//////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////
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//// ////
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//// ////
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//// File name "pci_master32_sm_if.v" ////
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//// File name "pci_master32_sm_if.v" ////
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//// ////
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//// ////
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//// This file is part of the "PCI bridge" project ////
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//// This file is part of the "PCI bridge" project ////
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//// http://www.opencores.org/cores/pci/ ////
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//// http://www.opencores.org/cores/pci/ ////
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//// ////
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//// ////
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//// Author(s): ////
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//// Author(s): ////
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//// - Miha Dolenc (mihad@opencores.org) ////
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//// - Miha Dolenc (mihad@opencores.org) ////
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//// ////
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//// ////
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//// All additional information is avaliable in the README ////
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//// All additional information is avaliable in the README ////
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//// file. ////
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//// file. ////
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//// ////
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//// ////
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//// ////
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//// ////
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//////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////
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//// ////
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//// ////
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//// Copyright (C) 2001 Miha Dolenc, mihad@opencores.org ////
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//// Copyright (C) 2001 Miha Dolenc, mihad@opencores.org ////
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//// ////
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//// ////
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//// This source file may be used and distributed without ////
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//// This source file may be used and distributed without ////
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//// restriction provided that this copyright statement is not ////
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//// restriction provided that this copyright statement is not ////
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//// removed from the file and that any derivative work contains ////
|
//// removed from the file and that any derivative work contains ////
|
//// the original copyright notice and the associated disclaimer. ////
|
//// the original copyright notice and the associated disclaimer. ////
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//// ////
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//// ////
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//// This source file is free software; you can redistribute it ////
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//// This source file is free software; you can redistribute it ////
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//// and/or modify it under the terms of the GNU Lesser General ////
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//// and/or modify it under the terms of the GNU Lesser General ////
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//// Public License as published by the Free Software Foundation; ////
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//// Public License as published by the Free Software Foundation; ////
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//// either version 2.1 of the License, or (at your option) any ////
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//// either version 2.1 of the License, or (at your option) any ////
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//// later version. ////
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//// later version. ////
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//// ////
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//// ////
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//// This source is distributed in the hope that it will be ////
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//// This source is distributed in the hope that it will be ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
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//// PURPOSE. See the GNU Lesser General Public License for more ////
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//// PURPOSE. See the GNU Lesser General Public License for more ////
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//// details. ////
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//// details. ////
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//// ////
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//// ////
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//// You should have received a copy of the GNU Lesser General ////
|
//// You should have received a copy of the GNU Lesser General ////
|
//// Public License along with this source; if not, download it ////
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//// Public License along with this source; if not, download it ////
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//// from http://www.opencores.org/lgpl.shtml ////
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//// from http://www.opencores.org/lgpl.shtml ////
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//// ////
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//// ////
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//////////////////////////////////////////////////////////////////////
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//////////////////////////////////////////////////////////////////////
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//
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//
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// CVS Revision History
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// CVS Revision History
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//
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//
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// $Log: not supported by cvs2svn $
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// $Log: not supported by cvs2svn $
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// Revision 1.4 2003/01/27 16:49:31 mihad
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// Revision 1.4 2003/01/27 16:49:31 mihad
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// Changed module and file names. Updated scripts accordingly. FIFO synchronizations changed.
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// Changed module and file names. Updated scripts accordingly. FIFO synchronizations changed.
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//
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//
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// Revision 1.3 2002/02/01 15:25:12 mihad
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// Revision 1.3 2002/02/01 15:25:12 mihad
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// Repaired a few bugs, updated specification, added test bench files and design document
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// Repaired a few bugs, updated specification, added test bench files and design document
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//
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//
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// Revision 1.2 2001/10/05 08:14:29 mihad
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// Revision 1.2 2001/10/05 08:14:29 mihad
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// Updated all files with inclusion of timescale file for simulation purposes.
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// Updated all files with inclusion of timescale file for simulation purposes.
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//
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//
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// Revision 1.1.1.1 2001/10/02 15:33:46 mihad
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// Revision 1.1.1.1 2001/10/02 15:33:46 mihad
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// New project directory structure
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// New project directory structure
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//
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//
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//
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//
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|
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`include "pci_constants.v"
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`include "pci_constants.v"
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`include "bus_commands.v"
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`include "bus_commands.v"
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// synopsys translate_off
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// synopsys translate_off
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`include "timescale.v"
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`include "timescale.v"
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// synopsys translate_on
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// synopsys translate_on
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/*====================================================================
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/*====================================================================
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Module provides interface between PCI bridge internals and PCI master
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Module provides interface between PCI bridge internals and PCI master
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state machine
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state machine
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====================================================================*/
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====================================================================*/
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module pci_master32_sm_if
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module pci_master32_sm_if
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(
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(
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clk_in,
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clk_in,
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reset_in,
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reset_in,
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|
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// interconnect to pci master state machine
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// interconnect to pci master state machine
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address_out,
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address_out,
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bc_out,
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bc_out,
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data_out,
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data_out,
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data_in,
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data_in,
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be_out,
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be_out,
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req_out,
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req_out,
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rdy_out,
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rdy_out,
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last_out,
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last_out,
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|
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next_data_out,
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next_data_out,
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next_be_out,
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next_be_out,
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next_last_out,
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next_last_out,
|
|
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// status inputs from master SM
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// status inputs from master SM
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wait_in,
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wait_in,
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wtransfer_in,
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wtransfer_in,
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rtransfer_in,
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rtransfer_in,
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retry_in,
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retry_in,
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rerror_in,
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rerror_in,
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first_in ,
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first_in ,
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mabort_in,
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mabort_in,
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|
|
|
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// WISHBONE WRITE fifo inputs and outputs
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// WISHBONE WRITE fifo inputs and outputs
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wbw_renable_out,
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wbw_renable_out,
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wbw_fifo_addr_data_in,
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wbw_fifo_addr_data_in,
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wbw_fifo_cbe_in,
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wbw_fifo_cbe_in,
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wbw_fifo_control_in,
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wbw_fifo_control_in,
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wbw_fifo_empty_in,
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wbw_fifo_empty_in,
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wbw_fifo_transaction_ready_in,
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wbw_fifo_transaction_ready_in,
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|
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// WISHBONE READ fifo inputs and outputs
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// WISHBONE READ fifo inputs and outputs
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wbr_fifo_wenable_out,
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wbr_fifo_wenable_out,
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wbr_fifo_data_out,
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wbr_fifo_data_out,
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wbr_fifo_be_out,
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wbr_fifo_be_out,
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wbr_fifo_control_out,
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wbr_fifo_control_out,
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|
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// delayed transaction control logic inputs and outputs
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// delayed transaction control logic inputs and outputs
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del_wdata_in,
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del_wdata_in,
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del_complete_out,
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del_complete_out,
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del_req_in,
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del_req_in,
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del_addr_in,
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del_addr_in,
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del_bc_in,
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del_bc_in,
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del_be_in,
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del_be_in,
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del_burst_in,
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del_burst_in,
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del_error_out,
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del_error_out,
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del_rty_exp_out,
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del_rty_exp_out,
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del_we_in,
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del_we_in,
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|
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// configuration space interconnect
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// configuration space interconnect
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// error reporting
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// error reporting
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err_addr_out,
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err_addr_out,
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err_bc_out,
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err_bc_out,
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err_signal_out,
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err_signal_out,
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err_source_out,
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err_source_out,
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err_rty_exp_out,
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err_rty_exp_out,
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|
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cache_line_size_in,
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cache_line_size_in,
|
|
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// two signals for pci control and status
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// two signals for pci control and status
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mabort_received_out,
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mabort_received_out,
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tabort_received_out,
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tabort_received_out,
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|
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posted_write_not_present_out
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posted_write_not_present_out
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);
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);
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|
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// system inputs
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// system inputs
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input clk_in ;
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input clk_in ;
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input reset_in ;
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input reset_in ;
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|
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// PCI master state machine interconnect
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// PCI master state machine interconnect
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output [31:0] address_out ; // address output
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output [31:0] address_out ; // address output
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|
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output [3:0] bc_out ; // bus command output
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output [3:0] bc_out ; // bus command output
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reg [3:0] bc_out ;
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reg [3:0] bc_out ;
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|
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output [31:0] data_out ; // data output for writes
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output [31:0] data_out ; // data output for writes
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reg [31:0] data_out ;
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reg [31:0] data_out ;
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|
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input [31:0] data_in ; // data input for reads
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input [31:0] data_in ; // data input for reads
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output [3:0] be_out ; // byte enable output
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output [3:0] be_out ; // byte enable output
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reg [3:0] be_out ;
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reg [3:0] be_out ;
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|
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output req_out ; // request output
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output req_out ; // request output
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|
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output rdy_out ; // ready output
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output rdy_out ; // ready output
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reg rdy_out ;
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reg rdy_out ;
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|
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output last_out ; // last data indicator output
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output last_out ; // last data indicator output
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|
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output [31:0] next_data_out ; // next data output
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output [31:0] next_data_out ; // next data output
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output [3:0] next_be_out ; // next byte enable output
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output [3:0] next_be_out ; // next byte enable output
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output next_last_out ; // next transfer last indicator
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output next_last_out ; // next transfer last indicator
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|
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input wait_in,
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input wait_in,
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wtransfer_in,
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wtransfer_in,
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rtransfer_in,
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rtransfer_in,
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retry_in,
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retry_in,
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rerror_in,
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rerror_in,
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first_in ,
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first_in ,
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mabort_in ;
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mabort_in ;
|
|
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// WISHBONE write fifo interconnect
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// WISHBONE write fifo interconnect
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output wbw_renable_out ; // WBW_FIFO read enable signal
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output wbw_renable_out ; // WBW_FIFO read enable signal
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|
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input [31:0] wbw_fifo_addr_data_in ; // WBW_FIFO address/data bus
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input [31:0] wbw_fifo_addr_data_in ; // WBW_FIFO address/data bus
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input [3:0] wbw_fifo_cbe_in ; // WBW_FIFO command/byte enable bus
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input [3:0] wbw_fifo_cbe_in ; // WBW_FIFO command/byte enable bus
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input [3:0] wbw_fifo_control_in ; // WBW_FIFO control bus
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input [3:0] wbw_fifo_control_in ; // WBW_FIFO control bus
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input wbw_fifo_empty_in ; // WBW_FIFO's empty status indicator
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input wbw_fifo_empty_in ; // WBW_FIFO's empty status indicator
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input wbw_fifo_transaction_ready_in ; // WBW_FIFO transaction ready indicator
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input wbw_fifo_transaction_ready_in ; // WBW_FIFO transaction ready indicator
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|
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// WISHBONE read FIFO interconnect
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// WISHBONE read FIFO interconnect
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output wbr_fifo_wenable_out ; // write enable for WBR_FIFO
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output wbr_fifo_wenable_out ; // write enable for WBR_FIFO
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|
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output [31:0] wbr_fifo_data_out ; // data output to WBR_FIFO
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output [31:0] wbr_fifo_data_out ; // data output to WBR_FIFO
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|
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output [3:0] wbr_fifo_be_out ; // byte enable output for WBR_FIFO
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output [3:0] wbr_fifo_be_out ; // byte enable output for WBR_FIFO
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|
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output [3:0] wbr_fifo_control_out ; // WBR_FIFO control output
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output [3:0] wbr_fifo_control_out ; // WBR_FIFO control output
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|
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// delayed transaction control logic inputs and outputs
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// delayed transaction control logic inputs and outputs
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input [31:0] del_wdata_in ; // delayed write data input
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input [31:0] del_wdata_in ; // delayed write data input
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output del_complete_out ; // delayed transaction completed output
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output del_complete_out ; // delayed transaction completed output
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|
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input del_req_in ; // delayed transaction request
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input del_req_in ; // delayed transaction request
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input [31:0] del_addr_in ; // delayed transaction address
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input [31:0] del_addr_in ; // delayed transaction address
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input [3:0] del_bc_in ; // delayed transaction bus command input
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input [3:0] del_bc_in ; // delayed transaction bus command input
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input [3:0] del_be_in ; // delayed transaction byte enables input
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input [3:0] del_be_in ; // delayed transaction byte enables input
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input del_burst_in ; // delayed transaction burst req. indicator
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input del_burst_in ; // delayed transaction burst req. indicator
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output del_error_out ; // delayed transation error termination signal
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output del_error_out ; // delayed transation error termination signal
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|
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output del_rty_exp_out ; // retry expired output for delayed transactions
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output del_rty_exp_out ; // retry expired output for delayed transactions
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|
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input del_we_in ; // delayed write request indicator
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input del_we_in ; // delayed write request indicator
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|
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output [31:0] err_addr_out ; // erroneous address output
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output [31:0] err_addr_out ; // erroneous address output
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output [3:0] err_bc_out ; // erroneous bus command output
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output [3:0] err_bc_out ; // erroneous bus command output
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|
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output err_signal_out ; // error signalization
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output err_signal_out ; // error signalization
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|
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output err_source_out ; // error source indicator
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output err_source_out ; // error source indicator
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|
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input [7:0] cache_line_size_in ; // cache line size value input
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input [7:0] cache_line_size_in ; // cache line size value input
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|
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output err_rty_exp_out ; // retry expired error output
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output err_rty_exp_out ; // retry expired error output
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|
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output mabort_received_out ; // master abort signaled to status register
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output mabort_received_out ; // master abort signaled to status register
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output tabort_received_out ; // target abort signaled to status register
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output tabort_received_out ; // target abort signaled to status register
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|
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output posted_write_not_present_out ; // used in target state machine - must deny read completions when this signal is 0
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output posted_write_not_present_out ; // used in target state machine - must deny read completions when this signal is 0
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|
|
|
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assign err_bc_out = bc_out ;
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assign err_bc_out = bc_out ;
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|
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// assign read outputs
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// assign read outputs
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/*==================================================================================================================
|
/*==================================================================================================================
|
WISHBONE read FIFO data outputs - just link them to SM data outputs and delayed BE input
|
WISHBONE read FIFO data outputs - just link them to SM data outputs and delayed BE input
|
==================================================================================================================*/
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==================================================================================================================*/
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assign wbr_fifo_data_out = data_in ;
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assign wbr_fifo_data_out = data_in ;
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assign wbr_fifo_be_out = del_be_in ;
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assign wbr_fifo_be_out = del_be_in ;
|
|
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// decode if current bus command is configuration command
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// decode if current bus command is configuration command
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wire conf_cyc_bc = ( bc_out[3:1] == `BC_CONF_RW ) ;
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wire conf_cyc_bc = ( bc_out[3:1] == `BC_CONF_RW ) ;
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|
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// register for indicating that current data is also last in transfer
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// register for indicating that current data is also last in transfer
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reg current_last ;
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reg current_last ;
|
|
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// register indicating that last data was transfered OK
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// register indicating that last data was transfered OK
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reg last_transfered ;
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reg last_transfered ;
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always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
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if (reset_in)
|
if (reset_in)
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last_transfered <= #`FF_DELAY 1'b0 ;
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last_transfered <= #`FF_DELAY 1'b0 ;
|
else
|
else
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last_transfered <= #`FF_DELAY ~wait_in && last_out && wtransfer_in ;
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last_transfered <= #`FF_DELAY ~wait_in && last_out && wtransfer_in ;
|
end
|
end
|
|
|
// status signals output assignement
|
// status signals output assignement
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assign mabort_received_out = mabort_in ;
|
assign mabort_received_out = mabort_in ;
|
|
|
wire tabort_ff_in = ~wait_in && rerror_in ;
|
wire tabort_ff_in = ~wait_in && rerror_in ;
|
|
|
reg tabort_received_out ;
|
reg tabort_received_out ;
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if ( reset_in )
|
if ( reset_in )
|
tabort_received_out <= #`FF_DELAY 1'b0 ;
|
tabort_received_out <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
tabort_received_out <= #`FF_DELAY tabort_ff_in ;
|
tabort_received_out <= #`FF_DELAY tabort_ff_in ;
|
end
|
end
|
|
|
// error recovery indicator
|
// error recovery indicator
|
reg err_recovery ;
|
reg err_recovery ;
|
|
|
// operation is locked until error recovery is in progress or error bit is not cleared in configuration space
|
// operation is locked until error recovery is in progress or error bit is not cleared in configuration space
|
wire err_lock = err_recovery ;
|
wire err_lock = err_recovery ;
|
|
|
// three requests are possible - posted write, delayed write and delayed read
|
// three requests are possible - posted write, delayed write and delayed read
|
reg del_write_req ;
|
reg del_write_req ;
|
reg posted_write_req ;
|
reg posted_write_req ;
|
reg del_read_req ;
|
reg del_read_req ;
|
|
|
// assign request output
|
// assign request output
|
assign req_out = del_write_req || posted_write_req || del_read_req ;
|
assign req_out = del_write_req || posted_write_req || del_read_req ;
|
|
|
// posted write is not present, when WB Write Fifo is empty and posted write transaction is not beeing requested at present time
|
// posted write is not present, when WB Write Fifo is empty and posted write transaction is not beeing requested at present time
|
assign posted_write_not_present_out = !posted_write_req && wbw_fifo_empty_in ;
|
assign posted_write_not_present_out = !posted_write_req && wbw_fifo_empty_in ;
|
|
|
// write requests are staged, so data is read from source into current data register and next data register
|
// write requests are staged, so data is read from source into current data register and next data register
|
reg write_req_int ;
|
reg write_req_int ;
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if ( reset_in )
|
if ( reset_in )
|
write_req_int <= #`FF_DELAY 1'b0 ;
|
write_req_int <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
write_req_int <= #`FF_DELAY posted_write_req || del_write_req ;
|
write_req_int <= #`FF_DELAY posted_write_req || del_write_req ;
|
|
|
end
|
end
|
|
|
// ready output is generated one clock after request for reads and two after for writes
|
// ready output is generated one clock after request for reads and two after for writes
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
rdy_out <= #`FF_DELAY 1'b0 ;
|
rdy_out <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
rdy_out <= #`FF_DELAY del_read_req || ( (posted_write_req || del_write_req) && write_req_int) ;
|
rdy_out <= #`FF_DELAY del_read_req || ( (posted_write_req || del_write_req) && write_req_int) ;
|
end
|
end
|
|
|
// wires with logic used as inputs to request FFs
|
// wires with logic used as inputs to request FFs
|
wire do_posted_write = ( wbw_fifo_transaction_ready_in && ~wbw_fifo_empty_in && ~err_lock ) ;
|
wire do_posted_write = ( wbw_fifo_transaction_ready_in && ~wbw_fifo_empty_in && ~err_lock ) ;
|
wire do_del = ( del_req_in && ~err_lock && wbw_fifo_empty_in ) ;
|
wire do_del = ( del_req_in && ~err_lock && wbw_fifo_empty_in ) ;
|
wire do_del_write = do_del && del_we_in ;
|
wire do_del_write = do_del && del_we_in ;
|
wire do_del_read = do_del && ~del_we_in ;
|
wire do_del_read = do_del && ~del_we_in ;
|
|
|
// register for indicating current operation's data source
|
// register for indicating current operation's data source
|
parameter DELAYED_WRITE = 1'b1 ;
|
parameter DELAYED_WRITE = 1'b1 ;
|
parameter POSTED_WRITE = 1'b0 ;
|
parameter POSTED_WRITE = 1'b0 ;
|
|
|
// new data source - depending on which transaction will be processed next - delayed read is here because source of byte enables must
|
// new data source - depending on which transaction will be processed next - delayed read is here because source of byte enables must
|
// be specified for delayed reads also - data source is not relevant for delayed reads, so value is don't care anyway
|
// be specified for delayed reads also - data source is not relevant for delayed reads, so value is don't care anyway
|
wire new_data_source = (do_del_write || do_del_read) ? DELAYED_WRITE : POSTED_WRITE ; // input to data source register
|
wire new_data_source = (do_del_write || do_del_read) ? DELAYED_WRITE : POSTED_WRITE ; // input to data source register
|
wire data_source_change = ~req_out ; // change (enable) for data source register - when no requests are in progress
|
wire data_source_change = ~req_out ; // change (enable) for data source register - when no requests are in progress
|
|
|
reg data_source ; // data source value
|
reg data_source ; // data source value
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
// default value is posted write source - wbw_fifo
|
// default value is posted write source - wbw_fifo
|
data_source <= #`FF_DELAY POSTED_WRITE ;
|
data_source <= #`FF_DELAY POSTED_WRITE ;
|
else
|
else
|
if (data_source_change)
|
if (data_source_change)
|
// change data source on rising clock edge
|
// change data source on rising clock edge
|
data_source <= #`FF_DELAY new_data_source ;
|
data_source <= #`FF_DELAY new_data_source ;
|
end
|
end
|
|
|
// multiplexer for data output to PCI MASTER state machine
|
// multiplexer for data output to PCI MASTER state machine
|
reg [31:0] source_data ;
|
reg [31:0] source_data ;
|
reg [3:0] source_be ;
|
reg [3:0] source_be ;
|
always@(data_source or wbw_fifo_addr_data_in or wbw_fifo_cbe_in or del_wdata_in or del_be_in or del_burst_in)
|
always@(data_source or wbw_fifo_addr_data_in or wbw_fifo_cbe_in or del_wdata_in or del_be_in or del_burst_in)
|
begin
|
begin
|
case (data_source)
|
case (data_source)
|
POSTED_WRITE: begin
|
POSTED_WRITE: begin
|
source_data = wbw_fifo_addr_data_in ;
|
source_data = wbw_fifo_addr_data_in ;
|
source_be = wbw_fifo_cbe_in ;
|
source_be = wbw_fifo_cbe_in ;
|
end
|
end
|
DELAYED_WRITE: begin
|
DELAYED_WRITE: begin
|
source_data = del_wdata_in ;
|
source_data = del_wdata_in ;
|
// read all bytes during delayed burst read!
|
// read all bytes during delayed burst read!
|
source_be = ~( del_be_in | {4{del_burst_in}} ) ;
|
source_be = ~( del_be_in | {4{del_burst_in}} ) ;
|
end
|
end
|
endcase
|
endcase
|
end
|
end
|
|
|
wire waddr = wbw_fifo_control_in[`ADDR_CTRL_BIT] ;
|
wire waddr = wbw_fifo_control_in[`ADDR_CTRL_BIT] ;
|
|
|
// address change indicator - address is allowed to be loaded only when no transaction is in progress!
|
// address change indicator - address is allowed to be loaded only when no transaction is in progress!
|
wire address_change = ~req_out ; // address change - whenever there is no request in progress
|
wire address_change = ~req_out ; // address change - whenever there is no request in progress
|
|
|
// new address - input to register storing address of current request - if posted write request will be next,
|
// new address - input to register storing address of current request - if posted write request will be next,
|
// load address and bus command from wbw_fifo, else load data from delayed transaction logic
|
// load address and bus command from wbw_fifo, else load data from delayed transaction logic
|
wire [31:0] new_address = ( ~req_out && do_posted_write ) ? wbw_fifo_addr_data_in[31:0] : del_addr_in[31:0] ;
|
wire [31:0] new_address = ( ~req_out && do_posted_write ) ? wbw_fifo_addr_data_in[31:0] : del_addr_in[31:0] ;
|
wire [3:0] new_bc = ( ~req_out && do_posted_write ) ? wbw_fifo_cbe_in : del_bc_in ;
|
wire [3:0] new_bc = ( ~req_out && do_posted_write ) ? wbw_fifo_cbe_in : del_bc_in ;
|
|
|
// address counter enable - only for posted writes when data is actually transfered
|
// address counter enable - only for posted writes when data is actually transfered
|
wire addr_count_en = ~wait_in && posted_write_req && rtransfer_in ;
|
wire addr_count_en = ~wait_in && posted_write_req && rtransfer_in ;
|
|
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
bc_out <= #`FF_DELAY `BC_RESERVED0 ;
|
bc_out <= #`FF_DELAY `BC_RESERVED0 ;
|
else
|
else
|
if (address_change)
|
if (address_change)
|
bc_out <= #`FF_DELAY new_bc ;
|
bc_out <= #`FF_DELAY new_bc ;
|
end
|
end
|
|
|
reg [29:0] current_dword_address ;
|
reg [29:0] current_dword_address ;
|
|
|
// DWORD address counter with load
|
// DWORD address counter with load
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
current_dword_address <= #`FF_DELAY 30'h0000_0000 ;
|
current_dword_address <= #`FF_DELAY 30'h0000_0000 ;
|
else
|
else
|
if (address_change)
|
if (address_change)
|
current_dword_address <= #`FF_DELAY new_address[31:2] ;
|
current_dword_address <= #`FF_DELAY new_address[31:2] ;
|
else
|
else
|
if (addr_count_en)
|
if (addr_count_en)
|
current_dword_address <= #`FF_DELAY current_dword_address + 1'b1 ;
|
current_dword_address <= #`FF_DELAY current_dword_address + 1'b1 ;
|
end
|
end
|
|
|
reg [1:0] current_byte_address ;
|
reg [1:0] current_byte_address ;
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
current_byte_address <= #`FF_DELAY 2'b00 ;
|
current_byte_address <= #`FF_DELAY 2'b00 ;
|
else
|
else
|
if (address_change)
|
if (address_change)
|
current_byte_address <= #`FF_DELAY new_address[1:0] ;
|
current_byte_address <= #`FF_DELAY new_address[1:0] ;
|
end
|
end
|
|
|
// address output to PCI master state machine assignement
|
// address output to PCI master state machine assignement
|
assign address_out = { current_dword_address, current_byte_address } ;
|
assign address_out = { current_dword_address, current_byte_address } ;
|
|
|
// the same for erroneous address assignement
|
// the same for erroneous address assignement
|
assign err_addr_out = { current_dword_address, current_byte_address } ;
|
assign err_addr_out = { current_dword_address, current_byte_address } ;
|
|
|
// cacheline size counter - for read transaction length control
|
// cacheline size counter - for read transaction length control
|
// cache line count is enabled during burst reads when data is actually transfered
|
// cache line count is enabled during burst reads when data is actually transfered
|
wire read_count_enable = ~wait_in && del_read_req && del_burst_in && wtransfer_in ;
|
wire read_count_enable = ~wait_in && del_read_req && del_burst_in && wtransfer_in ;
|
|
|
// cache line counter is loaded when del read request is not in progress
|
// cache line counter is loaded when del read request is not in progress
|
wire read_count_load = ~del_read_req ;
|
wire read_count_load = ~del_read_req ;
|
|
|
reg [(`WBR_ADDR_LENGTH - 1):0] max_read_count ;
|
reg [(`WBR_ADDR_LENGTH - 1):0] max_read_count ;
|
always@(cache_line_size_in or del_bc_in)
|
always@(cache_line_size_in or del_bc_in)
|
begin
|
begin
|
if ( (cache_line_size_in >= `WBR_DEPTH) || (~del_bc_in[1] && ~del_bc_in[0]) )
|
if ( (cache_line_size_in >= `WBR_DEPTH) || (~del_bc_in[1] && ~del_bc_in[0]) )
|
max_read_count = `WBR_DEPTH - 1'b1;
|
max_read_count = `WBR_DEPTH - 1'b1;
|
else
|
else
|
max_read_count = cache_line_size_in ;
|
max_read_count = cache_line_size_in ;
|
end
|
end
|
|
|
reg [(`WBR_ADDR_LENGTH - 1):0] read_count ;
|
reg [(`WBR_ADDR_LENGTH - 1):0] read_count ;
|
|
|
// cache line bound indicator - it signals when data for one complete cacheline was read
|
// cache line bound indicator - it signals when data for one complete cacheline was read
|
wire read_bound_comb = ~|(read_count[(`WBR_ADDR_LENGTH - 1):2]) ;
|
wire read_bound_comb = ~|(read_count[(`WBR_ADDR_LENGTH - 1):2]) ;
|
reg read_bound ;
|
reg read_bound ;
|
always@(posedge clk_in or posedge reset_in)
|
always@(posedge clk_in or posedge reset_in)
|
begin
|
begin
|
if ( reset_in )
|
if ( reset_in )
|
read_bound <= #`FF_DELAY 1'b0 ;
|
read_bound <= #`FF_DELAY 1'b0 ;
|
else if (read_count_load)
|
else if (read_count_load)
|
read_bound <= #`FF_DELAY 1'b0 ;
|
read_bound <= #`FF_DELAY 1'b0 ;
|
else if ( read_count_enable )
|
else if ( read_count_enable )
|
read_bound <= #`FF_DELAY read_bound_comb ;
|
read_bound <= #`FF_DELAY read_bound_comb ;
|
end
|
end
|
|
|
wire read_count_change_val = read_count_load | read_count_enable ;
|
wire read_count_change_val = read_count_load | read_count_enable ;
|
|
|
wire [(`WBR_ADDR_LENGTH - 1):0] read_count_next = read_count_load ? max_read_count : (read_count - 1'b1) ;
|
wire [(`WBR_ADDR_LENGTH - 1):0] read_count_next = read_count_load ? max_read_count : (read_count - 1'b1) ;
|
|
|
// down counter with load
|
// down counter with load
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
read_count <= #`FF_DELAY 0 ;
|
read_count <= #`FF_DELAY 0 ;
|
else
|
else
|
/* if (read_count_load)
|
/* if (read_count_load)
|
read_count <= #`FF_DELAY max_read_count ;
|
read_count <= #`FF_DELAY max_read_count ;
|
else
|
else
|
if (read_count_enable)
|
if (read_count_enable)
|
read_count <= #`FF_DELAY read_count - 1'b1 ;
|
read_count <= #`FF_DELAY read_count - 1'b1 ;
|
*/ if (read_count_change_val)
|
*/ if (read_count_change_val)
|
read_count <= #`FF_DELAY read_count_next ;
|
read_count <= #`FF_DELAY read_count_next ;
|
end
|
end
|
|
|
// flip flop indicating error recovery is in progress
|
// flip flop indicating error recovery is in progress
|
reg err_recovery_in ;
|
reg err_recovery_in ;
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
err_recovery <= #`FF_DELAY 1'b0 ;
|
err_recovery <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
err_recovery <= #`FF_DELAY err_recovery_in ;
|
err_recovery <= #`FF_DELAY err_recovery_in ;
|
end
|
end
|
|
|
/*// retry counter implementation
|
/*// retry counter implementation
|
reg [7:0] retry_count ;
|
reg [7:0] retry_count ;
|
|
|
wire retry_expired = ~|(retry_count[7:1]) ;
|
wire retry_expired = ~|(retry_count[7:1]) ;
|
|
|
// loading of retry counter - whenever no request is present or other termination than retry or wait is signalled
|
// loading of retry counter - whenever no request is present or other termination than retry or wait is signalled
|
wire retry_load = ~req_out || (~wait_in && rtransfer_in) ;
|
wire retry_load = ~req_out || (~wait_in && rtransfer_in) ;
|
|
|
// retry DOWN counter with load
|
// retry DOWN counter with load
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
retry_count <= #`FF_DELAY 8'hFF ;
|
retry_count <= #`FF_DELAY 8'hFF ;
|
else
|
else
|
if ( retry_load )
|
if ( retry_load )
|
retry_count <= #`FF_DELAY `PCI_RTY_CNT_MAX ;
|
retry_count <= #`FF_DELAY `PCI_RTY_CNT_MAX ;
|
else
|
else
|
if (retry_in)
|
if (retry_in)
|
retry_count <= #`FF_DELAY retry_count - 1'b1 ;
|
retry_count <= #`FF_DELAY retry_count - 1'b1 ;
|
end*/
|
end*/
|
|
|
/*==================================================================================================================
|
/*==================================================================================================================
|
Delayed write requests are always single transfers!
|
Delayed write requests are always single transfers!
|
Delayed write request starts, when no request is currently beeing processed and it is signaled from other side
|
Delayed write request starts, when no request is currently beeing processed and it is signaled from other side
|
of the bridge.
|
of the bridge.
|
==================================================================================================================*/
|
==================================================================================================================*/
|
// delayed write request FF input control
|
// delayed write request FF input control
|
reg del_write_req_input ;
|
reg del_write_req_input ;
|
|
|
always@(
|
always@(
|
do_del_write or
|
do_del_write or
|
del_write_req or
|
del_write_req or
|
posted_write_req or
|
posted_write_req or
|
del_read_req or
|
del_read_req or
|
wait_in or
|
wait_in or
|
//retry_in or
|
//retry_in or
|
//retry_expired or
|
//retry_expired or
|
rtransfer_in or
|
rtransfer_in or
|
rerror_in or
|
rerror_in or
|
mabort_in
|
mabort_in
|
)
|
)
|
begin
|
begin
|
if (~del_write_req)
|
if (~del_write_req)
|
begin
|
begin
|
// delayed write is not in progress and is requested
|
// delayed write is not in progress and is requested
|
// delayed write can be requested when no other request is in progress
|
// delayed write can be requested when no other request is in progress
|
del_write_req_input = ~posted_write_req && ~del_read_req && do_del_write ;
|
del_write_req_input = ~posted_write_req && ~del_read_req && do_del_write ;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
// delayed write request is in progress - assign input
|
// delayed write request is in progress - assign input
|
del_write_req_input = wait_in ||
|
del_write_req_input = wait_in ||
|
( /*~( retry_in && retry_expired) &&*/
|
( /*~( retry_in && retry_expired) &&*/
|
~rtransfer_in && ~rerror_in && ~mabort_in
|
~rtransfer_in && ~rerror_in && ~mabort_in
|
);
|
);
|
end
|
end
|
end
|
end
|
|
|
// delayed write request FLIP-FLOP
|
// delayed write request FLIP-FLOP
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
del_write_req <= #`FF_DELAY 1'b0 ;
|
del_write_req <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
del_write_req <= #`FF_DELAY del_write_req_input ;
|
del_write_req <= #`FF_DELAY del_write_req_input ;
|
end
|
end
|
|
|
/*================================================================================================
|
/*================================================================================================
|
Posted write request indicator.
|
Posted write request indicator.
|
Posted write starts whenever no request is in progress and one whole posted write is
|
Posted write starts whenever no request is in progress and one whole posted write is
|
stored in WBW_FIFO. It ends on error terminations ( master, target abort, retry expired) or
|
stored in WBW_FIFO. It ends on error terminations ( master, target abort, retry expired) or
|
data transfer terminations if last data is on top of FIFO.
|
data transfer terminations if last data is on top of FIFO.
|
Continues on wait, retry, and disconnect without data.
|
Continues on wait, retry, and disconnect without data.
|
================================================================================================*/
|
================================================================================================*/
|
// posted write request FF input control
|
// posted write request FF input control
|
reg posted_write_req_input ;
|
reg posted_write_req_input ;
|
always@(
|
always@(
|
do_posted_write or
|
do_posted_write or
|
del_write_req or
|
del_write_req or
|
posted_write_req or
|
posted_write_req or
|
del_read_req or
|
del_read_req or
|
wait_in or
|
wait_in or
|
//retry_in or
|
//retry_in or
|
rerror_in or
|
rerror_in or
|
mabort_in or
|
mabort_in or
|
//retry_expired or
|
//retry_expired or
|
rtransfer_in or
|
rtransfer_in or
|
last_transfered
|
last_transfered
|
)
|
)
|
begin
|
begin
|
if (~posted_write_req)
|
if (~posted_write_req)
|
begin
|
begin
|
// posted write is not in progress
|
// posted write is not in progress
|
posted_write_req_input = ~del_write_req && ~del_read_req && do_posted_write ;
|
posted_write_req_input = ~del_write_req && ~del_read_req && do_posted_write ;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
posted_write_req_input = wait_in ||
|
posted_write_req_input = wait_in ||
|
(/*~(retry_in && retry_expired && ~rtransfer_in) &&*/
|
(/*~(retry_in && retry_expired && ~rtransfer_in) &&*/
|
~rerror_in && ~mabort_in &&
|
~rerror_in && ~mabort_in &&
|
~(last_transfered)
|
~(last_transfered)
|
) ;
|
) ;
|
|
|
end
|
end
|
end
|
end
|
|
|
// posted write request flip flop
|
// posted write request flip flop
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
posted_write_req <= #`FF_DELAY 1'b0 ;
|
posted_write_req <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
posted_write_req <= #`FF_DELAY posted_write_req_input ;
|
posted_write_req <= #`FF_DELAY posted_write_req_input ;
|
|
|
end
|
end
|
|
|
/*================================================================================================
|
/*================================================================================================
|
Delayed read request indicator.
|
Delayed read request indicator.
|
Delayed read starts whenever no request is in progress and delayed read request is signaled from
|
Delayed read starts whenever no request is in progress and delayed read request is signaled from
|
other side of bridge. It ends on error terminations ( master, target abort, retry expired) or
|
other side of bridge. It ends on error terminations ( master, target abort, retry expired) or
|
data transfer terminations if it is not burst transfer or on cache line bounds on burst transfer.
|
data transfer terminations if it is not burst transfer or on cache line bounds on burst transfer.
|
It also ends on disconnects.
|
It also ends on disconnects.
|
Continues on wait and retry.
|
Continues on wait and retry.
|
================================================================================================*/
|
================================================================================================*/
|
// delayed read FF input control
|
// delayed read FF input control
|
reg del_read_req_input ;
|
reg del_read_req_input ;
|
always@(
|
always@(
|
do_del_read or
|
do_del_read or
|
del_write_req or
|
del_write_req or
|
posted_write_req or
|
posted_write_req or
|
del_read_req or
|
del_read_req or
|
last_transfered or
|
last_transfered or
|
wait_in or
|
wait_in or
|
retry_in or
|
retry_in or
|
//retry_expired or
|
//retry_expired or
|
mabort_in or
|
mabort_in or
|
rtransfer_in or
|
rtransfer_in or
|
rerror_in or
|
rerror_in or
|
first_in or
|
first_in or
|
del_complete_out
|
del_complete_out
|
)
|
)
|
begin
|
begin
|
if (~del_read_req)
|
if (~del_read_req)
|
begin
|
begin
|
del_read_req_input = ~del_write_req && ~posted_write_req && ~del_complete_out && do_del_read ;
|
del_read_req_input = ~del_write_req && ~posted_write_req && ~del_complete_out && do_del_read ;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
del_read_req_input = wait_in ||
|
del_read_req_input = wait_in ||
|
( ~(retry_in && (~first_in /*|| retry_expired */)) &&
|
( ~(retry_in && (~first_in /*|| retry_expired */)) &&
|
~mabort_in && ~rerror_in &&
|
~mabort_in && ~rerror_in &&
|
~(last_transfered)
|
~(last_transfered)
|
) ;
|
) ;
|
end
|
end
|
end
|
end
|
|
|
// delayed read request FF
|
// delayed read request FF
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
del_read_req <= #`FF_DELAY 1'b0 ;
|
del_read_req <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
del_read_req <= #`FF_DELAY del_read_req_input ;
|
del_read_req <= #`FF_DELAY del_read_req_input ;
|
end
|
end
|
|
|
// wire indicating last entry of transaction on top of fifo
|
// wire indicating last entry of transaction on top of fifo
|
wire wlast = wbw_fifo_control_in[`LAST_CTRL_BIT] ;
|
wire wlast = wbw_fifo_control_in[`LAST_CTRL_BIT] ;
|
|
|
wire last_int = posted_write_req && wlast || del_write_req ;
|
wire last_int = posted_write_req && wlast || del_write_req ;
|
|
|
// intermidiate data, byte enable and last registers
|
// intermidiate data, byte enable and last registers
|
reg [31:0] intermediate_data ;
|
reg [31:0] intermediate_data ;
|
reg [3:0] intermediate_be ;
|
reg [3:0] intermediate_be ;
|
reg intermediate_last ;
|
reg intermediate_last ;
|
|
|
wire intermediate_enable = ( posted_write_req || del_write_req ) && ( ~write_req_int || (( ~rdy_out || ~wait_in && rtransfer_in ) && ~intermediate_last)) ;
|
wire intermediate_enable = ( posted_write_req || del_write_req ) && ( ~write_req_int || (( ~rdy_out || ~wait_in && rtransfer_in ) && ~intermediate_last)) ;
|
|
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if ( reset_in )
|
if ( reset_in )
|
begin
|
begin
|
intermediate_data <= #`FF_DELAY 32'h0000_0000 ;
|
intermediate_data <= #`FF_DELAY 32'h0000_0000 ;
|
intermediate_be <= #`FF_DELAY 4'h0 ;
|
intermediate_be <= #`FF_DELAY 4'h0 ;
|
intermediate_last <= #`FF_DELAY 1'b0 ;
|
intermediate_last <= #`FF_DELAY 1'b0 ;
|
end
|
end
|
else
|
else
|
if ( intermediate_enable )
|
if ( intermediate_enable )
|
begin
|
begin
|
intermediate_data <= #`FF_DELAY source_data ;
|
intermediate_data <= #`FF_DELAY source_data ;
|
intermediate_be <= #`FF_DELAY source_be ;
|
intermediate_be <= #`FF_DELAY source_be ;
|
intermediate_last <= #`FF_DELAY last_int ;
|
intermediate_last <= #`FF_DELAY last_int ;
|
end
|
end
|
end
|
end
|
|
|
// multiplexer for next data
|
// multiplexer for next data
|
reg [31:0] next_data_out ;
|
reg [31:0] next_data_out ;
|
reg [3:0] next_be_out ;
|
reg [3:0] next_be_out ;
|
reg write_next_last ;
|
reg write_next_last ;
|
reg [3:0] write_next_be ;
|
reg [3:0] write_next_be ;
|
|
|
always@(rtransfer_in or intermediate_data or intermediate_be or intermediate_last or wbw_fifo_addr_data_in or wbw_fifo_cbe_in or wlast)
|
always@(rtransfer_in or intermediate_data or intermediate_be or intermediate_last or wbw_fifo_addr_data_in or wbw_fifo_cbe_in or wlast)
|
begin
|
begin
|
if( rtransfer_in )
|
if( rtransfer_in )
|
begin
|
begin
|
next_data_out = wbw_fifo_addr_data_in ;
|
next_data_out = wbw_fifo_addr_data_in ;
|
write_next_last = wlast ;
|
write_next_last = wlast ;
|
write_next_be = wbw_fifo_cbe_in ;
|
write_next_be = wbw_fifo_cbe_in ;
|
end
|
end
|
else
|
else
|
begin
|
begin
|
next_data_out = intermediate_data ;
|
next_data_out = intermediate_data ;
|
write_next_last = intermediate_last ;
|
write_next_last = intermediate_last ;
|
write_next_be = intermediate_be ;
|
write_next_be = intermediate_be ;
|
end
|
end
|
end
|
end
|
|
|
always@(del_read_req or source_be or write_next_be)
|
always@(del_read_req or source_be or write_next_be)
|
begin
|
begin
|
if (del_read_req)
|
if (del_read_req)
|
next_be_out = source_be ;
|
next_be_out = source_be ;
|
else
|
else
|
next_be_out = write_next_be ;
|
next_be_out = write_next_be ;
|
end
|
end
|
/*================================================================================================
|
/*================================================================================================
|
WBW_FIFO read enable - read from WBW_FIFO is performed on posted writes, when data transfer
|
WBW_FIFO read enable - read from WBW_FIFO is performed on posted writes, when data transfer
|
termination is received - transfer or disconnect with data. Reads are enabled during error
|
termination is received - transfer or disconnect with data. Reads are enabled during error
|
recovery also, since erroneous transaction must be pulled out of FIFO!
|
recovery also, since erroneous transaction must be pulled out of FIFO!
|
================================================================================================*/
|
================================================================================================*/
|
// wbw_fifo read enable input control
|
// wbw_fifo read enable input control
|
|
|
assign wbw_renable_out = ~req_out && (do_posted_write || err_recovery) ||
|
assign wbw_renable_out = ~req_out && (do_posted_write || err_recovery) ||
|
posted_write_req && ( ~write_req_int || (~rdy_out && ~intermediate_last) || (~wait_in && rtransfer_in && ~intermediate_last)) ;
|
posted_write_req && ( ~write_req_int || (~rdy_out && ~intermediate_last) || (~wait_in && rtransfer_in && ~intermediate_last)) ;
|
|
|
/*================================================================================================
|
/*================================================================================================
|
WBR_FIFO write enable control -
|
WBR_FIFO write enable control -
|
writes to FIFO are possible only when delayed read request is in progress and data transfer
|
writes to FIFO are possible only when delayed read request is in progress and data transfer
|
or error termination is signalled. It is not enabled on retry or disconnect without data.
|
or error termination is signalled. It is not enabled on retry or disconnect without data.
|
================================================================================================*/
|
================================================================================================*/
|
// wbr_fifo write enable control - enabled when transfer is in progress and data is transfered or error is signalled
|
// wbr_fifo write enable control - enabled when transfer is in progress and data is transfered or error is signalled
|
assign wbr_fifo_wenable_out = del_read_req && ~wait_in && ( rtransfer_in || mabort_in || rerror_in ) ;
|
assign wbr_fifo_wenable_out = del_read_req && ~wait_in && ( rtransfer_in || mabort_in || rerror_in ) ;
|
|
|
/*================================================================================================
|
/*================================================================================================
|
WBR_FIFO control output for identifying data entries.
|
WBR_FIFO control output for identifying data entries.
|
This is necesary because of prefetched reads, which partially succeed. On error, error entry
|
This is necesary because of prefetched reads, which partially succeed. On error, error entry
|
gets in to signal it on WISHBONE bus if WISHBONE master reads up to this entry.
|
gets in to signal it on WISHBONE bus if WISHBONE master reads up to this entry.
|
================================================================================================*/
|
================================================================================================*/
|
assign wbr_fifo_control_out[`ADDR_CTRL_BIT] = 1'b0 ;
|
assign wbr_fifo_control_out[`ADDR_CTRL_BIT] = 1'b0 ;
|
assign wbr_fifo_control_out[`LAST_CTRL_BIT] = last_transfered ;
|
assign wbr_fifo_control_out[`LAST_CTRL_BIT] = last_transfered ;
|
assign wbr_fifo_control_out[`DATA_ERROR_CTRL_BIT] = rerror_in || (mabort_in && ~conf_cyc_bc) ;
|
assign wbr_fifo_control_out[`DATA_ERROR_CTRL_BIT] = rerror_in || (mabort_in && ~conf_cyc_bc) ;
|
assign wbr_fifo_control_out[`UNUSED_CTRL_BIT] = 1'b0 ;
|
assign wbr_fifo_control_out[`UNUSED_CTRL_BIT] = 1'b0 ;
|
|
|
// retry expired error for posted writes control
|
// retry expired error for posted writes control
|
//assign err_rty_exp_out = posted_write_req && ~wait_in && retry_in && retry_expired && ~rtransfer_in;
|
//assign err_rty_exp_out = posted_write_req && ~wait_in && retry_in && retry_expired && ~rtransfer_in;
|
assign err_rty_exp_out = 1'b0 ;
|
assign err_rty_exp_out = 1'b0 ;
|
|
|
// error source and error signal output control logic - only for posted writes
|
// error source and error signal output control logic - only for posted writes
|
assign err_source_out = mabort_in /*|| err_rty_exp_out*/ ;
|
assign err_source_out = mabort_in /*|| err_rty_exp_out*/ ;
|
|
|
assign err_signal_out = /*err_rty_exp_out || */ posted_write_req && ~wait_in && (mabort_in || rerror_in) ;
|
assign err_signal_out = /*err_rty_exp_out || */ posted_write_req && ~wait_in && (mabort_in || rerror_in) ;
|
|
|
//assign del_rty_exp_out = (~wait_in && (del_read_req || del_write_req)) && (retry_in && retry_expired && ~rtransfer_in) ;
|
//assign del_rty_exp_out = (~wait_in && (del_read_req || del_write_req)) && (retry_in && retry_expired && ~rtransfer_in) ;
|
assign del_rty_exp_out = 1'b0 ;
|
assign del_rty_exp_out = 1'b0 ;
|
|
|
assign del_error_out = ~wait_in && (del_write_req || del_read_req) && ( (mabort_in && ~conf_cyc_bc) || rerror_in ) ;
|
assign del_error_out = ~wait_in && (del_write_req || del_read_req) && ( (mabort_in && ~conf_cyc_bc) || rerror_in ) ;
|
|
|
wire del_write_complete = del_write_req && ( rtransfer_in || rerror_in || mabort_in ) ;
|
wire del_write_complete = del_write_req && ( rtransfer_in || rerror_in || mabort_in ) ;
|
wire del_read_complete = del_read_req && ( rerror_in || mabort_in || ( last_transfered ) || ( retry_in && ~first_in ) ) ;
|
wire del_read_complete = del_read_req && ( rerror_in || mabort_in || ( last_transfered ) || ( retry_in && ~first_in ) ) ;
|
|
|
assign del_complete_out = ~wait_in && ( del_write_complete || del_read_complete ) ;
|
assign del_complete_out = ~wait_in && ( del_write_complete || del_read_complete ) ;
|
|
|
// next last output generation
|
// next last output generation
|
assign next_last_out = del_write_req || del_read_req && ( ~del_burst_in || read_bound ) || posted_write_req && ( write_next_last ) ;
|
assign next_last_out = del_write_req || del_read_req && ( ~del_burst_in || read_bound ) || posted_write_req && ( write_next_last ) ;
|
/*==================================================================================================================
|
/*==================================================================================================================
|
Error recovery FF gets a value of one, when during posted write error occurs. It is cleared when all the data provided
|
Error recovery FF gets a value of one, when during posted write error occurs. It is cleared when all the data provided
|
for erroneous transaction is pulled out of WBW_FIFO
|
for erroneous transaction is pulled out of WBW_FIFO
|
==================================================================================================================*/
|
==================================================================================================================*/
|
|
|
// error recovery flip flop input - used when posted write is terminated with an error
|
// error recovery flip flop input - used when posted write is terminated with an error
|
always@(
|
always@(
|
err_recovery or
|
err_recovery or
|
last_out or
|
last_out or
|
wlast or
|
wlast or
|
err_signal_out or
|
err_signal_out or
|
intermediate_last
|
intermediate_last
|
)
|
)
|
begin
|
begin
|
// when error recovery is not set - drive its input so it gets set
|
// when error recovery is not set - drive its input so it gets set
|
if ( ~err_recovery )
|
if ( ~err_recovery )
|
err_recovery_in = ~last_out && ~intermediate_last && err_signal_out ;
|
err_recovery_in = ~last_out && ~intermediate_last && err_signal_out ;
|
else
|
else
|
// when error recovery is set, wbw_fifo is enabled - clear err_recovery when last data entry of erroneous transaction is pulled out of fifo
|
// when error recovery is set, wbw_fifo is enabled - clear err_recovery when last data entry of erroneous transaction is pulled out of fifo
|
err_recovery_in = ~wlast ;
|
err_recovery_in = ~wlast ;
|
end
|
end
|
|
|
wire data_out_load = (posted_write_req || del_write_req) && ( !rdy_out || ( !wait_in && rtransfer_in ) ) ;
|
wire data_out_load = (posted_write_req || del_write_req) && ( !rdy_out || ( !wait_in && rtransfer_in ) ) ;
|
|
|
wire be_out_load = (req_out && !rdy_out) || ( posted_write_req && !wait_in && rtransfer_in ) ;
|
wire be_out_load = (req_out && !rdy_out) || ( posted_write_req && !wait_in && rtransfer_in ) ;
|
|
|
wire last_load = req_out && ( ~rdy_out || ~wait_in && wtransfer_in ) ;
|
wire last_load = req_out && ( ~rdy_out || ~wait_in && wtransfer_in ) ;
|
|
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
data_out <= #`FF_DELAY 32'h0000_0000 ;
|
data_out <= #`FF_DELAY 32'h0000_0000 ;
|
else
|
else
|
if ( data_out_load )
|
if ( data_out_load )
|
data_out <= #`FF_DELAY intermediate_data ;
|
data_out <= #`FF_DELAY intermediate_data ;
|
end
|
end
|
|
|
always@(posedge clk_in or posedge reset_in)
|
always@(posedge clk_in or posedge reset_in)
|
begin
|
begin
|
if ( reset_in )
|
if ( reset_in )
|
be_out <= #`FF_DELAY 4'hF ;
|
be_out <= #`FF_DELAY 4'hF ;
|
else
|
else
|
if ( be_out_load )
|
if ( be_out_load )
|
be_out <= #`FF_DELAY posted_write_req ? intermediate_be : source_be ;
|
be_out <= #`FF_DELAY posted_write_req ? intermediate_be : source_be ;
|
end
|
end
|
|
|
always@(posedge reset_in or posedge clk_in)
|
always@(posedge reset_in or posedge clk_in)
|
begin
|
begin
|
if (reset_in)
|
if (reset_in)
|
current_last <= #`FF_DELAY 1'b0 ;
|
current_last <= #`FF_DELAY 1'b0 ;
|
else
|
else
|
if ( last_load )
|
if ( last_load )
|
current_last <= #`FF_DELAY next_last_out ;
|
current_last <= #`FF_DELAY next_last_out ;
|
end
|
end
|
|
|
assign last_out = current_last ;
|
assign last_out = current_last ;
|
endmodule
|
endmodule
|
|
|