mirror of https://github.com/efabless/caravel.git
257 lines
8.4 KiB
Verilog
257 lines
8.4 KiB
Verilog
// SPDX-FileCopyrightText: 2020 Efabless Corporation
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// SPDX-License-Identifier: Apache-2.0
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`default_nettype none
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//-----------------------------------------------------------
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// SPI controller for Caravel
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//-----------------------------------------------------------
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// housekeeping_spi.v
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//------------------------------------------------------
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// General purpose SPI module for the Caravel chip
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//------------------------------------------------------
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// Written by Tim Edwards
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// efabless, inc., September 28, 2020
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//------------------------------------------------
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// This file is distributed free and open source
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//------------------------------------------------
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// SCK --- Clock input
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// SDI --- Data input
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// SDO --- Data output
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// CSB --- Chip select (sense negative)
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// idata --- Data from chip to transmit out, in 8 bits
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// odata --- Input data to chip, in 8 bits
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// addr --- Decoded address to upstream circuits
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// rdstb --- Read strobe, tells upstream circuit that data will be latched.
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// wrstb --- Write strobe, tells upstream circuit to latch odata.
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// Data format (general purpose):
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// 8 bit format
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// 1st byte: Command word (see below)
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// 2nd byte: Address word (register 0 to 255)
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// 3rd byte: Data word (value 0 to 255)
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// Command format:
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// 00000000 No operation
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// 10000000 Write until CSB raised
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// 01000000 Read until CSB raised
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// 11000000 Simultaneous read/write until CSB raised
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// 11000100 Pass-through read/write to management area flash SPI until CSB raised
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// 11000010 Pass-through read/write to user area flash SPI until CSB raised
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// wrnnn000 Read/write as above, for nnn = 1 to 7 bytes, then terminate
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// Lower three bits are reserved for future use.
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// All serial bytes are read and written msb first.
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// Fixed control and status registers
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// Address 0 is reserved and contains flags for SPI mode. This is
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// currently undefined and is always value 0.
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// Address 1 is reserved and contains manufacturer ID low 8 bits.
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// Address 2 is reserved and contains manufacturer ID high 4 bits.
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// Address 3 is reserved and contains product ID (8 bits).
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// Addresses 4 to 7 are reserved and contain the mask ID (32 bits).
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// Addresses 8 to 255 are available for general purpose use.
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`define COMMAND 3'b000
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`define ADDRESS 3'b001
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`define DATA 3'b010
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`define USERPASS 3'b100
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`define MGMTPASS 3'b101
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module housekeeping_spi(reset, SCK, SDI, CSB, SDO,
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sdoenb, idata, odata, oaddr, rdstb, wrstb,
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pass_thru_mgmt, pass_thru_mgmt_delay,
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pass_thru_user, pass_thru_user_delay,
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pass_thru_mgmt_reset, pass_thru_user_reset);
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input reset;
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input SCK;
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input SDI;
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input CSB;
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output SDO;
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output sdoenb;
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input [7:0] idata;
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output [7:0] odata;
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output [7:0] oaddr;
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output rdstb;
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output wrstb;
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output pass_thru_mgmt;
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output pass_thru_mgmt_delay;
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output pass_thru_user;
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output pass_thru_user_delay;
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output pass_thru_mgmt_reset;
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output pass_thru_user_reset;
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reg [7:0] addr;
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reg wrstb;
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reg rdstb;
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reg sdoenb;
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reg [2:0] state;
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reg [2:0] count;
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reg writemode;
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reg readmode;
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reg [2:0] fixed;
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wire [7:0] odata;
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reg [6:0] predata;
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wire [7:0] oaddr;
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reg [7:0] ldata;
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reg pass_thru_mgmt;
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reg pass_thru_mgmt_delay;
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reg pre_pass_thru_mgmt;
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reg pass_thru_user;
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reg pass_thru_user_delay;
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reg pre_pass_thru_user;
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wire csb_reset;
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assign odata = {predata, SDI};
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assign oaddr = (state == `ADDRESS) ? {addr[6:0], SDI} : addr;
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assign SDO = ldata[7];
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assign csb_reset = CSB | reset;
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assign pass_thru_mgmt_reset = pass_thru_mgmt_delay | pre_pass_thru_mgmt;
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assign pass_thru_user_reset = pass_thru_user_delay | pre_pass_thru_user;
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// Readback data is captured on the falling edge of SCK so that
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// it is guaranteed valid at the next rising edge.
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always @(negedge SCK or posedge csb_reset) begin
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if (csb_reset == 1'b1) begin
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wrstb <= 1'b0;
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ldata <= 8'b00000000;
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sdoenb <= 1'b1;
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end else begin
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// After CSB low, 1st SCK starts command
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if (state == `DATA) begin
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if (readmode == 1'b1) begin
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sdoenb <= 1'b0;
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if (count == 3'b000) begin
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ldata <= idata;
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end else begin
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ldata <= {ldata[6:0], 1'b0}; // Shift out
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end
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end else begin
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sdoenb <= 1'b1;
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end
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// Apply write strobe on SCK negative edge on the next-to-last
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// data bit so that it updates data on the rising edge of SCK
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// on the last data bit.
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if (count == 3'b111) begin
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if (writemode == 1'b1) begin
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wrstb <= 1'b1;
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end
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end else begin
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wrstb <= 1'b0;
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end
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end else if (state == `MGMTPASS || state == `USERPASS) begin
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wrstb <= 1'b0;
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sdoenb <= 1'b0;
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end else begin
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wrstb <= 1'b0;
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sdoenb <= 1'b1;
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end // ! state `DATA
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end // ! csb_reset
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end // always @ ~SCK
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always @(posedge SCK or posedge csb_reset) begin
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if (csb_reset == 1'b1) begin
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// Default state on reset
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addr <= 8'h00;
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rdstb <= 1'b0;
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predata <= 7'b0000000;
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state <= `COMMAND;
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count <= 3'b000;
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readmode <= 1'b0;
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writemode <= 1'b0;
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fixed <= 3'b000;
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pass_thru_mgmt <= 1'b0;
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pass_thru_mgmt_delay <= 1'b0;
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pre_pass_thru_mgmt <= 1'b0;
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pass_thru_user = 1'b0;
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pass_thru_user_delay <= 1'b0;
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pre_pass_thru_user <= 1'b0;
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end else begin
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// After csb_reset low, 1st SCK starts command
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if (state == `COMMAND) begin
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rdstb <= 1'b0;
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count <= count + 1;
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if (count == 3'b000) begin
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writemode <= SDI;
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end else if (count == 3'b001) begin
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readmode <= SDI;
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end else if (count < 3'b101) begin
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fixed <= {fixed[1:0], SDI};
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end else if (count == 3'b101) begin
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pre_pass_thru_mgmt <= SDI;
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end else if (count == 3'b110) begin
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pre_pass_thru_user <= SDI;
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pass_thru_mgmt_delay <= pre_pass_thru_mgmt;
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end else if (count == 3'b111) begin
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pass_thru_user_delay <= pre_pass_thru_user;
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if (pre_pass_thru_mgmt == 1'b1) begin
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state <= `MGMTPASS;
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pre_pass_thru_mgmt <= 1'b0;
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end else if (pre_pass_thru_user == 1'b1) begin
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state <= `USERPASS;
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pre_pass_thru_user <= 1'b0;
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end else begin
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state <= `ADDRESS;
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end
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end
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end else if (state == `ADDRESS) begin
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count <= count + 1;
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addr <= {addr[6:0], SDI};
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if (count == 3'b111) begin
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state <= `DATA;
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if (readmode == 1'b1) begin
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rdstb <= 1'b1;
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end
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end else begin
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rdstb <= 1'b0;
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end
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end else if (state == `DATA) begin
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predata <= {predata[6:0], SDI};
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count <= count + 1;
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if (count == 3'b111) begin
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if (fixed == 3'b001) begin
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state <= `COMMAND;
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end else if (fixed != 3'b000) begin
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fixed <= fixed - 1;
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addr <= addr + 1; // Auto increment address (fixed)
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end else begin
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addr <= addr + 1; // Auto increment address (streaming)
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end
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if (readmode == 1'b1) begin
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rdstb <= 1'b1;
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end
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end else begin
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rdstb <= 1'b0;
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end
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end else if (state == `MGMTPASS) begin
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pass_thru_mgmt <= 1'b1;
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end else if (state == `USERPASS) begin
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pass_thru_user <= 1'b1;
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end // ! state `DATA | `MGMTPASS | `USERPASS
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end // ! csb_reset
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end // always @ SCK
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endmodule // housekeeping_spi
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`default_nettype wire
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