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USB_L2_publico.v
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///////////////////////////////////////////////////////////////////////////
/*
MIT License
Copyright (c) 2021 Antonio Sánchez (@TheSonders)
THE EXPERIMENT GROUP (@agnuca @Nabateo @subcriticalia)
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
USB Layer 1
Versión reducida pero funcional de la interfaz de teclado USB.
Soporta Low Speed y Full Speed devices.
-No realiza comprobación del CRC
-Paquetes de transmisión precalculados
USB Layer 2
Se ha añadido la actualización de los LEDs de teclado
-Scroll Lock, Num Lock y Caps Lock
-Añadido bit stuff en la transmisión
-Ampliada la máquina de estados de la capa superior.
-Añadida función de espera y retry.
-Añadidas macros para facilitar el cambio de frecuencia de reloj.
Este módulo recibe y maneja directamente las líneas de transmisión USB.
La señal de reloj recomendada es de 48MHz
Entrega una señal que indica si hay un dispositivo conectado y reconocido
Además de un byte con las teclas 8 modificadoras (Alt-WIN-Ctrl-Shift)
Y 6 bytes con las teclas pulsadas
Antonio Sánchez (@TheSonders)
Referencias:
-Ben Eater Youtube Video:
https://www.youtube.com/watch?v=wdgULBpRoXk
-USB Specification Revision 2.0
-https://usb.org/sites/default/files/hut1_22.pdf
-https://crccalc.com/
-https://www.perytech.com/USB-Enumeration.htm
*/
///////////////////////////////////////////////////////////////////////////
//Speed mode
`define LowSpeed 0
`define FullSpeed 1
//READING WIRE STATES
`define DIF1 (dp==1 && dm==0)
`define DIF0 (dp==0 && dm==1)
`define SE0 (dp==0 && dm==0)
`define SE1 (dp==1 && dm==1)
//DATA STATES
`define J_State ((Device_Speed==`LowSpeed && `DIF0)|| (Device_Speed==`FullSpeed && `DIF1))
`define K_State ((Device_Speed==`LowSpeed && `DIF1)|| (Device_Speed==`FullSpeed && `DIF0))
//STM STATES
`define STM_Unconnected 0
`define STM_Idle 1
`define STM_SOP 2
`define STM_PAYLOAD 3
//SYMBOLS
`define SYM_0 2'b00
`define SYM_1 2'b11
`define SYM_K 2'b10
`define SYM_J 2'b01
//
`define LineAsInput 0
`define LineAsOutput 1
module USB_L1
(input wire clk,
input wire LedNum,
input wire LedCaps,
input wire LedScroll,
inout wire dp,
inout wire dm,
output reg [7:0]Rmodifiers=8'h00,
output reg [7:0]R0=8'h00,
output reg [7:0]R1=8'h00,
output reg [7:0]R2=8'h00,
output reg [7:0]R3=8'h00,
output reg [7:0]R4=8'h00,
output reg [7:0]R5=8'h00,
output reg Device_Connected=0);
`define PRES_LowSpeed 31
`define PRES_FullSpeed 3
`define CLK_MULT 48000
assign dp=(IO==`LineAsInput)?1'hZ:rdp;
assign dm=(IO==`LineAsInput)?1'hZ:rdm;
reg Device_Speed=0;
reg rdp=0;
reg rdm=0;
reg IO=`LineAsInput;
////////////////////////////////////////////////////////////
// SYNC LAYER //
////////////////////////////////////////////////////////////
// Esta capa recibe directamente los datos de las líneas.
// Determina la velocidad del device y
// se sincroniza con los flancos en las líneas de datos
// Entrega a la capa superior los símbolos ya muestreados
////////////////////////////////////////////////////////////
reg [$clog2(`PRES_LowSpeed)-1:0]Prescaler_Reload=0;
reg [$clog2(`PRES_LowSpeed)-1:0]RX_Prescaler=0;
reg INSYNC_STM=0;
reg NewSymbol=0;
reg [1:0]RX_SYM=0;
reg Prev_Dp=0;
reg Prev_Dm=0;
always @(posedge clk) begin INSYNC:
if (NewSymbol==1)NewSymbol<=0;
Prev_Dp<=dp;
Prev_Dm<=dm;
if (MACHINE_RESET==1)begin
INSYNC_STM<=`STM_Unconnected;
end
else begin
case (INSYNC_STM)
`STM_Unconnected:begin
if (IO==`LineAsInput)begin
if (`DIF0) begin
Prescaler_Reload<=`PRES_LowSpeed;
Device_Speed<=`LowSpeed;
INSYNC_STM<=`STM_Idle;end
else if (`DIF1) begin
Prescaler_Reload<=`PRES_FullSpeed;
Device_Speed<=`FullSpeed;
INSYNC_STM<=`STM_Idle;end
end
end
`STM_Idle:begin Synchronizer_and_Sample:
if (Prev_Dp!=dp || Prev_Dm!=dm) begin
RX_Prescaler<=(Prescaler_Reload>>1);
end
else if (RX_Prescaler==0)begin
RX_Prescaler<=Prescaler_Reload;
NewSymbol<=1;
if (`J_State) RX_SYM<=`SYM_J;
else if (`K_State)RX_SYM<=`SYM_K;
else if (`SE1)RX_SYM<=`SYM_1;
else if (`SE0)RX_SYM<=`SYM_0;
end
else RX_Prescaler<=RX_Prescaler-1;
end
endcase
end
end
////////////////////////////////////////////////////////////
// SYMBOL LAYER //
////////////////////////////////////////////////////////////
// Esta capa recibe los cuatro símbolos ya muestrados.
// Recorta las tramas SYNC, SOP y EOP y filtra el bit stuff.
// Entrega a la capa superior los bits equivalentes
// del payload, y las señales Start of Packet y End of Packet
////////////////////////////////////////////////////////////
reg [1:0]Prev_SYM=0;
reg [1:0]Prev_Prev_SYM=0;
reg [3:0]Aux_Counter=0;
reg NewBit=0;
reg SOP=0;
reg EOP=0;
reg LatchEOP=0;
reg BIT=0;
reg [1:0]INSYMBOL_STM=0;
always @(posedge clk) begin INSYMBOL:
if (NewBit==1)NewBit<=0;
if (SOP==1)SOP<=0;
if (EOP==1)EOP<=0;
if (MACHINE_RESET==1)begin
INSYMBOL_STM<=`STM_Unconnected;
Aux_Counter<=0;
end
else begin
if (NewSymbol) begin
if (LatchEOP==1) begin
EOP<=1;
LatchEOP<=0;
end
Prev_SYM<=RX_SYM;
Prev_Prev_SYM<=Prev_SYM;
if (Prev_Prev_SYM==`SYM_0 && Prev_SYM==`SYM_0 && RX_SYM==`SYM_J) begin EndOfPacket:
LatchEOP<=1;
INSYMBOL_STM<=`STM_Idle;
end
case (INSYMBOL_STM)
`STM_Unconnected,
`STM_Idle:begin
if (RX_SYM==`SYM_K)begin
INSYMBOL_STM<=`STM_SOP;
Aux_Counter<=0;
end
end
`STM_SOP:begin SYNC_PATTERN:
if (Aux_Counter==6 && RX_SYM==`SYM_K)begin
INSYMBOL_STM<=`STM_PAYLOAD;
Aux_Counter<=0;
SOP<=1;
end
else if ((RX_SYM==`SYM_K && Prev_SYM==`SYM_J)
|| (RX_SYM==`SYM_J && Prev_SYM==`SYM_K))
Aux_Counter<=Aux_Counter+1;
end
`STM_PAYLOAD:begin NRZI:
if ((RX_SYM==`SYM_K && Prev_SYM==`SYM_J)
|| (RX_SYM==`SYM_J && Prev_SYM==`SYM_K))begin BIT_STUFF:
if (Aux_Counter==6)begin
Aux_Counter<=0;
end
else begin
BIT<=0;
NewBit<=1;
Aux_Counter<=0;
end
end
else if ((RX_SYM==`SYM_J && Prev_SYM==`SYM_J)
|| (RX_SYM==`SYM_K && Prev_SYM==`SYM_K))begin
BIT<=1;
NewBit<=1;
Aux_Counter<=Aux_Counter+1;
end
end
endcase
end
end
end
////////////////////////////////////////////////////////////
// DECODE LAYER //
////////////////////////////////////////////////////////////
// Esta capa recibe los bits del payload y
// las señales SOP y EOP.
// Decodifica los paquetes y calcula el CRC.
////////////////////////////////////////////////////////////
`define PID_Out 8'hE1
`define PID_In 8'h69
`define PID_Setup 8'h2D
`define PID_Data0 8'hC3
`define PID_Data1 8'h4B
`define PID_ACK 8'hD2
`define PID_NAK 8'h5A
`define PID_SOF 8'hA5
`define STM_IDLE 0
`define STM_PID 1
`define STM_DATAFIELD 2
reg [6:0]BitCounter=0;
reg [1:0]INDECODE_STM=0;
reg [7:0]RECEIVED_PID=0;
reg [95:0]RECEIVED_DATA=0;
reg NewInPacket=0;
always @(posedge clk) begin INDECODE:
if (NewInPacket==1)NewInPacket<=0;
if (MACHINE_RESET==1)begin
INDECODE_STM<=`STM_IDLE;
NewInPacket<=0;
BitCounter<=0;
RECEIVED_PID<=0;
RECEIVED_DATA<=0;
end
else begin
if (IO==`LineAsInput)begin
if (SOP) begin
BitCounter<=0;
INDECODE_STM<=`STM_PID;
RECEIVED_PID<=0;
RECEIVED_DATA<=0;
end
if (EOP) begin
INDECODE_STM<=`STM_IDLE;
NewInPacket<=1;
end
case (INDECODE_STM)
`STM_PID: begin
if (NewBit) begin
RECEIVED_PID<={BIT,RECEIVED_PID[7:1]};
BitCounter<=BitCounter+1;
end
if (BitCounter==8) begin
INDECODE_STM<=`STM_DATAFIELD;
end
end
`STM_DATAFIELD: begin
if (NewBit) begin
RECEIVED_DATA<={BIT,RECEIVED_DATA[95:1]};
BitCounter<=BitCounter+1;
end
end
endcase
end
end
end
////////////////////////////////////////////////////////////
// TOP LAYER //
////////////////////////////////////////////////////////////
// Máquina de estados general.
// -Detectar la presencia de un device y determinar su velocidad.
// -Reiniciar el Device
// -Setup de la dirección del device
// -Forzar el device a modo BOOT
// -Solicitar (paquete IN) periódicamente el estado de las teclas
// -Un device en modo BOOT devuelve NAK si dicho estado no ha cambiado
//
////////////////////////////////////////////////////////////
// Estados del dispositivo:
// Detached->Powered->Default->Address->Configured
// Attach Reset SetAddress SetConfig
// En cualquier momento, por inactividad del bus (3ms) entra en Suspended
// Para evitar el Suspended mandar KA (Keep Alive)
`define TL_Unconnected 0
`define TL_Reset 1
`define TL_SetConfig 2
`define TL_SendSETUPConfig 3
`define TL_KeepAlive 4
`define TL_SendSETUPAddress 5
`define TL_SetAddress 6
`define TL_WaitResponse 7
`define TL_IN00 8
`define TL_SEND_ACK00 9
`define TL_IN20_CONFIG 10
`define TL_SEND_ACK20_CONFIG 11
`define TL_IN21 12
`define TL_VerifyData 13
`define TL_SendSETUPProtocol 14
`define TL_SetProtocol 15
`define TL_IN20_PROTOCOL 16
`define TL_SEND_ACK20_PROTOCOL 17
`define TL_SEND_DATA0_REPORT 18
`define TL_SEND_OUT20_REPORT 19
`define TL_SEND_DATA1_REPORT 20
`define TL_IN20_REPORT 21
`define TL_IN_DATA1_REPORT 22
`define TL_SEND_ACK_DATA1 23
`define TL_Wait 24
`define TL_DelayRetry 25
`define TL_KeepAlive2 26
`define LEDS {LedScroll,LedCaps,LedNum}
//Suprimimos los CRC
//Usamos device address y endpoint fijos para
//emplear paquetes precalculados
reg [4:0]TL_STM=`TL_Unconnected;
reg [4:0]TL_ResponseOK=`TL_Unconnected;
reg [4:0]TL_Fail=`TL_Unconnected;
reg [$clog2(`PRES_LowSpeed)-1:0]TX_Prescaler=0;
reg [95:0]TX_Shift=0;
reg [95:0] Packet_IN20 ={5'h15,4'h0,7'h02,`PID_In};
reg [95:0] Packet_IN21 ={5'h03,4'h1,7'h02,`PID_In};
reg [95:0] Packet_IN00 ={5'h02,4'h0,7'h00,`PID_In};
reg [95:0]Packet_SETUP ={5'h02,4'h0,7'h00,`PID_Setup};
reg [95:0]Packet_SETUP2 ={5'h15,4'h0,7'h02,`PID_Setup};
reg [95:0]Packet_SET_ADDRESS ={16'h16EB,64'h0000000000020500,`PID_Data0};
reg [95:0]Packet_SET_CONFIG ={16'h2527,64'h0000000000010900,`PID_Data0};
reg [95:0]Packet_SET_PROTOCOL={16'hE0C6,64'h0000000000000B21,`PID_Data0};
reg [95:0]Packet_SET_REPORT ={16'h709D,64'h0001000002000921,`PID_Data0};
reg [95:0]Packet_OUT20 ={5'h15,4'h0,7'h02,`PID_Out};
reg [95:0]Packet_LEDS_000 ={16'hBF40,8'h00,`PID_Data1};
reg [95:0]Packet_LEDS_001 ={16'h7F81,8'h01,`PID_Data1};
reg [95:0]Packet_LEDS_010 ={16'h7EC1,8'h02,`PID_Data1};
reg [95:0]Packet_LEDS_011 ={16'hBE00,8'h03,`PID_Data1};
reg [95:0]Packet_LEDS_100 ={16'h7C41,8'h04,`PID_Data1};
reg [95:0]Packet_LEDS_101 ={16'hBC80,8'h05,`PID_Data1};
reg [95:0]Packet_LEDS_110 ={16'hBDC0,8'h06,`PID_Data1};
reg [95:0]Packet_LEDS_111 ={16'h7D01,8'h07,`PID_Data1};
reg [95:0]Packet_ACK = {`PID_ACK};
reg [95:0]Packet_SOF = {5'h08,11'd263,`PID_SOF};
reg [8:0] TXLeftBits=0;
reg MACHINE_RESET=0;
reg [3:0]TimeOut=0;
reg [2:0]LatchLEDS=0;
reg [2:0]Stuff_Count=0;
always @(posedge clk)begin
if (StartTimer==1) StartTimer<=0;
if (MACHINE_RESET==1) MACHINE_RESET<=0;
if (MACHINE_RESET==0 && TXLeftBits==0 && (TimerEnd==1 || NewInPacket==1))begin
case (TL_STM)
`TL_Unconnected:begin ListenIfConnected:
IO<=`LineAsInput;
Device_Connected<=0;
TimeOut<=0;
LatchLEDS<=0;
if (INSYNC_STM==`STM_Idle)begin
TL_STM<=`TL_Reset;
IO<=`LineAsOutput;
end
end
`TL_Reset:begin SendRESETToDevice:
SendReset;
TL_STM<=`TL_SendSETUPAddress;
SetTimer(20);
end
`TL_Wait: begin
IO<=`LineAsInput;
SetTimer(1);
TL_STM<=`TL_WaitResponse;
end
`TL_DelayRetry:begin
TL_STM<=TL_Fail;
end
`TL_WaitResponse: begin
if (TimerEnd==1 ||
(TL_Fail!=`TL_IN21 && RECEIVED_PID !=`PID_ACK && RECEIVED_PID!=`PID_Data1))begin
if (TimeOut==15) begin
TL_STM<=`TL_Unconnected;
MACHINE_RESET<=1;
end
else begin
TimeOut<=TimeOut+1;
SetTimer(1);
TL_STM<=`TL_DelayRetry;
end
end
else begin
TimeOut<=0;
SetTimer(0);
TL_STM<=TL_ResponseOK;
end
end
`TL_SendSETUPAddress:begin
SetLinesToIdle;
SendPacket(Packet_SETUP,24);
TL_STM<=`TL_SetAddress;
end
`TL_SetAddress:begin
SendPacket(Packet_SET_ADDRESS,88);
Wait_Response(`TL_SendSETUPAddress,`TL_IN00);
end
`TL_SEND_OUT20_REPORT: begin
SetTimer(0);
SendPacket(Packet_OUT20,24);
TL_STM<=`TL_SEND_DATA1_REPORT;
end
`TL_SEND_DATA1_REPORT:begin
Wait_Response(`TL_SEND_OUT20_REPORT,`TL_IN20_REPORT);
case (`LEDS)
0: SendPacket (Packet_LEDS_000,32);
1: SendPacket (Packet_LEDS_001,32);
2: SendPacket (Packet_LEDS_010,32);
3: SendPacket (Packet_LEDS_011,32);
4: SendPacket (Packet_LEDS_100,32);
5: SendPacket (Packet_LEDS_101,32);
6: SendPacket (Packet_LEDS_110,32);
7: SendPacket (Packet_LEDS_111,32);
endcase
end
`TL_SEND_ACK00,`TL_SEND_ACK20_CONFIG,
`TL_SEND_ACK20_PROTOCOL,`TL_SEND_ACK_DATA1:begin
SetTimer(0);
SendPacket(Packet_ACK,8);
if (TL_STM==`TL_SEND_ACK00)TL_STM<=`TL_SendSETUPConfig;
else if (TL_STM==`TL_SEND_ACK20_CONFIG) TL_STM<=`TL_SendSETUPProtocol;
else if (TL_STM==`TL_SEND_ACK_DATA1)begin
TL_STM<=`TL_KeepAlive;
LatchLEDS<=`LEDS;
end
else begin
TL_STM<=`TL_IN21;
Device_Connected<=1;
end
end
`TL_IN00:begin
SetTimer(0);
SendPacket(Packet_IN00,24);
Wait_Response(`TL_IN00,`TL_SEND_ACK00);
end
`TL_SendSETUPConfig,`TL_SendSETUPProtocol:begin
SendPacket(Packet_SETUP2,24);
if (TL_STM==`TL_SendSETUPProtocol)TL_STM<=`TL_SetProtocol;
else TL_STM<=`TL_SetConfig;
end
`TL_SetConfig:begin
SendPacket(Packet_SET_CONFIG,88);
Wait_Response(`TL_SendSETUPConfig,`TL_IN20_CONFIG);
end
`TL_SetProtocol:begin
SendPacket(Packet_SET_PROTOCOL,88);
Wait_Response(`TL_SendSETUPProtocol,`TL_IN20_PROTOCOL);
end
`TL_IN20_REPORT:begin
SendPacket(Packet_IN20,24);
SetTimer(0);
Wait_Response(`TL_IN20_REPORT,`TL_SEND_ACK_DATA1);
end
`TL_IN20_CONFIG,`TL_IN20_PROTOCOL: begin
SendPacket(Packet_IN20,24);
SetTimer(0);
if (TL_STM==`TL_IN20_PROTOCOL)
Wait_Response(`TL_IN20_PROTOCOL,`TL_SEND_ACK20_PROTOCOL);
else
Wait_Response(`TL_IN20_CONFIG,`TL_SEND_ACK20_CONFIG);
end
`TL_IN21:begin
SetTimer(0);
SendPacket(Packet_IN21,24);
Wait_Response(`TL_IN21,`TL_VerifyData);
end
`TL_SEND_DATA0_REPORT:begin
SendPacket(Packet_SET_REPORT,88);
Wait_Response(`TL_KeepAlive,`TL_SEND_OUT20_REPORT);
end
`TL_KeepAlive:begin
if (`LEDS!=LatchLEDS)begin
TL_STM<=`TL_SEND_DATA0_REPORT;
SendPacket(Packet_SETUP2,24);
SetTimer(0);
end
else begin
TL_STM<=`TL_KeepAlive2;
if (Device_Speed==1) SendPacket(Packet_SOF,24);
else SendKeepAlive;
SetTimer(1);
end
end
`TL_KeepAlive2:begin
TL_STM<=`TL_IN21;
if (Device_Speed==1) SendPacket(Packet_SOF,24);
else SendKeepAlive;
SetTimer(1);
end
`TL_VerifyData: begin
SetTimer(1);
TL_STM<=`TL_KeepAlive;
if (RECEIVED_PID==`PID_Data0 || RECEIVED_PID==`PID_Data1) begin
SendPacket(Packet_ACK,8);
R5<=RECEIVED_DATA[79:72];
R4<=RECEIVED_DATA[71:64];
R3<=RECEIVED_DATA[63:56];
R2<=RECEIVED_DATA[55:48];
R1<=RECEIVED_DATA[47:40];
R0<=RECEIVED_DATA[39:32];
Rmodifiers<=RECEIVED_DATA[23:16];
end
end
endcase
end //TXLeftBits==0,TimerEnd==1,NewInPacket==1
////////////////////////////////////////////////////////////
// SYMBOL TRANSMISION //
////////////////////////////////////////////////////////////
if (TX_Prescaler==0) begin
TX_Prescaler<=Prescaler_Reload;
if (TXLeftBits!=0)begin
if (TXLeftBits<4) begin
SetLinesToIdle;
TXLeftBits<=TXLeftBits-1;
end
else if (TXLeftBits==5 || TXLeftBits==4)begin
SetLinesToEOP;
TXLeftBits<=TXLeftBits-1;
end
else begin
if (Stuff_Count==6) begin
rdp<=~rdp;
rdm<=~rdm;
Stuff_Count<=0;
end
else begin
TXLeftBits<=TXLeftBits-1;
TX_Shift<={1'b0,TX_Shift[95:1]};
if (TX_Shift[0]==0)begin
rdp<=~rdp;
rdm<=~rdm;
Stuff_Count<=0;
end
else begin
Stuff_Count<=Stuff_Count+1;
end
end
end
end
end
else TX_Prescaler<=TX_Prescaler-1;
end
////////////////////////////////////////////////////////////
// TAREAS (TASK) //
////////////////////////////////////////////////////////////
task Wait_Response(input [4:0]InCaseFail,input [4:0]InCaseOK);
begin
TL_Fail<=InCaseFail;
TL_ResponseOK<=InCaseOK;
TL_STM<=`TL_Wait;
end
endtask
task SendReset;
begin
IO<=`LineAsOutput;
rdp<=0;
rdm<=0;
TXLeftBits<=0;
end
endtask
task SendKeepAlive;
begin
IO<=`LineAsOutput;
TXLeftBits<=5;
end
endtask
`define SYNC 8'h80
task SendPacket(input [95:0]Packet,input [9:0] PacketSize);
begin
IO<=`LineAsOutput;
TX_Shift<={Packet,`SYNC};
TXLeftBits<=PacketSize+8+5;
end
endtask
task SetLinesToEOP;
begin
rdp<=1'b0;
rdm<=1'b0;
end
endtask
task SetLinesToIdle;
begin
rdp<=1'b0 ^ Device_Speed;
rdm<=1'b1 ^ Device_Speed;
end
endtask
////////////////////////////////////////////////////////////
// Temporizador auxiliar //
////////////////////////////////////////////////////////////
reg [19:0] TimerPreload=0;
reg StartTimer=0;
wire TimerEnd;
Timer Timer(
.clk(clk),
.TimerPreload(TimerPreload),
.StartTimer(StartTimer),
.TimerEnd(TimerEnd));
task SetTimer(input integer milliseconds);
begin
TimerPreload<=`CLK_MULT*milliseconds;
StartTimer<=1;
end
endtask
endmodule
module Timer (
input wire clk,
input wire [19:0]TimerPreload,
input wire StartTimer,
output wire TimerEnd);
assign TimerEnd=(rTimerEnd & ~StartTimer);
reg rTimerEnd=0;
reg PrevStartTimer=0;
reg [19:0]Counter=0;
always @(posedge clk)begin
PrevStartTimer<=StartTimer;
if (StartTimer && !PrevStartTimer)begin
Counter<=TimerPreload;
rTimerEnd<=0;
end
else if (Counter==0) begin
rTimerEnd<=1;
end
else Counter<=Counter-1;
end
endmodule