ef141a0bb0
This includes code for new fifo-based xps_hwicap in addition to the older opb_hwicap, which has a significantly different interface. The common code between the two drivers is largely shared. Significant differences exists between this driver and what is supported in the EDK drivers. In particular, most of the architecture-specific code for reconfiguring individual FPGA resources has been removed. This functionality is likely better provided in a user-space support library. In addition, read and write access is supported. In addition, although the xps_hwicap cores support interrupt-driver mode, this driver only supports polled operation, in order to make the code simpler, and since the interrupt processing overhead is likely to slow down the throughput under Linux. Signed-off-by: Stephen Neuendorffer <stephen.neuendorffer@xilinx.com> Signed-off-by: Grant Likely <grant.likely@secretlab.ca>
381 lines
12 KiB
C
381 lines
12 KiB
C
/*****************************************************************************
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*
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* Author: Xilinx, Inc.
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation; either version 2 of the License, or (at your
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* option) any later version.
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*
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* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS"
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* AS A COURTESY TO YOU, SOLELY FOR USE IN DEVELOPING PROGRAMS AND
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* SOLUTIONS FOR XILINX DEVICES. BY PROVIDING THIS DESIGN, CODE,
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* OR INFORMATION AS ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE,
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* APPLICATION OR STANDARD, XILINX IS MAKING NO REPRESENTATION
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* THAT THIS IMPLEMENTATION IS FREE FROM ANY CLAIMS OF INFRINGEMENT,
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* AND YOU ARE RESPONSIBLE FOR OBTAINING ANY RIGHTS YOU MAY REQUIRE
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* FOR YOUR IMPLEMENTATION. XILINX EXPRESSLY DISCLAIMS ANY
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* WARRANTY WHATSOEVER WITH RESPECT TO THE ADEQUACY OF THE
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* IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY WARRANTIES OR
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* REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM CLAIMS OF
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* INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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* FOR A PARTICULAR PURPOSE.
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*
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* Xilinx products are not intended for use in life support appliances,
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* devices, or systems. Use in such applications is expressly prohibited.
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*
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* (c) Copyright 2007-2008 Xilinx Inc.
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* All rights reserved.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 675 Mass Ave, Cambridge, MA 02139, USA.
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*
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*****************************************************************************/
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#include "fifo_icap.h"
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/* Register offsets for the XHwIcap device. */
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#define XHI_GIER_OFFSET 0x1C /* Device Global Interrupt Enable Reg */
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#define XHI_IPISR_OFFSET 0x20 /* Interrupt Status Register */
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#define XHI_IPIER_OFFSET 0x28 /* Interrupt Enable Register */
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#define XHI_WF_OFFSET 0x100 /* Write FIFO */
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#define XHI_RF_OFFSET 0x104 /* Read FIFO */
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#define XHI_SZ_OFFSET 0x108 /* Size Register */
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#define XHI_CR_OFFSET 0x10C /* Control Register */
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#define XHI_SR_OFFSET 0x110 /* Status Register */
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#define XHI_WFV_OFFSET 0x114 /* Write FIFO Vacancy Register */
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#define XHI_RFO_OFFSET 0x118 /* Read FIFO Occupancy Register */
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/* Device Global Interrupt Enable Register (GIER) bit definitions */
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#define XHI_GIER_GIE_MASK 0x80000000 /* Global Interrupt enable Mask */
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/**
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* HwIcap Device Interrupt Status/Enable Registers
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*
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* Interrupt Status Register (IPISR) : This register holds the
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* interrupt status flags for the device. These bits are toggle on
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* write.
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*
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* Interrupt Enable Register (IPIER) : This register is used to enable
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* interrupt sources for the device.
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* Writing a '1' to a bit enables the corresponding interrupt.
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* Writing a '0' to a bit disables the corresponding interrupt.
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*
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* IPISR/IPIER registers have the same bit definitions and are only defined
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* once.
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*/
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#define XHI_IPIXR_RFULL_MASK 0x00000008 /* Read FIFO Full */
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#define XHI_IPIXR_WEMPTY_MASK 0x00000004 /* Write FIFO Empty */
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#define XHI_IPIXR_RDP_MASK 0x00000002 /* Read FIFO half full */
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#define XHI_IPIXR_WRP_MASK 0x00000001 /* Write FIFO half full */
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#define XHI_IPIXR_ALL_MASK 0x0000000F /* Mask of all interrupts */
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/* Control Register (CR) */
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#define XHI_CR_SW_RESET_MASK 0x00000008 /* SW Reset Mask */
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#define XHI_CR_FIFO_CLR_MASK 0x00000004 /* FIFO Clear Mask */
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#define XHI_CR_READ_MASK 0x00000002 /* Read from ICAP to FIFO */
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#define XHI_CR_WRITE_MASK 0x00000001 /* Write from FIFO to ICAP */
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/* Status Register (SR) */
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#define XHI_SR_CFGERR_N_MASK 0x00000100 /* Config Error Mask */
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#define XHI_SR_DALIGN_MASK 0x00000080 /* Data Alignment Mask */
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#define XHI_SR_RIP_MASK 0x00000040 /* Read back Mask */
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#define XHI_SR_IN_ABORT_N_MASK 0x00000020 /* Select Map Abort Mask */
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#define XHI_SR_DONE_MASK 0x00000001 /* Done bit Mask */
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#define XHI_WFO_MAX_VACANCY 1024 /* Max Write FIFO Vacancy, in words */
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#define XHI_RFO_MAX_OCCUPANCY 256 /* Max Read FIFO Occupancy, in words */
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/* The maximum amount we can request from fifo_icap_get_configuration
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at once, in bytes. */
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#define XHI_MAX_READ_TRANSACTION_WORDS 0xFFF
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/**
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* fifo_icap_fifo_write: Write data to the write FIFO.
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* @parameter drvdata: a pointer to the drvdata.
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* @parameter data: the 32-bit value to be written to the FIFO.
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*
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* This function will silently fail if the fifo is full.
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**/
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static inline void fifo_icap_fifo_write(struct hwicap_drvdata *drvdata,
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u32 data)
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{
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dev_dbg(drvdata->dev, "fifo_write: %x\n", data);
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out_be32(drvdata->base_address + XHI_WF_OFFSET, data);
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}
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/**
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* fifo_icap_fifo_read: Read data from the Read FIFO.
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* @parameter drvdata: a pointer to the drvdata.
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*
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* This function will silently fail if the fifo is empty.
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**/
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static inline u32 fifo_icap_fifo_read(struct hwicap_drvdata *drvdata)
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{
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u32 data = in_be32(drvdata->base_address + XHI_RF_OFFSET);
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dev_dbg(drvdata->dev, "fifo_read: %x\n", data);
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return data;
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}
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/**
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* fifo_icap_set_read_size: Set the the size register.
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* @parameter drvdata: a pointer to the drvdata.
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* @parameter data: the size of the following read transaction, in words.
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**/
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static inline void fifo_icap_set_read_size(struct hwicap_drvdata *drvdata,
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u32 data)
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{
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out_be32(drvdata->base_address + XHI_SZ_OFFSET, data);
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}
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/**
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* fifo_icap_start_config: Initiate a configuration (write) to the device.
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* @parameter drvdata: a pointer to the drvdata.
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**/
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static inline void fifo_icap_start_config(struct hwicap_drvdata *drvdata)
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{
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out_be32(drvdata->base_address + XHI_CR_OFFSET, XHI_CR_WRITE_MASK);
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dev_dbg(drvdata->dev, "configuration started\n");
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}
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/**
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* fifo_icap_start_readback: Initiate a readback from the device.
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* @parameter drvdata: a pointer to the drvdata.
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**/
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static inline void fifo_icap_start_readback(struct hwicap_drvdata *drvdata)
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{
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out_be32(drvdata->base_address + XHI_CR_OFFSET, XHI_CR_READ_MASK);
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dev_dbg(drvdata->dev, "readback started\n");
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}
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/**
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* fifo_icap_busy: Return true if the ICAP is still processing a transaction.
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* @parameter drvdata: a pointer to the drvdata.
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**/
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static inline u32 fifo_icap_busy(struct hwicap_drvdata *drvdata)
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{
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u32 status = in_be32(drvdata->base_address + XHI_SR_OFFSET);
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dev_dbg(drvdata->dev, "Getting status = %x\n", status);
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return (status & XHI_SR_DONE_MASK) ? 0 : 1;
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}
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/**
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* fifo_icap_write_fifo_vacancy: Query the write fifo available space.
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* @parameter drvdata: a pointer to the drvdata.
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*
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* Return the number of words that can be safely pushed into the write fifo.
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**/
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static inline u32 fifo_icap_write_fifo_vacancy(
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struct hwicap_drvdata *drvdata)
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{
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return in_be32(drvdata->base_address + XHI_WFV_OFFSET);
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}
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/**
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* fifo_icap_read_fifo_occupancy: Query the read fifo available data.
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* @parameter drvdata: a pointer to the drvdata.
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*
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* Return the number of words that can be safely read from the read fifo.
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**/
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static inline u32 fifo_icap_read_fifo_occupancy(
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struct hwicap_drvdata *drvdata)
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{
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return in_be32(drvdata->base_address + XHI_RFO_OFFSET);
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}
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/**
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* fifo_icap_set_configuration: Send configuration data to the ICAP.
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* @parameter drvdata: a pointer to the drvdata.
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* @parameter frame_buffer: a pointer to the data to be written to the
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* ICAP device.
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* @parameter num_words: the number of words (32 bit) to write to the ICAP
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* device.
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* This function writes the given user data to the Write FIFO in
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* polled mode and starts the transfer of the data to
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* the ICAP device.
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**/
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int fifo_icap_set_configuration(struct hwicap_drvdata *drvdata,
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u32 *frame_buffer, u32 num_words)
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{
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u32 write_fifo_vacancy = 0;
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u32 retries = 0;
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u32 remaining_words;
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dev_dbg(drvdata->dev, "fifo_set_configuration\n");
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/*
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* Check if the ICAP device is Busy with the last Read/Write
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*/
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if (fifo_icap_busy(drvdata))
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return -EBUSY;
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/*
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* Set up the buffer pointer and the words to be transferred.
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*/
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remaining_words = num_words;
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while (remaining_words > 0) {
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/*
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* Wait until we have some data in the fifo.
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*/
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while (write_fifo_vacancy == 0) {
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write_fifo_vacancy =
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fifo_icap_write_fifo_vacancy(drvdata);
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retries++;
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if (retries > XHI_MAX_RETRIES)
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return -EIO;
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}
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/*
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* Write data into the Write FIFO.
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*/
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while ((write_fifo_vacancy != 0) &&
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(remaining_words > 0)) {
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fifo_icap_fifo_write(drvdata, *frame_buffer);
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remaining_words--;
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write_fifo_vacancy--;
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frame_buffer++;
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}
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/* Start pushing whatever is in the FIFO into the ICAP. */
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fifo_icap_start_config(drvdata);
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}
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/* Wait until the write has finished. */
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while (fifo_icap_busy(drvdata)) {
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retries++;
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if (retries > XHI_MAX_RETRIES)
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break;
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}
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dev_dbg(drvdata->dev, "done fifo_set_configuration\n");
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/*
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* If the requested number of words have not been read from
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* the device then indicate failure.
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*/
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if (remaining_words != 0)
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return -EIO;
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return 0;
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}
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/**
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* fifo_icap_get_configuration: Read configuration data from the device.
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* @parameter drvdata: a pointer to the drvdata.
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* @parameter data: Address of the data representing the partial bitstream
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* @parameter size: the size of the partial bitstream in 32 bit words.
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*
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* This function reads the specified number of words from the ICAP device in
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* the polled mode.
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*/
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int fifo_icap_get_configuration(struct hwicap_drvdata *drvdata,
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u32 *frame_buffer, u32 num_words)
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{
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u32 read_fifo_occupancy = 0;
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u32 retries = 0;
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u32 *data = frame_buffer;
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u32 remaining_words;
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u32 words_to_read;
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dev_dbg(drvdata->dev, "fifo_get_configuration\n");
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/*
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* Check if the ICAP device is Busy with the last Write/Read
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*/
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if (fifo_icap_busy(drvdata))
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return -EBUSY;
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remaining_words = num_words;
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while (remaining_words > 0) {
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words_to_read = remaining_words;
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/* The hardware has a limit on the number of words
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that can be read at one time. */
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if (words_to_read > XHI_MAX_READ_TRANSACTION_WORDS)
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words_to_read = XHI_MAX_READ_TRANSACTION_WORDS;
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remaining_words -= words_to_read;
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fifo_icap_set_read_size(drvdata, words_to_read);
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fifo_icap_start_readback(drvdata);
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while (words_to_read > 0) {
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/* Wait until we have some data in the fifo. */
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while (read_fifo_occupancy == 0) {
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read_fifo_occupancy =
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fifo_icap_read_fifo_occupancy(drvdata);
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retries++;
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if (retries > XHI_MAX_RETRIES)
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return -EIO;
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}
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if (read_fifo_occupancy > words_to_read)
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read_fifo_occupancy = words_to_read;
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words_to_read -= read_fifo_occupancy;
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/* Read the data from the Read FIFO. */
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while (read_fifo_occupancy != 0) {
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*data++ = fifo_icap_fifo_read(drvdata);
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read_fifo_occupancy--;
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}
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}
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}
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dev_dbg(drvdata->dev, "done fifo_get_configuration\n");
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return 0;
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}
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/**
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* buffer_icap_reset: Reset the logic of the icap device.
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* @parameter drvdata: a pointer to the drvdata.
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*
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* This function forces the software reset of the complete HWICAP device.
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* All the registers will return to the default value and the FIFO is also
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* flushed as a part of this software reset.
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*/
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void fifo_icap_reset(struct hwicap_drvdata *drvdata)
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{
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u32 reg_data;
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/*
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* Reset the device by setting/clearing the RESET bit in the
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* Control Register.
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*/
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reg_data = in_be32(drvdata->base_address + XHI_CR_OFFSET);
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out_be32(drvdata->base_address + XHI_CR_OFFSET,
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reg_data | XHI_CR_SW_RESET_MASK);
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out_be32(drvdata->base_address + XHI_CR_OFFSET,
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reg_data & (~XHI_CR_SW_RESET_MASK));
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}
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/**
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* fifo_icap_flush_fifo: This function flushes the FIFOs in the device.
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* @parameter drvdata: a pointer to the drvdata.
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*/
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void fifo_icap_flush_fifo(struct hwicap_drvdata *drvdata)
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{
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u32 reg_data;
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/*
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* Flush the FIFO by setting/clearing the FIFO Clear bit in the
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* Control Register.
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*/
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reg_data = in_be32(drvdata->base_address + XHI_CR_OFFSET);
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out_be32(drvdata->base_address + XHI_CR_OFFSET,
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reg_data | XHI_CR_FIFO_CLR_MASK);
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out_be32(drvdata->base_address + XHI_CR_OFFSET,
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reg_data & (~XHI_CR_FIFO_CLR_MASK));
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}
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