diff options
author | wdenk <wdenk> | 2004-02-23 23:54:43 +0000 |
---|---|---|
committer | wdenk <wdenk> | 2004-02-23 23:54:43 +0000 |
commit | 028ab6b598b628326116acd88e0f35aa9f526d12 (patch) | |
tree | 0d54315bd92d713a405004b6e36fca8d2b7c53e3 /board/xilinx/common | |
parent | 63e73c9a8ed5b32d9c4067ffaad953e9a8fe8f0a (diff) | |
download | u-boot-028ab6b598b628326116acd88e0f35aa9f526d12.tar.gz u-boot-028ab6b598b628326116acd88e0f35aa9f526d12.tar.xz u-boot-028ab6b598b628326116acd88e0f35aa9f526d12.zip |
* Patch by Peter Ryser, 20 Feb 2004:
Add support for the Xilinx ML300 platform
* Patch by Stephan Linz, 17 Feb 2004:
Fix watchdog support for NIOS
* Patch by Josh Fryman, 16 Feb 2004:
Fix byte-swapping for cfi_flash.c for different bus widths
* Patch by Jon Diekema, 14 Jeb 2004:
Remove duplicate "FPGA Support" notes from the README file
Diffstat (limited to 'board/xilinx/common')
-rw-r--r-- | board/xilinx/common/xbasic_types.c | 165 | ||||
-rw-r--r-- | board/xilinx/common/xbasic_types.h | 283 | ||||
-rw-r--r-- | board/xilinx/common/xbuf_descriptor.h | 252 | ||||
-rw-r--r-- | board/xilinx/common/xdma_channel.c | 738 | ||||
-rw-r--r-- | board/xilinx/common/xdma_channel.h | 291 | ||||
-rw-r--r-- | board/xilinx/common/xdma_channel_i.h | 110 | ||||
-rw-r--r-- | board/xilinx/common/xdma_channel_sg.c | 1317 | ||||
-rw-r--r-- | board/xilinx/common/xio.h | 81 | ||||
-rw-r--r-- | board/xilinx/common/xipif_v1_23_b.h | 763 | ||||
-rw-r--r-- | board/xilinx/common/xpacket_fifo_v1_00_b.c | 448 | ||||
-rw-r--r-- | board/xilinx/common/xpacket_fifo_v1_00_b.h | 306 | ||||
-rw-r--r-- | board/xilinx/common/xstatus.h | 347 | ||||
-rw-r--r-- | board/xilinx/common/xversion.c | 350 | ||||
-rw-r--r-- | board/xilinx/common/xversion.h | 97 |
14 files changed, 5548 insertions, 0 deletions
diff --git a/board/xilinx/common/xbasic_types.c b/board/xilinx/common/xbasic_types.c new file mode 100644 index 0000000000..c3a171a356 --- /dev/null +++ b/board/xilinx/common/xbasic_types.c @@ -0,0 +1,165 @@ +/****************************************************************************** +* +* 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 xbasic_types.c +* +* This file contains basic functions for Xilinx software IP. +* +* <pre> +* MODIFICATION HISTORY: +* +* Ver Who Date Changes +* ----- ---- -------- ------------------------------------------------------- +* 1.00a rpm 11/07/03 Added XNullHandler function as a stub interrupt handler +* </pre> +* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" + +/************************** Constant Definitions *****************************/ + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Variable Definitions *****************************/ + +/** + * This variable allows testing to be done easier with asserts. An assert + * sets this variable such that a driver can evaluate this variable + * to determine if an assert occurred. + */ +unsigned int XAssertStatus; + +/** + * This variable allows the assert functionality to be changed for testing + * such that it does not wait infinitely. Use the debugger to disable the + * waiting during testing of asserts. + */ +u32 XWaitInAssert = TRUE; + +/* The callback function to be invoked when an assert is taken */ +static XAssertCallback XAssertCallbackRoutine = (XAssertCallback) NULL; + +/************************** Function Prototypes ******************************/ + +/*****************************************************************************/ +/** +* +* Implements assert. Currently, it calls a user-defined callback function +* if one has been set. Then, it potentially enters an infinite loop depending +* on the value of the XWaitInAssert variable. +* +* @param File is the name of the filename of the source +* @param Line is the linenumber within File +* +* @return +* +* None. +* +* @note +* +* None. +* +******************************************************************************/ +void +XAssert(char *File, int Line) +{ + /* if the callback has been set then invoke it */ + if (XAssertCallbackRoutine != NULL) { + (*XAssertCallbackRoutine) (File, Line); + } + + /* if specified, wait indefinitely such that the assert will show up + * in testing + */ + while (XWaitInAssert) { + } +} + +/*****************************************************************************/ +/** +* +* Sets up a callback function to be invoked when an assert occurs. If there +* was already a callback installed, then it is replaced. +* +* @param Routine is the callback to be invoked when an assert is taken +* +* @return +* +* None. +* +* @note +* +* This function has no effect if NDEBUG is set +* +******************************************************************************/ +void +XAssertSetCallback(XAssertCallback Routine) +{ + XAssertCallbackRoutine = Routine; +} + +/*****************************************************************************/ +/** +* +* Null handler function. This follows the XInterruptHandler signature for +* interrupt handlers. It can be used to assign a null handler (a stub) to an +* interrupt controller vector table. +* +* @param NullParameter is an arbitrary void pointer and not used. +* +* @return +* +* None. +* +* @note +* +* None. +* +******************************************************************************/ +void +XNullHandler(void *NullParameter) +{ +} diff --git a/board/xilinx/common/xbasic_types.h b/board/xilinx/common/xbasic_types.h new file mode 100644 index 0000000000..ef0b7c255f --- /dev/null +++ b/board/xilinx/common/xbasic_types.h @@ -0,0 +1,283 @@ +/****************************************************************************** +* +* 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 xbasic_types.h +* +* This file contains basic types for Xilinx software IP. These types do not +* follow the standard naming convention with respect to using the component +* name in front of each name because they are considered to be primitives. +* +* @note +* +* This file contains items which are architecture dependent. +* +* <pre> +* MODIFICATION HISTORY: +* +* Ver Who Date Changes +* ----- ---- -------- ------------------------------------------------------- +* 1.00a rmm 12/14/01 First release +* rmm 05/09/03 Added "xassert always" macros to rid ourselves of diab +* compiler warnings +* 1.00a rpm 11/07/03 Added XNullHandler function as a stub interrupt handler +* </pre> +* +******************************************************************************/ + +#ifndef XBASIC_TYPES_H /* prevent circular inclusions */ +#define XBASIC_TYPES_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +/************************** Constant Definitions *****************************/ + +#ifndef TRUE +#define TRUE 1 +#endif +#ifndef FALSE +#define FALSE 0 +#endif + +#ifndef NULL +#define NULL 0 +#endif +/** Null */ + +#define XCOMPONENT_IS_READY 0x11111111 /* component has been initialized */ +#define XCOMPONENT_IS_STARTED 0x22222222 /* component has been started */ + +/* the following constants and declarations are for unit test purposes and are + * designed to be used in test applications. + */ +#define XTEST_PASSED 0 +#define XTEST_FAILED 1 + +#define XASSERT_NONE 0 +#define XASSERT_OCCURRED 1 + +extern unsigned int XAssertStatus; +extern void XAssert(char *, int); + +/**************************** Type Definitions *******************************/ + +/** @name Primitive types + * These primitive types are created for transportability. + * They are dependent upon the target architecture. + * @{ + */ +#include <linux/types.h> + +typedef struct { + u32 Upper; + u32 Lower; +} Xuint64; + +/*@}*/ + +/** + * This data type defines an interrupt handler for a device. + * The argument points to the instance of the component + */ +typedef void (*XInterruptHandler) (void *InstancePtr); + +/** + * This data type defines a callback to be invoked when an + * assert occurs. The callback is invoked only when asserts are enabled + */ +typedef void (*XAssertCallback) (char *FilenamePtr, int LineNumber); + +/***************** Macros (Inline Functions) Definitions *********************/ + +/*****************************************************************************/ +/** +* Return the most significant half of the 64 bit data type. +* +* @param x is the 64 bit word. +* +* @return +* +* The upper 32 bits of the 64 bit word. +* +* @note +* +* None. +* +******************************************************************************/ +#define XUINT64_MSW(x) ((x).Upper) + +/*****************************************************************************/ +/** +* Return the least significant half of the 64 bit data type. +* +* @param x is the 64 bit word. +* +* @return +* +* The lower 32 bits of the 64 bit word. +* +* @note +* +* None. +* +******************************************************************************/ +#define XUINT64_LSW(x) ((x).Lower) + +#ifndef NDEBUG + +/*****************************************************************************/ +/** +* This assert macro is to be used for functions that do not return anything +* (void). This in conjunction with the XWaitInAssert boolean can be used to +* accomodate tests so that asserts which fail allow execution to continue. +* +* @param expression is the expression to evaluate. If it evaluates to false, +* the assert occurs. +* +* @return +* +* Returns void unless the XWaitInAssert variable is true, in which case +* no return is made and an infinite loop is entered. +* +* @note +* +* None. +* +******************************************************************************/ +#define XASSERT_VOID(expression) \ +{ \ + if (expression) { \ + XAssertStatus = XASSERT_NONE; \ + } else { \ + XAssert(__FILE__, __LINE__); \ + XAssertStatus = XASSERT_OCCURRED; \ + return; \ + } \ +} + +/*****************************************************************************/ +/** +* This assert macro is to be used for functions that do return a value. This in +* conjunction with the XWaitInAssert boolean can be used to accomodate tests so +* that asserts which fail allow execution to continue. +* +* @param expression is the expression to evaluate. If it evaluates to false, +* the assert occurs. +* +* @return +* +* Returns 0 unless the XWaitInAssert variable is true, in which case +* no return is made and an infinite loop is entered. +* +* @note +* +* None. +* +******************************************************************************/ +#define XASSERT_NONVOID(expression) \ +{ \ + if (expression) { \ + XAssertStatus = XASSERT_NONE; \ + } else { \ + XAssert(__FILE__, __LINE__); \ + XAssertStatus = XASSERT_OCCURRED; \ + return 0; \ + } \ +} + +/*****************************************************************************/ +/** +* Always assert. This assert macro is to be used for functions that do not +* return anything (void). Use for instances where an assert should always +* occur. +* +* @return +* +* Returns void unless the XWaitInAssert variable is true, in which case +* no return is made and an infinite loop is entered. +* +* @note +* +* None. +* +******************************************************************************/ +#define XASSERT_VOID_ALWAYS() \ +{ \ + XAssert(__FILE__, __LINE__); \ + XAssertStatus = XASSERT_OCCURRED; \ + return; \ +} + +/*****************************************************************************/ +/** +* Always assert. This assert macro is to be used for functions that do return +* a value. Use for instances where an assert should always occur. +* +* @return +* +* Returns void unless the XWaitInAssert variable is true, in which case +* no return is made and an infinite loop is entered. +* +* @note +* +* None. +* +******************************************************************************/ +#define XASSERT_NONVOID_ALWAYS() \ +{ \ + XAssert(__FILE__, __LINE__); \ + XAssertStatus = XASSERT_OCCURRED; \ + return 0; \ +} + +#else + +#define XASSERT_VOID(expression) +#define XASSERT_VOID_ALWAYS() +#define XASSERT_NONVOID(expression) +#define XASSERT_NONVOID_ALWAYS() +#endif + +/************************** Function Prototypes ******************************/ + +void XAssertSetCallback(XAssertCallback Routine); +void XNullHandler(void *NullParameter); + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xbuf_descriptor.h b/board/xilinx/common/xbuf_descriptor.h new file mode 100644 index 0000000000..fdd51d58d4 --- /dev/null +++ b/board/xilinx/common/xbuf_descriptor.h @@ -0,0 +1,252 @@ +/****************************************************************************** +* +* 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. +* +* FILENAME: +* +* xbuf_descriptor.h +* +* DESCRIPTION: +* +* This file contains the interface for the XBufDescriptor component. +* The XBufDescriptor component is a passive component that only maps over +* a buffer descriptor data structure shared by the scatter gather DMA hardware +* and software. The component's primary purpose is to provide encapsulation of +* the buffer descriptor processing. See the source file xbuf_descriptor.c for +* details. +* +* NOTES: +* +* Most of the functions of this component are implemented as macros in order +* to optimize the processing. The names are not all uppercase such that they +* can be switched between macros and functions easily. +* +******************************************************************************/ + +#ifndef XBUF_DESCRIPTOR_H /* prevent circular inclusions */ +#define XBUF_DESCRIPTOR_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" +#include "xdma_channel_i.h" + +/************************** Constant Definitions *****************************/ + +/* The following constants allow access to all fields of a buffer descriptor + * and are necessary at this level of visibility to allow macros to access + * and modify the fields of a buffer descriptor. It is not expected that the + * user of a buffer descriptor would need to use these constants. + */ + +#define XBD_DEVICE_STATUS_OFFSET 0 +#define XBD_CONTROL_OFFSET 1 +#define XBD_SOURCE_OFFSET 2 +#define XBD_DESTINATION_OFFSET 3 +#define XBD_LENGTH_OFFSET 4 +#define XBD_STATUS_OFFSET 5 +#define XBD_NEXT_PTR_OFFSET 6 +#define XBD_ID_OFFSET 7 +#define XBD_FLAGS_OFFSET 8 +#define XBD_RQSTED_LENGTH_OFFSET 9 + +#define XBD_SIZE_IN_WORDS 10 + +/* + * The following constants define the bits of the flags field of a buffer + * descriptor + */ + +#define XBD_FLAGS_LOCKED_MASK 1UL + +/**************************** Type Definitions *******************************/ + +typedef u32 XBufDescriptor[XBD_SIZE_IN_WORDS]; + +/***************** Macros (Inline Functions) Definitions *********************/ + +/* each of the following macros are named the same as functions rather than all + * upper case in order to allow either the macros or the functions to be + * used, see the source file xbuf_descriptor.c for documentation + */ + +#define XBufDescriptor_Initialize(InstancePtr) \ +{ \ + (*((u32 *)InstancePtr + XBD_CONTROL_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_SOURCE_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_DESTINATION_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_LENGTH_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_STATUS_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_DEVICE_STATUS_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_NEXT_PTR_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_ID_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_FLAGS_OFFSET) = 0); \ + (*((u32 *)InstancePtr + XBD_RQSTED_LENGTH_OFFSET) = 0); \ +} + +#define XBufDescriptor_GetControl(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_CONTROL_OFFSET)) + +#define XBufDescriptor_SetControl(InstancePtr, Control) \ + (*((u32 *)InstancePtr + XBD_CONTROL_OFFSET) = (u32)Control) + +#define XBufDescriptor_IsLastControl(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_CONTROL_OFFSET) & \ + XDC_CONTROL_LAST_BD_MASK) + +#define XBufDescriptor_SetLast(InstancePtr) \ + (*((u32 *)InstancePtr + XBD_CONTROL_OFFSET) |= XDC_CONTROL_LAST_BD_MASK) + +#define XBufDescriptor_GetSrcAddress(InstancePtr) \ + ((u32 *)(*((u32 *)InstancePtr + XBD_SOURCE_OFFSET))) + +#define XBufDescriptor_SetSrcAddress(InstancePtr, Source) \ + (*((u32 *)InstancePtr + XBD_SOURCE_OFFSET) = (u32)Source) + +#define XBufDescriptor_GetDestAddress(InstancePtr) \ + ((u32 *)(*((u32 *)InstancePtr + XBD_DESTINATION_OFFSET))) + +#define XBufDescriptor_SetDestAddress(InstancePtr, Destination) \ + (*((u32 *)InstancePtr + XBD_DESTINATION_OFFSET) = (u32)Destination) + +#define XBufDescriptor_GetLength(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_RQSTED_LENGTH_OFFSET) - \ + *((u32 *)InstancePtr + XBD_LENGTH_OFFSET)) + +#define XBufDescriptor_SetLength(InstancePtr, Length) \ +{ \ + (*((u32 *)InstancePtr + XBD_LENGTH_OFFSET) = (u32)(Length)); \ + (*((u32 *)InstancePtr + XBD_RQSTED_LENGTH_OFFSET) = (u32)(Length));\ +} + +#define XBufDescriptor_GetStatus(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_STATUS_OFFSET)) + +#define XBufDescriptor_SetStatus(InstancePtr, Status) \ + (*((u32 *)InstancePtr + XBD_STATUS_OFFSET) = (u32)Status) + +#define XBufDescriptor_IsLastStatus(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_STATUS_OFFSET) & \ + XDC_STATUS_LAST_BD_MASK) + +#define XBufDescriptor_GetDeviceStatus(InstancePtr) \ + ((u32)(*((u32 *)InstancePtr + XBD_DEVICE_STATUS_OFFSET))) + +#define XBufDescriptor_SetDeviceStatus(InstancePtr, Status) \ + (*((u32 *)InstancePtr + XBD_DEVICE_STATUS_OFFSET) = (u32)Status) + +#define XBufDescriptor_GetNextPtr(InstancePtr) \ + (XBufDescriptor *)(*((u32 *)InstancePtr + XBD_NEXT_PTR_OFFSET)) + +#define XBufDescriptor_SetNextPtr(InstancePtr, NextPtr) \ + (*((u32 *)InstancePtr + XBD_NEXT_PTR_OFFSET) = (u32)NextPtr) + +#define XBufDescriptor_GetId(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_ID_OFFSET)) + +#define XBufDescriptor_SetId(InstancePtr, Id) \ + (*((u32 *)InstancePtr + XBD_ID_OFFSET) = (u32)Id) + +#define XBufDescriptor_GetFlags(InstancePtr) \ + (u32)(*((u32 *)InstancePtr + XBD_FLAGS_OFFSET)) + +#define XBufDescriptor_SetFlags(InstancePtr, Flags) \ + (*((u32 *)InstancePtr + XBD_FLAGS_OFFSET) = (u32)Flags) + +#define XBufDescriptor_Lock(InstancePtr) \ + (*((u32 *)InstancePtr + XBD_FLAGS_OFFSET) |= XBD_FLAGS_LOCKED_MASK) + +#define XBufDescriptor_Unlock(InstancePtr) \ + (*((u32 *)InstancePtr + XBD_FLAGS_OFFSET) &= ~XBD_FLAGS_LOCKED_MASK) + +#define XBufDescriptor_IsLocked(InstancePtr) \ + (*((u32 *)InstancePtr + XBD_FLAGS_OFFSET) & XBD_FLAGS_LOCKED_MASK) + +/************************** Function Prototypes ******************************/ + +/* The following prototypes are provided to allow each of the functions to + * be implemented as a function rather than a macro, and to provide the + * syntax to allow users to understand how to call the macros, they are + * commented out to prevent linker errors + * + +u32 XBufDescriptor_Initialize(XBufDescriptor* InstancePtr); + +u32 XBufDescriptor_GetControl(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetControl(XBufDescriptor* InstancePtr, u32 Control); + +u32 XBufDescriptor_IsLastControl(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetLast(XBufDescriptor* InstancePtr); + +u32 XBufDescriptor_GetLength(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetLength(XBufDescriptor* InstancePtr, u32 Length); + +u32 XBufDescriptor_GetStatus(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetStatus(XBufDescriptor* InstancePtr, u32 Status); +u32 XBufDescriptor_IsLastStatus(XBufDescriptor* InstancePtr); + +u32 XBufDescriptor_GetDeviceStatus(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetDeviceStatus(XBufDescriptor* InstancePtr, + u32 Status); + +u32 XBufDescriptor_GetSrcAddress(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetSrcAddress(XBufDescriptor* InstancePtr, + u32 SourceAddress); + +u32 XBufDescriptor_GetDestAddress(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetDestAddress(XBufDescriptor* InstancePtr, + u32 DestinationAddress); + +XBufDescriptor* XBufDescriptor_GetNextPtr(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetNextPtr(XBufDescriptor* InstancePtr, + XBufDescriptor* NextPtr); + +u32 XBufDescriptor_GetId(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetId(XBufDescriptor* InstancePtr, u32 Id); + +u32 XBufDescriptor_GetFlags(XBufDescriptor* InstancePtr); +void XBufDescriptor_SetFlags(XBufDescriptor* InstancePtr, u32 Flags); + +void XBufDescriptor_Lock(XBufDescriptor* InstancePtr); +void XBufDescriptor_Unlock(XBufDescriptor* InstancePtr); +u32 XBufDescriptor_IsLocked(XBufDescriptor* InstancePtr); + +void XBufDescriptor_Copy(XBufDescriptor* InstancePtr, + XBufDescriptor* DestinationPtr); + +*/ + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xdma_channel.c b/board/xilinx/common/xdma_channel.c new file mode 100644 index 0000000000..25f1e26028 --- /dev/null +++ b/board/xilinx/common/xdma_channel.c @@ -0,0 +1,738 @@ +/****************************************************************************** +* +* 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. +* +* FILENAME: +* +* xdma_channel.c +* +* DESCRIPTION: +* +* This file contains the DMA channel component. This component supports +* a distributed DMA design in which each device can have it's own dedicated +* DMA channel, as opposed to a centralized DMA design. This component +* performs processing for DMA on all devices. +* +* See xdma_channel.h for more information about this component. +* +* NOTES: +* +* None. +* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xdma_channel.h" +#include "xbasic_types.h" +#include "xio.h" + +/************************** Constant Definitions *****************************/ + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Function Prototypes ******************************/ + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_Initialize +* +* DESCRIPTION: +* +* This function initializes a DMA channel. This function must be called +* prior to using a DMA channel. Initialization of a channel includes setting +* up the registers base address, and resetting the channel such that it's in a +* known state. Interrupts for the channel are disabled when the channel is +* reset. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* BaseAddress contains the base address of the registers for the DMA channel. +* +* RETURN VALUE: +* +* XST_SUCCESS indicating initialization was successful. +* +* NOTES: +* +* None. +* +******************************************************************************/ +XStatus +XDmaChannel_Initialize(XDmaChannel * InstancePtr, u32 BaseAddress) +{ + /* assert to verify input arguments, don't assert base address */ + + XASSERT_NONVOID(InstancePtr != NULL); + + /* setup the base address of the registers for the DMA channel such + * that register accesses can be done + */ + InstancePtr->RegBaseAddress = BaseAddress; + + /* initialize the scatter gather list such that it indicates it has not + * been created yet and the DMA channel is ready to use (initialized) + */ + InstancePtr->GetPtr = NULL; + InstancePtr->PutPtr = NULL; + InstancePtr->CommitPtr = NULL; + InstancePtr->LastPtr = NULL; + + InstancePtr->TotalDescriptorCount = 0; + InstancePtr->ActiveDescriptorCount = 0; + InstancePtr->IsReady = XCOMPONENT_IS_READY; + + /* initialize the version of the component + */ + XVersion_FromString(&InstancePtr->Version, "1.00a"); + + /* reset the DMA channel such that it's in a known state and ready + * and indicate the initialization occured with no errors, note that + * the is ready variable must be set before this call or reset will assert + */ + XDmaChannel_Reset(InstancePtr); + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_IsReady +* +* DESCRIPTION: +* +* This function determines if a DMA channel component has been successfully +* initialized such that it's ready to use. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* TRUE if the DMA channel component is ready, FALSE otherwise. +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_IsReady(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments used by the base component */ + + XASSERT_NONVOID(InstancePtr != NULL); + + return InstancePtr->IsReady == XCOMPONENT_IS_READY; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetVersion +* +* DESCRIPTION: +* +* This function gets the software version for the specified DMA channel +* component. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* A pointer to the software version of the specified DMA channel. +* +* NOTES: +* +* None. +* +******************************************************************************/ +XVersion * +XDmaChannel_GetVersion(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* return a pointer to the version of the DMA channel */ + + return &InstancePtr->Version; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SelfTest +* +* DESCRIPTION: +* +* This function performs a self test on the specified DMA channel. This self +* test is destructive as the DMA channel is reset and a register default is +* verified. +* +* ARGUMENTS: +* +* InstancePtr is a pointer to the DMA channel to be operated on. +* +* RETURN VALUE: +* +* XST_SUCCESS is returned if the self test is successful, or one of the +* following errors. +* +* XST_DMA_RESET_REGISTER_ERROR Indicates the control register value +* after a reset was not correct +* +* NOTES: +* +* This test does not performs a DMA transfer to test the channel because the +* DMA hardware will not currently allow a non-local memory transfer to non-local +* memory (memory copy), but only allows a non-local memory to or from the device +* memory (typically a FIFO). +* +******************************************************************************/ + +#define XDC_CONTROL_REG_RESET_MASK 0x98000000UL /* control reg reset value */ + +XStatus +XDmaChannel_SelfTest(XDmaChannel * InstancePtr) +{ + u32 ControlReg; + + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* reset the DMA channel such that it's in a known state before the test + * it resets to no interrupts enabled, the desired state for the test + */ + XDmaChannel_Reset(InstancePtr); + + /* this should be the first test to help prevent a lock up with the polling + * loop that occurs later in the test, check the reset value of the DMA + * control register to make sure it's correct, return with an error if not + */ + ControlReg = XDmaChannel_GetControl(InstancePtr); + if (ControlReg != XDC_CONTROL_REG_RESET_MASK) { + return XST_DMA_RESET_REGISTER_ERROR; + } + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_Reset +* +* DESCRIPTION: +* +* This function resets the DMA channel. This is a destructive operation such +* that it should not be done while a channel is being used. If the DMA channel +* is transferring data into other blocks, such as a FIFO, it may be necessary +* to reset other blocks. This function does not modify the contents of a +* scatter gather list for a DMA channel such that the user is responsible for +* getting buffer descriptors from the list if necessary. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +void +XDmaChannel_Reset(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* reset the DMA channel such that it's in a known state, the reset + * register is self clearing such that it only has to be set + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_RST_REG_OFFSET, + XDC_RESET_MASK); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetControl +* +* DESCRIPTION: +* +* This function gets the control register contents of the DMA channel. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* The control register contents of the DMA channel. One or more of the +* following values may be contained the register. Each of the values are +* unique bit masks. +* +* XDC_DMACR_SOURCE_INCR_MASK Increment the source address +* XDC_DMACR_DEST_INCR_MASK Increment the destination address +* XDC_DMACR_SOURCE_LOCAL_MASK Local source address +* XDC_DMACR_DEST_LOCAL_MASK Local destination address +* XDC_DMACR_SG_ENABLE_MASK Scatter gather enable +* XDC_DMACR_GEN_BD_INTR_MASK Individual buffer descriptor interrupt +* XDC_DMACR_LAST_BD_MASK Last buffer descriptor in a packet +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_GetControl(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* return the contents of the DMA control register */ + + return XIo_In32(InstancePtr->RegBaseAddress + XDC_DMAC_REG_OFFSET); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SetControl +* +* DESCRIPTION: +* +* This function sets the control register of the specified DMA channel. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* Control contains the value to be written to the control register of the DMA +* channel. One or more of the following values may be contained the register. +* Each of the values are unique bit masks such that they may be ORed together +* to enable multiple bits or inverted and ANDed to disable multiple bits. +* +* XDC_DMACR_SOURCE_INCR_MASK Increment the source address +* XDC_DMACR_DEST_INCR_MASK Increment the destination address +* XDC_DMACR_SOURCE_LOCAL_MASK Local source address +* XDC_DMACR_DEST_LOCAL_MASK Local destination address +* XDC_DMACR_SG_ENABLE_MASK Scatter gather enable +* XDC_DMACR_GEN_BD_INTR_MASK Individual buffer descriptor interrupt +* XDC_DMACR_LAST_BD_MASK Last buffer descriptor in a packet +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +void +XDmaChannel_SetControl(XDmaChannel * InstancePtr, u32 Control) +{ + /* assert to verify input arguments except the control which can't be + * asserted since all values are valid + */ + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* set the DMA control register to the specified value */ + + XIo_Out32(InstancePtr->RegBaseAddress + XDC_DMAC_REG_OFFSET, Control); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetStatus +* +* DESCRIPTION: +* +* This function gets the status register contents of the DMA channel. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* The status register contents of the DMA channel. One or more of the +* following values may be contained the register. Each of the values are +* unique bit masks. +* +* XDC_DMASR_BUSY_MASK The DMA channel is busy +* XDC_DMASR_BUS_ERROR_MASK A bus error occurred +* XDC_DMASR_BUS_TIMEOUT_MASK A bus timeout occurred +* XDC_DMASR_LAST_BD_MASK The last buffer descriptor of a packet +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_GetStatus(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* return the contents of the DMA status register */ + + return XIo_In32(InstancePtr->RegBaseAddress + XDC_DMAS_REG_OFFSET); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SetIntrStatus +* +* DESCRIPTION: +* +* This function sets the interrupt status register of the specified DMA channel. +* Setting any bit of the interrupt status register will clear the bit to +* indicate the interrupt processing has been completed. The definitions of each +* bit in the register match the definition of the bits in the interrupt enable +* register. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* Status contains the value to be written to the status register of the DMA +* channel. One or more of the following values may be contained the register. +* Each of the values are unique bit masks such that they may be ORed together +* to enable multiple bits or inverted and ANDed to disable multiple bits. +* +* XDC_IXR_DMA_DONE_MASK The dma operation is done +* XDC_IXR_DMA_ERROR_MASK The dma operation had an error +* XDC_IXR_PKT_DONE_MASK A packet is complete +* XDC_IXR_PKT_THRESHOLD_MASK The packet count threshold reached +* XDC_IXR_PKT_WAIT_BOUND_MASK The packet wait bound reached +* XDC_IXR_SG_DISABLE_ACK_MASK The scatter gather disable completed +* XDC_IXR_BD_MASK A buffer descriptor is done +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +void +XDmaChannel_SetIntrStatus(XDmaChannel * InstancePtr, u32 Status) +{ + /* assert to verify input arguments except the status which can't be + * asserted since all values are valid + */ + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* set the interrupt status register with the specified value such that + * all bits which are set in the register are cleared effectively clearing + * any active interrupts + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_IS_REG_OFFSET, Status); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetIntrStatus +* +* DESCRIPTION: +* +* This function gets the interrupt status register of the specified DMA channel. +* The interrupt status register indicates which interrupts are active +* for the DMA channel. If an interrupt is active, the status register must be +* set (written) with the bit set for each interrupt which has been processed +* in order to clear the interrupts. The definitions of each bit in the register +* match the definition of the bits in the interrupt enable register. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* The interrupt status register contents of the specified DMA channel. +* One or more of the following values may be contained the register. +* Each of the values are unique bit masks. +* +* XDC_IXR_DMA_DONE_MASK The dma operation is done +* XDC_IXR_DMA_ERROR_MASK The dma operation had an error +* XDC_IXR_PKT_DONE_MASK A packet is complete +* XDC_IXR_PKT_THRESHOLD_MASK The packet count threshold reached +* XDC_IXR_PKT_WAIT_BOUND_MASK The packet wait bound reached +* XDC_IXR_SG_DISABLE_ACK_MASK The scatter gather disable completed +* XDC_IXR_SG_END_MASK Current descriptor was the end of the list +* XDC_IXR_BD_MASK A buffer descriptor is done +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_GetIntrStatus(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* return the contents of the interrupt status register */ + + return XIo_In32(InstancePtr->RegBaseAddress + XDC_IS_REG_OFFSET); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SetIntrEnable +* +* DESCRIPTION: +* +* This function sets the interrupt enable register of the specified DMA +* channel. The interrupt enable register contains bits which enable +* individual interrupts for the DMA channel. The definitions of each bit +* in the register match the definition of the bits in the interrupt status +* register. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* Enable contains the interrupt enable register contents to be written +* in the DMA channel. One or more of the following values may be contained +* the register. Each of the values are unique bit masks such that they may be +* ORed together to enable multiple bits or inverted and ANDed to disable +* multiple bits. +* +* XDC_IXR_DMA_DONE_MASK The dma operation is done +* XDC_IXR_DMA_ERROR_MASK The dma operation had an error +* XDC_IXR_PKT_DONE_MASK A packet is complete +* XDC_IXR_PKT_THRESHOLD_MASK The packet count threshold reached +* XDC_IXR_PKT_WAIT_BOUND_MASK The packet wait bound reached +* XDC_IXR_SG_DISABLE_ACK_MASK The scatter gather disable completed +* XDC_IXR_SG_END_MASK Current descriptor was the end of the list +* XDC_IXR_BD_MASK A buffer descriptor is done +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +void +XDmaChannel_SetIntrEnable(XDmaChannel * InstancePtr, u32 Enable) +{ + /* assert to verify input arguments except the enable which can't be + * asserted since all values are valid + */ + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* set the interrupt enable register to the specified value */ + + XIo_Out32(InstancePtr->RegBaseAddress + XDC_IE_REG_OFFSET, Enable); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetIntrEnable +* +* DESCRIPTION: +* +* This function gets the interrupt enable of the DMA channel. The +* interrupt enable contains flags which enable individual interrupts for the +* DMA channel. The definitions of each bit in the register match the definition +* of the bits in the interrupt status register. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* RETURN VALUE: +* +* The interrupt enable of the DMA channel. One or more of the following values +* may be contained the register. Each of the values are unique bit masks. +* +* XDC_IXR_DMA_DONE_MASK The dma operation is done +* XDC_IXR_DMA_ERROR_MASK The dma operation had an error +* XDC_IXR_PKT_DONE_MASK A packet is complete +* XDC_IXR_PKT_THRESHOLD_MASK The packet count threshold reached +* XDC_IXR_PKT_WAIT_BOUND_MASK The packet wait bound reached +* XDC_IXR_SG_DISABLE_ACK_MASK The scatter gather disable completed +* XDC_IXR_BD_MASK A buffer descriptor is done +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_GetIntrEnable(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* return the contents of the interrupt enable register */ + + return XIo_In32(InstancePtr->RegBaseAddress + XDC_IE_REG_OFFSET); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_Transfer +* +* DESCRIPTION: +* +* This function starts the DMA channel transferring data from a memory source +* to a memory destination. This function only starts the operation and returns +* before the operation may be complete. If the interrupt is enabled, an +* interrupt will be generated when the operation is complete, otherwise it is +* necessary to poll the channel status to determine when it's complete. It is +* the responsibility of the caller to determine when the operation is complete +* by handling the generated interrupt or polling the status. It is also the +* responsibility of the caller to ensure that the DMA channel is not busy with +* another transfer before calling this function. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. +* +* SourcePtr contains a pointer to the source memory where the data is to +* be tranferred from and must be 32 bit aligned. +* +* DestinationPtr contains a pointer to the destination memory where the data +* is to be transferred and must be 32 bit aligned. +* +* ByteCount contains the number of bytes to transfer during the DMA operation. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* The DMA h/w will not currently allow a non-local memory transfer to non-local +* memory (memory copy), but only allows a non-local memory to or from the device +* memory (typically a FIFO). +* +* It is the responsibility of the caller to ensure that the cache is +* flushed and invalidated both before and after the DMA operation completes +* if the memory pointed to is cached. The caller must also ensure that the +* pointers contain a physical address rather than a virtual address +* if address translation is being used. +* +******************************************************************************/ +void +XDmaChannel_Transfer(XDmaChannel * InstancePtr, + u32 * SourcePtr, u32 * DestinationPtr, u32 ByteCount) +{ + /* assert to verify input arguments and the alignment of any arguments + * which have expected alignments + */ + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(SourcePtr != NULL); + XASSERT_VOID(((u32) SourcePtr & 3) == 0); + XASSERT_VOID(DestinationPtr != NULL); + XASSERT_VOID(((u32) DestinationPtr & 3) == 0); + XASSERT_VOID(ByteCount != 0); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* setup the source and destination address registers for the transfer */ + + XIo_Out32(InstancePtr->RegBaseAddress + XDC_SA_REG_OFFSET, + (u32) SourcePtr); + + XIo_Out32(InstancePtr->RegBaseAddress + XDC_DA_REG_OFFSET, + (u32) DestinationPtr); + + /* start the DMA transfer to copy from the source buffer to the + * destination buffer by writing the length to the length register + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_LEN_REG_OFFSET, ByteCount); +} diff --git a/board/xilinx/common/xdma_channel.h b/board/xilinx/common/xdma_channel.h new file mode 100644 index 0000000000..06976c3e04 --- /dev/null +++ b/board/xilinx/common/xdma_channel.h @@ -0,0 +1,291 @@ +/****************************************************************************** +* +* 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. +* +* FILENAME: +* +* xdma_channel.h +* +* DESCRIPTION: +* +* This file contains the DMA channel component implementation. This component +* supports a distributed DMA design in which each device can have it's own +* dedicated DMA channel, as opposed to a centralized DMA design. +* A device which uses DMA typically contains two DMA channels, one for +* sending data and the other for receiving data. +* +* This component is designed to be used as a basic building block for +* designing a device driver. It provides registers accesses such that all +* DMA processing can be maintained easier, but the device driver designer +* must still understand all the details of the DMA channel. +* +* The DMA channel allows a CPU to minimize the CPU interaction required to move +* data between a memory and a device. The CPU requests the DMA channel to +* perform a DMA operation and typically continues performing other processing +* until the DMA operation completes. DMA could be considered a primitive form +* of multiprocessing such that caching and address translation can be an issue. +* +* Scatter Gather Operations +* +* The DMA channel may support scatter gather operations. A scatter gather +* operation automates the DMA channel such that multiple buffers can be +* sent or received with minimal software interaction with the hardware. Buffer +* descriptors, contained in the XBufDescriptor component, are used by the +* scatter gather operations of the DMA channel to describe the buffers to be +* processed. +* +* Scatter Gather List Operations +* +* A scatter gather list may be supported by each DMA channel. The scatter +* gather list allows buffer descriptors to be put into the list by a device +* driver which requires scatter gather. The hardware processes the buffer +* descriptors which are contained in the list and modifies the buffer +* descriptors to reflect the status of the DMA operations. The device driver +* is notified by interrupt that specific DMA events occur including scatter +* gather events. The device driver removes the completed buffer descriptors +* from the scatter gather list to evaluate the status of each DMA operation. +* +* The scatter gather list is created and buffer descriptors are inserted into +* the list. Buffer descriptors are never removed from the list after it's +* creation such that a put operation copies from a temporary buffer descriptor +* to a buffer descriptor in the list. Get operations don't copy from the list +* to a temporary, but return a pointer to the buffer descriptor in the list. +* A buffer descriptor in the list may be locked to prevent it from being +* overwritten by a put operation. This allows the device driver to get a +* descriptor from a scatter gather list and prevent it from being overwritten +* until the buffer associated with the buffer descriptor has been processed. +* +* Typical Scatter Gather Processing +* +* The following steps illustrate the typical processing to use the +* scatter gather features of a DMA channel. +* +* 1. Create a scatter gather list for the DMA channel which puts empty buffer +* descriptors into the list. +* 2. Create buffer descriptors which describe the buffers to be filled with +* receive data or the buffers which contain data to be sent. +* 3. Put buffer descriptors into the DMA channel scatter list such that scatter +* gather operations are requested. +* 4. Commit the buffer descriptors in the list such that they are ready to be +* used by the DMA channel hardware. +* 5. Start the scatter gather operations of the DMA channel. +* 6. Process any interrupts which occur as a result of the scatter gather +* operations or poll the DMA channel to determine the status. +* +* Interrupts +* +* Each DMA channel has the ability to generate an interrupt. This component +* does not perform processing for the interrupt as this processing is typically +* tightly coupled with the device which is using the DMA channel. It is the +* responsibility of the caller of DMA functions to manage the interrupt +* including connecting to the interrupt and enabling/disabling the interrupt. +* +* Critical Sections +* +* It is the responsibility of the device driver designer to use critical +* sections as necessary when calling functions of the DMA channel. This +* component does not use critical sections and it does access registers using +* read-modify-write operations. Calls to DMA functions from a main thread +* and from an interrupt context could produce unpredictable behavior such that +* the caller must provide the appropriate critical sections. +* +* Address Translation +* +* All addresses of data structures which are passed to DMA functions must +* be physical (real) addresses as opposed to logical (virtual) addresses. +* +* Caching +* +* The memory which is passed to the function which creates the scatter gather +* list must not be cached such that buffer descriptors are non-cached. This +* is necessary because the buffer descriptors are kept in a ring buffer and +* not directly accessible to the caller of DMA functions. +* +* The caller of DMA functions is responsible for ensuring that any data +* buffers which are passed to the DMA channel are cache-line aligned if +* necessary. +* +* The caller of DMA functions is responsible for ensuring that any data +* buffers which are passed to the DMA channel have been flushed from the cache. +* +* The caller of DMA functions is responsible for ensuring that the cache is +* invalidated prior to using any data buffers which are the result of a DMA +* operation. +* +* Memory Alignment +* +* The addresses of data buffers which are passed to DMA functions must be +* 32 bit word aligned since the DMA hardware performs 32 bit word transfers. +* +* Mutual Exclusion +* +* The functions of the DMA channel are not thread safe such that the caller +* of all DMA functions is responsible for ensuring mutual exclusion for a +* DMA channel. Mutual exclusion across multiple DMA channels is not +* necessary. +* +* NOTES: +* +* Many of the provided functions which are register accessors don't provide +* a lot of error detection. The caller is expected to understand the impact +* of a function call based upon the current state of the DMA channel. This +* is done to minimize the overhead in this component. +* +******************************************************************************/ + +#ifndef XDMA_CHANNEL_H /* prevent circular inclusions */ +#define XDMA_CHANNEL_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xdma_channel_i.h" /* constants shared with buffer descriptor */ +#include "xbasic_types.h" +#include "xstatus.h" +#include "xversion.h" +#include "xbuf_descriptor.h" + +/************************** Constant Definitions *****************************/ + +/* the following constants provide access to the bit fields of the DMA control + * register (DMACR) + */ +#define XDC_DMACR_SOURCE_INCR_MASK 0x80000000UL /* increment source address */ +#define XDC_DMACR_DEST_INCR_MASK 0x40000000UL /* increment dest address */ +#define XDC_DMACR_SOURCE_LOCAL_MASK 0x20000000UL /* local source address */ +#define XDC_DMACR_DEST_LOCAL_MASK 0x10000000UL /* local dest address */ +#define XDC_DMACR_SG_DISABLE_MASK 0x08000000UL /* scatter gather disable */ +#define XDC_DMACR_GEN_BD_INTR_MASK 0x04000000UL /* descriptor interrupt */ +#define XDC_DMACR_LAST_BD_MASK XDC_CONTROL_LAST_BD_MASK /* last buffer */ + /* descriptor */ + +/* the following constants provide access to the bit fields of the DMA status + * register (DMASR) + */ +#define XDC_DMASR_BUSY_MASK 0x80000000UL /* channel is busy */ +#define XDC_DMASR_BUS_ERROR_MASK 0x40000000UL /* bus error occurred */ +#define XDC_DMASR_BUS_TIMEOUT_MASK 0x20000000UL /* bus timeout occurred */ +#define XDC_DMASR_LAST_BD_MASK XDC_STATUS_LAST_BD_MASK /* last buffer */ + /* descriptor */ +#define XDC_DMASR_SG_BUSY_MASK 0x08000000UL /* scatter gather is busy */ + +/* the following constants provide access to the bit fields of the interrupt + * status register (ISR) and the interrupt enable register (IER), bit masks + * match for both registers such that they are named IXR + */ +#define XDC_IXR_DMA_DONE_MASK 0x1UL /* dma operation done */ +#define XDC_IXR_DMA_ERROR_MASK 0x2UL /* dma operation error */ +#define XDC_IXR_PKT_DONE_MASK 0x4UL /* packet done */ +#define XDC_IXR_PKT_THRESHOLD_MASK 0x8UL /* packet count threshold */ +#define XDC_IXR_PKT_WAIT_BOUND_MASK 0x10UL /* packet wait bound reached */ +#define XDC_IXR_SG_DISABLE_ACK_MASK 0x20UL /* scatter gather disable + acknowledge occurred */ +#define XDC_IXR_SG_END_MASK 0x40UL /* last buffer descriptor + disabled scatter gather */ +#define XDC_IXR_BD_MASK 0x80UL /* buffer descriptor done */ + +/**************************** Type Definitions *******************************/ + +/* + * the following structure contains data which is on a per instance basis + * for the XDmaChannel component + */ +typedef struct XDmaChannelTag { + XVersion Version; /* version of the driver */ + u32 RegBaseAddress; /* base address of registers */ + u32 IsReady; /* device is initialized and ready */ + + XBufDescriptor *PutPtr; /* keep track of where to put into list */ + XBufDescriptor *GetPtr; /* keep track of where to get from list */ + XBufDescriptor *CommitPtr; /* keep track of where to commit in list */ + XBufDescriptor *LastPtr; /* keep track of the last put in the list */ + u32 TotalDescriptorCount; /* total # of descriptors in the list */ + u32 ActiveDescriptorCount; /* # of descriptors pointing to buffers + * in the buffer descriptor list */ +} XDmaChannel; + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Function Prototypes ******************************/ + +XStatus XDmaChannel_Initialize(XDmaChannel * InstancePtr, u32 BaseAddress); +u32 XDmaChannel_IsReady(XDmaChannel * InstancePtr); +XVersion *XDmaChannel_GetVersion(XDmaChannel * InstancePtr); +XStatus XDmaChannel_SelfTest(XDmaChannel * InstancePtr); +void XDmaChannel_Reset(XDmaChannel * InstancePtr); + +/* Control functions */ + +u32 XDmaChannel_GetControl(XDmaChannel * InstancePtr); +void XDmaChannel_SetControl(XDmaChannel * InstancePtr, u32 Control); + +/* Status functions */ + +u32 XDmaChannel_GetStatus(XDmaChannel * InstancePtr); +void XDmaChannel_SetIntrStatus(XDmaChannel * InstancePtr, u32 Status); +u32 XDmaChannel_GetIntrStatus(XDmaChannel * InstancePtr); +void XDmaChannel_SetIntrEnable(XDmaChannel * InstancePtr, u32 Enable); +u32 XDmaChannel_GetIntrEnable(XDmaChannel * InstancePtr); + +/* DMA without scatter gather functions */ + +void XDmaChannel_Transfer(XDmaChannel * InstancePtr, + u32 * SourcePtr, u32 * DestinationPtr, u32 ByteCount); + +/* Scatter gather functions */ + +XStatus XDmaChannel_SgStart(XDmaChannel * InstancePtr); +XStatus XDmaChannel_SgStop(XDmaChannel * InstancePtr, + XBufDescriptor ** BufDescriptorPtr); +XStatus XDmaChannel_CreateSgList(XDmaChannel * InstancePtr, + u32 * MemoryPtr, u32 ByteCount); +u32 XDmaChannel_IsSgListEmpty(XDmaChannel * InstancePtr); + +XStatus XDmaChannel_PutDescriptor(XDmaChannel * InstancePtr, + XBufDescriptor * BufDescriptorPtr); +XStatus XDmaChannel_CommitPuts(XDmaChannel * InstancePtr); +XStatus XDmaChannel_GetDescriptor(XDmaChannel * InstancePtr, + XBufDescriptor ** BufDescriptorPtr); + +/* Packet functions for interrupt collescing */ + +u32 XDmaChannel_GetPktCount(XDmaChannel * InstancePtr); +void XDmaChannel_DecrementPktCount(XDmaChannel * InstancePtr); +XStatus XDmaChannel_SetPktThreshold(XDmaChannel * InstancePtr, u8 Threshold); +u8 XDmaChannel_GetPktThreshold(XDmaChannel * InstancePtr); +void XDmaChannel_SetPktWaitBound(XDmaChannel * InstancePtr, u32 WaitBound); +u32 XDmaChannel_GetPktWaitBound(XDmaChannel * InstancePtr); + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xdma_channel_i.h b/board/xilinx/common/xdma_channel_i.h new file mode 100644 index 0000000000..e9f343bbbe --- /dev/null +++ b/board/xilinx/common/xdma_channel_i.h @@ -0,0 +1,110 @@ +/****************************************************************************** +* +* 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. +* +* FILENAME: +* +* xdma_channel_i.h +* +* DESCRIPTION: +* +* This file contains data which is shared internal data for the DMA channel +* component. It is also shared with the buffer descriptor component which is +* very tightly coupled with the DMA channel component. +* +* NOTES: +* +* The last buffer descriptor constants must be located here to prevent a +* circular dependency between the DMA channel component and the buffer +* descriptor component. +* +******************************************************************************/ + +#ifndef XDMA_CHANNEL_I_H /* prevent circular inclusions */ +#define XDMA_CHANNEL_I_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" +#include "xstatus.h" +#include "xversion.h" + +/************************** Constant Definitions *****************************/ + +#define XDC_DMA_CHANNEL_V1_00_A "1.00a" + +/* the following constant provides access to the bit fields of the DMA control + * register (DMACR) which must be shared between the DMA channel component + * and the buffer descriptor component + */ +#define XDC_CONTROL_LAST_BD_MASK 0x02000000UL /* last buffer descriptor */ + +/* the following constant provides access to the bit fields of the DMA status + * register (DMASR) which must be shared between the DMA channel component + * and the buffer descriptor component + */ +#define XDC_STATUS_LAST_BD_MASK 0x10000000UL /* last buffer descriptor */ + +/* the following constants provide access to each of the registers of a DMA + * channel + */ +#define XDC_RST_REG_OFFSET 0 /* reset register */ +#define XDC_MI_REG_OFFSET 0 /* module information register */ +#define XDC_DMAC_REG_OFFSET 4 /* DMA control register */ +#define XDC_SA_REG_OFFSET 8 /* source address register */ +#define XDC_DA_REG_OFFSET 12 /* destination address register */ +#define XDC_LEN_REG_OFFSET 16 /* length register */ +#define XDC_DMAS_REG_OFFSET 20 /* DMA status register */ +#define XDC_BDA_REG_OFFSET 24 /* buffer descriptor address register */ +#define XDC_SWCR_REG_OFFSET 28 /* software control register */ +#define XDC_UPC_REG_OFFSET 32 /* unserviced packet count register */ +#define XDC_PCT_REG_OFFSET 36 /* packet count threshold register */ +#define XDC_PWB_REG_OFFSET 40 /* packet wait bound register */ +#define XDC_IS_REG_OFFSET 44 /* interrupt status register */ +#define XDC_IE_REG_OFFSET 48 /* interrupt enable register */ + +/* the following constant is written to the reset register to reset the + * DMA channel + */ +#define XDC_RESET_MASK 0x0000000AUL + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Function Prototypes ******************************/ + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xdma_channel_sg.c b/board/xilinx/common/xdma_channel_sg.c new file mode 100644 index 0000000000..a8e94625bf --- /dev/null +++ b/board/xilinx/common/xdma_channel_sg.c @@ -0,0 +1,1317 @@ +/* $Id: xdma_channel_sg.c,v 1.6 2003/02/03 19:50:33 moleres Exp $ */ +/****************************************************************************** +* +* 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. +* +* FILENAME: +* +* xdma_channel_sg.c +* +* DESCRIPTION: +* +* This file contains the implementation of the XDmaChannel component which is +* related to scatter gather operations. +* +* Scatter Gather Operations +* +* The DMA channel may support scatter gather operations. A scatter gather +* operation automates the DMA channel such that multiple buffers can be +* sent or received with minimal software interaction with the hardware. Buffer +* descriptors, contained in the XBufDescriptor component, are used by the +* scatter gather operations of the DMA channel to describe the buffers to be +* processed. +* +* Scatter Gather List Operations +* +* A scatter gather list may be supported by each DMA channel. The scatter +* gather list allows buffer descriptors to be put into the list by a device +* driver which requires scatter gather. The hardware processes the buffer +* descriptors which are contained in the list and modifies the buffer +* descriptors to reflect the status of the DMA operations. The device driver +* is notified by interrupt that specific DMA events occur including scatter +* gather events. The device driver removes the completed buffer descriptors +* from the scatter gather list to evaluate the status of each DMA operation. +* +* The scatter gather list is created and buffer descriptors are inserted into +* the list. Buffer descriptors are never removed from the list after it's +* creation such that a put operation copies from a temporary buffer descriptor +* to a buffer descriptor in the list. Get operations don't copy from the list +* to a temporary, but return a pointer to the buffer descriptor in the list. +* A buffer descriptor in the list may be locked to prevent it from being +* overwritten by a put operation. This allows the device driver to get a +* descriptor from a scatter gather list and prevent it from being overwritten +* until the buffer associated with the buffer descriptor has been processed. +* +* The get and put functions only operate on the list and are asynchronous from +* the hardware which may be using the list of descriptors. This is important +* because there are no checks in the get and put functions to ensure that the +* hardware has processed the descriptors. This must be handled by the driver +* using the DMA scatter gather channel through the use of the other functions. +* When a scatter gather operation is started, the start function does ensure +* that the descriptor to start has not already been processed by the hardware +* and is not the first of a series of descriptors that have not been committed +* yet. +* +* Descriptors are put into the list but not marked as ready to use by the +* hardware until a commit operation is done. This allows multiple descriptors +* which may contain a single packet of information for a protocol to be +* guaranteed not to cause any underflow conditions during transmission. The +* hardware design only allows descriptors to cause it to stop after a descriptor +* has been processed rather than before it is processed. A series of +* descriptors are put into the list followed by a commit operation, or each +* descriptor may be commited. A commit operation is performed by changing a +* single descriptor, the first of the series of puts, to indicate that the +* hardware may now use all descriptors after it. The last descriptor in the +* list is always set to cause the hardware to stop after it is processed. +* +* Typical Scatter Gather Processing +* +* The following steps illustrate the typical processing to use the +* scatter gather features of a DMA channel. +* +* 1. Create a scatter gather list for the DMA channel which puts empty buffer +* descriptors into the list. +* 2. Create buffer descriptors which describe the buffers to be filled with +* receive data or the buffers which contain data to be sent. +* 3. Put buffer descriptors into the DMA channel scatter list such that scatter +* gather operations are requested. +* 4. Commit the buffer descriptors in the list such that they are ready to be +* used by the DMA channel hardware. +* 5. Start the scatter gather operations of the DMA channel. +* 6. Process any interrupts which occur as a result of the scatter gather +* operations or poll the DMA channel to determine the status. This may +* be accomplished by getting the packet count for the channel and then +* getting the appropriate number of descriptors from the list for that +* number of packets. +* +* Minimizing Interrupts +* +* The Scatter Gather operating mode is designed to reduce the amount of CPU +* throughput necessary to manage the hardware for devices. A key to the CPU +* throughput is the number and rate of interrupts that the CPU must service. +* Devices with higher data rates can cause larger numbers of interrupts and +* higher frequency interrupts. Ideally the number of interrupts can be reduced +* by only generating an interrupt when a specific amount of data has been +* received from the interface. This design suffers from a lack of interrupts +* when the amount of data received is less than the specified amount of data +* to generate an interrupt. In order to help minimize the number of interrupts +* which the CPU must service, an algorithm referred to as "interrupt coalescing" +* is utilized. +* +* Interrupt Coalescing +* +* The principle of interrupt coalescing is to wait before generating an +* interrupt until a certain number of packets have been received or sent. An +* interrupt is also generated if a smaller number of packets have been received +* followed by a certain period of time with no packet reception. This is a +* trade-off of latency for bandwidth and is accomplished using several +* mechanisms of the hardware including a counter for packets received or +* transmitted and a packet timer. These two hardware mechanisms work in +* combination to allow a reduction in the number of interrupts processed by the +* CPU for packet reception. +* +* Unserviced Packet Count +* +* The purpose of the packet counter is to count the number of packets received +* or transmitted and provide an interrupt when a specific number of packets +* have been processed by the hardware. An interrupt is generated whenever the +* counter is greater than or equal to the Packet Count Threshold. This counter +* contains an accurate count of the number of packets that the hardware has +* processed, either received or transmitted, and the software has not serviced. +* +* The packet counter allows the number of interrupts to be reduced by waiting +* to generate an interrupt until enough packets are received. For packet +* reception, packet counts of less than the number to generate an interrupt +* would not be serviced without the addition of a packet timer. This counter is +* continuously updated by the hardware, not latched to the value at the time +* the interrupt occurred. +* +* The packet counter can be used within the interrupt service routine for the +* device to reduce the number of interrupts. The interrupt service routine +* loops while performing processing for each packet which has been received or +* transmitted and decrements the counter by a specified value. At the same time, +* the hardware is possibly continuing to receive or transmit more packets such +* that the software may choose, based upon the value in the packet counter, to +* remain in the interrupt service routine rather than exiting and immediately +* returning. This feature should be used with caution as reducing the number of +* interrupts is beneficial, but unbounded interrupt processing is not desirable. +* +* Since the hardware may be incrementing the packet counter simultaneously +* with the software decrementing the counter, there is a need for atomic +* operations. The hardware ensures that the operation is atomic such that +* simultaneous accesses are properly handled. +* +* Packet Wait Bound +* +* The purpose of the packet wait bound is to augment the unserviced packet +* count. Whenever there is no pending interrupt for the channel and the +* unserviced packet count is non-zero, a timer starts counting timeout at the +* value contained the the packet wait bound register. If the timeout is +* reached, an interrupt is generated such that the software may service the +* data which was buffered. +* +* NOTES: +* +* Special Test Conditions: +* +* The scatter gather list processing must be thoroughly tested if changes are +* made. Testing should include putting and committing single descriptors and +* putting multiple descriptors followed by a single commit. There are some +* conditions in the code which handle the exception conditions. +* +* The Put Pointer points to the next location in the descriptor list to copy +* in a new descriptor. The Get Pointer points to the next location in the +* list to get a descriptor from. The Get Pointer only allows software to +* have a traverse the list after the hardware has finished processing some +* number of descriptors. The Commit Pointer points to the descriptor in the +* list which is to be committed. It is also used to determine that no +* descriptor is waiting to be commited (NULL). The Last Pointer points to +* the last descriptor that was put into the list. It typically points +* to the previous descriptor to the one pointed to by the Put Pointer. +* Comparisons are done between these pointers to determine when the following +* special conditions exist. + +* Single Put And Commit +* +* The buffer descriptor is ready to be used by the hardware so it is important +* for the descriptor to not appear to be waiting to be committed. The commit +* pointer is reset when a commit is done indicating there are no descriptors +* waiting to be committed. In all cases but this one, the descriptor is +* changed to cause the hardware to go to the next descriptor after processing +* this one. But in this case, this is the last descriptor in the list such +* that it must not be changed. +* +* 3 Or More Puts And Commit +* +* A series of 3 or more puts followed by a single commit is different in that +* only the 1st descriptor put into the list is changed when the commit is done. +* This requires each put starting on the 3rd to change the previous descriptor +* so that it allows the hardware to continue to the next descriptor in the list. +* +* The 1st Put Following A Commit +* +* The commit caused the commit pointer to be NULL indicating that there are no +* descriptors waiting to be committed. It is necessary for the next put to set +* the commit pointer so that a commit must follow the put for the hardware to +* use the descriptor. +* +* <pre> +* MODIFICATION HISTORY: +* +* Ver Who Date Changes +* ----- ---- -------- ------------------------------------------------------ +* 1.00a rpm 02/03/03 Removed the XST_DMA_SG_COUNT_EXCEEDED return code +* from SetPktThreshold. +* </pre> +* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xdma_channel.h" +#include "xbasic_types.h" +#include "xio.h" +#include "xbuf_descriptor.h" +#include "xstatus.h" + +/************************** Constant Definitions *****************************/ + +#define XDC_SWCR_SG_ENABLE_MASK 0x80000000UL /* scatter gather enable */ + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/* the following macro copies selected fields of a buffer descriptor to another + * buffer descriptor, this was provided by the buffer descriptor component but + * was moved here since it is only used internally to this component and since + * it does not copy all fields + */ +#define CopyBufferDescriptor(InstancePtr, DestinationPtr) \ +{ \ + *((u32 *)DestinationPtr + XBD_CONTROL_OFFSET) = \ + *((u32 *)InstancePtr + XBD_CONTROL_OFFSET); \ + *((u32 *)DestinationPtr + XBD_SOURCE_OFFSET) = \ + *((u32 *)InstancePtr + XBD_SOURCE_OFFSET); \ + *((u32 *)DestinationPtr + XBD_DESTINATION_OFFSET) = \ + *((u32 *)InstancePtr + XBD_DESTINATION_OFFSET); \ + *((u32 *)DestinationPtr + XBD_LENGTH_OFFSET) = \ + *((u32 *)InstancePtr + XBD_LENGTH_OFFSET); \ + *((u32 *)DestinationPtr + XBD_STATUS_OFFSET) = \ + *((u32 *)InstancePtr + XBD_STATUS_OFFSET); \ + *((u32 *)DestinationPtr + XBD_DEVICE_STATUS_OFFSET) = \ + *((u32 *)InstancePtr + XBD_DEVICE_STATUS_OFFSET); \ + *((u32 *)DestinationPtr + XBD_ID_OFFSET) = \ + *((u32 *)InstancePtr + XBD_ID_OFFSET); \ + *((u32 *)DestinationPtr + XBD_FLAGS_OFFSET) = \ + *((u32 *)InstancePtr + XBD_FLAGS_OFFSET); \ + *((u32 *)DestinationPtr + XBD_RQSTED_LENGTH_OFFSET) = \ + *((u32 *)InstancePtr + XBD_RQSTED_LENGTH_OFFSET); \ +} + +/************************** Variable Definitions *****************************/ + +/************************** Function Prototypes ******************************/ + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SgStart +* +* DESCRIPTION: +* +* This function starts a scatter gather operation for a scatter gather +* DMA channel. The first buffer descriptor in the buffer descriptor list +* will be started with the scatter gather operation. A scatter gather list +* should have previously been created for the DMA channel and buffer +* descriptors put into the scatter gather list such that there are scatter +* operations ready to be performed. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* A status containing XST_SUCCESS if scatter gather was started successfully +* for the DMA channel. +* +* A value of XST_DMA_SG_NO_LIST indicates the scatter gather list has not +* been created. +* +* A value of XST_DMA_SG_LIST_EMPTY indicates scatter gather was not started +* because the scatter gather list of the DMA channel does not contain any +* buffer descriptors that are ready to be processed by the hardware. +* +* A value of XST_DMA_SG_IS_STARTED indicates scatter gather was not started +* because the scatter gather was not stopped, but was already started. +* +* A value of XST_DMA_SG_BD_NOT_COMMITTED indicates the buffer descriptor of +* scatter gather list which was to be started is not committed to the list. +* This status is more likely if this function is being called from an ISR +* and non-ISR processing is putting descriptors into the list. +* +* A value of XST_DMA_SG_NO_DATA indicates that the buffer descriptor of the +* scatter gather list which was to be started had already been used by the +* hardware for a DMA transfer that has been completed. +* +* NOTES: +* +* It is the responsibility of the caller to get all the buffer descriptors +* after performing a stop operation and before performing a start operation. +* If buffer descriptors are not retrieved between stop and start operations, +* buffer descriptors may be processed by the hardware more than once. +* +******************************************************************************/ +XStatus +XDmaChannel_SgStart(XDmaChannel * InstancePtr) +{ + u32 Register; + XBufDescriptor *LastDescriptorPtr; + + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if a scatter gather list has not been created yet, return a status */ + + if (InstancePtr->TotalDescriptorCount == 0) { + return XST_DMA_SG_NO_LIST; + } + + /* if the scatter gather list exists but is empty then return a status */ + + if (XDmaChannel_IsSgListEmpty(InstancePtr)) { + return XST_DMA_SG_LIST_EMPTY; + } + + /* if scatter gather is busy for the DMA channel, return a status because + * restarting it could lose data + */ + + Register = XIo_In32(InstancePtr->RegBaseAddress + XDC_DMAS_REG_OFFSET); + if (Register & XDC_DMASR_SG_BUSY_MASK) { + return XST_DMA_SG_IS_STARTED; + } + + /* get the address of the last buffer descriptor which the DMA hardware + * finished processing + */ + LastDescriptorPtr = + (XBufDescriptor *) XIo_In32(InstancePtr->RegBaseAddress + + XDC_BDA_REG_OFFSET); + + /* setup the first buffer descriptor that will be sent when the scatter + * gather channel is enabled, this is only necessary one time since + * the BDA register of the channel maintains the last buffer descriptor + * processed + */ + if (LastDescriptorPtr == NULL) { + XIo_Out32(InstancePtr->RegBaseAddress + XDC_BDA_REG_OFFSET, + (u32) InstancePtr->GetPtr); + } else { + XBufDescriptor *NextDescriptorPtr; + + /* get the next descriptor to be started, if the status indicates it + * hasn't already been used by the h/w, then it's OK to start it, + * s/w sets the status of each descriptor to busy and then h/w clears + * the busy when it is complete + */ + NextDescriptorPtr = + XBufDescriptor_GetNextPtr(LastDescriptorPtr); + + if ((XBufDescriptor_GetStatus(NextDescriptorPtr) & + XDC_DMASR_BUSY_MASK) == 0) { + return XST_DMA_SG_NO_DATA; + } + /* don't start the DMA SG channel if the descriptor to be processed + * by h/w is to be committed by the s/w, this function can be called + * such that it interrupts a thread that was putting into the list + */ + if (NextDescriptorPtr == InstancePtr->CommitPtr) { + return XST_DMA_SG_BD_NOT_COMMITTED; + } + } + + /* start the scatter gather operation by clearing the stop bit in the + * control register and setting the enable bit in the s/w control register, + * both of these are necessary to cause it to start, right now the order of + * these statements is important, the software control register should be + * set 1st. The other order can cause the CPU to have a loss of sync + * because it cannot read/write the register while the DMA operation is + * running + */ + + Register = XIo_In32(InstancePtr->RegBaseAddress + XDC_SWCR_REG_OFFSET); + + XIo_Out32(InstancePtr->RegBaseAddress + XDC_SWCR_REG_OFFSET, + Register | XDC_SWCR_SG_ENABLE_MASK); + + Register = XIo_In32(InstancePtr->RegBaseAddress + XDC_DMAC_REG_OFFSET); + + XIo_Out32(InstancePtr->RegBaseAddress + XDC_DMAC_REG_OFFSET, + Register & ~XDC_DMACR_SG_DISABLE_MASK); + + /* indicate the DMA channel scatter gather operation was started + * successfully + */ + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SgStop +* +* DESCRIPTION: +* +* This function stops a scatter gather operation for a scatter gather +* DMA channel. This function starts the process of stopping a scatter +* gather operation that is in progress and waits for the stop to be completed. +* Since it waits for the operation to stopped before returning, this function +* could take an amount of time relative to the size of the DMA scatter gather +* operation which is in progress. The scatter gather list of the DMA channel +* is not modified by this function such that starting the scatter gather +* channel after stopping it will cause it to resume. This operation is +* considered to be a graceful stop in that the scatter gather operation +* completes the current buffer descriptor before stopping. +* +* If the interrupt is enabled, an interrupt will be generated when the +* operation is stopped and the caller is responsible for handling the +* interrupt. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* BufDescriptorPtr is also a return value which contains a pointer to the +* buffer descriptor which the scatter gather operation completed when it +* was stopped. +* +* RETURN VALUE: +* +* A status containing XST_SUCCESS if scatter gather was stopped successfully +* for the DMA channel. +* +* A value of XST_DMA_SG_IS_STOPPED indicates scatter gather was not stoppped +* because the scatter gather is not started, but was already stopped. +* +* BufDescriptorPtr contains a pointer to the buffer descriptor which was +* completed when the operation was stopped. +* +* NOTES: +* +* This function implements a loop which polls the hardware for an infinite +* amount of time. If the hardware is not operating correctly, this function +* may never return. +* +******************************************************************************/ +XStatus +XDmaChannel_SgStop(XDmaChannel * InstancePtr, + XBufDescriptor ** BufDescriptorPtr) +{ + u32 Register; + + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(BufDescriptorPtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* get the contents of the software control register, if scatter gather is not + * enabled (started), then return a status because the disable acknowledge + * would not be generated + */ + Register = XIo_In32(InstancePtr->RegBaseAddress + XDC_SWCR_REG_OFFSET); + + if ((Register & XDC_SWCR_SG_ENABLE_MASK) == 0) { + return XST_DMA_SG_IS_STOPPED; + } + + /* Ensure the interrupt status for the scatter gather is cleared such + * that this function will wait til the disable has occurred, writing + * a 1 to only that bit in the register will clear only it + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_IS_REG_OFFSET, + XDC_IXR_SG_DISABLE_ACK_MASK); + + /* disable scatter gather by writing to the software control register + * without modifying any other bits of the register + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_SWCR_REG_OFFSET, + Register & ~XDC_SWCR_SG_ENABLE_MASK); + + /* scatter gather does not disable immediately, but after the current + * buffer descriptor is complete, so wait for the DMA channel to indicate + * the disable is complete + */ + do { + Register = + XIo_In32(InstancePtr->RegBaseAddress + XDC_IS_REG_OFFSET); + } while ((Register & XDC_IXR_SG_DISABLE_ACK_MASK) == 0); + + /* Ensure the interrupt status for the scatter gather disable is cleared, + * writing a 1 to only that bit in the register will clear only it + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_IS_REG_OFFSET, + XDC_IXR_SG_DISABLE_ACK_MASK); + + /* set the specified buffer descriptor pointer to point to the buffer + * descriptor that the scatter gather DMA channel was processing + */ + *BufDescriptorPtr = + (XBufDescriptor *) XIo_In32(InstancePtr->RegBaseAddress + + XDC_BDA_REG_OFFSET); + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_CreateSgList +* +* DESCRIPTION: +* +* This function creates a scatter gather list in the DMA channel. A scatter +* gather list consists of a list of buffer descriptors that are available to +* be used for scatter gather operations. Buffer descriptors are put into the +* list to request a scatter gather operation to be performed. +* +* A number of buffer descriptors are created from the specified memory and put +* into a buffer descriptor list as empty buffer descriptors. This function must +* be called before non-empty buffer descriptors may be put into the DMA channel +* to request scatter gather operations. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* MemoryPtr contains a pointer to the memory which is to be used for buffer +* descriptors and must not be cached. +* +* ByteCount contains the number of bytes for the specified memory to be used +* for buffer descriptors. +* +* RETURN VALUE: +* +* A status contains XST_SUCCESS if the scatter gather list was successfully +* created. +* +* A value of XST_DMA_SG_LIST_EXISTS indicates that the scatter gather list +* was not created because the list has already been created. +* +* NOTES: +* +* None. +* +******************************************************************************/ +XStatus +XDmaChannel_CreateSgList(XDmaChannel * InstancePtr, + u32 * MemoryPtr, u32 ByteCount) +{ + XBufDescriptor *BufferDescriptorPtr = (XBufDescriptor *) MemoryPtr; + XBufDescriptor *PreviousDescriptorPtr = NULL; + XBufDescriptor *StartOfListPtr = BufferDescriptorPtr; + u32 UsedByteCount; + + /* assert to verify valid input arguments, alignment for those + * arguments that have alignment restrictions, and at least enough + * memory for one buffer descriptor + */ + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(MemoryPtr != NULL); + XASSERT_NONVOID(((u32) MemoryPtr & 3) == 0); + XASSERT_NONVOID(ByteCount != 0); + XASSERT_NONVOID(ByteCount >= sizeof (XBufDescriptor)); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if the scatter gather list has already been created, then return + * with a status + */ + if (InstancePtr->TotalDescriptorCount != 0) { + return XST_DMA_SG_LIST_EXISTS; + } + + /* loop thru the specified memory block and create as many buffer + * descriptors as possible putting each into the list which is + * implemented as a ring buffer, make sure not to use any memory which + * is not large enough for a complete buffer descriptor + */ + UsedByteCount = 0; + while ((UsedByteCount + sizeof (XBufDescriptor)) <= ByteCount) { + /* setup a pointer to the next buffer descriptor in the memory and + * update # of used bytes to know when all of memory is used + */ + BufferDescriptorPtr = (XBufDescriptor *) ((u32) MemoryPtr + + UsedByteCount); + + /* initialize the new buffer descriptor such that it doesn't contain + * garbage which could be used by the DMA hardware + */ + XBufDescriptor_Initialize(BufferDescriptorPtr); + + /* if this is not the first buffer descriptor to be created, + * then link it to the last created buffer descriptor + */ + if (PreviousDescriptorPtr != NULL) { + XBufDescriptor_SetNextPtr(PreviousDescriptorPtr, + BufferDescriptorPtr); + } + + /* always keep a pointer to the last created buffer descriptor such + * that they can be linked together in the ring buffer + */ + PreviousDescriptorPtr = BufferDescriptorPtr; + + /* keep a count of the number of descriptors in the list to allow + * error processing to be performed + */ + InstancePtr->TotalDescriptorCount++; + + UsedByteCount += sizeof (XBufDescriptor); + } + + /* connect the last buffer descriptor created and inserted in the list + * to the first such that a ring buffer is created + */ + XBufDescriptor_SetNextPtr(BufferDescriptorPtr, StartOfListPtr); + + /* initialize the ring buffer to indicate that there are no + * buffer descriptors in the list which point to valid data buffers + */ + InstancePtr->PutPtr = BufferDescriptorPtr; + InstancePtr->GetPtr = BufferDescriptorPtr; + InstancePtr->CommitPtr = NULL; + InstancePtr->LastPtr = BufferDescriptorPtr; + InstancePtr->ActiveDescriptorCount = 0; + + /* indicate the scatter gather list was successfully created */ + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_IsSgListEmpty +* +* DESCRIPTION: +* +* This function determines if the scatter gather list of a DMA channel is +* empty with regard to buffer descriptors which are pointing to buffers to be +* used for scatter gather operations. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* A value of TRUE if the scatter gather list is empty, otherwise a value of +* FALSE. +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_IsSgListEmpty(XDmaChannel * InstancePtr) +{ + /* assert to verify valid input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if the number of descriptors which are being used in the list is zero + * then the list is empty + */ + return (InstancePtr->ActiveDescriptorCount == 0); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_PutDescriptor +* +* DESCRIPTION: +* +* This function puts a buffer descriptor into the DMA channel scatter +* gather list. A DMA channel maintains a list of buffer descriptors which are +* to be processed. This function puts the specified buffer descriptor +* at the next location in the list. Note that since the list is already intact, +* the information in the parameter is copied into the list (rather than modify +* list pointers on the fly). +* +* After buffer descriptors are put into the list, they must also be committed +* by calling another function. This allows multiple buffer descriptors which +* span a single packet to be put into the list while preventing the hardware +* from starting the first buffer descriptor of the packet. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* BufferDescriptorPtr is a pointer to the buffer descriptor to be put into +* the next available location of the scatter gather list. +* +* RETURN VALUE: +* +* A status which indicates XST_SUCCESS if the buffer descriptor was +* successfully put into the scatter gather list. +* +* A value of XST_DMA_SG_NO_LIST indicates the scatter gather list has not +* been created. +* +* A value of XST_DMA_SG_LIST_FULL indicates the buffer descriptor was not +* put into the list because the list was full. +* +* A value of XST_DMA_SG_BD_LOCKED indicates the buffer descriptor was not +* put into the list because the buffer descriptor in the list which is to +* be overwritten was locked. A locked buffer descriptor indicates the higher +* layered software is still using the buffer descriptor. +* +* NOTES: +* +* It is necessary to create a scatter gather list for a DMA channel before +* putting buffer descriptors into it. +* +******************************************************************************/ +XStatus +XDmaChannel_PutDescriptor(XDmaChannel * InstancePtr, + XBufDescriptor * BufferDescriptorPtr) +{ + u32 Control; + + /* assert to verify valid input arguments and alignment for those + * arguments that have alignment restrictions + */ + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(BufferDescriptorPtr != NULL); + XASSERT_NONVOID(((u32) BufferDescriptorPtr & 3) == 0); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if a scatter gather list has not been created yet, return a status */ + + if (InstancePtr->TotalDescriptorCount == 0) { + return XST_DMA_SG_NO_LIST; + } + + /* if the list is full because all descriptors are pointing to valid + * buffers, then indicate an error, this code assumes no list or an + * empty list is detected above + */ + if (InstancePtr->ActiveDescriptorCount == + InstancePtr->TotalDescriptorCount) { + return XST_DMA_SG_LIST_FULL; + } + + /* if the buffer descriptor in the list which is to be overwritten is + * locked, then don't overwrite it and return a status + */ + if (XBufDescriptor_IsLocked(InstancePtr->PutPtr)) { + return XST_DMA_SG_BD_LOCKED; + } + + /* set the scatter gather stop bit in the control word of the descriptor + * to cause the h/w to stop after it processes this descriptor since it + * will be the last in the list + */ + Control = XBufDescriptor_GetControl(BufferDescriptorPtr); + XBufDescriptor_SetControl(BufferDescriptorPtr, + Control | XDC_DMACR_SG_DISABLE_MASK); + + /* set both statuses in the descriptor so we tell if they are updated with + * the status of the transfer, the hardware should change the busy in the + * DMA status to be false when it completes + */ + XBufDescriptor_SetStatus(BufferDescriptorPtr, XDC_DMASR_BUSY_MASK); + XBufDescriptor_SetDeviceStatus(BufferDescriptorPtr, 0); + + /* copy the descriptor into the next position in the list so it's ready to + * be used by the h/w, this assumes the descriptor in the list prior to this + * one still has the stop bit in the control word set such that the h/w + * use this one yet + */ + CopyBufferDescriptor(BufferDescriptorPtr, InstancePtr->PutPtr); + + /* only the last in the list and the one to be committed have scatter gather + * disabled in the control word, a commit requires only one descriptor + * to be changed, when # of descriptors to commit > 2 all others except the + * 1st and last have scatter gather enabled + */ + if ((InstancePtr->CommitPtr != InstancePtr->LastPtr) && + (InstancePtr->CommitPtr != NULL)) { + Control = XBufDescriptor_GetControl(InstancePtr->LastPtr); + XBufDescriptor_SetControl(InstancePtr->LastPtr, + Control & ~XDC_DMACR_SG_DISABLE_MASK); + } + + /* update the list data based upon putting a descriptor into the list, + * these operations must be last + */ + InstancePtr->ActiveDescriptorCount++; + + /* only update the commit pointer if it is not already active, this allows + * it to be deactivated after every commit such that a single descriptor + * which is committed does not appear to be waiting to be committed + */ + if (InstancePtr->CommitPtr == NULL) { + InstancePtr->CommitPtr = InstancePtr->LastPtr; + } + + /* these updates MUST BE LAST after the commit pointer update in order for + * the commit pointer to track the correct descriptor to be committed + */ + InstancePtr->LastPtr = InstancePtr->PutPtr; + InstancePtr->PutPtr = XBufDescriptor_GetNextPtr(InstancePtr->PutPtr); + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_CommitPuts +* +* DESCRIPTION: +* +* This function commits the buffer descriptors which have been put into the +* scatter list for the DMA channel since the last commit operation was +* performed. This enables the calling functions to put several buffer +* descriptors into the list (e.g.,a packet's worth) before allowing the scatter +* gather operations to start. This prevents the DMA channel hardware from +* starting to use the buffer descriptors in the list before they are ready +* to be used (multiple buffer descriptors for a single packet). +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* A status indicating XST_SUCCESS if the buffer descriptors of the list were +* successfully committed. +* +* A value of XST_DMA_SG_NOTHING_TO_COMMIT indicates that the buffer descriptors +* were not committed because there was nothing to commit in the list. All the +* buffer descriptors which are in the list are commited. +* +* NOTES: +* +* None. +* +******************************************************************************/ +XStatus +XDmaChannel_CommitPuts(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if the buffer descriptor to be committed is already committed or + * the list is empty (none have been put in), then indicate an error + */ + if ((InstancePtr->CommitPtr == NULL) || + XDmaChannel_IsSgListEmpty(InstancePtr)) { + return XST_DMA_SG_NOTHING_TO_COMMIT; + } + + /* last descriptor in the list must have scatter gather disabled so the end + * of the list is hit by h/w, if descriptor to commit is not last in list, + * commit descriptors by enabling scatter gather in the descriptor + */ + if (InstancePtr->CommitPtr != InstancePtr->LastPtr) { + u32 Control; + + Control = XBufDescriptor_GetControl(InstancePtr->CommitPtr); + XBufDescriptor_SetControl(InstancePtr->CommitPtr, Control & + ~XDC_DMACR_SG_DISABLE_MASK); + } + /* Update the commit pointer to indicate that there is nothing to be + * committed, this state is used by start processing to know that the + * buffer descriptor to start is not waiting to be committed + */ + InstancePtr->CommitPtr = NULL; + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetDescriptor +* +* DESCRIPTION: +* +* This function gets a buffer descriptor from the scatter gather list of the +* DMA channel. The buffer descriptor is retrieved from the scatter gather list +* and the scatter gather list is updated to not include the retrieved buffer +* descriptor. This is typically done after a scatter gather operation +* completes indicating that a data buffer has been successfully sent or data +* has been received into the data buffer. The purpose of this function is to +* allow the device using the scatter gather operation to get the results of the +* operation. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* BufDescriptorPtr is a pointer to a pointer to the buffer descriptor which +* was retrieved from the list. The buffer descriptor is not really removed +* from the list, but it is changed to a state such that the hardware will not +* use it again until it is put into the scatter gather list of the DMA channel. +* +* RETURN VALUE: +* +* A status indicating XST_SUCCESS if a buffer descriptor was retrieved from +* the scatter gather list of the DMA channel. +* +* A value of XST_DMA_SG_NO_LIST indicates the scatter gather list has not +* been created. +* +* A value of XST_DMA_SG_LIST_EMPTY indicates no buffer descriptor was +* retrieved from the list because there are no buffer descriptors to be +* processed in the list. +* +* BufDescriptorPtr is updated to point to the buffer descriptor which was +* retrieved from the list if the status indicates success. +* +* NOTES: +* +* None. +* +******************************************************************************/ +XStatus +XDmaChannel_GetDescriptor(XDmaChannel * InstancePtr, + XBufDescriptor ** BufDescriptorPtr) +{ + u32 Control; + + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(BufDescriptorPtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if a scatter gather list has not been created yet, return a status */ + + if (InstancePtr->TotalDescriptorCount == 0) { + return XST_DMA_SG_NO_LIST; + } + + /* if the buffer descriptor list is empty, then indicate an error */ + + if (XDmaChannel_IsSgListEmpty(InstancePtr)) { + return XST_DMA_SG_LIST_EMPTY; + } + + /* retrieve the next buffer descriptor which is ready to be processed from + * the buffer descriptor list for the DMA channel, set the control word + * such that hardware will stop after the descriptor has been processed + */ + Control = XBufDescriptor_GetControl(InstancePtr->GetPtr); + XBufDescriptor_SetControl(InstancePtr->GetPtr, + Control | XDC_DMACR_SG_DISABLE_MASK); + + /* set the input argument, which is also an output, to point to the + * buffer descriptor which is to be retrieved from the list + */ + *BufDescriptorPtr = InstancePtr->GetPtr; + + /* update the pointer of the DMA channel to reflect the buffer descriptor + * was retrieved from the list by setting it to the next buffer descriptor + * in the list and indicate one less descriptor in the list now + */ + InstancePtr->GetPtr = XBufDescriptor_GetNextPtr(InstancePtr->GetPtr); + InstancePtr->ActiveDescriptorCount--; + + return XST_SUCCESS; +} + +/*********************** Interrupt Collescing Functions **********************/ + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetPktCount +* +* DESCRIPTION: +* +* This function returns the value of the unserviced packet count register of +* the DMA channel. This count represents the number of packets that have been +* sent or received by the hardware, but not processed by software. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* The unserviced packet counter register contents for the DMA channel. +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_GetPktCount(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* get the unserviced packet count from the register and return it */ + + return XIo_In32(InstancePtr->RegBaseAddress + XDC_UPC_REG_OFFSET); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_DecrementPktCount +* +* DESCRIPTION: +* +* This function decrements the value of the unserviced packet count register. +* This informs the hardware that the software has processed a packet. The +* unserviced packet count register may only be decremented by one in the +* hardware. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +void +XDmaChannel_DecrementPktCount(XDmaChannel * InstancePtr) +{ + u32 Register; + + /* assert to verify input arguments */ + + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* if the unserviced packet count register can be decremented (rather + * than rolling over) decrement it by writing a 1 to the register, + * this is the only valid write to the register as it serves as an + * acknowledge that a packet was handled by the software + */ + Register = XIo_In32(InstancePtr->RegBaseAddress + XDC_UPC_REG_OFFSET); + if (Register > 0) { + XIo_Out32(InstancePtr->RegBaseAddress + XDC_UPC_REG_OFFSET, + 1UL); + } +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SetPktThreshold +* +* DESCRIPTION: +* +* This function sets the value of the packet count threshold register of the +* DMA channel. It reflects the number of packets that must be sent or +* received before generating an interrupt. This value helps implement +* a concept called "interrupt coalescing", which is used to reduce the number +* of interrupts from devices with high data rates. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* Threshold is the value that is written to the threshold register of the +* DMA channel. +* +* RETURN VALUE: +* +* A status containing XST_SUCCESS if the packet count threshold was +* successfully set. +* +* NOTES: +* +* 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 +XDmaChannel_SetPktThreshold(XDmaChannel * InstancePtr, u8 Threshold) +{ + /* assert to verify input arguments, don't assert the threshold since + * it's range is unknown + */ + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* set the packet count threshold in the register such that an interrupt + * may be generated, if enabled, when the packet count threshold is + * reached or exceeded + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_PCT_REG_OFFSET, + (u32) Threshold); + + /* indicate the packet count threshold was successfully set */ + + return XST_SUCCESS; +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetPktThreshold +* +* DESCRIPTION: +* +* This function gets the value of the packet count threshold register of the +* DMA channel. This value reflects the number of packets that must be sent or +* received before generating an interrupt. This value helps implement a concept +* called "interrupt coalescing", which is used to reduce the number of +* interrupts from devices with high data rates. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* The packet threshold register contents for the DMA channel and is a value in +* the range 0 - 1023. A value of 0 indicates the packet wait bound timer is +* disabled. +* +* NOTES: +* +* None. +* +******************************************************************************/ +u8 +XDmaChannel_GetPktThreshold(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* get the packet count threshold from the register and return it, + * since only 8 bits are used, cast it to return only those bits */ + + return (u8) XIo_In32(InstancePtr->RegBaseAddress + XDC_PCT_REG_OFFSET); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_SetPktWaitBound +* +* DESCRIPTION: +* +* This function sets the value of the packet wait bound register of the +* DMA channel. This value reflects the timer value used to trigger an +* interrupt when not enough packets have been received to reach the packet +* count threshold. +* +* The timer is in millisecond units with +/- 33% accuracy. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* WaitBound is the value, in milliseconds, to be stored in the wait bound +* register of the DMA channel and is a value in the range 0 - 1023. A value +* of 0 disables the packet wait bound timer. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +void +XDmaChannel_SetPktWaitBound(XDmaChannel * InstancePtr, u32 WaitBound) +{ + /* assert to verify input arguments */ + + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(WaitBound < 1024); + XASSERT_VOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* set the packet wait bound in the register such that interrupt may be + * generated, if enabled, when packets have not been handled for a specific + * amount of time + */ + XIo_Out32(InstancePtr->RegBaseAddress + XDC_PWB_REG_OFFSET, WaitBound); +} + +/****************************************************************************** +* +* FUNCTION: +* +* XDmaChannel_GetPktWaitBound +* +* DESCRIPTION: +* +* This function gets the value of the packet wait bound register of the +* DMA channel. This value contains the timer value used to trigger an +* interrupt when not enough packets have been received to reach the packet +* count threshold. +* +* The timer is in millisecond units with +/- 33% accuracy. +* +* ARGUMENTS: +* +* InstancePtr contains a pointer to the DMA channel to operate on. The DMA +* channel should be configured to use scatter gather in order for this function +* to be called. +* +* RETURN VALUE: +* +* The packet wait bound register contents for the DMA channel. +* +* NOTES: +* +* None. +* +******************************************************************************/ +u32 +XDmaChannel_GetPktWaitBound(XDmaChannel * InstancePtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* get the packet wait bound from the register and return it */ + + return XIo_In32(InstancePtr->RegBaseAddress + XDC_PWB_REG_OFFSET); +} diff --git a/board/xilinx/common/xio.h b/board/xilinx/common/xio.h new file mode 100644 index 0000000000..5bb09c8940 --- /dev/null +++ b/board/xilinx/common/xio.h @@ -0,0 +1,81 @@ +/* + * xio.h + * + * Defines XIo functions for Xilinx OCP in terms of Linux primitives + * + * Author: MontaVista Software, Inc. + * source@mvista.com + * + * Copyright 2002 MontaVista Software 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. + * + * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. + * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR + * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE + * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + * 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. + */ + +#ifndef XIO_H +#define XIO_H + +#include "xbasic_types.h" +#include <asm/io.h> + +typedef u32 XIo_Address; + +extern inline u8 +XIo_In8(XIo_Address InAddress) +{ + return (u8) in_8((volatile unsigned char *) InAddress); +} +extern inline u16 +XIo_In16(XIo_Address InAddress) +{ + return (u16) in_be16((volatile unsigned short *) InAddress); +} +extern inline u32 +XIo_In32(XIo_Address InAddress) +{ + return (u32) in_be32((volatile unsigned *) InAddress); +} +extern inline void +XIo_Out8(XIo_Address OutAddress, u8 Value) +{ + out_8((volatile unsigned char *) OutAddress, Value); +} +extern inline void +XIo_Out16(XIo_Address OutAddress, u16 Value) +{ + out_be16((volatile unsigned short *) OutAddress, Value); +} +extern inline void +XIo_Out32(XIo_Address OutAddress, u32 Value) +{ + out_be32((volatile unsigned *) OutAddress, Value); +} + +#define XIo_ToLittleEndian16(s,d) (*(u16*)(d) = cpu_to_le16((u16)(s))) +#define XIo_ToLittleEndian32(s,d) (*(u32*)(d) = cpu_to_le32((u32)(s))) +#define XIo_ToBigEndian16(s,d) (*(u16*)(d) = cpu_to_be16((u16)(s))) +#define XIo_ToBigEndian32(s,d) (*(u32*)(d) = cpu_to_be32((u32)(s))) + +#define XIo_FromLittleEndian16(s,d) (*(u16*)(d) = le16_to_cpu((u16)(s))) +#define XIo_FromLittleEndian32(s,d) (*(u32*)(d) = le32_to_cpu((u32)(s))) +#define XIo_FromBigEndian16(s,d) (*(u16*)(d) = be16_to_cpu((u16)(s))) +#define XIo_FromBigEndian32(s,d) (*(u32*)(d) = be32_to_cpu((u32)(s))) + +#endif /* XIO_H */ diff --git a/board/xilinx/common/xipif_v1_23_b.h b/board/xilinx/common/xipif_v1_23_b.h new file mode 100644 index 0000000000..b1520e921e --- /dev/null +++ b/board/xilinx/common/xipif_v1_23_b.h @@ -0,0 +1,763 @@ +/****************************************************************************** +* +* 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. +* +******************************************************************************/ +/****************************************************************************** +* +* FILENAME: +* +* xipif.h +* +* DESCRIPTION: +* +* The XIpIf component encapsulates the IPIF, which is the standard interface +* that IP must adhere to when connecting to a bus. The purpose of this +* component is to encapsulate the IPIF processing such that maintainability +* is increased. This component does not provide a lot of abstraction from +* from the details of the IPIF as it is considered a building block for +* device drivers. A device driver designer must be familiar with the +* details of the IPIF hardware to use this component. +* +* The IPIF hardware provides a building block for all hardware devices such +* that each device does not need to reimplement these building blocks. The +* IPIF contains other building blocks, such as FIFOs and DMA channels, which +* are also common to many devices. These blocks are implemented as separate +* hardware blocks and instantiated within the IPIF. The primary hardware of +* the IPIF which is implemented by this software component is the interrupt +* architecture. Since there are many blocks of a device which may generate +* interrupts, all the interrupt processing is contained in the common part +* of the device, the IPIF. This interrupt processing is for the device level +* only and does not include any processing for the interrupt controller. +* +* A device is a mechanism such as an Ethernet MAC. The device is made +* up of several parts which include an IPIF and the IP. The IPIF contains most +* of the device infrastructure which is common to all devices, such as +* interrupt processing, DMA channels, and FIFOs. The infrastructure may also +* be referred to as IPIF internal blocks since they are part of the IPIF and +* are separate blocks that can be selected based upon the needs of the device. +* The IP of the device is the logic that is unique to the device and interfaces +* to the IPIF of the device. +* +* In general, there are two levels of registers within the IPIF. The first +* level, referred to as the device level, contains registers which are for the +* entire device. The second level, referred to as the IP level, contains +* registers which are specific to the IP of the device. The two levels of +* registers are designed to be hierarchical such that the device level is +* is a more general register set above the more specific registers of the IP. +* The IP level of registers provides functionality which is typically common +* across all devices and allows IP designers to focus on the unique aspects +* of the IP. +* +* Critical Sections +* +* It is the responsibility of the device driver designer to use critical +* sections as necessary when calling functions of the IPIF. This component +* does not use critical sections and it does access registers using +* read-modify-write operations. Calls to IPIF functions from a main thread +* and from an interrupt context could produce unpredictable behavior such that +* the caller must provide the appropriate critical sections. +* +* Mutual Exclusion +* +* The functions of the IPIF are not thread safe such that the caller of all +* functions is responsible for ensuring mutual exclusion for an IPIF. Mutual +* exclusion across multiple IPIF components is not necessary. +* +* NOTES: +* +* None. +* +* MODIFICATION HISTORY: +* +* Ver Who Date Changes +* ----- ---- -------- ----------------------------------------------- +* 1.23b jhl 02/27/01 Repartioned to minimize size +* +******************************************************************************/ + +#ifndef XIPIF_H /* prevent circular inclusions */ +#define XIPIF_H /* by using protection macros */ + +/***************************** Include Files *********************************/ +#include "xbasic_types.h" +#include "xstatus.h" +#include "xversion.h" + +/************************** Constant Definitions *****************************/ + +/* the following constants define the register offsets for the registers of the + * IPIF, there are some holes in the memory map for reserved addresses to allow + * other registers to be added and still match the memory map of the interrupt + * controller registers + */ +#define XIIF_V123B_DISR_OFFSET 0UL /* device interrupt status register */ +#define XIIF_V123B_DIPR_OFFSET 4UL /* device interrupt pending register */ +#define XIIF_V123B_DIER_OFFSET 8UL /* device interrupt enable register */ +#define XIIF_V123B_DIIR_OFFSET 24UL /* device interrupt ID register */ +#define XIIF_V123B_DGIER_OFFSET 28UL /* device global interrupt enable reg */ +#define XIIF_V123B_IISR_OFFSET 32UL /* IP interrupt status register */ +#define XIIF_V123B_IIER_OFFSET 40UL /* IP interrupt enable register */ +#define XIIF_V123B_RESETR_OFFSET 64UL /* reset register */ + +#define XIIF_V123B_RESET_MASK 0xAUL + +/* the following constant is used for the device global interrupt enable + * register, to enable all interrupts for the device, this is the only bit + * in the register + */ +#define XIIF_V123B_GINTR_ENABLE_MASK 0x80000000UL + +/* the following constants contain the masks to identify each internal IPIF + * condition in the device registers of the IPIF, interrupts are assigned + * in the register from LSB to the MSB + */ +#define XIIF_V123B_ERROR_MASK 1UL /* LSB of the register */ + +/* The following constants contain interrupt IDs which identify each internal + * IPIF condition, this value must correlate with the mask constant for the + * error + */ +#define XIIF_V123B_ERROR_INTERRUPT_ID 0 /* interrupt bit #, (LSB = 0) */ +#define XIIF_V123B_NO_INTERRUPT_ID 128 /* no interrupts are pending */ + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_RESET +* +* DESCRIPTION: +* +* Reset the IPIF component and hardware. This is a destructive operation that +* could cause the loss of data since resetting the IPIF of a device also +* resets the device using the IPIF and any blocks, such as FIFOs or DMA +* channels, within the IPIF. All registers of the IPIF will contain their +* reset value when this function returns. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ + +/* the following constant is used in the reset register to cause the IPIF to + * reset + */ +#define XIIF_V123B_RESET(RegBaseAddress) \ + XIo_Out32(RegBaseAddress + XIIF_V123B_RESETR_OFFSET, XIIF_V123B_RESET_MASK) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_WRITE_DISR +* +* DESCRIPTION: +* +* This function sets the device interrupt status register to the value. +* This register indicates the status of interrupt sources for a device +* which contains the IPIF. The status is independent of whether interrupts +* are enabled and could be used for polling a device at a higher level rather +* than a more detailed level. +* +* Each bit of the register correlates to a specific interrupt source within the +* device which contains the IPIF. With the exception of some internal IPIF +* conditions, the contents of this register are not latched but indicate +* the live status of the interrupt sources within the device. Writing any of +* the non-latched bits of the register will have no effect on the register. +* +* For the latched bits of this register only, setting a bit which is zero +* within this register causes an interrupt to generated. The device global +* interrupt enable register and the device interrupt enable register must be set +* appropriately to allow an interrupt to be passed out of the device. The +* interrupt is cleared by writing to this register with the bits to be +* cleared set to a one and all others to zero. This register implements a +* toggle on write functionality meaning any bits which are set in the value +* written cause the bits in the register to change to the opposite state. +* +* This function writes the specified value to the register such that +* some bits may be set and others cleared. It is the caller's responsibility +* to get the value of the register prior to setting the value to prevent a +* destructive behavior. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* Status contains the value to be written to the interrupt status register of +* the device. The only bits which can be written are the latched bits which +* contain the internal IPIF conditions. The following values may be used to +* set the status register or clear an interrupt condition. +* +* XIIF_V123B_ERROR_MASK Indicates a device error in the IPIF +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_WRITE_DISR(RegBaseAddress, Status) \ + XIo_Out32((RegBaseAddress) + XIIF_V123B_DISR_OFFSET, (Status)) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_READ_DISR +* +* DESCRIPTION: +* +* This function gets the device interrupt status register contents. +* This register indicates the status of interrupt sources for a device +* which contains the IPIF. The status is independent of whether interrupts +* are enabled and could be used for polling a device at a higher level. +* +* Each bit of the register correlates to a specific interrupt source within the +* device which contains the IPIF. With the exception of some internal IPIF +* conditions, the contents of this register are not latched but indicate +* the live status of the interrupt sources within the device. +* +* For only the latched bits of this register, the interrupt may be cleared by +* writing to these bits in the status register. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* A status which contains the value read from the interrupt status register of +* the device. The bit definitions are specific to the device with +* the exception of the latched internal IPIF condition bits. The following +* values may be used to detect internal IPIF conditions in the status. +* +* XIIF_V123B_ERROR_MASK Indicates a device error in the IPIF +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_READ_DISR(RegBaseAddress) \ + XIo_In32((RegBaseAddress) + XIIF_V123B_DISR_OFFSET) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_WRITE_DIER +* +* DESCRIPTION: +* +* This function sets the device interrupt enable register contents. +* This register controls which interrupt sources of the device are allowed to +* generate an interrupt. The device global interrupt enable register must also +* be set appropriately for an interrupt to be passed out of the device. +* +* Each bit of the register correlates to a specific interrupt source within the +* device which contains the IPIF. Setting a bit in this register enables that +* interrupt source to generate an interrupt. Clearing a bit in this register +* disables interrupt generation for that interrupt source. +* +* This function writes only the specified value to the register such that +* some interrupts source may be enabled and others disabled. It is the +* caller's responsibility to get the value of the interrupt enable register +* prior to setting the value to prevent an destructive behavior. +* +* An interrupt source may not be enabled to generate an interrupt, but can +* still be polled in the interrupt status register. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* Enable contains the value to be written to the interrupt enable register +* of the device. The bit definitions are specific to the device with +* the exception of the internal IPIF conditions. The following +* values may be used to enable the internal IPIF conditions interrupts. +* +* XIIF_V123B_ERROR_MASK Indicates a device error in the IPIF +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* Signature: u32 XIIF_V123B_WRITE_DIER(u32 RegBaseAddress, +* u32 Enable) +* +******************************************************************************/ +#define XIIF_V123B_WRITE_DIER(RegBaseAddress, Enable) \ + XIo_Out32((RegBaseAddress) + XIIF_V123B_DIER_OFFSET, (Enable)) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_READ_DIER +* +* DESCRIPTION: +* +* This function gets the device interrupt enable register contents. +* This register controls which interrupt sources of the device +* are allowed to generate an interrupt. The device global interrupt enable +* register and the device interrupt enable register must also be set +* appropriately for an interrupt to be passed out of the device. +* +* Each bit of the register correlates to a specific interrupt source within the +* device which contains the IPIF. Setting a bit in this register enables that +* interrupt source to generate an interrupt if the global enable is set +* appropriately. Clearing a bit in this register disables interrupt generation +* for that interrupt source regardless of the global interrupt enable. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* The value read from the interrupt enable register of the device. The bit +* definitions are specific to the device with the exception of the internal +* IPIF conditions. The following values may be used to determine from the +* value if the internal IPIF conditions interrupts are enabled. +* +* XIIF_V123B_ERROR_MASK Indicates a device error in the IPIF +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_READ_DIER(RegBaseAddress) \ + XIo_In32((RegBaseAddress) + XIIF_V123B_DIER_OFFSET) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_READ_DIPR +* +* DESCRIPTION: +* +* This function gets the device interrupt pending register contents. +* This register indicates the pending interrupt sources, those that are waiting +* to be serviced by the software, for a device which contains the IPIF. +* An interrupt must be enabled in the interrupt enable register of the IPIF to +* be pending. +* +* Each bit of the register correlates to a specific interrupt source within the +* the device which contains the IPIF. With the exception of some internal IPIF +* conditions, the contents of this register are not latched since the condition +* is latched in the IP interrupt status register, by an internal block of the +* IPIF such as a FIFO or DMA channel, or by the IP of the device. This register +* is read only and is not latched, but it is necessary to acknowledge (clear) +* the interrupt condition by performing the appropriate processing for the IP +* or block within the IPIF. +* +* This register can be thought of as the contents of the interrupt status +* register ANDed with the contents of the interrupt enable register. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* The value read from the interrupt pending register of the device. The bit +* definitions are specific to the device with the exception of the latched +* internal IPIF condition bits. The following values may be used to detect +* internal IPIF conditions in the value. +* +* XIIF_V123B_ERROR_MASK Indicates a device error in the IPIF +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_READ_DIPR(RegBaseAddress) \ + XIo_In32((RegBaseAddress) + XIIF_V123B_DIPR_OFFSET) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_READ_DIIR +* +* DESCRIPTION: +* +* This function gets the device interrupt ID for the highest priority interrupt +* which is pending from the interrupt ID register. This function provides +* priority resolution such that faster interrupt processing is possible. +* Without priority resolution, it is necessary for the software to read the +* interrupt pending register and then check each interrupt source to determine +* if an interrupt is pending. Priority resolution becomes more important as the +* number of interrupt sources becomes larger. +* +* Interrupt priorities are based upon the bit position of the interrupt in the +* interrupt pending register with bit 0 being the highest priority. The +* interrupt ID is the priority of the interrupt, 0 - 31, with 0 being the +* highest priority. The interrupt ID register is live rather than latched such +* that multiple calls to this function may not yield the same results. A +* special value, outside of the interrupt priority range of 0 - 31, is +* contained in the register which indicates that no interrupt is pending. This +* may be useful for allowing software to continue processing interrupts in a +* loop until there are no longer any interrupts pending. +* +* The interrupt ID is designed to allow a function pointer table to be used +* in the software such that the interrupt ID is used as an index into that +* table. The function pointer table could contain an instance pointer, such +* as to DMA channel, and a function pointer to the function which handles +* that interrupt. This design requires the interrupt processing of the device +* driver to be partitioned into smaller more granular pieces based upon +* hardware used by the device, such as DMA channels and FIFOs. +* +* It is not mandatory that this function be used by the device driver software. +* It may choose to read the pending register and resolve the pending interrupt +* priorities on it's own. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* An interrupt ID, 0 - 31, which identifies the highest priority interrupt +* which is pending. A value of XIIF_NO_INTERRUPT_ID indicates that there is +* no interrupt pending. The following values may be used to identify the +* interrupt ID for the internal IPIF interrupts. +* +* XIIF_V123B_ERROR_INTERRUPT_ID Indicates a device error in the IPIF +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_READ_DIIR(RegBaseAddress) \ + XIo_In32((RegBaseAddress) + XIIF_V123B_DIIR_OFFSET) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_GLOBAL_INTR_DISABLE +* +* DESCRIPTION: +* +* This function disables all interrupts for the device by writing to the global +* interrupt enable register. This register provides the ability to disable +* interrupts without any modifications to the interrupt enable register such +* that it is minimal effort to restore the interrupts to the previous enabled +* state. The corresponding function, XIpIf_GlobalIntrEnable, is provided to +* restore the interrupts to the previous enabled state. This function is +* designed to be used in critical sections of device drivers such that it is +* not necessary to disable other device interrupts. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_GINTR_DISABLE(RegBaseAddress) \ + XIo_Out32((RegBaseAddress) + XIIF_V123B_DGIER_OFFSET, 0) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_GINTR_ENABLE +* +* DESCRIPTION: +* +* This function writes to the global interrupt enable register to enable +* interrupts from the device. This register provides the ability to enable +* interrupts without any modifications to the interrupt enable register such +* that it is minimal effort to restore the interrupts to the previous enabled +* state. This function does not enable individual interrupts as the interrupt +* enable register must be set appropriately. This function is designed to be +* used in critical sections of device drivers such that it is not necessary to +* disable other device interrupts. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_GINTR_ENABLE(RegBaseAddress) \ + XIo_Out32((RegBaseAddress) + XIIF_V123B_DGIER_OFFSET, \ + XIIF_V123B_GINTR_ENABLE_MASK) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_IS_GINTR_ENABLED +* +* DESCRIPTION: +* +* This function determines if interrupts are enabled at the global level by +* reading the gloabl interrupt register. This register provides the ability to +* disable interrupts without any modifications to the interrupt enable register +* such that it is minimal effort to restore the interrupts to the previous +* enabled state. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* TRUE if interrupts are enabled for the IPIF, FALSE otherwise. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_IS_GINTR_ENABLED(RegBaseAddress) \ + (XIo_In32((RegBaseAddress) + XIIF_V123B_DGIER_OFFSET) == \ + XIIF_V123B_GINTR_ENABLE_MASK) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_WRITE_IISR +* +* DESCRIPTION: +* +* This function sets the IP interrupt status register to the specified value. +* This register indicates the status of interrupt sources for the IP of the +* device. The IP is defined as the part of the device that connects to the +* IPIF. The status is independent of whether interrupts are enabled such that +* the status register may also be polled when interrupts are not enabled. +* +* Each bit of the register correlates to a specific interrupt source within the +* IP. All bits of this register are latched. Setting a bit which is zero +* within this register causes an interrupt to be generated. The device global +* interrupt enable register and the device interrupt enable register must be set +* appropriately to allow an interrupt to be passed out of the device. The +* interrupt is cleared by writing to this register with the bits to be +* cleared set to a one and all others to zero. This register implements a +* toggle on write functionality meaning any bits which are set in the value +* written cause the bits in the register to change to the opposite state. +* +* This function writes only the specified value to the register such that +* some status bits may be set and others cleared. It is the caller's +* responsibility to get the value of the register prior to setting the value +* to prevent an destructive behavior. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* Status contains the value to be written to the IP interrupt status +* register. The bit definitions are specific to the device IP. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_WRITE_IISR(RegBaseAddress, Status) \ + XIo_Out32((RegBaseAddress) + XIIF_V123B_IISR_OFFSET, (Status)) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_READ_IISR +* +* DESCRIPTION: +* +* This function gets the contents of the IP interrupt status register. +* This register indicates the status of interrupt sources for the IP of the +* device. The IP is defined as the part of the device that connects to the +* IPIF. The status is independent of whether interrupts are enabled such +* that the status register may also be polled when interrupts are not enabled. +* +* Each bit of the register correlates to a specific interrupt source within the +* device. All bits of this register are latched. Writing a 1 to a bit within +* this register causes an interrupt to be generated if enabled in the interrupt +* enable register and the global interrupt enable is set. Since the status is +* latched, each status bit must be acknowledged in order for the bit in the +* status register to be updated. Each bit can be acknowledged by writing a +* 0 to the bit in the status register. + +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* A status which contains the value read from the IP interrupt status register. +* The bit definitions are specific to the device IP. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_READ_IISR(RegBaseAddress) \ + XIo_In32((RegBaseAddress) + XIIF_V123B_IISR_OFFSET) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_WRITE_IIER +* +* DESCRIPTION: +* +* This function sets the IP interrupt enable register contents. This register +* controls which interrupt sources of the IP are allowed to generate an +* interrupt. The global interrupt enable register and the device interrupt +* enable register must also be set appropriately for an interrupt to be +* passed out of the device containing the IPIF and the IP. +* +* Each bit of the register correlates to a specific interrupt source within the +* IP. Setting a bit in this register enables the interrupt source to generate +* an interrupt. Clearing a bit in this register disables interrupt generation +* for that interrupt source. +* +* This function writes only the specified value to the register such that +* some interrupt sources may be enabled and others disabled. It is the +* caller's responsibility to get the value of the interrupt enable register +* prior to setting the value to prevent an destructive behavior. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* Enable contains the value to be written to the IP interrupt enable register. +* The bit definitions are specific to the device IP. +* +* RETURN VALUE: +* +* None. +* +* NOTES: +* +* None. +* +******************************************************************************/ +#define XIIF_V123B_WRITE_IIER(RegBaseAddress, Enable) \ + XIo_Out32((RegBaseAddress) + XIIF_V123B_IIER_OFFSET, (Enable)) + +/****************************************************************************** +* +* MACRO: +* +* XIIF_V123B_READ_IIER +* +* DESCRIPTION: +* +* +* This function gets the IP interrupt enable register contents. This register +* controls which interrupt sources of the IP are allowed to generate an +* interrupt. The global interrupt enable register and the device interrupt +* enable register must also be set appropriately for an interrupt to be +* passed out of the device containing the IPIF and the IP. +* +* Each bit of the register correlates to a specific interrupt source within the +* IP. Setting a bit in this register enables the interrupt source to generate +* an interrupt. Clearing a bit in this register disables interrupt generation +* for that interrupt source. +* +* ARGUMENTS: +* +* RegBaseAddress contains the base address of the IPIF registers. +* +* RETURN VALUE: +* +* The contents read from the IP interrupt enable register. The bit definitions +* are specific to the device IP. +* +* NOTES: +* +* Signature: u32 XIIF_V123B_READ_IIER(u32 RegBaseAddress) +* +******************************************************************************/ +#define XIIF_V123B_READ_IIER(RegBaseAddress) \ + XIo_In32((RegBaseAddress) + XIIF_V123B_IIER_OFFSET) + +/************************** Function Prototypes ******************************/ + +/* + * Initialization Functions + */ +XStatus XIpIfV123b_SelfTest(u32 RegBaseAddress, u8 IpRegistersWidth); + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xpacket_fifo_v1_00_b.c b/board/xilinx/common/xpacket_fifo_v1_00_b.c new file mode 100644 index 0000000000..ae2d6d43c5 --- /dev/null +++ b/board/xilinx/common/xpacket_fifo_v1_00_b.c @@ -0,0 +1,448 @@ +/****************************************************************************** +* +* 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 xpacket_fifo_v1_00_b.c +* +* Contains functions for the XPacketFifoV100b component. See xpacket_fifo_v1_00_b.h +* for more information about the component. +* +* <pre> +* MODIFICATION HISTORY: +* +* Ver Who Date Changes +* ----- ---- -------- ----------------------------------------------- +* 1.00b rpm 03/26/02 First release +* </pre> +* +*****************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" +#include "xio.h" +#include "xstatus.h" +#include "xpacket_fifo_v1_00_b.h" + +/************************** Constant Definitions *****************************/ + +/* width of a FIFO word */ + +#define XPF_FIFO_WIDTH_BYTE_COUNT 4UL + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************* Variable Definitions ******************************/ + +/************************** Function Prototypes ******************************/ + +/*****************************************************************************/ +/* +* +* This function initializes a packet FIFO. Initialization resets the +* FIFO such that it's empty and ready to use. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* @param RegBaseAddress contains the base address of the registers for +* the packet FIFO. +* @param DataBaseAddress contains the base address of the data for +* the packet FIFO. +* +* @return +* +* Always returns XST_SUCCESS. +* +* @note +* +* None. +* +******************************************************************************/ +XStatus +XPacketFifoV100b_Initialize(XPacketFifoV100b * InstancePtr, + u32 RegBaseAddress, u32 DataBaseAddress) +{ + /* assert to verify input argument are valid */ + + XASSERT_NONVOID(InstancePtr != NULL); + + /* initialize the component variables to the specified state */ + + InstancePtr->RegBaseAddress = RegBaseAddress; + InstancePtr->DataBaseAddress = DataBaseAddress; + InstancePtr->IsReady = XCOMPONENT_IS_READY; + + /* reset the FIFO such that it's empty and ready to use and indicate the + * initialization was successful, note that the is ready variable must be + * set prior to calling the reset function to prevent an assert + */ + XPF_V100B_RESET(InstancePtr); + + return XST_SUCCESS; +} + +/*****************************************************************************/ +/* +* +* This function performs a self-test on the specified packet FIFO. The self +* test resets the FIFO and reads a register to determine if it is the correct +* reset value. This test is destructive in that any data in the FIFO will +* be lost. +* +* @param InstancePtr is a pointer to the packet FIFO to be operated on. +* +* @param FifoType specifies the type of FIFO, read or write, for the self test. +* The FIFO type is specified by the values XPF_READ_FIFO_TYPE or +* XPF_WRITE_FIFO_TYPE. +* +* @return +* +* XST_SUCCESS is returned if the selftest is successful, or +* XST_PFIFO_BAD_REG_VALUE indicating that the value readback from the +* occupancy/vacancy count register after a reset does not match the +* specified reset value. +* +* @note +* +* None. +* +******************************************************************************/ +XStatus +XPacketFifoV100b_SelfTest(XPacketFifoV100b * InstancePtr, u32 FifoType) +{ + u32 Register; + + /* assert to verify valid input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID((FifoType == XPF_READ_FIFO_TYPE) || + (FifoType == XPF_WRITE_FIFO_TYPE)); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* reset the fifo and then check to make sure the occupancy/vacancy + * register contents are correct for a reset condition + */ + XPF_V100B_RESET(InstancePtr); + + Register = XIo_In32(InstancePtr->RegBaseAddress + + XPF_COUNT_STATUS_REG_OFFSET); + + /* check the value of the register to ensure that it's correct for the + * specified FIFO type since both FIFO types reset to empty, but a bit + * in the register changes definition based upon FIFO type + */ + + if (FifoType == XPF_READ_FIFO_TYPE) { + /* check the regiser value for a read FIFO which should be empty */ + + if (Register != XPF_EMPTY_FULL_MASK) { + return XST_PFIFO_BAD_REG_VALUE; + } + } else { + /* check the register value for a write FIFO which should not be full + * on reset + */ + if ((Register & XPF_EMPTY_FULL_MASK) != 0) { + return XST_PFIFO_BAD_REG_VALUE; + } + } + + /* the test was successful */ + + return XST_SUCCESS; +} + +/*****************************************************************************/ +/* +* +* Read data from a FIFO and puts it into a specified buffer. The packet FIFO is +* currently 32 bits wide such that an input buffer which is a series of bytes +* is filled from the FIFO a word at a time. If the requested byte count is not +* a multiple of 32 bit words, it is necessary for this function to format the +* remaining 32 bit word from the FIFO into a series of bytes in the buffer. +* There may be up to 3 extra bytes which must be extracted from the last word +* of the FIFO and put into the buffer. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* @param BufferPtr points to the memory buffer to write the data into. This +* buffer must be 32 bit aligned or an alignment exception could be +* generated. Since this buffer is a byte buffer, the data is assumed to +* be endian independent. +* @param ByteCount contains the number of bytes to read from the FIFO. This +* number of bytes must be present in the FIFO or an error will be +* returned. +* +* @return +* +* XST_SUCCESS indicates the operation was successful. If the number of +* bytes specified by the byte count is not present in the FIFO +* XST_PFIFO_LACK_OF_DATA is returned. +* +* If the function was successful, the specified buffer is modified to contain +* the bytes which were removed from the FIFO. +* +* @note +* +* Note that the exact number of bytes which are present in the FIFO is +* not known by this function. It can only check for a number of 32 bit +* words such that if the byte count specified is incorrect, but is still +* possible based on the number of words in the FIFO, up to 3 garbage bytes +* may be present at the end of the buffer. +* <br><br> +* This function assumes that if the device consuming data from the FIFO is +* a byte device, the order of the bytes to be consumed is from the most +* significant byte to the least significant byte of a 32 bit word removed +* from the FIFO. +* +******************************************************************************/ +XStatus +XPacketFifoV100b_Read(XPacketFifoV100b * InstancePtr, + u8 * BufferPtr, u32 ByteCount) +{ + u32 FifoCount; + u32 WordCount; + u32 ExtraByteCount; + u32 *WordBuffer = (u32 *) BufferPtr; + + /* assert to verify valid input arguments including 32 bit alignment of + * the buffer pointer + */ + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(BufferPtr != NULL); + XASSERT_NONVOID(((u32) BufferPtr & + (XPF_FIFO_WIDTH_BYTE_COUNT - 1)) == 0); + XASSERT_NONVOID(ByteCount != 0); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* get the count of how many 32 bit words are in the FIFO, if there aren't + * enought words to satisfy the request, return an error + */ + + FifoCount = XIo_In32(InstancePtr->RegBaseAddress + + XPF_COUNT_STATUS_REG_OFFSET) & XPF_COUNT_MASK; + + if ((FifoCount * XPF_FIFO_WIDTH_BYTE_COUNT) < ByteCount) { + return XST_PFIFO_LACK_OF_DATA; + } + + /* calculate the number of words to read from the FIFO before the word + * containing the extra bytes, and calculate the number of extra bytes + * the extra bytes are defined as those at the end of the buffer when + * the buffer does not end on a 32 bit boundary + */ + WordCount = ByteCount / XPF_FIFO_WIDTH_BYTE_COUNT; + ExtraByteCount = ByteCount % XPF_FIFO_WIDTH_BYTE_COUNT; + + /* Read the 32 bit words from the FIFO for all the buffer except the + * last word which contains the extra bytes, the following code assumes + * that the buffer is 32 bit aligned, otherwise an alignment exception could + * be generated + */ + for (FifoCount = 0; FifoCount < WordCount; FifoCount++) { + WordBuffer[FifoCount] = XIo_In32(InstancePtr->DataBaseAddress); + } + + /* if there are extra bytes to handle, read the last word from the FIFO + * and insert the extra bytes into the buffer + */ + if (ExtraByteCount > 0) { + u32 LastWord; + u8 *ExtraBytesBuffer = (u8 *) (WordBuffer + WordCount); + + /* get the last word from the FIFO for the extra bytes */ + + LastWord = XIo_In32(InstancePtr->DataBaseAddress); + + /* one extra byte in the last word, put the byte into the next location + * of the buffer, bytes in a word of the FIFO are ordered from most + * significant byte to least + */ + if (ExtraByteCount == 1) { + ExtraBytesBuffer[0] = (u8) (LastWord >> 24); + } + + /* two extra bytes in the last word, put each byte into the next two + * locations of the buffer + */ + else if (ExtraByteCount == 2) { + ExtraBytesBuffer[0] = (u8) (LastWord >> 24); + ExtraBytesBuffer[1] = (u8) (LastWord >> 16); + } + /* three extra bytes in the last word, put each byte into the next three + * locations of the buffer + */ + else if (ExtraByteCount == 3) { + ExtraBytesBuffer[0] = (u8) (LastWord >> 24); + ExtraBytesBuffer[1] = (u8) (LastWord >> 16); + ExtraBytesBuffer[2] = (u8) (LastWord >> 8); + } + } + return XST_SUCCESS; +} + +/*****************************************************************************/ +/* +* +* Write data into a packet FIFO. The packet FIFO is currently 32 bits wide +* such that an input buffer which is a series of bytes must be written into the +* FIFO a word at a time. If the buffer is not a multiple of 32 bit words, it is +* necessary for this function to format the remaining bytes into a single 32 +* bit word to be inserted into the FIFO. This is necessary to avoid any +* accesses past the end of the buffer. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* @param BufferPtr points to the memory buffer that data is to be read from +* and written into the FIFO. Since this buffer is a byte buffer, the data +* is assumed to be endian independent. This buffer must be 32 bit aligned +* or an alignment exception could be generated. +* @param ByteCount contains the number of bytes to read from the buffer and to +* write to the FIFO. +* +* @return +* +* XST_SUCCESS is returned if the operation succeeded. If there is not enough +* room in the FIFO to hold the specified bytes, XST_PFIFO_NO_ROOM is +* returned. +* +* @note +* +* This function assumes that if the device inserting data into the FIFO is +* a byte device, the order of the bytes in each 32 bit word is from the most +* significant byte to the least significant byte. +* +******************************************************************************/ +XStatus +XPacketFifoV100b_Write(XPacketFifoV100b * InstancePtr, + u8 * BufferPtr, u32 ByteCount) +{ + u32 FifoCount; + u32 WordCount; + u32 ExtraByteCount; + u32 *WordBuffer = (u32 *) BufferPtr; + + /* assert to verify valid input arguments including 32 bit alignment of + * the buffer pointer + */ + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(BufferPtr != NULL); + XASSERT_NONVOID(((u32) BufferPtr & + (XPF_FIFO_WIDTH_BYTE_COUNT - 1)) == 0); + XASSERT_NONVOID(ByteCount != 0); + XASSERT_NONVOID(InstancePtr->IsReady == XCOMPONENT_IS_READY); + + /* get the count of how many words may be inserted into the FIFO */ + + FifoCount = XIo_In32(InstancePtr->RegBaseAddress + + XPF_COUNT_STATUS_REG_OFFSET) & XPF_COUNT_MASK; + + /* Calculate the number of 32 bit words required to insert the specified + * number of bytes in the FIFO and determine the number of extra bytes + * if the buffer length is not a multiple of 32 bit words + */ + + WordCount = ByteCount / XPF_FIFO_WIDTH_BYTE_COUNT; + ExtraByteCount = ByteCount % XPF_FIFO_WIDTH_BYTE_COUNT; + + /* take into account the extra bytes in the total word count */ + + if (ExtraByteCount > 0) { + WordCount++; + } + + /* if there's not enough room in the FIFO to hold the specified + * number of bytes, then indicate an error, + */ + if (FifoCount < WordCount) { + return XST_PFIFO_NO_ROOM; + } + + /* readjust the word count to not take into account the extra bytes */ + + if (ExtraByteCount > 0) { + WordCount--; + } + + /* Write all the bytes of the buffer which can be written as 32 bit + * words into the FIFO, waiting to handle the extra bytes seperately + */ + for (FifoCount = 0; FifoCount < WordCount; FifoCount++) { + XIo_Out32(InstancePtr->DataBaseAddress, WordBuffer[FifoCount]); + } + + /* if there are extra bytes to handle, extract them from the buffer + * and create a 32 bit word and write it to the FIFO + */ + if (ExtraByteCount > 0) { + u32 LastWord = 0; + u8 *ExtraBytesBuffer = (u8 *) (WordBuffer + WordCount); + + /* one extra byte in the buffer, put the byte into the last word + * to be inserted into the FIFO, perform this processing inline rather + * than in a loop to help performance + */ + if (ExtraByteCount == 1) { + LastWord = ExtraBytesBuffer[0] << 24; + } + + /* two extra bytes in the buffer, put each byte into the last word + * to be inserted into the FIFO + */ + else if (ExtraByteCount == 2) { + LastWord = ExtraBytesBuffer[0] << 24 | + ExtraBytesBuffer[1] << 16; + } + + /* three extra bytes in the buffer, put each byte into the last word + * to be inserted into the FIFO + */ + else if (ExtraByteCount == 3) { + LastWord = ExtraBytesBuffer[0] << 24 | + ExtraBytesBuffer[1] << 16 | + ExtraBytesBuffer[2] << 8; + } + + /* write the last 32 bit word to the FIFO and return with no errors */ + + XIo_Out32(InstancePtr->DataBaseAddress, LastWord); + } + + return XST_SUCCESS; +} diff --git a/board/xilinx/common/xpacket_fifo_v1_00_b.h b/board/xilinx/common/xpacket_fifo_v1_00_b.h new file mode 100644 index 0000000000..1cda0e8cc4 --- /dev/null +++ b/board/xilinx/common/xpacket_fifo_v1_00_b.h @@ -0,0 +1,306 @@ +/****************************************************************************** +* +* 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 xpacket_fifo_v1_00_b.h +* +* This component is a common component because it's primary purpose is to +* prevent code duplication in drivers. A driver which must handle a packet +* FIFO uses this component rather than directly manipulating a packet FIFO. +* +* A FIFO is a device which has dual port memory such that one user may be +* inserting data into the FIFO while another is consuming data from the FIFO. +* A packet FIFO is designed for use with packet protocols such as Ethernet and +* ATM. It is typically only used with devices when DMA and/or Scatter Gather +* is used. It differs from a nonpacket FIFO in that it does not provide any +* interrupts for thresholds of the FIFO such that it is less useful without +* DMA. +* +* @note +* +* This component has the capability to generate an interrupt when an error +* condition occurs. It is the user's responsibility to provide the interrupt +* processing to handle the interrupt. This component provides the ability to +* determine if that interrupt is active, a deadlock condition, and the ability +* to reset the FIFO to clear the condition. In this condition, the device which +* is using the FIFO should also be reset to prevent other problems. This error +* condition could occur as a normal part of operation if the size of the FIFO +* is not setup correctly. See the hardware IP specification for more details. +* +* <pre> +* MODIFICATION HISTORY: +* +* Ver Who Date Changes +* ----- ---- -------- ----------------------------------------------- +* 1.00b rpm 03/26/02 First release +* </pre> +* +*****************************************************************************/ +#ifndef XPACKET_FIFO_H /* prevent circular inclusions */ +#define XPACKET_FIFO_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" +#include "xstatus.h" + +/************************** Constant Definitions *****************************/ + +/* + * These constants specify the FIFO type and are mutually exclusive + */ +#define XPF_READ_FIFO_TYPE 0 /* a read FIFO */ +#define XPF_WRITE_FIFO_TYPE 1 /* a write FIFO */ + +/* + * These constants define the offsets to each of the registers from the + * register base address, each of the constants are a number of bytes + */ +#define XPF_RESET_REG_OFFSET 0UL +#define XPF_MODULE_INFO_REG_OFFSET 0UL +#define XPF_COUNT_STATUS_REG_OFFSET 4UL + +/* + * This constant is used with the Reset Register + */ +#define XPF_RESET_FIFO_MASK 0x0000000A + +/* + * These constants are used with the Occupancy/Vacancy Count Register. This + * register also contains FIFO status + */ +#define XPF_COUNT_MASK 0x0000FFFF +#define XPF_DEADLOCK_MASK 0x20000000 +#define XPF_ALMOST_EMPTY_FULL_MASK 0x40000000 +#define XPF_EMPTY_FULL_MASK 0x80000000 + +/**************************** Type Definitions *******************************/ + +/* + * The XPacketFifo driver instance data. The driver is required to allocate a + * variable of this type for every packet FIFO in the device. + */ +typedef struct { + u32 RegBaseAddress; /* Base address of registers */ + u32 IsReady; /* Device is initialized and ready */ + u32 DataBaseAddress; /* Base address of data for FIFOs */ +} XPacketFifoV100b; + +/***************** Macros (Inline Functions) Definitions *********************/ + +/*****************************************************************************/ +/* +* +* Reset the specified packet FIFO. Resetting a FIFO will cause any data +* contained in the FIFO to be lost. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* None. +* +* @note +* +* Signature: void XPF_V100B_RESET(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_RESET(InstancePtr) \ + XIo_Out32((InstancePtr)->RegBaseAddress + XPF_RESET_REG_OFFSET, XPF_RESET_FIFO_MASK); + +/*****************************************************************************/ +/* +* +* Get the occupancy count for a read packet FIFO and the vacancy count for a +* write packet FIFO. These counts indicate the number of 32-bit words +* contained (occupancy) in the FIFO or the number of 32-bit words available +* to write (vacancy) in the FIFO. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* The occupancy or vacancy count for the specified packet FIFO. +* +* @note +* +* Signature: u32 XPF_V100B_GET_COUNT(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_GET_COUNT(InstancePtr) \ + (XIo_In32((InstancePtr)->RegBaseAddress + XPF_COUNT_STATUS_REG_OFFSET) & \ + XPF_COUNT_MASK) + +/*****************************************************************************/ +/* +* +* Determine if the specified packet FIFO is almost empty. Almost empty is +* defined for a read FIFO when there is only one data word in the FIFO. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* TRUE if the packet FIFO is almost empty, FALSE otherwise. +* +* @note +* +* Signature: u32 XPF_V100B_IS_ALMOST_EMPTY(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_IS_ALMOST_EMPTY(InstancePtr) \ + (XIo_In32((InstancePtr)->RegBaseAddress + XPF_COUNT_STATUS_REG_OFFSET) & \ + XPF_ALMOST_EMPTY_FULL_MASK) + +/*****************************************************************************/ +/* +* +* Determine if the specified packet FIFO is almost full. Almost full is +* defined for a write FIFO when there is only one available data word in the +* FIFO. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* TRUE if the packet FIFO is almost full, FALSE otherwise. +* +* @note +* +* Signature: u32 XPF_V100B_IS_ALMOST_FULL(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_IS_ALMOST_FULL(InstancePtr) \ + (XIo_In32((InstancePtr)->RegBaseAddress + XPF_COUNT_STATUS_REG_OFFSET) & \ + XPF_ALMOST_EMPTY_FULL_MASK) + +/*****************************************************************************/ +/* +* +* Determine if the specified packet FIFO is empty. This applies only to a +* read FIFO. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* TRUE if the packet FIFO is empty, FALSE otherwise. +* +* @note +* +* Signature: u32 XPF_V100B_IS_EMPTY(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_IS_EMPTY(InstancePtr) \ + (XIo_In32((InstancePtr)->RegBaseAddress + XPF_COUNT_STATUS_REG_OFFSET) & \ + XPF_EMPTY_FULL_MASK) + +/*****************************************************************************/ +/* +* +* Determine if the specified packet FIFO is full. This applies only to a +* write FIFO. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* TRUE if the packet FIFO is full, FALSE otherwise. +* +* @note +* +* Signature: u32 XPF_V100B_IS_FULL(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_IS_FULL(InstancePtr) \ + (XIo_In32((InstancePtr)->RegBaseAddress + XPF_COUNT_STATUS_REG_OFFSET) & \ + XPF_EMPTY_FULL_MASK) + +/*****************************************************************************/ +/* +* +* Determine if the specified packet FIFO is deadlocked. This condition occurs +* when the FIFO is full and empty at the same time and is caused by a packet +* being written to the FIFO which exceeds the total data capacity of the FIFO. +* It occurs because of the mark/restore features of the packet FIFO which allow +* retransmission of a packet. The software should reset the FIFO and any devices +* using the FIFO when this condition occurs. +* +* @param InstancePtr contains a pointer to the FIFO to operate on. +* +* @return +* +* TRUE if the packet FIFO is deadlocked, FALSE otherwise. +* +* @note +* +* This component has the capability to generate an interrupt when an error +* condition occurs. It is the user's responsibility to provide the interrupt +* processing to handle the interrupt. This function provides the ability to +* determine if a deadlock condition, and the ability to reset the FIFO to +* clear the condition. +* +* In this condition, the device which is using the FIFO should also be reset +* to prevent other problems. This error condition could occur as a normal part +* of operation if the size of the FIFO is not setup correctly. +* +* Signature: u32 XPF_V100B_IS_DEADLOCKED(XPacketFifoV100b *InstancePtr) +* +******************************************************************************/ +#define XPF_V100B_IS_DEADLOCKED(InstancePtr) \ + (XIo_In32((InstancePtr)->RegBaseAddress + XPF_COUNT_STATUS_REG_OFFSET) & \ + XPF_DEADLOCK_MASK) + +/************************** Function Prototypes ******************************/ + +/* Standard functions */ + +XStatus XPacketFifoV100b_Initialize(XPacketFifoV100b * InstancePtr, + u32 RegBaseAddress, u32 DataBaseAddress); +XStatus XPacketFifoV100b_SelfTest(XPacketFifoV100b * InstancePtr, u32 FifoType); + +/* Data functions */ + +XStatus XPacketFifoV100b_Read(XPacketFifoV100b * InstancePtr, + u8 * ReadBufferPtr, u32 ByteCount); +XStatus XPacketFifoV100b_Write(XPacketFifoV100b * InstancePtr, + u8 * WriteBufferPtr, u32 ByteCount); + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xstatus.h b/board/xilinx/common/xstatus.h new file mode 100644 index 0000000000..ffda4d7d4d --- /dev/null +++ b/board/xilinx/common/xstatus.h @@ -0,0 +1,347 @@ +/****************************************************************************** +* +* 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 xstatus.h +* +* This file contains Xilinx software status codes. Status codes have their +* own data type called XStatus. These codes are used throughout the Xilinx +* device drivers. +* +******************************************************************************/ + +#ifndef XSTATUS_H /* prevent circular inclusions */ +#define XSTATUS_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" + +/************************** Constant Definitions *****************************/ + +/*********************** Common statuses 0 - 500 *****************************/ + +#define XST_SUCCESS 0L +#define XST_FAILURE 1L +#define XST_DEVICE_NOT_FOUND 2L +#define XST_DEVICE_BLOCK_NOT_FOUND 3L +#define XST_INVALID_VERSION 4L +#define XST_DEVICE_IS_STARTED 5L +#define XST_DEVICE_IS_STOPPED 6L +#define XST_FIFO_ERROR 7L /* an error occurred during an + operation with a FIFO such as + an underrun or overrun, this + error requires the device to + be reset */ +#define XST_RESET_ERROR 8L /* an error occurred which requires + the device to be reset */ +#define XST_DMA_ERROR 9L /* a DMA error occurred, this error + typically requires the device + using the DMA to be reset */ +#define XST_NOT_POLLED 10L /* the device is not configured for + polled mode operation */ +#define XST_FIFO_NO_ROOM 11L /* a FIFO did not have room to put + the specified data into */ +#define XST_BUFFER_TOO_SMALL 12L /* the buffer is not large enough + to hold the expected data */ +#define XST_NO_DATA 13L /* there was no data available */ +#define XST_REGISTER_ERROR 14L /* a register did not contain the + expected value */ +#define XST_INVALID_PARAM 15L /* an invalid parameter was passed + into the function */ +#define XST_NOT_SGDMA 16L /* the device is not configured for + scatter-gather DMA operation */ +#define XST_LOOPBACK_ERROR 17L /* a loopback test failed */ +#define XST_NO_CALLBACK 18L /* a callback has not yet been + * registered */ +#define XST_NO_FEATURE 19L /* device is not configured with + * the requested feature */ +#define XST_NOT_INTERRUPT 20L /* device is not configured for + * interrupt mode operation */ +#define XST_DEVICE_BUSY 21L /* device is busy */ +#define XST_ERROR_COUNT_MAX 22L /* the error counters of a device + * have maxed out */ +#define XST_IS_STARTED 23L /* used when part of device is + * already started i.e. + * sub channel */ +#define XST_IS_STOPPED 24L /* used when part of device is + * already stopped i.e. + * sub channel */ + +/***************** Utility Component statuses 401 - 500 *********************/ + +#define XST_MEMTEST_FAILED 401L /* memory test failed */ + +/***************** Common Components statuses 501 - 1000 *********************/ + +/********************* Packet Fifo statuses 501 - 510 ************************/ + +#define XST_PFIFO_LACK_OF_DATA 501L /* not enough data in FIFO */ +#define XST_PFIFO_NO_ROOM 502L /* not enough room in FIFO */ +#define XST_PFIFO_BAD_REG_VALUE 503L /* self test, a register value + was invalid after reset */ + +/************************** DMA statuses 511 - 530 ***************************/ + +#define XST_DMA_TRANSFER_ERROR 511L /* self test, DMA transfer + failed */ +#define XST_DMA_RESET_REGISTER_ERROR 512L /* self test, a register value + was invalid after reset */ +#define XST_DMA_SG_LIST_EMPTY 513L /* scatter gather list contains + no buffer descriptors ready + to be processed */ +#define XST_DMA_SG_IS_STARTED 514L /* scatter gather not stopped */ +#define XST_DMA_SG_IS_STOPPED 515L /* scatter gather not running */ +#define XST_DMA_SG_LIST_FULL 517L /* all the buffer desciptors of + the scatter gather list are + being used */ +#define XST_DMA_SG_BD_LOCKED 518L /* the scatter gather buffer + descriptor which is to be + copied over in the scatter + list is locked */ +#define XST_DMA_SG_NOTHING_TO_COMMIT 519L /* no buffer descriptors have been + put into the scatter gather + list to be commited */ +#define XST_DMA_SG_COUNT_EXCEEDED 521L /* the packet count threshold + specified was larger than the + total # of buffer descriptors + in the scatter gather list */ +#define XST_DMA_SG_LIST_EXISTS 522L /* the scatter gather list has + already been created */ +#define XST_DMA_SG_NO_LIST 523L /* no scatter gather list has + been created */ +#define XST_DMA_SG_BD_NOT_COMMITTED 524L /* the buffer descriptor which was + being started was not committed + to the list */ +#define XST_DMA_SG_NO_DATA 525L /* the buffer descriptor to start + has already been used by the + hardware so it can't be reused + */ + +/************************** IPIF statuses 531 - 550 ***************************/ + +#define XST_IPIF_REG_WIDTH_ERROR 531L /* an invalid register width + was passed into the function */ +#define XST_IPIF_RESET_REGISTER_ERROR 532L /* the value of a register at + reset was not valid */ +#define XST_IPIF_DEVICE_STATUS_ERROR 533L /* a write to the device interrupt + status register did not read + back correctly */ +#define XST_IPIF_DEVICE_ACK_ERROR 534L /* the device interrupt status + register did not reset when + acked */ +#define XST_IPIF_DEVICE_ENABLE_ERROR 535L /* the device interrupt enable + register was not updated when + other registers changed */ +#define XST_IPIF_IP_STATUS_ERROR 536L /* a write to the IP interrupt + status register did not read + back correctly */ +#define XST_IPIF_IP_ACK_ERROR 537L /* the IP interrupt status register + did not reset when acked */ +#define XST_IPIF_IP_ENABLE_ERROR 538L /* IP interrupt enable register was + not updated correctly when other + registers changed */ +#define XST_IPIF_DEVICE_PENDING_ERROR 539L /* The device interrupt pending + register did not indicate the + expected value */ +#define XST_IPIF_DEVICE_ID_ERROR 540L /* The device interrupt ID register + did not indicate the expected + value */ + +/****************** Device specific statuses 1001 - 4095 *********************/ + +/********************* Ethernet statuses 1001 - 1050 *************************/ + +#define XST_EMAC_MEMORY_SIZE_ERROR 1001L /* Memory space is not big enough + * to hold the minimum number of + * buffers or descriptors */ +#define XST_EMAC_MEMORY_ALLOC_ERROR 1002L /* Memory allocation failed */ +#define XST_EMAC_MII_READ_ERROR 1003L /* MII read error */ +#define XST_EMAC_MII_BUSY 1004L /* An MII operation is in progress */ +#define XST_EMAC_OUT_OF_BUFFERS 1005L /* Adapter is out of buffers */ +#define XST_EMAC_PARSE_ERROR 1006L /* Invalid adapter init string */ +#define XST_EMAC_COLLISION_ERROR 1007L /* Excess deferral or late + * collision on polled send */ + +/*********************** UART statuses 1051 - 1075 ***************************/ +#define XST_UART + +#define XST_UART_INIT_ERROR 1051L +#define XST_UART_START_ERROR 1052L +#define XST_UART_CONFIG_ERROR 1053L +#define XST_UART_TEST_FAIL 1054L +#define XST_UART_BAUD_ERROR 1055L +#define XST_UART_BAUD_RANGE 1056L + +/************************ IIC statuses 1076 - 1100 ***************************/ + +#define XST_IIC_SELFTEST_FAILED 1076 /* self test failed */ +#define XST_IIC_BUS_BUSY 1077 /* bus found busy */ +#define XST_IIC_GENERAL_CALL_ADDRESS 1078 /* mastersend attempted with */ + /* general call address */ +#define XST_IIC_STAND_REG_RESET_ERROR 1079 /* A non parameterizable reg */ + /* value after reset not valid */ +#define XST_IIC_TX_FIFO_REG_RESET_ERROR 1080 /* Tx fifo included in design */ + /* value after reset not valid */ +#define XST_IIC_RX_FIFO_REG_RESET_ERROR 1081 /* Rx fifo included in design */ + /* value after reset not valid */ +#define XST_IIC_TBA_REG_RESET_ERROR 1082 /* 10 bit addr incl in design */ + /* value after reset not valid */ +#define XST_IIC_CR_READBACK_ERROR 1083 /* Read of the control register */ + /* didn't return value written */ +#define XST_IIC_DTR_READBACK_ERROR 1084 /* Read of the data Tx reg */ + /* didn't return value written */ +#define XST_IIC_DRR_READBACK_ERROR 1085 /* Read of the data Receive reg */ + /* didn't return value written */ +#define XST_IIC_ADR_READBACK_ERROR 1086 /* Read of the data Tx reg */ + /* didn't return value written */ +#define XST_IIC_TBA_READBACK_ERROR 1087 /* Read of the 10 bit addr reg */ + /* didn't return written value */ +#define XST_IIC_NOT_SLAVE 1088 /* The device isn't a slave */ + +/*********************** ATMC statuses 1101 - 1125 ***************************/ + +#define XST_ATMC_ERROR_COUNT_MAX 1101L /* the error counters in the ATM + controller hit the max value + which requires the statistics + to be cleared */ + +/*********************** Flash statuses 1126 - 1150 **************************/ + +#define XST_FLASH_BUSY 1126L /* Flash is erasing or programming */ +#define XST_FLASH_READY 1127L /* Flash is ready for commands */ +#define XST_FLASH_ERROR 1128L /* Flash had detected an internal + error. Use XFlash_DeviceControl + to retrieve device specific codes */ +#define XST_FLASH_ERASE_SUSPENDED 1129L /* Flash is in suspended erase state */ +#define XST_FLASH_WRITE_SUSPENDED 1130L /* Flash is in suspended write state */ +#define XST_FLASH_PART_NOT_SUPPORTED 1131L /* Flash type not supported by + driver */ +#define XST_FLASH_NOT_SUPPORTED 1132L /* Operation not supported */ +#define XST_FLASH_TOO_MANY_REGIONS 1133L /* Too many erase regions */ +#define XST_FLASH_TIMEOUT_ERROR 1134L /* Programming or erase operation + aborted due to a timeout */ +#define XST_FLASH_ADDRESS_ERROR 1135L /* Accessed flash outside its + addressible range */ +#define XST_FLASH_ALIGNMENT_ERROR 1136L /* Write alignment error */ +#define XST_FLASH_BLOCKING_CALL_ERROR 1137L /* Couldn't return immediately from + write/erase function with + XFL_NON_BLOCKING_WRITE/ERASE + option cleared */ +#define XST_FLASH_CFI_QUERY_ERROR 1138L /* Failed to query the device */ + +/*********************** SPI statuses 1151 - 1175 ****************************/ + +#define XST_SPI_MODE_FAULT 1151 /* master was selected as slave */ +#define XST_SPI_TRANSFER_DONE 1152 /* data transfer is complete */ +#define XST_SPI_TRANSMIT_UNDERRUN 1153 /* slave underruns transmit register */ +#define XST_SPI_RECEIVE_OVERRUN 1154 /* device overruns receive register */ +#define XST_SPI_NO_SLAVE 1155 /* no slave has been selected yet */ +#define XST_SPI_TOO_MANY_SLAVES 1156 /* more than one slave is being + * selected */ +#define XST_SPI_NOT_MASTER 1157 /* operation is valid only as master */ +#define XST_SPI_SLAVE_ONLY 1158 /* device is configured as slave-only */ +#define XST_SPI_SLAVE_MODE_FAULT 1159 /* slave was selected while disabled */ + +/********************** OPB Arbiter statuses 1176 - 1200 *********************/ + +#define XST_OPBARB_INVALID_PRIORITY 1176 /* the priority registers have either + * one master assigned to two or more + * priorities, or one master not + * assigned to any priority + */ +#define XST_OPBARB_NOT_SUSPENDED 1177 /* an attempt was made to modify the + * priority levels without first + * suspending the use of priority + * levels + */ +#define XST_OPBARB_PARK_NOT_ENABLED 1178 /* bus parking by id was enabled but + * bus parking was not enabled + */ +#define XST_OPBARB_NOT_FIXED_PRIORITY 1179 /* the arbiter must be in fixed + * priority mode to allow the + * priorities to be changed + */ + +/************************ Intc statuses 1201 - 1225 **************************/ + +#define XST_INTC_FAIL_SELFTEST 1201 /* self test failed */ +#define XST_INTC_CONNECT_ERROR 1202 /* interrupt already in use */ + +/********************** TmrCtr statuses 1226 - 1250 **************************/ + +#define XST_TMRCTR_TIMER_FAILED 1226 /* self test failed */ + +/********************** WdtTb statuses 1251 - 1275 ***************************/ + +#define XST_WDTTB_TIMER_FAILED 1251L + +/********************** PlbArb statuses 1276 - 1300 **************************/ + +#define XST_PLBARB_FAIL_SELFTEST 1276L + +/********************** Plb2Opb statuses 1301 - 1325 *************************/ + +#define XST_PLB2OPB_FAIL_SELFTEST 1301L + +/********************** Opb2Plb statuses 1326 - 1350 *************************/ + +#define XST_OPB2PLB_FAIL_SELFTEST 1326L + +/********************** SysAce statuses 1351 - 1360 **************************/ + +#define XST_SYSACE_NO_LOCK 1351L /* No MPU lock has been granted */ + +/********************** PCI Bridge statuses 1361 - 1375 **********************/ + +#define XST_PCI_INVALID_ADDRESS 1361L + +/**************************** Type Definitions *******************************/ + +/** + * The status typedef. + */ +typedef u32 XStatus; + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Function Prototypes ******************************/ + +#endif /* end of protection macro */ diff --git a/board/xilinx/common/xversion.c b/board/xilinx/common/xversion.c new file mode 100644 index 0000000000..c8a6915858 --- /dev/null +++ b/board/xilinx/common/xversion.c @@ -0,0 +1,350 @@ +/****************************************************************************** +* +* 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. +* +******************************************************************************/ +/***************************************************************************** +* +* This file contains the implementation of the XVersion component. This +* component represents a version ID. It is encapsulated within a component +* so that it's type and implementation can change without affecting users of +* it. +* +* The version is formatted as X.YYZ where X = 0 - 9, Y = 00 - 99, Z = a - z +* X is the major revision, YY is the minor revision, and Z is the +* compatability revision. +* +* Packed versions are also utilized for the configuration ROM such that +* memory is minimized. A packed version consumes only 16 bits and is +* formatted as follows. +* +* <pre> +* Revision Range Bit Positions +* +* Major Revision 0 - 9 Bits 15 - 12 +* Minor Revision 0 - 99 Bits 11 - 5 +* Compatability Revision a - z Bits 4 - 0 +</pre> +* +******************************************************************************/ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" +#include "xversion.h" + +/************************** Constant Definitions *****************************/ + +/* the following constants define the masks and shift values to allow the + * revisions to be packed and unpacked, a packed version is packed into a 16 + * bit value in the following format, XXXXYYYYYYYZZZZZ, where XXXX is the + * major revision, YYYYYYY is the minor revision, and ZZZZZ is the compatability + * revision + */ +#define XVE_MAJOR_SHIFT_VALUE 12 +#define XVE_MINOR_ONLY_MASK 0x0FE0 +#define XVE_MINOR_SHIFT_VALUE 5 +#define XVE_COMP_ONLY_MASK 0x001F + +/* the following constants define the specific characters of a version string + * for each character of the revision, a version string is in the following + * format, "X.YYZ" where X is the major revision (0 - 9), YY is the minor + * revision (00 - 99), and Z is the compatability revision (a - z) + */ +#define XVE_MAJOR_CHAR 0 /* major revision 0 - 9 */ +#define XVE_MINOR_TENS_CHAR 2 /* minor revision tens 0 - 9 */ +#define XVE_MINOR_ONES_CHAR 3 /* minor revision ones 0 - 9 */ +#define XVE_COMP_CHAR 4 /* compatability revision a - z */ +#define XVE_END_STRING_CHAR 5 + +/**************************** Type Definitions *******************************/ + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Function Prototypes ******************************/ + +static u32 IsVersionStringValid(s8 * StringPtr); + +/***************************************************************************** +* +* Unpacks a packed version into the specified version. Versions are packed +* into the configuration ROM to reduce the amount storage. A packed version +* is a binary format as oppossed to a non-packed version which is implemented +* as a string. +* +* @param InstancePtr points to the version to unpack the packed version into. +* @param PackedVersion contains the packed version to unpack. +* +* @return +* +* None. +* +* @note +* +* None. +* +******************************************************************************/ +void +XVersion_UnPack(XVersion * InstancePtr, u16 PackedVersion) +{ + /* not implemented yet since CROM related */ +} + +/***************************************************************************** +* +* Packs a version into the specified packed version. Versions are packed into +* the configuration ROM to reduce the amount storage. +* +* @param InstancePtr points to the version to pack. +* @param PackedVersionPtr points to the packed version which will receive +* the new packed version. +* +* @return +* +* A status, XST_SUCCESS, indicating the packing was accomplished +* successfully, or an error, XST_INVALID_VERSION, indicating the specified +* input version was not valid such that the pack did not occur +* <br><br> +* The packed version pointed to by PackedVersionPtr is modified with the new +* packed version if the status indicates success. +* +* @note +* +* None. +* +******************************************************************************/ +XStatus +XVersion_Pack(XVersion * InstancePtr, u16 * PackedVersionPtr) +{ + /* not implemented yet since CROM related */ + + return XST_SUCCESS; +} + +/***************************************************************************** +* +* Determines if two versions are equal. +* +* @param InstancePtr points to the first version to be compared. +* @param VersionPtr points to a second version to be compared. +* +* @return +* +* TRUE if the versions are equal, FALSE otherwise. +* +* @note +* +* None. +* +******************************************************************************/ +u32 +XVersion_IsEqual(XVersion * InstancePtr, XVersion * VersionPtr) +{ + u8 *Version1 = (u8 *) InstancePtr; + u8 *Version2 = (u8 *) VersionPtr; + int Index; + + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(VersionPtr != NULL); + + /* check each byte of the versions to see if they are the same, + * return at any point a byte differs between them + */ + for (Index = 0; Index < sizeof (XVersion); Index++) { + if (Version1[Index] != Version2[Index]) { + return FALSE; + } + } + + /* No byte was found to be different between the versions, so indicate + * the versions are equal + */ + return TRUE; +} + +/***************************************************************************** +* +* Converts a version to a null terminated string. +* +* @param InstancePtr points to the version to convert. +* @param StringPtr points to the string which will be the result of the +* conversion. This does not need to point to a null terminated +* string as an input, but must point to storage which is an adequate +* amount to hold the result string. +* +* @return +* +* The null terminated string is inserted at the location pointed to by +* StringPtr if the status indicates success. +* +* @note +* +* It is necessary for the caller to have already allocated the storage to +* contain the string. The amount of memory necessary for the string is +* specified in the version header file. +* +******************************************************************************/ +void +XVersion_ToString(XVersion * InstancePtr, s8 * StringPtr) +{ + /* assert to verify input arguments */ + + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(StringPtr != NULL); + + /* since version is implemented as a string, just copy the specified + * input into the specified output + */ + XVersion_Copy(InstancePtr, (XVersion *) StringPtr); +} + +/***************************************************************************** +* +* Initializes a version from a null terminated string. Since the string may not +* be a format which is compatible with the version, an error could occur. +* +* @param InstancePtr points to the version which is to be initialized. +* @param StringPtr points to a null terminated string which will be +* converted to a version. The format of the string must match the +* version string format which is X.YYX where X = 0 - 9, YY = 00 - 99, +* Z = a - z. +* +* @return +* +* A status, XST_SUCCESS, indicating the conversion was accomplished +* successfully, or XST_INVALID_VERSION indicating the version string format +* was not valid. +* +* @note +* +* None. +* +******************************************************************************/ +XStatus +XVersion_FromString(XVersion * InstancePtr, s8 * StringPtr) +{ + /* assert to verify input arguments */ + + XASSERT_NONVOID(InstancePtr != NULL); + XASSERT_NONVOID(StringPtr != NULL); + + /* if the version string specified is not valid, return an error */ + + if (!IsVersionStringValid(StringPtr)) { + return XST_INVALID_VERSION; + } + + /* copy the specified string into the specified version and indicate the + * conversion was successful + */ + XVersion_Copy((XVersion *) StringPtr, InstancePtr); + + return XST_SUCCESS; +} + +/***************************************************************************** +* +* Copies the contents of a version to another version. +* +* @param InstancePtr points to the version which is the source of data for +* the copy operation. +* @param VersionPtr points to another version which is the destination of +* the copy operation. +* +* @return +* +* None. +* +* @note +* +* None. +* +******************************************************************************/ +void +XVersion_Copy(XVersion * InstancePtr, XVersion * VersionPtr) +{ + u8 *Source = (u8 *) InstancePtr; + u8 *Destination = (u8 *) VersionPtr; + int Index; + + /* assert to verify input arguments */ + + XASSERT_VOID(InstancePtr != NULL); + XASSERT_VOID(VersionPtr != NULL); + + /* copy each byte of the source version to the destination version */ + + for (Index = 0; Index < sizeof (XVersion); Index++) { + Destination[Index] = Source[Index]; + } +} + +/***************************************************************************** +* +* Determines if the specified version is valid. +* +* @param StringPtr points to the string to be validated. +* +* @return +* +* TRUE if the version string is a valid format, FALSE otherwise. +* +* @note +* +* None. +* +******************************************************************************/ +static u32 +IsVersionStringValid(s8 * StringPtr) +{ + /* if the input string is not a valid format, "X.YYZ" where X = 0 - 9, + * YY = 00 - 99, and Z = a - z, then indicate it's not valid + */ + if ((StringPtr[XVE_MAJOR_CHAR] < '0') || + (StringPtr[XVE_MAJOR_CHAR] > '9') || + (StringPtr[XVE_MINOR_TENS_CHAR] < '0') || + (StringPtr[XVE_MINOR_TENS_CHAR] > '9') || + (StringPtr[XVE_MINOR_ONES_CHAR] < '0') || + (StringPtr[XVE_MINOR_ONES_CHAR] > '9') || + (StringPtr[XVE_COMP_CHAR] < 'a') || + (StringPtr[XVE_COMP_CHAR] > 'z')) { + return FALSE; + } + + return TRUE; +} diff --git a/board/xilinx/common/xversion.h b/board/xilinx/common/xversion.h new file mode 100644 index 0000000000..17f9da7a02 --- /dev/null +++ b/board/xilinx/common/xversion.h @@ -0,0 +1,97 @@ +/****************************************************************************** +* +* 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. +* +******************************************************************************/ +/***************************************************************************** +* +* This file contains the interface for the XVersion component. This +* component represents a version ID. It is encapsulated within a component +* so that it's type and implementation can change without affecting users of +* it. +* +* The version is formatted as X.YYZ where X = 0 - 9, Y = 00 - 99, Z = a - z +* X is the major revision, YY is the minor revision, and Z is the +* compatability revision. +* +* Packed versions are also utilized for the configuration ROM such that +* memory is minimized. A packed version consumes only 16 bits and is +* formatted as follows. +* +* <pre> +* Revision Range Bit Positions +* +* Major Revision 0 - 9 Bits 15 - 12 +* Minor Revision 0 - 99 Bits 11 - 5 +* Compatability Revision a - z Bits 4 - 0 +* </pre> +* +******************************************************************************/ + +#ifndef XVERSION_H /* prevent circular inclusions */ +#define XVERSION_H /* by using protection macros */ + +/***************************** Include Files *********************************/ + +#include "xbasic_types.h" +#include "xstatus.h" + +/************************** Constant Definitions *****************************/ + +/**************************** Type Definitions *******************************/ + +/* the following data type is used to hold a null terminated version string + * consisting of the following format, "X.YYX" + */ +typedef s8 XVersion[6]; + +/***************** Macros (Inline Functions) Definitions *********************/ + +/************************** Function Prototypes ******************************/ + +void XVersion_UnPack(XVersion * InstancePtr, u16 PackedVersion); + +XStatus XVersion_Pack(XVersion * InstancePtr, u16 * PackedVersion); + +u32 XVersion_IsEqual(XVersion * InstancePtr, XVersion * VersionPtr); + +void XVersion_ToString(XVersion * InstancePtr, s8 * StringPtr); + +XStatus XVersion_FromString(XVersion * InstancePtr, s8 * StringPtr); + +void XVersion_Copy(XVersion * InstancePtr, XVersion * VersionPtr); + +#endif /* end of protection macro */ |