configured in various ways during the FPGA implementation -* process. Configuration parameters are stored in the xemac_g.c files. -* A table is defined where each entry contains configuration information -* for an EMAC device. This information includes such things as the base address -* of the memory-mapped device, the base addresses of IPIF, DMA, and FIFO modules -* within the device, and whether the device has DMA, counter registers, -* multicast support, MII support, and flow control. -* -* The driver tries to use the features built into the device. So if, for -* example, the hardware is configured with scatter-gather DMA, the driver -* expects to start the scatter-gather channels and expects that the user has set -* up the buffer descriptor lists already. If the user expects to use the driver -* in a mode different than how the hardware is configured, the user should -* modify the configuration table to reflect the mode to be used. Modifying the -* configuration table is a workaround for now until we get some experience with -* how users are intending to use the hardware in its different configurations. -* For example, if the hardware is built with scatter-gather DMA but the user is -* intending to use only simple DMA, the user either needs to modify the config -* table as a workaround or rebuild the hardware with only simple DMA. The -* recommendation at this point is to build the hardware with the features you -* intend to use. If you're inclined to modify the table, do so before the call -* to XEmac_Initialize(). Here is a snippet of code that changes a device to -* simple DMA (the hardware needs to have DMA for this to work of course): -*
-*	 XEmac_Config *ConfigPtr;
-*
-*	 ConfigPtr = XEmac_LookupConfig(DeviceId);
-*	 ConfigPtr->IpIfDmaConfig = XEM_CFG_SIMPLE_DMA;
-* 
-* -* Simple DMA -* -* Simple DMA is supported through the FIFO functions, FifoSend and FifoRecv, of -* the driver (i.e., there is no separate interface for it). The driver makes use -* of the DMA engine for a simple DMA transfer if the device is configured with -* DMA, otherwise it uses the FIFOs directly. While the simple DMA interface is -* therefore transparent to the user, the caching of network buffers is not. -* If the device is configured with DMA and the FIFO interface is used, the user -* must ensure that the network buffers are not cached or are cache coherent, -* since DMA will be used to transfer to and from the Emac device. If the device -* is configured with DMA and the user really wants to use the FIFOs directly, -* the user should rebuild the hardware without DMA. If unable to do this, there -* is a workaround (described above in Device Configuration) to modify the -* configuration table of the driver to fake the driver into thinking the device -* has no DMA. A code snippet follows: -*
-*	 XEmac_Config *ConfigPtr;
-*
-*	 ConfigPtr = XEmac_LookupConfig(DeviceId);
-*	 ConfigPtr->IpIfDmaConfig = XEM_CFG_NO_DMA;
-* 
-* -* Asserts -* -* Asserts are used within all Xilinx drivers to enforce constraints on argument -* values. Asserts can be turned off on a system-wide basis by defining, at -* compile time, the NDEBUG identifier. By default, asserts are turned on and it -* is recommended that users leave asserts on during development. -* -* Building the driver -* -* The XEmac driver is composed of several source files. Why so many? This -* allows the user to build and link only those parts of the driver that are -* necessary. Since the EMAC hardware can be configured in various ways (e.g., -* with or without DMA), the driver too can be built with varying features. -* For the most part, this means that besides always linking in xemac.c, you -* link in only the driver functionality you want. Some of the choices you have -* are polled vs. interrupt, interrupt with FIFOs only vs. interrupt with DMA, -* self-test diagnostics, and driver statistics. Note that currently the DMA code -* must be linked in, even if you don't have DMA in the device. -* -* @note -* -* Xilinx drivers are typically composed of two components, one is the driver -* and the other is the adapter. The driver is independent of OS and processor -* and is intended to be highly portable. The adapter is OS-specific and -* facilitates communication between the driver and an OS. -*

-* This driver is intended to be RTOS and processor independent. It works -* with physical addresses only. Any needs for dynamic memory management, -* threads or thread mutual exclusion, virtual memory, or cache control must -* be satisfied by the layer above this driver. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver	Who  Date     Changes
-* ----- ---- -------- -------------------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00b rpm  10/08/02 Replaced HasSgDma boolean with IpifDmaConfig enumerated
-*		      configuration parameter
-* 1.00c rpm  12/05/02 New version includes support for simple DMA and the delay
-*		      argument to SgSend
-* 1.00c rpm  02/03/03 The XST_DMA_SG_COUNT_EXCEEDED return code was removed
-*		      from SetPktThreshold in the internal DMA driver. Also
-*		      avoided compiler warnings by initializing Result in the
-*		      DMA interrupt service routines.
-* 
-* -******************************************************************************/ - -#ifndef XEMAC_H /* prevent circular inclusions */ -#define XEMAC_H /* by using protection macros */ - -/***************************** Include Files *********************************/ - -#include -#include "xbasic_types.h" -#include "xstatus.h" -#include "xpacket_fifo_v1_00_b.h" /* Uses v1.00b of Packet Fifo */ -#include "xdma_channel.h" - -/************************** Constant Definitions *****************************/ - -/* - * Device information - */ -#define XEM_DEVICE_NAME "xemac" -#define XEM_DEVICE_DESC "Xilinx Ethernet 10/100 MAC" - -/** @name Configuration options - * - * Device configuration options (see the XEmac_SetOptions() and - * XEmac_GetOptions() for information on how to use these options) - * @{ - */ -/** - *
- *   XEM_BROADCAST_OPTION	 Broadcast addressing on or off (default is on)
- *   XEM_UNICAST_OPTION		 Unicast addressing on or off (default is on)
- *   XEM_PROMISC_OPTION		 Promiscuous addressing on or off (default is off)
- *   XEM_FDUPLEX_OPTION		 Full duplex on or off (default is off)
- *   XEM_POLLED_OPTION		 Polled mode on or off (default is off)
- *   XEM_LOOPBACK_OPTION	 Internal loopback on or off (default is off)
- *   XEM_FLOW_CONTROL_OPTION	 Interpret pause frames in full duplex mode
- *				 (default is off)
- *   XEM_INSERT_PAD_OPTION	 Pad short frames on transmit (default is on)
- *   XEM_INSERT_FCS_OPTION	 Insert FCS (CRC) on transmit (default is on)
- *   XEM_INSERT_ADDR_OPTION	 Insert source address on transmit (default is on)
- *   XEM_OVWRT_ADDR_OPTION	 Overwrite source address on transmit. This is
- *				 only used if source address insertion is on.
- *				 (default is on)
- *   XEM_STRIP_PAD_FCS_OPTION	 Strip FCS and padding from received frames
- *				 (default is off)
-  * 
- */ -#define XEM_UNICAST_OPTION 0x00000001UL -#define XEM_BROADCAST_OPTION 0x00000002UL -#define XEM_PROMISC_OPTION 0x00000004UL -#define XEM_FDUPLEX_OPTION 0x00000008UL -#define XEM_POLLED_OPTION 0x00000010UL -#define XEM_LOOPBACK_OPTION 0x00000020UL -#define XEM_FLOW_CONTROL_OPTION 0x00000080UL -#define XEM_INSERT_PAD_OPTION 0x00000100UL -#define XEM_INSERT_FCS_OPTION 0x00000200UL -#define XEM_INSERT_ADDR_OPTION 0x00000400UL -#define XEM_OVWRT_ADDR_OPTION 0x00000800UL -#define XEM_STRIP_PAD_FCS_OPTION 0x00002000UL -/*@}*/ -/* - * Not supported yet: - * XEM_MULTICAST_OPTION Multicast addressing on or off (default is off) - */ -/* NOT SUPPORTED YET... */ -#define XEM_MULTICAST_OPTION 0x00000040UL - -/* - * Some default values for interrupt coalescing within the scatter-gather - * DMA engine. - */ -#define XEM_SGDMA_DFT_THRESHOLD 1 /* Default pkt threshold */ -#define XEM_SGDMA_MAX_THRESHOLD 255 /* Maximum pkt theshold */ -#define XEM_SGDMA_DFT_WAITBOUND 5 /* Default pkt wait bound (msec) */ -#define XEM_SGDMA_MAX_WAITBOUND 1023 /* Maximum pkt wait bound (msec) */ - -/* - * Direction identifiers. These are used for setting values like packet - * thresholds and wait bound for specific channels - */ -#define XEM_SEND 1 -#define XEM_RECV 2 - -/* - * Arguments to SgSend function to indicate whether to hold off starting - * the scatter-gather engine. - */ -#define XEM_SGDMA_NODELAY 0 /* start SG DMA immediately */ -#define XEM_SGDMA_DELAY 1 /* do not start SG DMA */ - -/* - * Constants to determine the configuration of the hardware device. They are - * used to allow the driver to verify it can operate with the hardware. - */ -#define XEM_CFG_NO_IPIF 0 /* Not supported by the driver */ -#define XEM_CFG_NO_DMA 1 /* No DMA */ -#define XEM_CFG_SIMPLE_DMA 2 /* Simple DMA */ -#define XEM_CFG_DMA_SG 3 /* DMA scatter gather */ - -/* - * The next few constants help upper layers determine the size of memory - * pools used for Ethernet buffers and descriptor lists. - */ -#define XEM_MAC_ADDR_SIZE 6 /* six-byte MAC address */ -#define XEM_MTU 1500 /* max size of Ethernet frame */ -#define XEM_HDR_SIZE 14 /* size of Ethernet header */ -#define XEM_HDR_VLAN_SIZE 18 /* size of Ethernet header with VLAN */ -#define XEM_TRL_SIZE 4 /* size of Ethernet trailer (FCS) */ -#define XEM_MAX_FRAME_SIZE (XEM_MTU + XEM_HDR_SIZE + XEM_TRL_SIZE) -#define XEM_MAX_VLAN_FRAME_SIZE (XEM_MTU + XEM_HDR_VLAN_SIZE + XEM_TRL_SIZE) - -/* - * Define a default number of send and receive buffers - */ -#define XEM_MIN_RECV_BUFS 32 /* minimum # of recv buffers */ -#define XEM_DFT_RECV_BUFS 64 /* default # of recv buffers */ - -#define XEM_MIN_SEND_BUFS 16 /* minimum # of send buffers */ -#define XEM_DFT_SEND_BUFS 32 /* default # of send buffers */ - -#define XEM_MIN_BUFFERS (XEM_MIN_RECV_BUFS + XEM_MIN_SEND_BUFS) -#define XEM_DFT_BUFFERS (XEM_DFT_RECV_BUFS + XEM_DFT_SEND_BUFS) - -/* - * Define the number of send and receive buffer descriptors, used for - * scatter-gather DMA - */ -#define XEM_MIN_RECV_DESC 16 /* minimum # of recv descriptors */ -#define XEM_DFT_RECV_DESC 32 /* default # of recv descriptors */ - -#define XEM_MIN_SEND_DESC 8 /* minimum # of send descriptors */ -#define XEM_DFT_SEND_DESC 16 /* default # of send descriptors */ - -/**************************** Type Definitions *******************************/ - -/** - * Ethernet statistics (see XEmac_GetStats() and XEmac_ClearStats()) - */ -typedef struct { - u32 XmitFrames; /**< Number of frames transmitted */ - u32 XmitBytes; /**< Number of bytes transmitted */ - u32 XmitLateCollisionErrors; - /**< Number of transmission failures - due to late collisions */ - u32 XmitExcessDeferral; /**< Number of transmission failures - due o excess collision deferrals */ - u32 XmitOverrunErrors; /**< Number of transmit overrun errors */ - u32 XmitUnderrunErrors; /**< Number of transmit underrun errors */ - u32 RecvFrames; /**< Number of frames received */ - u32 RecvBytes; /**< Number of bytes received */ - u32 RecvFcsErrors; /**< Number of frames discarded due - to FCS errors */ - u32 RecvAlignmentErrors; /**< Number of frames received with - alignment errors */ - u32 RecvOverrunErrors; /**< Number of frames discarded due - to overrun errors */ - u32 RecvUnderrunErrors; /**< Number of recv underrun errors */ - u32 RecvMissedFrameErrors; - /**< Number of frames missed by MAC */ - u32 RecvCollisionErrors; /**< Number of frames discarded due - to collisions */ - u32 RecvLengthFieldErrors; - /**< Number of frames discarded with - invalid length field */ - u32 RecvShortErrors; /**< Number of short frames discarded */ - u32 RecvLongErrors; /**< Number of long frames discarded */ - u32 DmaErrors; /**< Number of DMA errors since init */ - u32 FifoErrors; /**< Number of FIFO errors since init */ - u32 RecvInterrupts; /**< Number of receive interrupts */ - u32 XmitInterrupts; /**< Number of transmit interrupts */ - u32 EmacInterrupts; /**< Number of MAC (device) interrupts */ - u32 TotalIntrs; /**< Total interrupts */ -} XEmac_Stats; - -/** - * This typedef contains configuration information for a device. - */ -typedef struct { - u16 DeviceId; /**< Unique ID of device */ - u32 BaseAddress; /**< Register base address */ - u32 HasCounters; /**< Does device have counters? */ - u8 IpIfDmaConfig; /**< IPIF/DMA hardware configuration */ - u32 HasMii; /**< Does device support MII? */ - -} XEmac_Config; - -/** @name Typedefs for callbacks - * Callback functions. - * @{ - */ -/** - * Callback when data is sent or received with scatter-gather DMA. - * - * @param CallBackRef is a callback reference passed in by the upper layer - * when setting the callback functions, and passed back to the upper - * layer when the callback is invoked. - * @param BdPtr is a pointer to the first buffer descriptor in a list of - * buffer descriptors. - * @param NumBds is the number of buffer descriptors in the list pointed - * to by BdPtr. - */ -typedef void (*XEmac_SgHandler) (void *CallBackRef, XBufDescriptor * BdPtr, - u32 NumBds); - -/** - * Callback when data is sent or received with direct FIFO communication or - * simple DMA. The user typically defines two callacks, one for send and one - * for receive. - * - * @param CallBackRef is a callback reference passed in by the upper layer - * when setting the callback functions, and passed back to the upper - * layer when the callback is invoked. - */ -typedef void (*XEmac_FifoHandler) (void *CallBackRef); - -/** - * Callback when an asynchronous error occurs. - * - * @param CallBackRef is a callback reference passed in by the upper layer - * when setting the callback functions, and passed back to the upper - * layer when the callback is invoked. - * @param ErrorCode is a Xilinx error code defined in xstatus.h. Also see - * XEmac_SetErrorHandler() for a description of possible errors. - */ -typedef void (*XEmac_ErrorHandler) (void *CallBackRef, XStatus ErrorCode); -/*@}*/ - -/** - * The XEmac driver instance data. The user is required to allocate a - * variable of this type for every EMAC device in the system. A pointer - * to a variable of this type is then passed to the driver API functions. - */ -typedef struct { - u32 BaseAddress; /* Base address (of IPIF) */ - u32 IsStarted; /* Device is currently started */ - u32 IsReady; /* Device is initialized and ready */ - u32 IsPolled; /* Device is in polled mode */ - u8 IpIfDmaConfig; /* IPIF/DMA hardware configuration */ - u32 HasMii; /* Does device support MII? */ - u32 HasMulticastHash; /* Does device support multicast hash table? */ - - XEmac_Stats Stats; - XPacketFifoV100b RecvFifo; /* FIFO used to receive frames */ - XPacketFifoV100b SendFifo; /* FIFO used to send frames */ - - /* - * Callbacks - */ - XEmac_FifoHandler FifoRecvHandler; /* for non-DMA/simple DMA interrupts */ - void *FifoRecvRef; - XEmac_FifoHandler FifoSendHandler; /* for non-DMA/simple DMA interrupts */ - void *FifoSendRef; - XEmac_ErrorHandler ErrorHandler; /* for asynchronous errors */ - void *ErrorRef; - - XDmaChannel RecvChannel; /* DMA receive channel driver */ - XDmaChannel SendChannel; /* DMA send channel driver */ - - XEmac_SgHandler SgRecvHandler; /* callback for scatter-gather DMA */ - void *SgRecvRef; - XEmac_SgHandler SgSendHandler; /* callback for scatter-gather DMA */ - void *SgSendRef; -} XEmac; - -/***************** Macros (Inline Functions) Definitions *********************/ - -/*****************************************************************************/ -/** -* -* This macro determines if the device is currently configured for -* scatter-gather DMA. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Boolean TRUE if the device is configured for scatter-gather DMA, or FALSE -* if it is not. -* -* @note -* -* Signature: u32 XEmac_mIsSgDma(XEmac *InstancePtr) -* -******************************************************************************/ -#define XEmac_mIsSgDma(InstancePtr) \ - ((InstancePtr)->IpIfDmaConfig == XEM_CFG_DMA_SG) - -/*****************************************************************************/ -/** -* -* This macro determines if the device is currently configured for simple DMA. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Boolean TRUE if the device is configured for simple DMA, or FALSE otherwise -* -* @note -* -* Signature: u32 XEmac_mIsSimpleDma(XEmac *InstancePtr) -* -******************************************************************************/ -#define XEmac_mIsSimpleDma(InstancePtr) \ - ((InstancePtr)->IpIfDmaConfig == XEM_CFG_SIMPLE_DMA) - -/*****************************************************************************/ -/** -* -* This macro determines if the device is currently configured with DMA (either -* simple DMA or scatter-gather DMA) -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Boolean TRUE if the device is configured with DMA, or FALSE otherwise -* -* @note -* -* Signature: u32 XEmac_mIsDma(XEmac *InstancePtr) -* -******************************************************************************/ -#define XEmac_mIsDma(InstancePtr) \ - (XEmac_mIsSimpleDma(InstancePtr) || XEmac_mIsSgDma(InstancePtr)) - -/************************** Function Prototypes ******************************/ - -/* - * Initialization functions in xemac.c - */ -XStatus XEmac_Initialize(XEmac * InstancePtr, u16 DeviceId); -XStatus XEmac_Start(XEmac * InstancePtr); -XStatus XEmac_Stop(XEmac * InstancePtr); -void XEmac_Reset(XEmac * InstancePtr); -XEmac_Config *XEmac_LookupConfig(u16 DeviceId); - -/* - * Diagnostic functions in xemac_selftest.c - */ -XStatus XEmac_SelfTest(XEmac * InstancePtr); - -/* - * Polled functions in xemac_polled.c - */ -XStatus XEmac_PollSend(XEmac * InstancePtr, u8 * BufPtr, u32 ByteCount); -XStatus XEmac_PollRecv(XEmac * InstancePtr, u8 * BufPtr, u32 * ByteCountPtr); - -/* - * Interrupts with scatter-gather DMA functions in xemac_intr_dma.c - */ -XStatus XEmac_SgSend(XEmac * InstancePtr, XBufDescriptor * BdPtr, int Delay); -XStatus XEmac_SgRecv(XEmac * InstancePtr, XBufDescriptor * BdPtr); -XStatus XEmac_SetPktThreshold(XEmac * InstancePtr, u32 Direction, u8 Threshold); -XStatus XEmac_GetPktThreshold(XEmac * InstancePtr, u32 Direction, - u8 * ThreshPtr); -XStatus XEmac_SetPktWaitBound(XEmac * InstancePtr, u32 Direction, - u32 TimerValue); -XStatus XEmac_GetPktWaitBound(XEmac * InstancePtr, u32 Direction, - u32 * WaitPtr); -XStatus XEmac_SetSgRecvSpace(XEmac * InstancePtr, u32 * MemoryPtr, - u32 ByteCount); -XStatus XEmac_SetSgSendSpace(XEmac * InstancePtr, u32 * MemoryPtr, - u32 ByteCount); -void XEmac_SetSgRecvHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_SgHandler FuncPtr); -void XEmac_SetSgSendHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_SgHandler FuncPtr); - -void XEmac_IntrHandlerDma(void *InstancePtr); /* interrupt handler */ - -/* - * Interrupts with direct FIFO functions in xemac_intr_fifo.c. Also used - * for simple DMA. - */ -XStatus XEmac_FifoSend(XEmac * InstancePtr, u8 * BufPtr, u32 ByteCount); -XStatus XEmac_FifoRecv(XEmac * InstancePtr, u8 * BufPtr, u32 * ByteCountPtr); -void XEmac_SetFifoRecvHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_FifoHandler FuncPtr); -void XEmac_SetFifoSendHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_FifoHandler FuncPtr); - -void XEmac_IntrHandlerFifo(void *InstancePtr); /* interrupt handler */ - -/* - * General interrupt-related functions in xemac_intr.c - */ -void XEmac_SetErrorHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_ErrorHandler FuncPtr); - -/* - * MAC configuration in xemac_options.c - */ -XStatus XEmac_SetOptions(XEmac * InstancePtr, u32 OptionFlag); -u32 XEmac_GetOptions(XEmac * InstancePtr); -XStatus XEmac_SetMacAddress(XEmac * InstancePtr, u8 * AddressPtr); -void XEmac_GetMacAddress(XEmac * InstancePtr, u8 * BufferPtr); -XStatus XEmac_SetInterframeGap(XEmac * InstancePtr, u8 Part1, u8 Part2); -void XEmac_GetInterframeGap(XEmac * InstancePtr, u8 * Part1Ptr, u8 * Part2Ptr); - -/* - * Multicast functions in xemac_multicast.c (not supported by EMAC yet) - */ -XStatus XEmac_MulticastAdd(XEmac * InstancePtr, u8 * AddressPtr); -XStatus XEmac_MulticastClear(XEmac * InstancePtr); - -/* - * PHY configuration in xemac_phy.c - */ -XStatus XEmac_PhyRead(XEmac * InstancePtr, u32 PhyAddress, - u32 RegisterNum, u16 * PhyDataPtr); -XStatus XEmac_PhyWrite(XEmac * InstancePtr, u32 PhyAddress, - u32 RegisterNum, u16 PhyData); - -/* - * Statistics in xemac_stats.c - */ -void XEmac_GetStats(XEmac * InstancePtr, XEmac_Stats * StatsPtr); -void XEmac_ClearStats(XEmac * InstancePtr); - -#endif /* end of protection macro */ diff --git a/board/xilinx/xilinx_enet/xemac_g.c b/board/xilinx/xilinx_enet/xemac_g.c deleted file mode 100644 index d9851574f7..0000000000 --- a/board/xilinx/xilinx_enet/xemac_g.c +++ /dev/null @@ -1,60 +0,0 @@ -/******************************************************************* -* -* CAUTION: This file is automatically generated by libgen. -* Version: Xilinx EDK 6.1.2 EDK_G.14 -* DO NOT EDIT. -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -* Description: Driver configuration -* -*******************************************************************/ - -#include -#include "xemac.h" - -/* -* The configuration table for devices -*/ - -XEmac_Config XEmac_ConfigTable[] = { - { - XPAR_OPB_ETHERNET_0_DEVICE_ID, - XPAR_OPB_ETHERNET_0_BASEADDR, - XPAR_OPB_ETHERNET_0_ERR_COUNT_EXIST, - XPAR_OPB_ETHERNET_0_DMA_PRESENT, - XPAR_OPB_ETHERNET_0_MII_EXIST} -}; diff --git a/board/xilinx/xilinx_enet/xemac_i.h b/board/xilinx/xilinx_enet/xemac_i.h deleted file mode 100644 index 9c160f3880..0000000000 --- a/board/xilinx/xilinx_enet/xemac_i.h +++ /dev/null @@ -1,207 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac_i.h -* -* This header file contains internal identifiers, which are those shared -* between XEmac components. The identifiers in this file are not intended for -* use external to the driver. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver	Who  Date     Changes
-* ----- ---- -------- -----------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00b rpm  04/29/02 Moved register definitions to xemac_l.h
-* 1.00c rpm  12/05/02 New version includes support for simple DMA
-* 
-* -******************************************************************************/ - -#ifndef XEMAC_I_H /* prevent circular inclusions */ -#define XEMAC_I_H /* by using protection macros */ - -/***************************** Include Files *********************************/ - -#include "xemac.h" -#include "xemac_l.h" - -/************************** Constant Definitions *****************************/ - -/* - * Default buffer descriptor control word masks. The default send BD control - * is set for incrementing the source address by one for each byte transferred, - * and specify that the destination address (FIFO) is local to the device. The - * default receive BD control is set for incrementing the destination address - * by one for each byte transferred, and specify that the source address is - * local to the device. - */ -#define XEM_DFT_SEND_BD_MASK (XDC_DMACR_SOURCE_INCR_MASK | \ - XDC_DMACR_DEST_LOCAL_MASK) -#define XEM_DFT_RECV_BD_MASK (XDC_DMACR_DEST_INCR_MASK | \ - XDC_DMACR_SOURCE_LOCAL_MASK) - -/* - * Masks for the IPIF Device Interrupt enable and status registers. - */ -#define XEM_IPIF_EMAC_MASK 0x00000004UL /* MAC interrupt */ -#define XEM_IPIF_SEND_DMA_MASK 0x00000008UL /* Send DMA interrupt */ -#define XEM_IPIF_RECV_DMA_MASK 0x00000010UL /* Receive DMA interrupt */ -#define XEM_IPIF_RECV_FIFO_MASK 0x00000020UL /* Receive FIFO interrupt */ -#define XEM_IPIF_SEND_FIFO_MASK 0x00000040UL /* Send FIFO interrupt */ - -/* - * Default IPIF Device Interrupt mask when configured for DMA - */ -#define XEM_IPIF_DMA_DFT_MASK (XEM_IPIF_SEND_DMA_MASK | \ - XEM_IPIF_RECV_DMA_MASK | \ - XEM_IPIF_EMAC_MASK | \ - XEM_IPIF_SEND_FIFO_MASK | \ - XEM_IPIF_RECV_FIFO_MASK) - -/* - * Default IPIF Device Interrupt mask when configured without DMA - */ -#define XEM_IPIF_FIFO_DFT_MASK (XEM_IPIF_EMAC_MASK | \ - XEM_IPIF_SEND_FIFO_MASK | \ - XEM_IPIF_RECV_FIFO_MASK) - -#define XEM_IPIF_DMA_DEV_INTR_COUNT 7 /* Number of interrupt sources */ -#define XEM_IPIF_FIFO_DEV_INTR_COUNT 5 /* Number of interrupt sources */ -#define XEM_IPIF_DEVICE_INTR_COUNT 7 /* Number of interrupt sources */ -#define XEM_IPIF_IP_INTR_COUNT 22 /* Number of MAC interrupts */ - -/* a mask for all transmit interrupts, used in polled mode */ -#define XEM_EIR_XMIT_ALL_MASK (XEM_EIR_XMIT_DONE_MASK | \ - XEM_EIR_XMIT_ERROR_MASK | \ - XEM_EIR_XMIT_SFIFO_EMPTY_MASK | \ - XEM_EIR_XMIT_LFIFO_FULL_MASK) - -/* a mask for all receive interrupts, used in polled mode */ -#define XEM_EIR_RECV_ALL_MASK (XEM_EIR_RECV_DONE_MASK | \ - XEM_EIR_RECV_ERROR_MASK | \ - XEM_EIR_RECV_LFIFO_EMPTY_MASK | \ - XEM_EIR_RECV_LFIFO_OVER_MASK | \ - XEM_EIR_RECV_LFIFO_UNDER_MASK | \ - XEM_EIR_RECV_DFIFO_OVER_MASK | \ - XEM_EIR_RECV_MISSED_FRAME_MASK | \ - XEM_EIR_RECV_COLLISION_MASK | \ - XEM_EIR_RECV_FCS_ERROR_MASK | \ - XEM_EIR_RECV_LEN_ERROR_MASK | \ - XEM_EIR_RECV_SHORT_ERROR_MASK | \ - XEM_EIR_RECV_LONG_ERROR_MASK | \ - XEM_EIR_RECV_ALIGN_ERROR_MASK) - -/* a default interrupt mask for scatter-gather DMA operation */ -#define XEM_EIR_DFT_SG_MASK (XEM_EIR_RECV_ERROR_MASK | \ - XEM_EIR_RECV_LFIFO_OVER_MASK | \ - XEM_EIR_RECV_LFIFO_UNDER_MASK | \ - XEM_EIR_XMIT_SFIFO_OVER_MASK | \ - XEM_EIR_XMIT_SFIFO_UNDER_MASK | \ - XEM_EIR_XMIT_LFIFO_OVER_MASK | \ - XEM_EIR_XMIT_LFIFO_UNDER_MASK | \ - XEM_EIR_RECV_DFIFO_OVER_MASK | \ - XEM_EIR_RECV_MISSED_FRAME_MASK | \ - XEM_EIR_RECV_COLLISION_MASK | \ - XEM_EIR_RECV_FCS_ERROR_MASK | \ - XEM_EIR_RECV_LEN_ERROR_MASK | \ - XEM_EIR_RECV_SHORT_ERROR_MASK | \ - XEM_EIR_RECV_LONG_ERROR_MASK | \ - XEM_EIR_RECV_ALIGN_ERROR_MASK) - -/* a default interrupt mask for non-DMA operation (direct FIFOs) */ -#define XEM_EIR_DFT_FIFO_MASK (XEM_EIR_XMIT_DONE_MASK | \ - XEM_EIR_RECV_DONE_MASK | \ - XEM_EIR_DFT_SG_MASK) - -/* - * Mask for the DMA interrupt enable and status registers when configured - * for scatter-gather DMA. - */ -#define XEM_DMA_SG_INTR_MASK (XDC_IXR_DMA_ERROR_MASK | \ - XDC_IXR_PKT_THRESHOLD_MASK | \ - XDC_IXR_PKT_WAIT_BOUND_MASK | \ - XDC_IXR_SG_END_MASK) - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/*****************************************************************************/ -/* -* -* Clears a structure of given size, in bytes, by setting each byte to 0. -* -* @param StructPtr is a pointer to the structure to be cleared. -* @param NumBytes is the number of bytes in the structure. -* -* @return -* -* None. -* -* @note -* -* Signature: void XEmac_mClearStruct(u8 *StructPtr, unsigned int NumBytes) -* -******************************************************************************/ -#define XEmac_mClearStruct(StructPtr, NumBytes) \ -{ \ - int i; \ - u8 *BytePtr = (u8 *)(StructPtr); \ - for (i=0; i < (unsigned int)(NumBytes); i++) \ - { \ - *BytePtr++ = 0; \ - } \ -} - -/************************** Variable Definitions *****************************/ - -extern XEmac_Config XEmac_ConfigTable[]; - -/************************** Function Prototypes ******************************/ - -void XEmac_CheckEmacError(XEmac * InstancePtr, u32 IntrStatus); -void XEmac_CheckFifoRecvError(XEmac * InstancePtr); -void XEmac_CheckFifoSendError(XEmac * InstancePtr); - -#endif /* end of protection macro */ diff --git a/board/xilinx/xilinx_enet/xemac_intr.c b/board/xilinx/xilinx_enet/xemac_intr.c deleted file mode 100644 index b9a2621564..0000000000 --- a/board/xilinx/xilinx_enet/xemac_intr.c +++ /dev/null @@ -1,402 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac_intr.c -* -* This file contains general interrupt-related functions of the XEmac driver. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver   Who  Date     Changes
-* ----- ---- -------- -----------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00c rpm  12/05/02 New version includes support for simple DMA
-* 1.00c rpm  03/31/03 Added comment to indicate that no Receive Length FIFO
-*                     overrun interrupts occur in v1.00l and later of the EMAC
-*                     device. This avoids the need to reset the device on
-*                     receive overruns.
-* 
-* -******************************************************************************/ - -/***************************** Include Files *********************************/ - -#include "xbasic_types.h" -#include "xemac_i.h" -#include "xio.h" -#include "xipif_v1_23_b.h" /* Uses v1.23b of the IPIF */ - -/************************** Constant Definitions *****************************/ - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/************************** Variable Definitions *****************************/ - -/************************** Function Prototypes ******************************/ - -/*****************************************************************************/ -/** -* -* Set the callback function for handling asynchronous errors. The upper layer -* software should call this function during initialization. -* -* The error callback is invoked by the driver within interrupt context, so it -* needs to do its job quickly. If there are potentially slow operations within -* the callback, these should be done at task-level. -* -* The Xilinx errors that must be handled by the callback are: -* - XST_DMA_ERROR indicates an unrecoverable DMA error occurred. This is -* typically a bus error or bus timeout. The handler must reset and -* re-configure the device. -* - XST_FIFO_ERROR indicates an unrecoverable FIFO error occurred. This is a -* deadlock condition in the packet FIFO. The handler must reset and -* re-configure the device. -* - XST_RESET_ERROR indicates an unrecoverable MAC error occurred, usually an -* overrun or underrun. The handler must reset and re-configure the device. -* - XST_DMA_SG_NO_LIST indicates an attempt was made to access a scatter-gather -* DMA list that has not yet been created. -* - XST_DMA_SG_LIST_EMPTY indicates the driver tried to get a descriptor from -* the receive descriptor list, but the list was empty. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param CallBackRef is a reference pointer to be passed back to the adapter in -* the callback. This helps the adapter correlate the callback to a -* particular driver. -* @param FuncPtr is the pointer to the callback function. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -void -XEmac_SetErrorHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_ErrorHandler FuncPtr) -{ - XASSERT_VOID(InstancePtr != NULL); - XASSERT_VOID(FuncPtr != NULL); - XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - InstancePtr->ErrorHandler = FuncPtr; - InstancePtr->ErrorRef = CallBackRef; -} - -/****************************************************************************/ -/* -* -* Check the interrupt status bits of the Ethernet MAC for errors. Errors -* currently handled are: -* - Receive length FIFO overrun. Indicates data was lost due to the receive -* length FIFO becoming full during the reception of a packet. Only a device -* reset clears this condition. -* - Receive length FIFO underrun. An attempt to read an empty FIFO. Only a -* device reset clears this condition. -* - Transmit status FIFO overrun. Indicates data was lost due to the transmit -* status FIFO becoming full following the transmission of a packet. Only a -* device reset clears this condition. -* - Transmit status FIFO underrun. An attempt to read an empty FIFO. Only a -* device reset clears this condition. -* - Transmit length FIFO overrun. Indicates data was lost due to the transmit -* length FIFO becoming full following the transmission of a packet. Only a -* device reset clears this condition. -* - Transmit length FIFO underrun. An attempt to read an empty FIFO. Only a -* device reset clears this condition. -* - Receive data FIFO overrun. Indicates data was lost due to the receive data -* FIFO becoming full during the reception of a packet. -* - Receive data errors: -* - Receive missed frame error. Valid data was lost by the MAC. -* - Receive collision error. Data was lost by the MAC due to a collision. -* - Receive FCS error. Data was dicarded by the MAC due to FCS error. -* - Receive length field error. Data was dicarded by the MAC due to an invalid -* length field in the packet. -* - Receive short error. Data was dicarded by the MAC because a packet was -* shorter than allowed. -* - Receive long error. Data was dicarded by the MAC because a packet was -* longer than allowed. -* - Receive alignment error. Data was truncated by the MAC because its length -* was not byte-aligned. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param IntrStatus is the contents of the interrupt status register to be checked -* -* @return -* -* None. -* -* @note -* -* This function is intended for internal use only. -* -******************************************************************************/ -void -XEmac_CheckEmacError(XEmac * InstancePtr, u32 IntrStatus) -{ - u32 ResetError = FALSE; - - /* - * First check for receive fifo overrun/underrun errors. Most require a - * reset by the user to clear, but the data FIFO overrun error does not. - */ - if (IntrStatus & XEM_EIR_RECV_DFIFO_OVER_MASK) { - InstancePtr->Stats.RecvOverrunErrors++; - InstancePtr->Stats.FifoErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_LFIFO_OVER_MASK) { - /* - * Receive Length FIFO overrun interrupts no longer occur in v1.00l - * and later of the EMAC device. Frames are just dropped by the EMAC - * if the length FIFO is full. The user would notice the Receive Missed - * Frame count incrementing without any other errors being reported. - * This code is left here for backward compatibility with v1.00k and - * older EMAC devices. - */ - InstancePtr->Stats.RecvOverrunErrors++; - InstancePtr->Stats.FifoErrors++; - ResetError = TRUE; /* requires a reset */ - } - - if (IntrStatus & XEM_EIR_RECV_LFIFO_UNDER_MASK) { - InstancePtr->Stats.RecvUnderrunErrors++; - InstancePtr->Stats.FifoErrors++; - ResetError = TRUE; /* requires a reset */ - } - - /* - * Now check for general receive errors. Get the latest count where - * available, otherwise just bump the statistic so we know the interrupt - * occurred. - */ - if (IntrStatus & XEM_EIR_RECV_ERROR_MASK) { - if (IntrStatus & XEM_EIR_RECV_MISSED_FRAME_MASK) { - /* - * Caused by length FIFO or data FIFO overruns on receive side - */ - InstancePtr->Stats.RecvMissedFrameErrors = - XIo_In32(InstancePtr->BaseAddress + - XEM_RMFC_OFFSET); - } - - if (IntrStatus & XEM_EIR_RECV_COLLISION_MASK) { - InstancePtr->Stats.RecvCollisionErrors = - XIo_In32(InstancePtr->BaseAddress + XEM_RCC_OFFSET); - } - - if (IntrStatus & XEM_EIR_RECV_FCS_ERROR_MASK) { - InstancePtr->Stats.RecvFcsErrors = - XIo_In32(InstancePtr->BaseAddress + - XEM_RFCSEC_OFFSET); - } - - if (IntrStatus & XEM_EIR_RECV_LEN_ERROR_MASK) { - InstancePtr->Stats.RecvLengthFieldErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_SHORT_ERROR_MASK) { - InstancePtr->Stats.RecvShortErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_LONG_ERROR_MASK) { - InstancePtr->Stats.RecvLongErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_ALIGN_ERROR_MASK) { - InstancePtr->Stats.RecvAlignmentErrors = - XIo_In32(InstancePtr->BaseAddress + - XEM_RAEC_OFFSET); - } - - /* - * Bump recv interrupts stats only if not scatter-gather DMA (this - * stat gets bumped elsewhere in that case) - */ - if (!XEmac_mIsSgDma(InstancePtr)) { - InstancePtr->Stats.RecvInterrupts++; /* TODO: double bump? */ - } - - } - - /* - * Check for transmit errors. These apply to both DMA and non-DMA modes - * of operation. The entire device should be reset after overruns or - * underruns. - */ - if (IntrStatus & (XEM_EIR_XMIT_SFIFO_OVER_MASK | - XEM_EIR_XMIT_LFIFO_OVER_MASK)) { - InstancePtr->Stats.XmitOverrunErrors++; - InstancePtr->Stats.FifoErrors++; - ResetError = TRUE; - } - - if (IntrStatus & (XEM_EIR_XMIT_SFIFO_UNDER_MASK | - XEM_EIR_XMIT_LFIFO_UNDER_MASK)) { - InstancePtr->Stats.XmitUnderrunErrors++; - InstancePtr->Stats.FifoErrors++; - ResetError = TRUE; - } - - if (ResetError) { - /* - * If a reset error occurred, disable the EMAC interrupts since the - * reset-causing interrupt(s) is latched in the EMAC - meaning it will - * keep occurring until the device is reset. In order to give the higher - * layer software time to reset the device, we have to disable the - * overrun/underrun interrupts until that happens. We trust that the - * higher layer resets the device. We are able to get away with disabling - * all EMAC interrupts since the only interrupts it generates are for - * error conditions, and we don't care about any more errors right now. - */ - XIIF_V123B_WRITE_IIER(InstancePtr->BaseAddress, 0); - - /* - * Invoke the error handler callback, which should result in a reset - * of the device by the upper layer software. - */ - InstancePtr->ErrorHandler(InstancePtr->ErrorRef, - XST_RESET_ERROR); - } -} - -/*****************************************************************************/ -/* -* -* Check the receive packet FIFO for errors. FIFO error interrupts are: -* - Deadlock. See the XPacketFifo component for a description of deadlock on a -* FIFO. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Although the function returns void, it can return an asynchronous error to the -* application through the error handler. It can return XST_FIFO_ERROR if a FIFO -* error occurred. -* -* @note -* -* This function is intended for internal use only. -* -******************************************************************************/ -void -XEmac_CheckFifoRecvError(XEmac * InstancePtr) -{ - /* - * Although the deadlock is currently the only interrupt from a packet - * FIFO, make sure it is deadlocked before taking action. There is no - * need to clear this interrupt since it requires a reset of the device. - */ - if (XPF_V100B_IS_DEADLOCKED(&InstancePtr->RecvFifo)) { - u32 IntrEnable; - - InstancePtr->Stats.FifoErrors++; - - /* - * Invoke the error callback function, which should result in a reset - * of the device by the upper layer software. We first need to disable - * the FIFO interrupt, since otherwise the upper layer thread that - * handles the reset may never run because this interrupt condition - * doesn't go away until a reset occurs (there is no way to ack it). - */ - IntrEnable = XIIF_V123B_READ_DIER(InstancePtr->BaseAddress); - XIIF_V123B_WRITE_DIER(InstancePtr->BaseAddress, - IntrEnable & ~XEM_IPIF_RECV_FIFO_MASK); - - InstancePtr->ErrorHandler(InstancePtr->ErrorRef, - XST_FIFO_ERROR); - } -} - -/*****************************************************************************/ -/* -* -* Check the send packet FIFO for errors. FIFO error interrupts are: -* - Deadlock. See the XPacketFifo component for a description of deadlock on a -* FIFO. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Although the function returns void, it can return an asynchronous error to the -* application through the error handler. It can return XST_FIFO_ERROR if a FIFO -* error occurred. -* -* @note -* -* This function is intended for internal use only. -* -******************************************************************************/ -void -XEmac_CheckFifoSendError(XEmac * InstancePtr) -{ - /* - * Although the deadlock is currently the only interrupt from a packet - * FIFO, make sure it is deadlocked before taking action. There is no - * need to clear this interrupt since it requires a reset of the device. - */ - if (XPF_V100B_IS_DEADLOCKED(&InstancePtr->SendFifo)) { - u32 IntrEnable; - - InstancePtr->Stats.FifoErrors++; - - /* - * Invoke the error callback function, which should result in a reset - * of the device by the upper layer software. We first need to disable - * the FIFO interrupt, since otherwise the upper layer thread that - * handles the reset may never run because this interrupt condition - * doesn't go away until a reset occurs (there is no way to ack it). - */ - IntrEnable = XIIF_V123B_READ_DIER(InstancePtr->BaseAddress); - XIIF_V123B_WRITE_DIER(InstancePtr->BaseAddress, - IntrEnable & ~XEM_IPIF_SEND_FIFO_MASK); - - InstancePtr->ErrorHandler(InstancePtr->ErrorRef, - XST_FIFO_ERROR); - } -} diff --git a/board/xilinx/xilinx_enet/xemac_intr_dma.c b/board/xilinx/xilinx_enet/xemac_intr_dma.c deleted file mode 100644 index 567abb42ab..0000000000 --- a/board/xilinx/xilinx_enet/xemac_intr_dma.c +++ /dev/null @@ -1,1344 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac_intr_dma.c -* -* Contains functions used in interrupt mode when configured with scatter-gather -* DMA. -* -* The interrupt handler, XEmac_IntrHandlerDma(), must be connected by the user -* to the interrupt controller. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver   Who  Date     Changes
-* ----- ---- -------- ---------------------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00c rpm  12/05/02 New version includes support for simple DMA and the delay
-*                     argument to SgSend
-* 1.00c rpm  02/03/03 The XST_DMA_SG_COUNT_EXCEEDED return code was removed
-*                     from SetPktThreshold in the internal DMA driver. Also
-*                     avoided compiler warnings by initializing Result in the
-*                     interrupt service routines.
-* 1.00c rpm  03/26/03 Fixed a problem in the interrupt service routines where
-*                     the interrupt status was toggled clear after a call to
-*                     ErrorHandler, but if ErrorHandler reset the device the
-*                     toggle actually asserted the interrupt because the
-*                     reset had cleared it.
-* 
-* -******************************************************************************/ - -/***************************** Include Files *********************************/ - -#include "xbasic_types.h" -#include "xemac_i.h" -#include "xio.h" -#include "xbuf_descriptor.h" -#include "xdma_channel.h" -#include "xipif_v1_23_b.h" /* Uses v1.23b of the IPIF */ - -/************************** Constant Definitions *****************************/ - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/************************** Variable Definitions *****************************/ - -/************************** Function Prototypes ******************************/ - -static void HandleDmaRecvIntr(XEmac * InstancePtr); -static void HandleDmaSendIntr(XEmac * InstancePtr); -static void HandleEmacDmaIntr(XEmac * InstancePtr); - -/*****************************************************************************/ -/** -* -* Send an Ethernet frame using scatter-gather DMA. The caller attaches the -* frame to one or more buffer descriptors, then calls this function once for -* each descriptor. The caller is responsible for allocating and setting up the -* descriptor. An entire Ethernet frame may or may not be contained within one -* descriptor. This function simply inserts the descriptor into the scatter- -* gather engine's transmit list. The caller is responsible for providing mutual -* exclusion to guarantee that a frame is contiguous in the transmit list. The -* buffer attached to the descriptor must be word-aligned. -* -* The driver updates the descriptor with the device control register before -* being inserted into the transmit list. If this is the last descriptor in -* the frame, the inserts are committed, which means the descriptors for this -* frame are now available for transmission. -* -* It is assumed that the upper layer software supplies a correctly formatted -* Ethernet frame, including the destination and source addresses, the -* type/length field, and the data field. It is also assumed that upper layer -* software does not append FCS at the end of the frame. -* -* The buffer attached to the descriptor must be word-aligned on the front end. -* -* This call is non-blocking. Notification of error or successful transmission -* is done asynchronously through the send or error callback function. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param BdPtr is the address of a descriptor to be inserted into the transmit -* ring. -* @param Delay indicates whether to start the scatter-gather DMA channel -* immediately, or whether to wait. This allows the user to build up a -* list of more than one descriptor before starting the transmission of -* the packets, which allows the application to keep up with DMA and have -* a constant stream of frames being transmitted. Use XEM_SGDMA_NODELAY or -* XEM_SGDMA_DELAY, defined in xemac.h, as the value of this argument. If -* the user chooses to delay and build a list, the user must call this -* function with the XEM_SGDMA_NODELAY option or call XEmac_Start() to -* kick off the tranmissions. -* -* @return -* -* - XST_SUCCESS if the buffer was successfull sent -* - XST_DEVICE_IS_STOPPED if the Ethernet MAC has not been started yet -* - XST_NOT_SGDMA if the device is not in scatter-gather DMA mode -* - XST_DMA_SG_LIST_FULL if the descriptor list for the DMA channel is full -* - XST_DMA_SG_BD_LOCKED if the DMA channel cannot insert the descriptor into -* the list because a locked descriptor exists at the insert point -* - XST_DMA_SG_NOTHING_TO_COMMIT if even after inserting a descriptor into the -* list, the DMA channel believes there are no new descriptors to commit. If -* this is ever encountered, there is likely a thread mutual exclusion problem -* on transmit. -* -* @note -* -* This function is not thread-safe. The user must provide mutually exclusive -* access to this function if there are to be multiple threads that can call it. -* -* @internal -* -* A status that should never be returned from this function, although -* the code is set up to handle it, is XST_DMA_SG_NO_LIST. Starting the device -* requires a list to be created, and this function requires the device to be -* started. -* -******************************************************************************/ -XStatus -XEmac_SgSend(XEmac * InstancePtr, XBufDescriptor * BdPtr, int Delay) -{ - XStatus Result; - u32 BdControl; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(BdPtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure the device is configured for scatter-gather DMA, then be sure - * it is started. - */ - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - /* - * Set some descriptor control word defaults (source address increment - * and local destination address) and the destination address - * (the FIFO). These are the same for every transmit descriptor. - */ - BdControl = XBufDescriptor_GetControl(BdPtr); - XBufDescriptor_SetControl(BdPtr, BdControl | XEM_DFT_SEND_BD_MASK); - - XBufDescriptor_SetDestAddress(BdPtr, - InstancePtr->BaseAddress + - XEM_PFIFO_TXDATA_OFFSET); - - /* - * Put the descriptor in the send list. The DMA component accesses data - * here that can also be modified in interrupt context, so a critical - * section is required. - */ - XIIF_V123B_GINTR_DISABLE(InstancePtr->BaseAddress); - - Result = XDmaChannel_PutDescriptor(&InstancePtr->SendChannel, BdPtr); - if (Result != XST_SUCCESS) { - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - return Result; - } - - /* - * If this is the last buffer in the frame, commit the inserts and start - * the DMA engine if necessary - */ - if (XBufDescriptor_IsLastControl(BdPtr)) { - Result = XDmaChannel_CommitPuts(&InstancePtr->SendChannel); - if (Result != XST_SUCCESS) { - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - return Result; - } - - if (Delay == XEM_SGDMA_NODELAY) { - /* - * Start the DMA channel. Ignore the return status since we know the - * list exists and has at least one entry and we don't care if the - * channel is already started. The DMA component accesses data here - * that can be modified at interrupt or task levels, so a critical - * section is required. - */ - (void) XDmaChannel_SgStart(&InstancePtr->SendChannel); - } - } - - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Add a descriptor, with an attached empty buffer, into the receive descriptor -* list. The buffer attached to the descriptor must be word-aligned. This is -* used by the upper layer software during initialization when first setting up -* the receive descriptors, and also during reception of frames to replace -* filled buffers with empty buffers. This function can be called when the -* device is started or stopped. Note that it does start the scatter-gather DMA -* engine. Although this is not necessary during initialization, it is not a -* problem during initialization because the MAC receiver is not yet started. -* -* The buffer attached to the descriptor must be word-aligned on both the front -* end and the back end. -* -* Notification of received frames are done asynchronously through the receive -* callback function. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param BdPtr is a pointer to the buffer descriptor that will be added to the -* descriptor list. -* -* @return -* -* - XST_SUCCESS if a descriptor was successfully returned to the driver -* - XST_NOT_SGDMA if the device is not in scatter-gather DMA mode -* - XST_DMA_SG_LIST_FULL if the receive descriptor list is full -* - XST_DMA_SG_BD_LOCKED if the DMA channel cannot insert the descriptor into -* the list because a locked descriptor exists at the insert point. -* - XST_DMA_SG_NOTHING_TO_COMMIT if even after inserting a descriptor into the -* list, the DMA channel believes there are no new descriptors to commit. -* -* @internal -* -* A status that should never be returned from this function, although -* the code is set up to handle it, is XST_DMA_SG_NO_LIST. Starting the device -* requires a list to be created, and this function requires the device to be -* started. -* -******************************************************************************/ -XStatus -XEmac_SgRecv(XEmac * InstancePtr, XBufDescriptor * BdPtr) -{ - XStatus Result; - u32 BdControl; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(BdPtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure the device is configured for scatter-gather DMA - */ - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - /* - * Set some descriptor control word defaults (destination address increment - * and local source address) and the source address (the FIFO). These are - * the same for every receive descriptor. - */ - BdControl = XBufDescriptor_GetControl(BdPtr); - XBufDescriptor_SetControl(BdPtr, BdControl | XEM_DFT_RECV_BD_MASK); - XBufDescriptor_SetSrcAddress(BdPtr, - InstancePtr->BaseAddress + - XEM_PFIFO_RXDATA_OFFSET); - - /* - * Put the descriptor into the channel's descriptor list and commit. - * Although this function is likely called within interrupt context, there - * is the possibility that the upper layer software queues it to a task. - * In this case, a critical section is needed here to protect shared data - * in the DMA component. - */ - XIIF_V123B_GINTR_DISABLE(InstancePtr->BaseAddress); - - Result = XDmaChannel_PutDescriptor(&InstancePtr->RecvChannel, BdPtr); - if (Result != XST_SUCCESS) { - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - return Result; - } - - Result = XDmaChannel_CommitPuts(&InstancePtr->RecvChannel); - if (Result != XST_SUCCESS) { - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - return Result; - } - - /* - * Start the DMA channel. Ignore the return status since we know the list - * exists and has at least one entry and we don't care if the channel is - * already started. The DMA component accesses data here that can be - * modified at interrupt or task levels, so a critical section is required. - */ - (void) XDmaChannel_SgStart(&InstancePtr->RecvChannel); - - XIIF_V123B_GINTR_ENABLE(InstancePtr->BaseAddress); - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* The interrupt handler for the Ethernet driver when configured with scatter- -* gather DMA. -* -* Get the interrupt status from the IpIf to determine the source of the -* interrupt. The source can be: MAC, Recv Packet FIFO, Send Packet FIFO, Recv -* DMA channel, or Send DMA channel. The packet FIFOs only interrupt during -* "deadlock" conditions. -* -* @param InstancePtr is a pointer to the XEmac instance that just interrupted. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -void -XEmac_IntrHandlerDma(void *InstancePtr) -{ - u32 IntrStatus; - XEmac *EmacPtr = (XEmac *) InstancePtr; - - EmacPtr->Stats.TotalIntrs++; - - /* - * Get the interrupt status from the IPIF. There is no clearing of - * interrupts in the IPIF. Interrupts must be cleared at the source. - */ - IntrStatus = XIIF_V123B_READ_DIPR(EmacPtr->BaseAddress); - - /* - * See which type of interrupt is being requested, and service it - */ - if (IntrStatus & XEM_IPIF_RECV_DMA_MASK) { /* Receive DMA interrupt */ - EmacPtr->Stats.RecvInterrupts++; - HandleDmaRecvIntr(EmacPtr); - } - - if (IntrStatus & XEM_IPIF_SEND_DMA_MASK) { /* Send DMA interrupt */ - EmacPtr->Stats.XmitInterrupts++; - HandleDmaSendIntr(EmacPtr); - } - - if (IntrStatus & XEM_IPIF_EMAC_MASK) { /* MAC interrupt */ - EmacPtr->Stats.EmacInterrupts++; - HandleEmacDmaIntr(EmacPtr); - } - - if (IntrStatus & XEM_IPIF_RECV_FIFO_MASK) { /* Receive FIFO interrupt */ - EmacPtr->Stats.RecvInterrupts++; - XEmac_CheckFifoRecvError(EmacPtr); - } - - if (IntrStatus & XEM_IPIF_SEND_FIFO_MASK) { /* Send FIFO interrupt */ - EmacPtr->Stats.XmitInterrupts++; - XEmac_CheckFifoSendError(EmacPtr); - } - - if (IntrStatus & XIIF_V123B_ERROR_MASK) { - /* - * An error occurred internal to the IPIF. This is more of a debug and - * integration issue rather than a production error. Don't do anything - * other than clear it, which provides a spot for software to trap - * on the interrupt and begin debugging. - */ - XIIF_V123B_WRITE_DISR(EmacPtr->BaseAddress, - XIIF_V123B_ERROR_MASK); - } -} - -/*****************************************************************************/ -/** -* -* Set the packet count threshold for this device. The device must be stopped -* before setting the threshold. The packet count threshold is used for interrupt -* coalescing, which reduces the frequency of interrupts from the device to the -* processor. In this case, the scatter-gather DMA engine only interrupts when -* the packet count threshold is reached, instead of interrupting for each packet. -* A packet is a generic term used by the scatter-gather DMA engine, and is -* equivalent to an Ethernet frame in our case. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param Direction indicates the channel, send or receive, from which the -* threshold register is read. -* @param Threshold is the value of the packet threshold count used during -* interrupt coalescing. A value of 0 disables the use of packet threshold -* by the hardware. -* -* @return -* -* - XST_SUCCESS if the threshold was successfully set -* - XST_NOT_SGDMA if the MAC is not configured for scatter-gather DMA -* - XST_DEVICE_IS_STARTED if the device has not been stopped -* - XST_INVALID_PARAM if the Direction parameter is invalid. Turning on -* asserts would also catch this error. -* -* @note -* -* The packet threshold could be set to larger than the number of descriptors -* allocated to the DMA channel. In this case, the wait bound will take over -* and always indicate data arrival. There was a check in this function that -* returned an error if the treshold was larger than the number of descriptors, -* but that was removed because users would then have to set the threshold -* only after they set descriptor space, which is an order dependency that -* caused confustion. -* -******************************************************************************/ -XStatus -XEmac_SetPktThreshold(XEmac * InstancePtr, u32 Direction, u8 Threshold) -{ - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(Direction == XEM_SEND || Direction == XEM_RECV); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure device is configured for scatter-gather DMA and has been stopped - */ - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - /* - * Based on the direction, set the packet threshold in the - * corresponding DMA channel component. Default to the receive - * channel threshold register (if an invalid Direction is passed). - */ - switch (Direction) { - case XEM_SEND: - return XDmaChannel_SetPktThreshold(&InstancePtr->SendChannel, - Threshold); - - case XEM_RECV: - return XDmaChannel_SetPktThreshold(&InstancePtr->RecvChannel, - Threshold); - - default: - return XST_INVALID_PARAM; - } -} - -/*****************************************************************************/ -/** -* -* Get the value of the packet count threshold for this driver/device. The packet -* count threshold is used for interrupt coalescing, which reduces the frequency -* of interrupts from the device to the processor. In this case, the -* scatter-gather DMA engine only interrupts when the packet count threshold is -* reached, instead of interrupting for each packet. A packet is a generic term -* used by the scatter-gather DMA engine, and is equivalent to an Ethernet frame -* in our case. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param Direction indicates the channel, send or receive, from which the -* threshold register is read. -* @param ThreshPtr is a pointer to the byte into which the current value of the -* packet threshold register will be copied. An output parameter. A value -* of 0 indicates the use of packet threshold by the hardware is disabled. -* -* @return -* -* - XST_SUCCESS if the packet threshold was retrieved successfully -* - XST_NOT_SGDMA if the MAC is not configured for scatter-gather DMA -* - XST_INVALID_PARAM if the Direction parameter is invalid. Turning on -* asserts would also catch this error. -* -* @note -* -* None. -* -******************************************************************************/ -XStatus -XEmac_GetPktThreshold(XEmac * InstancePtr, u32 Direction, u8 * ThreshPtr) -{ - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(Direction == XEM_SEND || Direction == XEM_RECV); - XASSERT_NONVOID(ThreshPtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - /* - * Based on the direction, return the packet threshold set in the - * corresponding DMA channel component. Default to the value in - * the receive channel threshold register (if an invalid Direction - * is passed). - */ - switch (Direction) { - case XEM_SEND: - *ThreshPtr = - XDmaChannel_GetPktThreshold(&InstancePtr->SendChannel); - break; - - case XEM_RECV: - *ThreshPtr = - XDmaChannel_GetPktThreshold(&InstancePtr->RecvChannel); - break; - - default: - return XST_INVALID_PARAM; - } - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Set the packet wait bound timer for this driver/device. The device must be -* stopped before setting the timer value. The packet wait bound is used during -* interrupt coalescing to trigger an interrupt when not enough packets have been -* received to reach the packet count threshold. A packet is a generic term used -* by the scatter-gather DMA engine, and is equivalent to an Ethernet frame in -* our case. The timer is in milliseconds. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param Direction indicates the channel, send or receive, from which the -* threshold register is read. -* @param TimerValue is the value of the packet wait bound used during interrupt -* coalescing. It is in milliseconds in the range 0 - 1023. A value of 0 -* disables the packet wait bound timer. -* -* @return -* -* - XST_SUCCESS if the packet wait bound was set successfully -* - XST_NOT_SGDMA if the MAC is not configured for scatter-gather DMA -* - XST_DEVICE_IS_STARTED if the device has not been stopped -* - XST_INVALID_PARAM if the Direction parameter is invalid. Turning on -* asserts would also catch this error. -* -* @note -* -* None. -* -******************************************************************************/ -XStatus -XEmac_SetPktWaitBound(XEmac * InstancePtr, u32 Direction, u32 TimerValue) -{ - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(Direction == XEM_SEND || Direction == XEM_RECV); - XASSERT_NONVOID(TimerValue <= XEM_SGDMA_MAX_WAITBOUND); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure device is configured for scatter-gather DMA and has been stopped - */ - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - /* - * Based on the direction, set the packet wait bound in the - * corresponding DMA channel component. Default to the receive - * channel wait bound register (if an invalid Direction is passed). - */ - switch (Direction) { - case XEM_SEND: - XDmaChannel_SetPktWaitBound(&InstancePtr->SendChannel, - TimerValue); - break; - - case XEM_RECV: - XDmaChannel_SetPktWaitBound(&InstancePtr->RecvChannel, - TimerValue); - break; - - default: - return XST_INVALID_PARAM; - } - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Get the packet wait bound timer for this driver/device. The packet wait bound -* is used during interrupt coalescing to trigger an interrupt when not enough -* packets have been received to reach the packet count threshold. A packet is a -* generic term used by the scatter-gather DMA engine, and is equivalent to an -* Ethernet frame in our case. The timer is in milliseconds. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param Direction indicates the channel, send or receive, from which the -* threshold register is read. -* @param WaitPtr is a pointer to the byte into which the current value of the -* packet wait bound register will be copied. An output parameter. Units -* are in milliseconds in the range 0 - 1023. A value of 0 indicates the -* packet wait bound timer is disabled. -* -* @return -* -* - XST_SUCCESS if the packet wait bound was retrieved successfully -* - XST_NOT_SGDMA if the MAC is not configured for scatter-gather DMA -* - XST_INVALID_PARAM if the Direction parameter is invalid. Turning on -* asserts would also catch this error. -* -* @note -* -* None. -* -******************************************************************************/ -XStatus -XEmac_GetPktWaitBound(XEmac * InstancePtr, u32 Direction, u32 * WaitPtr) -{ - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(Direction == XEM_SEND || Direction == XEM_RECV); - XASSERT_NONVOID(WaitPtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - /* - * Based on the direction, return the packet wait bound set in the - * corresponding DMA channel component. Default to the value in - * the receive channel wait bound register (if an invalid Direction - * is passed). - */ - switch (Direction) { - case XEM_SEND: - *WaitPtr = - XDmaChannel_GetPktWaitBound(&InstancePtr->SendChannel); - break; - - case XEM_RECV: - *WaitPtr = - XDmaChannel_GetPktWaitBound(&InstancePtr->RecvChannel); - break; - - default: - return XST_INVALID_PARAM; - } - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Give the driver the memory space to be used for the scatter-gather DMA -* receive descriptor list. This function should only be called once, during -* initialization of the Ethernet driver. The memory space must be big enough -* to hold some number of descriptors, depending on the needs of the system. -* The xemac.h file defines minimum and default numbers of descriptors -* which can be used to allocate this memory space. -* -* The memory space must be word-aligned. An assert will occur if asserts are -* turned on and the memory is not word-aligned. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param MemoryPtr is a pointer to the word-aligned memory. -* @param ByteCount is the length, in bytes, of the memory space. -* -* @return -* -* - XST_SUCCESS if the space was initialized successfully -* - XST_NOT_SGDMA if the MAC is not configured for scatter-gather DMA -* - XST_DMA_SG_LIST_EXISTS if this list space has already been created -* -* @note -* -* If the device is configured for scatter-gather DMA, this function must be -* called AFTER the XEmac_Initialize() function because the DMA channel -* components must be initialized before the memory space is set. -* -******************************************************************************/ -XStatus -XEmac_SetSgRecvSpace(XEmac * InstancePtr, u32 * MemoryPtr, u32 ByteCount) -{ - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(MemoryPtr != NULL); - XASSERT_NONVOID(ByteCount != 0); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - return XDmaChannel_CreateSgList(&InstancePtr->RecvChannel, MemoryPtr, - ByteCount); -} - -/*****************************************************************************/ -/** -* -* Give the driver the memory space to be used for the scatter-gather DMA -* transmit descriptor list. This function should only be called once, during -* initialization of the Ethernet driver. The memory space must be big enough -* to hold some number of descriptors, depending on the needs of the system. -* The xemac.h file defines minimum and default numbers of descriptors -* which can be used to allocate this memory space. -* -* The memory space must be word-aligned. An assert will occur if asserts are -* turned on and the memory is not word-aligned. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param MemoryPtr is a pointer to the word-aligned memory. -* @param ByteCount is the length, in bytes, of the memory space. -* -* @return -* -* - XST_SUCCESS if the space was initialized successfully -* - XST_NOT_SGDMA if the MAC is not configured for scatter-gather DMA -* - XST_DMA_SG_LIST_EXISTS if this list space has already been created -* -* @note -* -* If the device is configured for scatter-gather DMA, this function must be -* called AFTER the XEmac_Initialize() function because the DMA channel -* components must be initialized before the memory space is set. -* -******************************************************************************/ -XStatus -XEmac_SetSgSendSpace(XEmac * InstancePtr, u32 * MemoryPtr, u32 ByteCount) -{ - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(MemoryPtr != NULL); - XASSERT_NONVOID(ByteCount != 0); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - if (!XEmac_mIsSgDma(InstancePtr)) { - return XST_NOT_SGDMA; - } - - return XDmaChannel_CreateSgList(&InstancePtr->SendChannel, MemoryPtr, - ByteCount); -} - -/*****************************************************************************/ -/** -* -* Set the callback function for handling received frames in scatter-gather DMA -* mode. The upper layer software should call this function during -* initialization. The callback is called once per frame received. The head of -* a descriptor list is passed in along with the number of descriptors in the -* list. Before leaving the callback, the upper layer software should attach a -* new buffer to each descriptor in the list. -* -* The callback is invoked by the driver within interrupt context, so it needs -* to do its job quickly. Sending the received frame up the protocol stack -* should be done at task-level. If there are other potentially slow operations -* within the callback, these too should be done at task-level. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param CallBackRef is a reference pointer to be passed back to the adapter in -* the callback. This helps the adapter correlate the callback to a -* particular driver. -* @param FuncPtr is the pointer to the callback function. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -void -XEmac_SetSgRecvHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_SgHandler FuncPtr) -{ - /* - * Asserted IsDmaSg here instead of run-time check because there is really - * no ill-effects of setting these when not configured for scatter-gather. - */ - XASSERT_VOID(InstancePtr != NULL); - XASSERT_VOID(FuncPtr != NULL); - XASSERT_VOID(XEmac_mIsSgDma(InstancePtr)); - XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - InstancePtr->SgRecvHandler = FuncPtr; - InstancePtr->SgRecvRef = CallBackRef; -} - -/*****************************************************************************/ -/** -* -* Set the callback function for handling confirmation of transmitted frames in -* scatter-gather DMA mode. The upper layer software should call this function -* during initialization. The callback is called once per frame sent. The head -* of a descriptor list is passed in along with the number of descriptors in -* the list. The callback is responsible for freeing buffers attached to these -* descriptors. -* -* The callback is invoked by the driver within interrupt context, so it needs -* to do its job quickly. If there are potentially slow operations within the -* callback, these should be done at task-level. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param CallBackRef is a reference pointer to be passed back to the adapter in -* the callback. This helps the adapter correlate the callback to a -* particular driver. -* @param FuncPtr is the pointer to the callback function. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -void -XEmac_SetSgSendHandler(XEmac * InstancePtr, void *CallBackRef, - XEmac_SgHandler FuncPtr) -{ - /* - * Asserted IsDmaSg here instead of run-time check because there is really - * no ill-effects of setting these when not configured for scatter-gather. - */ - XASSERT_VOID(InstancePtr != NULL); - XASSERT_VOID(FuncPtr != NULL); - XASSERT_VOID(XEmac_mIsSgDma(InstancePtr)); - XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - InstancePtr->SgSendHandler = FuncPtr; - InstancePtr->SgSendRef = CallBackRef; -} - -/*****************************************************************************/ -/* -* -* Handle an interrupt from the DMA receive channel. DMA interrupts are: -* -* - DMA error. DMA encountered a bus error or timeout. This is a fatal error -* that requires reset of the channel. The driver calls the error handler -* of the upper layer software with an error code indicating the device should -* be reset. -* - Packet count threshold reached. For scatter-gather operations, indicates -* the threshold for the number of packets not serviced by software has been -* reached. The driver behaves as follows: -* - Get the value of the packet counter, which tells us how many packets -* are ready to be serviced -* - For each packet -* - For each descriptor, remove it from the scatter-gather list -* - Check for the last descriptor in the frame, and if set -* - Bump frame statistics -* - Call the scatter-gather receive callback function -* - Decrement the packet counter by one -* Note that there are no receive errors reported in the status word of -* the buffer descriptor. If receive errors occur, the MAC drops the -* packet, and we only find out about the errors through various error -* count registers. -* - Packet wait bound reached. For scatter-gather, indicates the time to wait -* for the next packet has expired. The driver follows the same logic as when -* the packet count threshold interrupt is received. -* - Scatter-gather end acknowledge. Hardware has reached the end of the -* descriptor list. The driver follows the same logic as when the packet count -* threshold interrupt is received. In addition, the driver restarts the DMA -* scatter-gather channel in case there are newly inserted descriptors. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Although the function returns void, there are asynchronous errors that can -* be generated (by calling the ErrorHandler) from this function. These are: -* - XST_DMA_SG_LIST_EMPTY indicates we tried to get a buffer descriptor from the -* DMA channel, but there was not one ready for software. -* - XST_DMA_ERROR indicates a DMA bus error or timeout occurred. This is a fatal -* error that requires reset. -* -* @note -* -* None. -* -******************************************************************************/ -static void -HandleDmaRecvIntr(XEmac * InstancePtr) -{ - u32 IntrStatus; - - /* - * Read the interrupt status - */ - IntrStatus = XDmaChannel_GetIntrStatus(&InstancePtr->RecvChannel); - - /* - * For packet threshold or wait bound interrupts, process desciptors. Also - * process descriptors on a SG end acknowledgement, which means the end of - * the descriptor list has been reached by the hardware. For receive, this - * is potentially trouble since it means the descriptor list is full, - * unless software can process enough packets quickly enough so the - * hardware has room to put new packets. - */ - if (IntrStatus & (XDC_IXR_PKT_THRESHOLD_MASK | - XDC_IXR_PKT_WAIT_BOUND_MASK | XDC_IXR_SG_END_MASK)) { - XStatus Result = XST_SUCCESS; - u32 NumFrames; - u32 NumProcessed; - u32 NumBuffers; - u32 NumBytes; - u32 IsLast; - XBufDescriptor *FirstBdPtr; - XBufDescriptor *BdPtr; - - /* - * Get the number of unserviced packets - */ - NumFrames = XDmaChannel_GetPktCount(&InstancePtr->RecvChannel); - - for (NumProcessed = 0; NumProcessed < NumFrames; NumProcessed++) { - IsLast = FALSE; - FirstBdPtr = NULL; - NumBuffers = 0; - NumBytes = 0; - - /* - * For each packet, get the descriptor from the list. On the - * last one in the frame, make the callback to the upper layer. - */ - while (!IsLast) { - Result = - XDmaChannel_GetDescriptor(&InstancePtr-> - RecvChannel, - &BdPtr); - if (Result != XST_SUCCESS) { - /* - * An error getting a buffer descriptor from the list. - * This should not happen, but if it does, report it to - * the error callback and break out of the loops to service - * other interrupts. - */ - InstancePtr->ErrorHandler(InstancePtr-> - ErrorRef, - Result); - break; - } - - /* - * Keep a pointer to the first descriptor in the list, as it - * will be passed to the upper layers in a bit. By the fact - * that we received this packet means no errors occurred, so - * no need to check the device status word for errors. - */ - if (FirstBdPtr == NULL) { - FirstBdPtr = BdPtr; - } - - NumBytes += XBufDescriptor_GetLength(BdPtr); - - /* - * Check to see if this is the last descriptor in the frame, - * and if so, set the IsLast flag to get out of the loop. - */ - if (XBufDescriptor_IsLastStatus(BdPtr)) { - IsLast = TRUE; - } - - /* - * Bump the number of buffers in this packet - */ - NumBuffers++; - - } /* end while loop */ - - /* - * Check for error that occurred inside the while loop, and break - * out of the for loop if there was one so other interrupts can - * be serviced. - */ - if (Result != XST_SUCCESS) { - break; - } - - InstancePtr->Stats.RecvFrames++; - InstancePtr->Stats.RecvBytes += NumBytes; - - /* - * Make the callback to the upper layers, passing it the first - * descriptor in the packet and the number of descriptors in the - * packet. - */ - InstancePtr->SgRecvHandler(InstancePtr->SgRecvRef, - FirstBdPtr, NumBuffers); - - /* - * Decrement the packet count register to reflect the fact we - * just processed a packet - */ - XDmaChannel_DecrementPktCount(&InstancePtr-> - RecvChannel); - - } /* end for loop */ - - /* - * If the interrupt was an end-ack, check the descriptor list again to - * see if it is empty. If not, go ahead and restart the scatter-gather - * channel. This is to fix a possible race condition where, on receive, - * the driver attempted to start a scatter-gather channel that was - * already started, which resulted in no action from the XDmaChannel - * component. But, just after the XDmaChannel component saw that the - * hardware was already started, the hardware stopped because it - * reached the end of the list. In that case, this interrupt is - * generated and we can restart the hardware here. - */ - if (IntrStatus & XDC_IXR_SG_END_MASK) { - /* - * Ignore the return status since we know the list exists and we - * don't care if the list is empty or the channel is already started. - */ - (void) XDmaChannel_SgStart(&InstancePtr->RecvChannel); - } - } - - /* - * All interrupts are handled (except the error below) so acknowledge - * (clear) the interrupts by writing the value read above back to the status - * register. The packet count interrupt must be acknowledged after the - * decrement, otherwise it will come right back. We clear the interrupts - * before we handle the error interrupt because the ErrorHandler should - * result in a reset, which clears the interrupt status register. So we - * don't want to toggle the interrupt back on by writing the interrupt - * status register with an old value after a reset. - */ - XDmaChannel_SetIntrStatus(&InstancePtr->RecvChannel, IntrStatus); - - /* - * Check for DMA errors and call the error callback function if an error - * occurred (DMA bus or timeout error), which should result in a reset of - * the device by the upper layer software. - */ - if (IntrStatus & XDC_IXR_DMA_ERROR_MASK) { - InstancePtr->Stats.DmaErrors++; - InstancePtr->ErrorHandler(InstancePtr->ErrorRef, XST_DMA_ERROR); - } -} - -/*****************************************************************************/ -/* -* -* Handle an interrupt from the DMA send channel. DMA interrupts are: -* -* - DMA error. DMA encountered a bus error or timeout. This is a fatal error -* that requires reset of the channel. The driver calls the error handler -* of the upper layer software with an error code indicating the device should -* be reset. -* - Packet count threshold reached. For scatter-gather operations, indicates -* the threshold for the number of packets not serviced by software has been -* reached. The driver behaves as follows: -* - Get the value of the packet counter, which tells us how many packets -* are ready to be serviced -* - For each packet -* - For each descriptor, remove it from the scatter-gather list -* - Check for the last descriptor in the frame, and if set -* - Bump frame statistics -* - Call the scatter-gather receive callback function -* - Decrement the packet counter by one -* Note that there are no receive errors reported in the status word of -* the buffer descriptor. If receive errors occur, the MAC drops the -* packet, and we only find out about the errors through various error -* count registers. -* - Packet wait bound reached. For scatter-gather, indicates the time to wait -* for the next packet has expired. The driver follows the same logic as when -* the packet count threshold interrupt is received. -* - Scatter-gather end acknowledge. Hardware has reached the end of the -* descriptor list. The driver follows the same logic as when the packet count -* threshold interrupt is received. In addition, the driver restarts the DMA -* scatter-gather channel in case there are newly inserted descriptors. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* Although the function returns void, there are asynchronous errors -* that can be generated from this function. These are: -* - XST_DMA_SG_LIST_EMPTY indicates we tried to get a buffer descriptor from -* the DMA channel, but there was not one ready for software. -* - XST_DMA_ERROR indicates a DMA bus error or timeout occurred. This is a -* fatal error that requires reset. -* -* @note -* -* None. -* -******************************************************************************/ -static void -HandleDmaSendIntr(XEmac * InstancePtr) -{ - u32 IntrStatus; - - /* - * Read the interrupt status - */ - IntrStatus = XDmaChannel_GetIntrStatus(&InstancePtr->SendChannel); - - /* - * For packet threshold or wait bound interrupt, process descriptors. Also - * process descriptors on a SG end acknowledgement, which means the end of - * the descriptor list has been reached by the hardware. For transmit, - * this is a normal condition during times of light traffic. In fact, the - * wait bound interrupt may be masked for transmit since the end-ack would - * always occur before the wait bound expires. - */ - if (IntrStatus & (XDC_IXR_PKT_THRESHOLD_MASK | - XDC_IXR_PKT_WAIT_BOUND_MASK | XDC_IXR_SG_END_MASK)) { - XStatus Result = XST_SUCCESS; - u32 NumFrames; - u32 NumProcessed; - u32 NumBuffers; - u32 NumBytes; - u32 IsLast; - XBufDescriptor *FirstBdPtr; - XBufDescriptor *BdPtr; - - /* - * Get the number of unserviced packets - */ - NumFrames = XDmaChannel_GetPktCount(&InstancePtr->SendChannel); - - for (NumProcessed = 0; NumProcessed < NumFrames; NumProcessed++) { - IsLast = FALSE; - FirstBdPtr = NULL; - NumBuffers = 0; - NumBytes = 0; - - /* - * For each frame, traverse the descriptor list and look for - * errors. On the last one in the frame, make the callback. - */ - while (!IsLast) { - Result = - XDmaChannel_GetDescriptor(&InstancePtr-> - SendChannel, - &BdPtr); - if (Result != XST_SUCCESS) { - /* - * An error getting a buffer descriptor from the list. - * This should not happen, but if it does, report it to - * the error callback and break out of the loops to service - * other interrupts - */ - InstancePtr->ErrorHandler(InstancePtr-> - ErrorRef, - Result); - break; - } - - /* - * Keep a pointer to the first descriptor in the list and - * check the device status for errors. The device status is - * only available in the first descriptor of a packet. - */ - if (FirstBdPtr == NULL) { - u32 XmitStatus; - - FirstBdPtr = BdPtr; - - XmitStatus = - XBufDescriptor_GetDeviceStatus - (BdPtr); - if (XmitStatus & - XEM_TSR_EXCESS_DEFERRAL_MASK) { - InstancePtr->Stats. - XmitExcessDeferral++; - } - - if (XmitStatus & - XEM_TSR_LATE_COLLISION_MASK) { - InstancePtr->Stats. - XmitLateCollisionErrors++; - } - } - - NumBytes += XBufDescriptor_GetLength(BdPtr); - - /* - * Check to see if this is the last descriptor in the frame, - * and if so, set the IsLast flag to get out of the loop. The - * transmit channel must check the last bit in the control - * word, not the status word (the DMA engine does not update - * the last bit in the status word for the transmit direction). - */ - if (XBufDescriptor_IsLastControl(BdPtr)) { - IsLast = TRUE; - } - - /* - * Bump the number of buffers in this packet - */ - NumBuffers++; - - } /* end while loop */ - - /* - * Check for error that occurred inside the while loop, and break - * out of the for loop if there was one so other interrupts can - * be serviced. - */ - if (Result != XST_SUCCESS) { - break; - } - - InstancePtr->Stats.XmitFrames++; - InstancePtr->Stats.XmitBytes += NumBytes; - - /* - * Make the callback to the upper layers, passing it the first - * descriptor in the packet and the number of descriptors in the - * packet. - */ - InstancePtr->SgSendHandler(InstancePtr->SgSendRef, - FirstBdPtr, NumBuffers); - - /* - * Decrement the packet count register to reflect the fact we - * just processed a packet - */ - XDmaChannel_DecrementPktCount(&InstancePtr-> - SendChannel); - - } /* end for loop */ - - /* - * If the interrupt was an end-ack, check the descriptor list again to - * see if it is empty. If not, go ahead and restart the scatter-gather - * channel. This is to fix a possible race condition where, on transmit, - * the driver attempted to start a scatter-gather channel that was - * already started, which resulted in no action from the XDmaChannel - * component. But, just after the XDmaChannel component saw that the - * hardware was already started, the hardware stopped because it - * reached the end of the list. In that case, this interrupt is - * generated and we can restart the hardware here. - */ - if (IntrStatus & XDC_IXR_SG_END_MASK) { - /* - * Ignore the return status since we know the list exists and we - * don't care if the list is empty or the channel is already started. - */ - (void) XDmaChannel_SgStart(&InstancePtr->SendChannel); - } - } - - /* - * All interrupts are handled (except the error below) so acknowledge - * (clear) the interrupts by writing the value read above back to the status - * register. The packet count interrupt must be acknowledged after the - * decrement, otherwise it will come right back. We clear the interrupts - * before we handle the error interrupt because the ErrorHandler should - * result in a reset, which clears the interrupt status register. So we - * don't want to toggle the interrupt back on by writing the interrupt - * status register with an old value after a reset. - */ - XDmaChannel_SetIntrStatus(&InstancePtr->SendChannel, IntrStatus); - - /* - * Check for DMA errors and call the error callback function if an error - * occurred (DMA bus or timeout error), which should result in a reset of - * the device by the upper layer software. - */ - if (IntrStatus & XDC_IXR_DMA_ERROR_MASK) { - InstancePtr->Stats.DmaErrors++; - InstancePtr->ErrorHandler(InstancePtr->ErrorRef, XST_DMA_ERROR); - } -} - -/*****************************************************************************/ -/* -* -* Handle an interrupt from the Ethernet MAC when configured with scatter-gather -* DMA. The only interrupts handled in this case are errors. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* None. -* -* @note -* -* None. -* -******************************************************************************/ -static void -HandleEmacDmaIntr(XEmac * InstancePtr) -{ - u32 IntrStatus; - - /* - * When configured with DMA, the EMAC generates interrupts only when errors - * occur. We clear the interrupts immediately so that any latched status - * interrupt bits will reflect the true status of the device, and so any - * pulsed interrupts (non-status) generated during the Isr will not be lost. - */ - IntrStatus = XIIF_V123B_READ_IISR(InstancePtr->BaseAddress); - XIIF_V123B_WRITE_IISR(InstancePtr->BaseAddress, IntrStatus); - - /* - * Check the MAC for errors - */ - XEmac_CheckEmacError(InstancePtr, IntrStatus); -} diff --git a/board/xilinx/xilinx_enet/xemac_l.h b/board/xilinx/xilinx_enet/xemac_l.h deleted file mode 100644 index a463937dbd..0000000000 --- a/board/xilinx/xilinx_enet/xemac_l.h +++ /dev/null @@ -1,462 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac_l.h -* -* This header file contains identifiers and low-level driver functions (or -* macros) that can be used to access the device. High-level driver functions -* are defined in xemac.h. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver	Who  Date     Changes
-* ----- ---- -------- -----------------------------------------------
-* 1.00b rpm  04/26/02 First release
-* 1.00b rmm  09/23/02 Added XEmac_mPhyReset macro
-* 1.00c rpm  12/05/02 New version includes support for simple DMA
-* 
-* -******************************************************************************/ - -#ifndef XEMAC_L_H /* prevent circular inclusions */ -#define XEMAC_L_H /* by using protection macros */ - -/***************************** Include Files *********************************/ - -#include "xbasic_types.h" -#include "xio.h" - -/************************** Constant Definitions *****************************/ - -/* Offset of the MAC registers from the IPIF base address */ -#define XEM_REG_OFFSET 0x1100UL - -/* - * Register offsets for the Ethernet MAC. Each register is 32 bits. - */ -#define XEM_EMIR_OFFSET (XEM_REG_OFFSET + 0x0) /* EMAC Module ID */ -#define XEM_ECR_OFFSET (XEM_REG_OFFSET + 0x4) /* MAC Control */ -#define XEM_IFGP_OFFSET (XEM_REG_OFFSET + 0x8) /* Interframe Gap */ -#define XEM_SAH_OFFSET (XEM_REG_OFFSET + 0xC) /* Station addr, high */ -#define XEM_SAL_OFFSET (XEM_REG_OFFSET + 0x10) /* Station addr, low */ -#define XEM_MGTCR_OFFSET (XEM_REG_OFFSET + 0x14) /* MII mgmt control */ -#define XEM_MGTDR_OFFSET (XEM_REG_OFFSET + 0x18) /* MII mgmt data */ -#define XEM_RPLR_OFFSET (XEM_REG_OFFSET + 0x1C) /* Rx packet length */ -#define XEM_TPLR_OFFSET (XEM_REG_OFFSET + 0x20) /* Tx packet length */ -#define XEM_TSR_OFFSET (XEM_REG_OFFSET + 0x24) /* Tx status */ -#define XEM_RMFC_OFFSET (XEM_REG_OFFSET + 0x28) /* Rx missed frames */ -#define XEM_RCC_OFFSET (XEM_REG_OFFSET + 0x2C) /* Rx collisions */ -#define XEM_RFCSEC_OFFSET (XEM_REG_OFFSET + 0x30) /* Rx FCS errors */ -#define XEM_RAEC_OFFSET (XEM_REG_OFFSET + 0x34) /* Rx alignment errors */ -#define XEM_TEDC_OFFSET (XEM_REG_OFFSET + 0x38) /* Transmit excess - * deferral cnt */ - -/* - * Register offsets for the IPIF components - */ -#define XEM_ISR_OFFSET 0x20UL /* Interrupt status */ - -#define XEM_DMA_OFFSET 0x2300UL -#define XEM_DMA_SEND_OFFSET (XEM_DMA_OFFSET + 0x0) /* DMA send channel */ -#define XEM_DMA_RECV_OFFSET (XEM_DMA_OFFSET + 0x40) /* DMA recv channel */ - -#define XEM_PFIFO_OFFSET 0x2000UL -#define XEM_PFIFO_TXREG_OFFSET (XEM_PFIFO_OFFSET + 0x0) /* Tx registers */ -#define XEM_PFIFO_RXREG_OFFSET (XEM_PFIFO_OFFSET + 0x10) /* Rx registers */ -#define XEM_PFIFO_TXDATA_OFFSET (XEM_PFIFO_OFFSET + 0x100) /* Tx keyhole */ -#define XEM_PFIFO_RXDATA_OFFSET (XEM_PFIFO_OFFSET + 0x200) /* Rx keyhole */ - -/* - * EMAC Module Identification Register (EMIR) - */ -#define XEM_EMIR_VERSION_MASK 0xFFFF0000UL /* Device version */ -#define XEM_EMIR_TYPE_MASK 0x0000FF00UL /* Device type */ - -/* - * EMAC Control Register (ECR) - */ -#define XEM_ECR_FULL_DUPLEX_MASK 0x80000000UL /* Full duplex mode */ -#define XEM_ECR_XMIT_RESET_MASK 0x40000000UL /* Reset transmitter */ -#define XEM_ECR_XMIT_ENABLE_MASK 0x20000000UL /* Enable transmitter */ -#define XEM_ECR_RECV_RESET_MASK 0x10000000UL /* Reset receiver */ -#define XEM_ECR_RECV_ENABLE_MASK 0x08000000UL /* Enable receiver */ -#define XEM_ECR_PHY_ENABLE_MASK 0x04000000UL /* Enable PHY */ -#define XEM_ECR_XMIT_PAD_ENABLE_MASK 0x02000000UL /* Enable xmit pad insert */ -#define XEM_ECR_XMIT_FCS_ENABLE_MASK 0x01000000UL /* Enable xmit FCS insert */ -#define XEM_ECR_XMIT_ADDR_INSERT_MASK 0x00800000UL /* Enable xmit source addr - * insertion */ -#define XEM_ECR_XMIT_ERROR_INSERT_MASK 0x00400000UL /* Insert xmit error */ -#define XEM_ECR_XMIT_ADDR_OVWRT_MASK 0x00200000UL /* Enable xmit source addr - * overwrite */ -#define XEM_ECR_LOOPBACK_MASK 0x00100000UL /* Enable internal - * loopback */ -#define XEM_ECR_RECV_STRIP_ENABLE_MASK 0x00080000UL /* Enable recv pad/fcs strip */ -#define XEM_ECR_UNICAST_ENABLE_MASK 0x00020000UL /* Enable unicast addr */ -#define XEM_ECR_MULTI_ENABLE_MASK 0x00010000UL /* Enable multicast addr */ -#define XEM_ECR_BROAD_ENABLE_MASK 0x00008000UL /* Enable broadcast addr */ -#define XEM_ECR_PROMISC_ENABLE_MASK 0x00004000UL /* Enable promiscuous mode */ -#define XEM_ECR_RECV_ALL_MASK 0x00002000UL /* Receive all frames */ -#define XEM_ECR_RESERVED2_MASK 0x00001000UL /* Reserved */ -#define XEM_ECR_MULTI_HASH_ENABLE_MASK 0x00000800UL /* Enable multicast hash */ -#define XEM_ECR_PAUSE_FRAME_MASK 0x00000400UL /* Interpret pause frames */ -#define XEM_ECR_CLEAR_HASH_MASK 0x00000200UL /* Clear hash table */ -#define XEM_ECR_ADD_HASH_ADDR_MASK 0x00000100UL /* Add hash table address */ - -/* - * Interframe Gap Register (IFGR) - */ -#define XEM_IFGP_PART1_MASK 0xF8000000UL /* Interframe Gap Part1 */ -#define XEM_IFGP_PART1_SHIFT 27 -#define XEM_IFGP_PART2_MASK 0x07C00000UL /* Interframe Gap Part2 */ -#define XEM_IFGP_PART2_SHIFT 22 - -/* - * Station Address High Register (SAH) - */ -#define XEM_SAH_ADDR_MASK 0x0000FFFFUL /* Station address high bytes */ - -/* - * Station Address Low Register (SAL) - */ -#define XEM_SAL_ADDR_MASK 0xFFFFFFFFUL /* Station address low bytes */ - -/* - * MII Management Control Register (MGTCR) - */ -#define XEM_MGTCR_START_MASK 0x80000000UL /* Start/Busy */ -#define XEM_MGTCR_RW_NOT_MASK 0x40000000UL /* Read/Write Not (direction) */ -#define XEM_MGTCR_PHY_ADDR_MASK 0x3E000000UL /* PHY address */ -#define XEM_MGTCR_PHY_ADDR_SHIFT 25 /* PHY address shift */ -#define XEM_MGTCR_REG_ADDR_MASK 0x01F00000UL /* Register address */ -#define XEM_MGTCR_REG_ADDR_SHIFT 20 /* Register addr shift */ -#define XEM_MGTCR_MII_ENABLE_MASK 0x00080000UL /* Enable MII from EMAC */ -#define XEM_MGTCR_RD_ERROR_MASK 0x00040000UL /* MII mgmt read error */ - -/* - * MII Management Data Register (MGTDR) - */ -#define XEM_MGTDR_DATA_MASK 0x0000FFFFUL /* MII data */ - -/* - * Receive Packet Length Register (RPLR) - */ -#define XEM_RPLR_LENGTH_MASK 0x0000FFFFUL /* Receive packet length */ - -/* - * Transmit Packet Length Register (TPLR) - */ -#define XEM_TPLR_LENGTH_MASK 0x0000FFFFUL /* Transmit packet length */ - -/* - * Transmit Status Register (TSR) - */ -#define XEM_TSR_EXCESS_DEFERRAL_MASK 0x80000000UL /* Transmit excess deferral */ -#define XEM_TSR_FIFO_UNDERRUN_MASK 0x40000000UL /* Packet FIFO underrun */ -#define XEM_TSR_ATTEMPTS_MASK 0x3E000000UL /* Transmission attempts */ -#define XEM_TSR_LATE_COLLISION_MASK 0x01000000UL /* Transmit late collision */ - -/* - * Receive Missed Frame Count (RMFC) - */ -#define XEM_RMFC_DATA_MASK 0x0000FFFFUL - -/* - * Receive Collision Count (RCC) - */ -#define XEM_RCC_DATA_MASK 0x0000FFFFUL - -/* - * Receive FCS Error Count (RFCSEC) - */ -#define XEM_RFCSEC_DATA_MASK 0x0000FFFFUL - -/* - * Receive Alignment Error Count (RALN) - */ -#define XEM_RAEC_DATA_MASK 0x0000FFFFUL - -/* - * Transmit Excess Deferral Count (TEDC) - */ -#define XEM_TEDC_DATA_MASK 0x0000FFFFUL - -/* - * EMAC Interrupt Registers (Status and Enable) masks. These registers are - * part of the IPIF IP Interrupt registers - */ -#define XEM_EIR_XMIT_DONE_MASK 0x00000001UL /* Xmit complete */ -#define XEM_EIR_RECV_DONE_MASK 0x00000002UL /* Recv complete */ -#define XEM_EIR_XMIT_ERROR_MASK 0x00000004UL /* Xmit error */ -#define XEM_EIR_RECV_ERROR_MASK 0x00000008UL /* Recv error */ -#define XEM_EIR_XMIT_SFIFO_EMPTY_MASK 0x00000010UL /* Xmit status fifo empty */ -#define XEM_EIR_RECV_LFIFO_EMPTY_MASK 0x00000020UL /* Recv length fifo empty */ -#define XEM_EIR_XMIT_LFIFO_FULL_MASK 0x00000040UL /* Xmit length fifo full */ -#define XEM_EIR_RECV_LFIFO_OVER_MASK 0x00000080UL /* Recv length fifo - * overrun */ -#define XEM_EIR_RECV_LFIFO_UNDER_MASK 0x00000100UL /* Recv length fifo - * underrun */ -#define XEM_EIR_XMIT_SFIFO_OVER_MASK 0x00000200UL /* Xmit status fifo - * overrun */ -#define XEM_EIR_XMIT_SFIFO_UNDER_MASK 0x00000400UL /* Transmit status fifo - * underrun */ -#define XEM_EIR_XMIT_LFIFO_OVER_MASK 0x00000800UL /* Transmit length fifo - * overrun */ -#define XEM_EIR_XMIT_LFIFO_UNDER_MASK 0x00001000UL /* Transmit length fifo - * underrun */ -#define XEM_EIR_XMIT_PAUSE_MASK 0x00002000UL /* Transmit pause pkt - * received */ -#define XEM_EIR_RECV_DFIFO_OVER_MASK 0x00004000UL /* Receive data fifo - * overrun */ -#define XEM_EIR_RECV_MISSED_FRAME_MASK 0x00008000UL /* Receive missed frame - * error */ -#define XEM_EIR_RECV_COLLISION_MASK 0x00010000UL /* Receive collision - * error */ -#define XEM_EIR_RECV_FCS_ERROR_MASK 0x00020000UL /* Receive FCS error */ -#define XEM_EIR_RECV_LEN_ERROR_MASK 0x00040000UL /* Receive length field - * error */ -#define XEM_EIR_RECV_SHORT_ERROR_MASK 0x00080000UL /* Receive short frame - * error */ -#define XEM_EIR_RECV_LONG_ERROR_MASK 0x00100000UL /* Receive long frame - * error */ -#define XEM_EIR_RECV_ALIGN_ERROR_MASK 0x00200000UL /* Receive alignment - * error */ - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/***************************************************************************** -* -* Low-level driver macros and functions. The list below provides signatures -* to help the user use the macros. -* -* u32 XEmac_mReadReg(u32 BaseAddress, int RegOffset) -* void XEmac_mWriteReg(u32 BaseAddress, int RegOffset, u32 Mask) -* -* void XEmac_mSetControlReg(u32 BaseAddress, u32 Mask) -* void XEmac_mSetMacAddress(u32 BaseAddress, u8 *AddressPtr) -* -* void XEmac_mEnable(u32 BaseAddress) -* void XEmac_mDisable(u32 BaseAddress) -* -* u32 XEmac_mIsTxDone(u32 BaseAddress) -* u32 XEmac_mIsRxEmpty(u32 BaseAddress) -* -* void XEmac_SendFrame(u32 BaseAddress, u8 *FramePtr, int Size) -* int XEmac_RecvFrame(u32 BaseAddress, u8 *FramePtr) -* -*****************************************************************************/ - -/****************************************************************************/ -/** -* -* Read the given register. -* -* @param BaseAddress is the base address of the device -* @param RegOffset is the register offset to be read -* -* @return The 32-bit value of the register -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mReadReg(BaseAddress, RegOffset) \ - XIo_In32((BaseAddress) + (RegOffset)) - -/****************************************************************************/ -/** -* -* Write the given register. -* -* @param BaseAddress is the base address of the device -* @param RegOffset is the register offset to be written -* @param Data is the 32-bit value to write to the register -* -* @return None. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mWriteReg(BaseAddress, RegOffset, Data) \ - XIo_Out32((BaseAddress) + (RegOffset), (Data)) - -/****************************************************************************/ -/** -* -* Set the contents of the control register. Use the XEM_ECR_* constants -* defined above to create the bit-mask to be written to the register. -* -* @param BaseAddress is the base address of the device -* @param Mask is the 16-bit value to write to the control register -* -* @return None. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mSetControlReg(BaseAddress, Mask) \ - XIo_Out32((BaseAddress) + XEM_ECR_OFFSET, (Mask)) - -/****************************************************************************/ -/** -* -* Set the station address of the EMAC device. -* -* @param BaseAddress is the base address of the device -* @param AddressPtr is a pointer to a 6-byte MAC address -* -* @return None. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mSetMacAddress(BaseAddress, AddressPtr) \ -{ \ - u32 MacAddr; \ - \ - MacAddr = ((AddressPtr)[0] << 8) | (AddressPtr)[1]; \ - XIo_Out32((BaseAddress) + XEM_SAH_OFFSET, MacAddr); \ - \ - MacAddr = ((AddressPtr)[2] << 24) | ((AddressPtr)[3] << 16) | \ - ((AddressPtr)[4] << 8) | (AddressPtr)[5]; \ - \ - XIo_Out32((BaseAddress) + XEM_SAL_OFFSET, MacAddr); \ -} - -/****************************************************************************/ -/** -* -* Enable the transmitter and receiver. Preserve the contents of the control -* register. -* -* @param BaseAddress is the base address of the device -* -* @return None. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mEnable(BaseAddress) \ -{ \ - u32 Control; \ - Control = XIo_In32((BaseAddress) + XEM_ECR_OFFSET); \ - Control &= ~(XEM_ECR_XMIT_RESET_MASK | XEM_ECR_RECV_RESET_MASK); \ - Control |= (XEM_ECR_XMIT_ENABLE_MASK | XEM_ECR_RECV_ENABLE_MASK); \ - XIo_Out32((BaseAddress) + XEM_ECR_OFFSET, Control); \ -} - -/****************************************************************************/ -/** -* -* Disable the transmitter and receiver. Preserve the contents of the control -* register. -* -* @param BaseAddress is the base address of the device -* -* @return None. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mDisable(BaseAddress) \ - XIo_Out32((BaseAddress) + XEM_ECR_OFFSET, \ - XIo_In32((BaseAddress) + XEM_ECR_OFFSET) & \ - ~(XEM_ECR_XMIT_ENABLE_MASK | XEM_ECR_RECV_ENABLE_MASK)) - -/****************************************************************************/ -/** -* -* Check to see if the transmission is complete. -* -* @param BaseAddress is the base address of the device -* -* @return TRUE if it is done, or FALSE if it is not. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mIsTxDone(BaseAddress) \ - (XIo_In32((BaseAddress) + XEM_ISR_OFFSET) & XEM_EIR_XMIT_DONE_MASK) - -/****************************************************************************/ -/** -* -* Check to see if the receive FIFO is empty. -* -* @param BaseAddress is the base address of the device -* -* @return TRUE if it is empty, or FALSE if it is not. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mIsRxEmpty(BaseAddress) \ - (!(XIo_In32((BaseAddress) + XEM_ISR_OFFSET) & XEM_EIR_RECV_DONE_MASK)) - -/****************************************************************************/ -/** -* -* Reset MII compliant PHY -* -* @param BaseAddress is the base address of the device -* -* @return None. -* -* @note None. -* -*****************************************************************************/ -#define XEmac_mPhyReset(BaseAddress) \ -{ \ - u32 Control; \ - Control = XIo_In32((BaseAddress) + XEM_ECR_OFFSET); \ - Control &= ~XEM_ECR_PHY_ENABLE_MASK; \ - XIo_Out32((BaseAddress) + XEM_ECR_OFFSET, Control); \ - Control |= XEM_ECR_PHY_ENABLE_MASK; \ - XIo_Out32((BaseAddress) + XEM_ECR_OFFSET, Control); \ -} - -/************************** Function Prototypes ******************************/ - -void XEmac_SendFrame(u32 BaseAddress, u8 * FramePtr, int Size); -int XEmac_RecvFrame(u32 BaseAddress, u8 * FramePtr); - -#endif /* end of protection macro */ diff --git a/board/xilinx/xilinx_enet/xemac_options.c b/board/xilinx/xilinx_enet/xemac_options.c deleted file mode 100644 index 1f225f8f52..0000000000 --- a/board/xilinx/xilinx_enet/xemac_options.c +++ /dev/null @@ -1,318 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac_options.c -* -* Functions in this file handle configuration of the XEmac driver. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver   Who  Date     Changes
-* ----- ---- -------- -----------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00c rpm  12/05/02 New version includes support for simple DMA
-* 
-* -******************************************************************************/ - -/***************************** Include Files *********************************/ - -#include "xbasic_types.h" -#include "xemac_i.h" -#include "xio.h" - -/************************** Constant Definitions *****************************/ - -#define XEM_MAX_IFG 32 /* Maximum Interframe gap value */ - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/************************** Function Prototypes ******************************/ - -/************************** Variable Definitions *****************************/ - -/* - * A table of options and masks. This table maps the user-visible options with - * the control register masks. It is used in Set/GetOptions as an alternative - * to a series of if/else pairs. Note that the polled options does not have a - * corresponding entry in the control register, so it does not exist in the - * table. - */ -typedef struct { - u32 Option; - u32 Mask; -} OptionMap; - -static OptionMap OptionsTable[] = { - {XEM_UNICAST_OPTION, XEM_ECR_UNICAST_ENABLE_MASK}, - {XEM_BROADCAST_OPTION, XEM_ECR_BROAD_ENABLE_MASK}, - {XEM_PROMISC_OPTION, XEM_ECR_PROMISC_ENABLE_MASK}, - {XEM_FDUPLEX_OPTION, XEM_ECR_FULL_DUPLEX_MASK}, - {XEM_LOOPBACK_OPTION, XEM_ECR_LOOPBACK_MASK}, - {XEM_MULTICAST_OPTION, XEM_ECR_MULTI_ENABLE_MASK}, - {XEM_FLOW_CONTROL_OPTION, XEM_ECR_PAUSE_FRAME_MASK}, - {XEM_INSERT_PAD_OPTION, XEM_ECR_XMIT_PAD_ENABLE_MASK}, - {XEM_INSERT_FCS_OPTION, XEM_ECR_XMIT_FCS_ENABLE_MASK}, - {XEM_INSERT_ADDR_OPTION, XEM_ECR_XMIT_ADDR_INSERT_MASK}, - {XEM_OVWRT_ADDR_OPTION, XEM_ECR_XMIT_ADDR_OVWRT_MASK}, - {XEM_STRIP_PAD_FCS_OPTION, XEM_ECR_RECV_STRIP_ENABLE_MASK} -}; - -#define XEM_NUM_OPTIONS (sizeof(OptionsTable) / sizeof(OptionMap)) - -/*****************************************************************************/ -/** -* -* Set Ethernet driver/device options. The device must be stopped before -* calling this function. The options are contained within a bit-mask with each -* bit representing an option (i.e., you can OR the options together). A one (1) -* in the bit-mask turns an option on, and a zero (0) turns the option off. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param OptionsFlag is a bit-mask representing the Ethernet options to turn on -* or off. See xemac.h for a description of the available options. -* -* @return -* -* - XST_SUCCESS if the options were set successfully -* - XST_DEVICE_IS_STARTED if the device has not yet been stopped -* -* @note -* -* This function is not thread-safe and makes use of internal resources that are -* shared between the Start, Stop, and SetOptions functions, so if one task -* might be setting device options while another is trying to start the device, -* protection of this shared data (typically using a semaphore) is required. -* -******************************************************************************/ -XStatus -XEmac_SetOptions(XEmac * InstancePtr, u32 OptionsFlag) -{ - u32 ControlReg; - int Index; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - ControlReg = XIo_In32(InstancePtr->BaseAddress + XEM_ECR_OFFSET); - - /* - * Loop through the options table, turning the option on or off - * depending on whether the bit is set in the incoming options flag. - */ - for (Index = 0; Index < XEM_NUM_OPTIONS; Index++) { - if (OptionsFlag & OptionsTable[Index].Option) { - ControlReg |= OptionsTable[Index].Mask; /* turn it on */ - } else { - ControlReg &= ~OptionsTable[Index].Mask; /* turn it off */ - } - } - - /* - * TODO: need to validate addr-overwrite only if addr-insert? - */ - - /* - * Now write the control register. Leave it to the upper layers - * to restart the device. - */ - XIo_Out32(InstancePtr->BaseAddress + XEM_ECR_OFFSET, ControlReg); - - /* - * Check the polled option - */ - if (OptionsFlag & XEM_POLLED_OPTION) { - InstancePtr->IsPolled = TRUE; - } else { - InstancePtr->IsPolled = FALSE; - } - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Get Ethernet driver/device options. The 32-bit value returned is a bit-mask -* representing the options. A one (1) in the bit-mask means the option is on, -* and a zero (0) means the option is off. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* -* @return -* -* The 32-bit value of the Ethernet options. The value is a bit-mask -* representing all options that are currently enabled. See xemac.h for a -* description of the available options. -* -* @note -* -* None. -* -******************************************************************************/ -u32 -XEmac_GetOptions(XEmac * InstancePtr) -{ - u32 OptionsFlag = 0; - u32 ControlReg; - int Index; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Get the control register to determine which options are currently set. - */ - ControlReg = XIo_In32(InstancePtr->BaseAddress + XEM_ECR_OFFSET); - - /* - * Loop through the options table to determine which options are set - */ - for (Index = 0; Index < XEM_NUM_OPTIONS; Index++) { - if (ControlReg & OptionsTable[Index].Mask) { - OptionsFlag |= OptionsTable[Index].Option; - } - } - - if (InstancePtr->IsPolled) { - OptionsFlag |= XEM_POLLED_OPTION; - } - - return OptionsFlag; -} - -/*****************************************************************************/ -/** -* -* Set the Interframe Gap (IFG), which is the time the MAC delays between -* transmitting frames. There are two parts required. The total interframe gap -* is the total of the two parts. The values provided for the Part1 and Part2 -* parameters are multiplied by 4 to obtain the bit-time interval. The first -* part should be the first 2/3 of the total interframe gap. The MAC will reset -* the interframe gap timer if carrier sense becomes true during the period -* defined by interframe gap Part1. Part1 may be shorter than 2/3 the total and -* can be as small as zero. The second part should be the last 1/3 of the total -* interframe gap, but can be as large as the total interframe gap. The MAC -* will not reset the interframe gap timer if carrier sense becomes true during -* the period defined by interframe gap Part2. -* -* The device must be stopped before setting the interframe gap. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param Part1 is the interframe gap part 1 (which will be multiplied by 4 to -* get the bit-time interval). -* @param Part2 is the interframe gap part 2 (which will be multiplied by 4 to -* get the bit-time interval). -* -* @return -* -* - XST_SUCCESS if the interframe gap was set successfully -* - XST_DEVICE_IS_STARTED if the device has not been stopped -* -* @note -* -* None. -* -******************************************************************************/ -XStatus -XEmac_SetInterframeGap(XEmac * InstancePtr, u8 Part1, u8 Part2) -{ - u32 Ifg; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(Part1 < XEM_MAX_IFG); - XASSERT_NONVOID(Part2 < XEM_MAX_IFG); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure device has been stopped - */ - if (InstancePtr->IsStarted == XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STARTED; - } - - Ifg = Part1 << XEM_IFGP_PART1_SHIFT; - Ifg |= (Part2 << XEM_IFGP_PART2_SHIFT); - XIo_Out32(InstancePtr->BaseAddress + XEM_IFGP_OFFSET, Ifg); - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Get the interframe gap, parts 1 and 2. See the description of interframe gap -* above in XEmac_SetInterframeGap(). -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param Part1Ptr is a pointer to an 8-bit buffer into which the interframe gap -* part 1 value will be copied. -* @param Part2Ptr is a pointer to an 8-bit buffer into which the interframe gap -* part 2 value will be copied. -* -* @return -* -* None. The values of the interframe gap parts are copied into the -* output parameters. -* -******************************************************************************/ -void -XEmac_GetInterframeGap(XEmac * InstancePtr, u8 * Part1Ptr, u8 * Part2Ptr) -{ - u32 Ifg; - - XASSERT_VOID(InstancePtr != NULL); - XASSERT_VOID(Part1Ptr != NULL); - XASSERT_VOID(Part2Ptr != NULL); - XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - Ifg = XIo_In32(InstancePtr->BaseAddress + XEM_IFGP_OFFSET); - *Part1Ptr = (Ifg & XEM_IFGP_PART1_MASK) >> XEM_IFGP_PART1_SHIFT; - *Part2Ptr = (Ifg & XEM_IFGP_PART2_MASK) >> XEM_IFGP_PART2_SHIFT; -} diff --git a/board/xilinx/xilinx_enet/xemac_polled.c b/board/xilinx/xilinx_enet/xemac_polled.c deleted file mode 100644 index 23768bca79..0000000000 --- a/board/xilinx/xilinx_enet/xemac_polled.c +++ /dev/null @@ -1,482 +0,0 @@ -/****************************************************************************** -* -* Author: Xilinx, 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 2 of the License, or (at your -* option) any later version. -* -* -* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A -* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS -* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, -* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE -* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING -* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. -* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO -* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY -* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM -* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND -* FITNESS FOR A PARTICULAR PURPOSE. -* -* -* Xilinx hardware products are not intended for use in life support -* appliances, devices, or systems. Use in such applications is -* expressly prohibited. -* -* -* (c) Copyright 2002-2004 Xilinx Inc. -* All rights reserved. -* -* -* You should have received a copy of the GNU General Public License along -* with this program; if not, write to the Free Software Foundation, Inc., -* 675 Mass Ave, Cambridge, MA 02139, USA. -* -******************************************************************************/ -/*****************************************************************************/ -/** -* -* @file xemac_polled.c -* -* Contains functions used when the driver is in polled mode. Use the -* XEmac_SetOptions() function to put the driver into polled mode. -* -*
-* MODIFICATION HISTORY:
-*
-* Ver   Who  Date     Changes
-* ----- ---- -------- -----------------------------------------------
-* 1.00a rpm  07/31/01 First release
-* 1.00b rpm  02/20/02 Repartitioned files and functions
-* 1.00c rpm  12/05/02 New version includes support for simple DMA
-* 
-* -******************************************************************************/ - -/***************************** Include Files *********************************/ - -#include "xbasic_types.h" -#include "xemac_i.h" -#include "xio.h" -#include "xipif_v1_23_b.h" /* Uses v1.23b of the IPIF */ - -/************************** Constant Definitions *****************************/ - -/**************************** Type Definitions *******************************/ - -/***************** Macros (Inline Functions) Definitions *********************/ - -/************************** Variable Definitions *****************************/ - -/************************** Function Prototypes ******************************/ - -/*****************************************************************************/ -/** -* -* Send an Ethernet frame in polled mode. The device/driver must be in polled -* mode before calling this function. The driver writes the frame directly to -* the MAC's packet FIFO, then enters a loop checking the device status for -* completion or error. Statistics are updated if an error occurs. The buffer -* to be sent must be word-aligned. -* -* It is assumed that the upper layer software supplies a correctly formatted -* Ethernet frame, including the destination and source addresses, the -* type/length field, and the data field. It is also assumed that upper layer -* software does not append FCS at the end of the frame. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param BufPtr is a pointer to a word-aligned buffer containing the Ethernet -* frame to be sent. -* @param ByteCount is the size of the Ethernet frame. -* -* @return -* -* - XST_SUCCESS if the frame was sent successfully -* - XST_DEVICE_IS_STOPPED if the device has not yet been started -* - XST_NOT_POLLED if the device is not in polled mode -* - XST_FIFO_NO_ROOM if there is no room in the EMAC's length FIFO for this frame -* - XST_FIFO_ERROR if the FIFO was overrun or underrun. This error is critical -* and requires the caller to reset the device. -* - XST_EMAC_COLLISION if the send failed due to excess deferral or late -* collision -* -* @note -* -* There is the possibility that this function will not return if the hardware -* is broken (i.e., it never sets the status bit indicating that transmission is -* done). If this is of concern to the user, the user should provide protection -* from this problem - perhaps by using a different timer thread to monitor the -* PollSend thread. On a 10Mbps MAC, it takes about 1.21 msecs to transmit a -* maximum size Ethernet frame (1518 bytes). On a 100Mbps MAC, it takes about -* 121 usecs to transmit a maximum size Ethernet frame. -* -* @internal -* -* The EMAC uses FIFOs behind its length and status registers. For this reason, -* it is important to keep the length, status, and data FIFOs in sync when -* reading or writing to them. -* -******************************************************************************/ -XStatus -XEmac_PollSend(XEmac * InstancePtr, u8 * BufPtr, u32 ByteCount) -{ - u32 IntrStatus; - u32 XmitStatus; - XStatus Result; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(BufPtr != NULL); - XASSERT_NONVOID(ByteCount > XEM_HDR_SIZE); /* send at least 1 byte */ - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure the device is configured for polled mode and it is started - */ - if (!InstancePtr->IsPolled) { - return XST_NOT_POLLED; - } - - if (InstancePtr->IsStarted != XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STOPPED; - } - - /* - * Check for overruns and underruns for the transmit status and length - * FIFOs and make sure the send packet FIFO is not deadlocked. Any of these - * conditions is bad enough that we do not want to continue. The upper layer - * software should reset the device to resolve the error. - */ - IntrStatus = XIIF_V123B_READ_IISR(InstancePtr->BaseAddress); - - /* - * Overrun errors - */ - if (IntrStatus & (XEM_EIR_XMIT_SFIFO_OVER_MASK | - XEM_EIR_XMIT_LFIFO_OVER_MASK)) { - InstancePtr->Stats.XmitOverrunErrors++; - InstancePtr->Stats.FifoErrors++; - return XST_FIFO_ERROR; - } - - /* - * Underrun errors - */ - if (IntrStatus & (XEM_EIR_XMIT_SFIFO_UNDER_MASK | - XEM_EIR_XMIT_LFIFO_UNDER_MASK)) { - InstancePtr->Stats.XmitUnderrunErrors++; - InstancePtr->Stats.FifoErrors++; - return XST_FIFO_ERROR; - } - - if (XPF_V100B_IS_DEADLOCKED(&InstancePtr->SendFifo)) { - InstancePtr->Stats.FifoErrors++; - return XST_FIFO_ERROR; - } - - /* - * Before writing to the data FIFO, make sure the length FIFO is not - * full. The data FIFO might not be full yet even though the length FIFO - * is. This avoids an overrun condition on the length FIFO and keeps the - * FIFOs in sync. - */ - if (IntrStatus & XEM_EIR_XMIT_LFIFO_FULL_MASK) { - /* - * Clear the latched LFIFO_FULL bit so next time around the most - * current status is represented - */ - XIIF_V123B_WRITE_IISR(InstancePtr->BaseAddress, - XEM_EIR_XMIT_LFIFO_FULL_MASK); - return XST_FIFO_NO_ROOM; - } - - /* - * This is a non-blocking write. The packet FIFO returns an error if there - * is not enough room in the FIFO for this frame. - */ - Result = - XPacketFifoV100b_Write(&InstancePtr->SendFifo, BufPtr, ByteCount); - if (Result != XST_SUCCESS) { - return Result; - } - - /* - * Loop on the MAC's status to wait for any pause to complete. - */ - IntrStatus = XIIF_V123B_READ_IISR(InstancePtr->BaseAddress); - - while ((IntrStatus & XEM_EIR_XMIT_PAUSE_MASK) != 0) { - IntrStatus = XIIF_V123B_READ_IISR(InstancePtr->BaseAddress); - /* - * Clear the pause status from the transmit status register - */ - XIIF_V123B_WRITE_IISR(InstancePtr->BaseAddress, - IntrStatus & XEM_EIR_XMIT_PAUSE_MASK); - } - - /* - * Set the MAC's transmit packet length register to tell it to transmit - */ - XIo_Out32(InstancePtr->BaseAddress + XEM_TPLR_OFFSET, ByteCount); - - /* - * Loop on the MAC's status to wait for the transmit to complete. The - * transmit status is in the FIFO when the XMIT_DONE bit is set. - */ - do { - IntrStatus = XIIF_V123B_READ_IISR(InstancePtr->BaseAddress); - } - while ((IntrStatus & XEM_EIR_XMIT_DONE_MASK) == 0); - - XmitStatus = XIo_In32(InstancePtr->BaseAddress + XEM_TSR_OFFSET); - - InstancePtr->Stats.XmitFrames++; - InstancePtr->Stats.XmitBytes += ByteCount; - - /* - * Check for various errors, bump statistics, and return an error status. - */ - - /* - * Overrun errors - */ - if (IntrStatus & (XEM_EIR_XMIT_SFIFO_OVER_MASK | - XEM_EIR_XMIT_LFIFO_OVER_MASK)) { - InstancePtr->Stats.XmitOverrunErrors++; - InstancePtr->Stats.FifoErrors++; - return XST_FIFO_ERROR; - } - - /* - * Underrun errors - */ - if (IntrStatus & (XEM_EIR_XMIT_SFIFO_UNDER_MASK | - XEM_EIR_XMIT_LFIFO_UNDER_MASK)) { - InstancePtr->Stats.XmitUnderrunErrors++; - InstancePtr->Stats.FifoErrors++; - return XST_FIFO_ERROR; - } - - /* - * Clear the interrupt status register of transmit statuses - */ - XIIF_V123B_WRITE_IISR(InstancePtr->BaseAddress, - IntrStatus & XEM_EIR_XMIT_ALL_MASK); - - /* - * Collision errors are stored in the transmit status register - * instead of the interrupt status register - */ - if (XmitStatus & XEM_TSR_EXCESS_DEFERRAL_MASK) { - InstancePtr->Stats.XmitExcessDeferral++; - return XST_EMAC_COLLISION_ERROR; - } - - if (XmitStatus & XEM_TSR_LATE_COLLISION_MASK) { - InstancePtr->Stats.XmitLateCollisionErrors++; - return XST_EMAC_COLLISION_ERROR; - } - - return XST_SUCCESS; -} - -/*****************************************************************************/ -/** -* -* Receive an Ethernet frame in polled mode. The device/driver must be in polled -* mode before calling this function. The driver receives the frame directly -* from the MAC's packet FIFO. This is a non-blocking receive, in that if there -* is no frame ready to be received at the device, the function returns with an -* error. The MAC's error status is not checked, so statistics are not updated -* for polled receive. The buffer into which the frame will be received must be -* word-aligned. -* -* @param InstancePtr is a pointer to the XEmac instance to be worked on. -* @param BufPtr is a pointer to a word-aligned buffer into which the received -* Ethernet frame will be copied. -* @param ByteCountPtr is both an input and an output parameter. It is a pointer -* to a 32-bit word that contains the size of the buffer on entry into the -* function and the size the received frame on return from the function. -* -* @return -* -* - XST_SUCCESS if the frame was sent successfully -* - XST_DEVICE_IS_STOPPED if the device has not yet been started -* - XST_NOT_POLLED if the device is not in polled mode -* - XST_NO_DATA if there is no frame to be received from the FIFO -* - XST_BUFFER_TOO_SMALL if the buffer to receive the frame is too small for -* the frame waiting in the FIFO. -* -* @note -* -* Input buffer must be big enough to hold the largest Ethernet frame. Buffer -* must also be 32-bit aligned. -* -* @internal -* -* The EMAC uses FIFOs behind its length and status registers. For this reason, -* it is important to keep the length, status, and data FIFOs in sync when -* reading or writing to them. -* -******************************************************************************/ -XStatus -XEmac_PollRecv(XEmac * InstancePtr, u8 * BufPtr, u32 * ByteCountPtr) -{ - XStatus Result; - u32 PktLength; - u32 IntrStatus; - - XASSERT_NONVOID(InstancePtr != NULL); - XASSERT_NONVOID(BufPtr != NULL); - XASSERT_NONVOID(ByteCountPtr != NULL); - XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); - - /* - * Be sure the device is configured for polled mode and it is started - */ - if (!InstancePtr->IsPolled) { - return XST_NOT_POLLED; - } - - if (InstancePtr->IsStarted != XCOMPONENT_IS_STARTED) { - return XST_DEVICE_IS_STOPPED; - } - - /* - * Make sure the buffer is big enough to hold the maximum frame size. - * We need to do this because as soon as we read the MAC's packet length - * register, which is actually a FIFO, we remove that length from the - * FIFO. We do not want to read the length FIFO without also reading the - * data FIFO since this would get the FIFOs out of sync. So we have to - * make this restriction. - */ - if (*ByteCountPtr < XEM_MAX_FRAME_SIZE) { - return XST_BUFFER_TOO_SMALL; - } - - /* - * First check for packet FIFO deadlock and return an error if it has - * occurred. A reset by the caller is necessary to correct this problem. - */ - if (XPF_V100B_IS_DEADLOCKED(&InstancePtr->RecvFifo)) { - InstancePtr->Stats.FifoErrors++; - return XST_FIFO_ERROR; - } - - /* - * Get the interrupt status to know what happened (whether an error occurred - * and/or whether frames have been received successfully). When clearing the - * intr status register, clear only statuses that pertain to receive. - */ - IntrStatus = XIIF_V123B_READ_IISR(InstancePtr->BaseAddress); - XIIF_V123B_WRITE_IISR(InstancePtr->BaseAddress, - IntrStatus & XEM_EIR_RECV_ALL_MASK); - - /* - * Check receive errors and bump statistics so the caller will have a clue - * as to why data may not have been received. We continue on if an error - * occurred since there still may be frames that were received successfully. - */ - if (IntrStatus & (XEM_EIR_RECV_LFIFO_OVER_MASK | - XEM_EIR_RECV_DFIFO_OVER_MASK)) { - InstancePtr->Stats.RecvOverrunErrors++; - InstancePtr->Stats.FifoErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_LFIFO_UNDER_MASK) { - InstancePtr->Stats.RecvUnderrunErrors++; - InstancePtr->Stats.FifoErrors++; - } - - /* - * General receive errors - */ - if (IntrStatus & XEM_EIR_RECV_ERROR_MASK) { - if (IntrStatus & XEM_EIR_RECV_MISSED_FRAME_MASK) { - InstancePtr->Stats.RecvMissedFrameErrors = - XIo_In32(InstancePtr->BaseAddress + - XEM_RMFC_OFFSET); - } - - if (IntrStatus & XEM_EIR_RECV_COLLISION_MASK) { - InstancePtr->Stats.RecvCollisionErrors = - XIo_In32(InstancePtr->BaseAddress + XEM_RCC_OFFSET); - } - - if (IntrStatus & XEM_EIR_RECV_FCS_ERROR_MASK) { - InstancePtr->Stats.RecvFcsErrors = - XIo_In32(InstancePtr->BaseAddress + - XEM_RFCSEC_OFFSET); - } - - if (IntrStatus & XEM_EIR_RECV_LEN_ERROR_MASK) { - InstancePtr->Stats.RecvLengthFieldErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_SHORT_ERROR_MASK) { - InstancePtr->Stats.RecvShortErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_LONG_ERROR_MASK) { - InstancePtr->Stats.RecvLongErrors++; - } - - if (IntrStatus & XEM_EIR_RECV_ALIGN_ERROR_MASK) { - InstancePtr->Stats.RecvAlignmentErrors = - XIo_In32(InstancePtr->BaseAddress + - XEM_RAEC_OFFSET); - } - } - - /* - * Before reading from the length FIFO, make sure the length FIFO is not - * empty. We could cause an underrun error if we try to read from an - * empty FIFO. - */ - if ((IntrStatus & XEM_EIR_RECV_DONE_MASK) == 0) { - return XST_NO_DATA; - } - - /* - * Determine, from the MAC, the length of the next packet available - * in the data FIFO (there should be a non-zero length here) - */ - PktLength = XIo_In32(InstancePtr->BaseAddress + XEM_RPLR_OFFSET); - if (PktLength == 0) { - return XST_NO_DATA; - } - - /* - * Write the RECV_DONE bit in the status register to clear it. This bit - * indicates the RPLR is non-empty, and we know it's set at this point. - * We clear it so that subsequent entry into this routine will reflect the - * current status. This is done because the non-empty bit is latched in the - * IPIF, which means it may indicate a non-empty condition even though - * there is something in the FIFO. - */ - XIIF_V123B_WRITE_IISR(InstancePtr->BaseAddress, XEM_EIR_RECV_DONE_MASK); - - /* - * We assume that the MAC never has a length bigger than the largest - * Ethernet frame, so no need to make another check here. - */ - - /* - * This is a non-blocking read. The FIFO returns an error if there is - * not at least the requested amount of data in the FIFO. - */ - Result = - XPacketFifoV100b_Read(&InstancePtr->RecvFifo, BufPtr, PktLength); - if (Result != XST_SUCCESS) { - return Result; - } - - InstancePtr->Stats.RecvFrames++; - InstancePtr->Stats.RecvBytes += PktLength; - - *ByteCountPtr = PktLength; - - return XST_SUCCESS; -} -- 2.39.5