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256 lines
9.9 KiB

module top (input CLK, output LED1, LED2, LED3, LED4, LED5,
input SCL, inout SDA, /*output ACK,*/ output INTERRUPT,
input COM_RX, output COM_TX, COM_DCD, COM_DSR, COM_RTS,
input [7:0] KBD_COLUMNS, inout [15:0] KBD_ROWS);
parameter INTERRUPT_TMR_REFLESH = 14; // 14 - 2^14=16384 tacts or 1.37 ms, 19 - 2^19=524288 tacts or 43.7 ms, 23 - 2^23=8388608 tacts or 0.7 s
// 23 - 1119 LCs, 14 - 1081 LCs (in commit 1b6fc60221b595c2a0f69509d29b6e5c3110feb0)
wire RESET;
reg [3:0] rststate = 0;
assign RESET = &rststate;
wire [7:0] I2C_TX;
wire [7:0] I2C_TX_DESC;
wire [7:0] I2C_RX; // RECEIVED FROM MASTER
wire I2C_TRANS, I2C_READ, I2C_ACK, /*I2C_ACK_MSTR_CTRL,*/ I2C_WR;
i2c_slave I2C (CLK, RESET, SCL, SDA, I2C_TRANS, I2C_READ, I2C_ACK, I2C_WR, //I2C_ACK_MSTR_CTRL,
I2C_RX, I2C_TX);//, I2C_COUNTER);
reg UART_WR, UART_DTR, UART_RTS, UART_DCD;//, UART_WR2;
reg [7:0] UART_TX_DATA;
wire UART_ACTIVE, UART_TX_LINE;
uart UART (CLK, RESET, UART_WR, UART_TX_DATA, UART_ACTIVE, UART_TX_LINE);
//wire [7:0] kbd_report [6:0];
wire [7:0] report_byte;
wire ISR;
reg INT = 1; // INTERRUPT LINE TO HOST
reg [INTERRUPT_TMR_REFLESH:0] int_tmr;
reg KBD_FREEZE = 1; // LOGIC REG FOR BLOCK KBD ACTIVITY WHEN I2C IS WORKING
wire KBD_DBG;
matrix_kbd KEYBOARD (CLK, RESET, IS_RAM_INIT /*KBD_FREEZE*/, KBD_ROWS, KBD_COLUMNS, wr_cnt, report_data_wr, ISR, KBD_DBG);//kbd_report[0], kbd_report[1], kbd_report[2], kbd_report[3], kbd_report[4], kbd_report[5], kbd_report[6], ISR);
descriptors I2C_HID_DESC ((1^CLK), /*RESET, I2C_WR,*/ I2C_OUTPUT_TYPE[/*1:*/0], I2C_COUNTER, I2C_TX_DESC/*, kbd_report*/);
reg [3:0] ring_wr, ring_rd;
reg [3:0] wr_cnt;
reg report_wr_en;
wire [7:0] report_data_radr, report_data_wadr, report_data_wr;
assign report_data_radr[7:4] = ring_rd;
assign report_data_radr[3:0] = I2C_COUNTER;
assign report_data_wadr[7:4] = ring_wr;
assign report_data_wadr[3:0] = wr_cnt;
wire [7:0] report_data_rd;
ram REPORT_DATA ((1^CLK), report_wr_en, report_data_wadr, report_data_wr, report_data_radr, report_data_rd);
assign I2C_TX = (I2C_TX_DESC & I2C_OUT_DESC_MASK) | (/*I2C_TX_REPORT*/report_data_rd & (~I2C_OUT_DESC_MASK));
reg [2:0] temp_output_report;
reg [3:0] i2c_input_data_type; // 0 - UNKNOWN, 1 - I2C_HID_DESC_REQUEST, 2 - HID_REPORT_DESC_REQUEST, 3 - INPUT_REPORT_REQUEST, 4 - OUTPUT_REPORT_SET
// 5 - RESET, 6 - GET_INPUT_REPORT, 7 - SET_OUTPUT_REPORT
reg [/*7*/6:0] I2C_COUNTER = 0;
reg [2:0] I2C_OUTPUT_TYPE = 0; // 0 - I2C HID DESCR, 1 - HID REPORT DESC, 2 - INPUT REPORT
reg [7:0] I2C_OUT_DESC_MASK = 0;
reg [2:0] KBD_LED_STATUS = 0;
reg last_wr = 0, last_trans = 0, last_isr = 0;
reg IS_RAM_INIT = 0;
always @(posedge CLK) begin
// RESET LOGIC
rststate <= rststate + !RESET;
if (RESET == 0) begin
I2C_OUTPUT_TYPE = 2;//3;//0;
I2C_OUT_DESC_MASK = 0;
UART_WR = 0;
KBD_LED_STATUS = 0; // BIT 0 - NUM LOCK, BIT 1 - CAPS LOCK, BIT 2 - SCROOL LOCK
last_trans = 0; last_isr = 0; last_wr = 0;
I2C_COUNTER = 0;
INT = 1; int_tmr = 0;
ring_wr = 0; ring_rd = 15; wr_cnt = 0;
IS_RAM_INIT = 1;
report_wr_en = 0;
end
// NOT RESET MODE LOGIC
else begin
if (IS_RAM_INIT) begin
wr_cnt = wr_cnt + 1;
if ((wr_cnt == 0) && (report_wr_en == 0))
report_wr_en = 1;
else if ((wr_cnt == 0) && (report_wr_en == 1)) begin
report_wr_en = 0;
IS_RAM_INIT = 0;
end
end
else begin // START OF NON RESET AND NON INIT LOGIC
// ------------------------- KBD INTERRUPT ------------------------ //
if ((last_isr == 1/*0*/) && (ISR == 0/*1*/)) begin // INTERRUPT FROM KEYBOARD
if ((ring_wr + 1) != ring_rd)
ring_wr = ring_wr + 1;
report_wr_en = 1;
wr_cnt = 1;
end
else if (wr_cnt != 0) begin // WRITING TO RAM REPORT FROM KEYBOARD
if (wr_cnt == 11) begin
wr_cnt = 0;
report_wr_en = 0;
end
else
wr_cnt = wr_cnt + 1;
end
// ---------------------------- I2C NEW BYTE TX/RX RISING/FALLING EDGE, RISING - ALL LOGIC, FALLING - UART TX -------------- //
if ((last_wr == 0) && (I2C_WR == 1)) begin // I2C NEW BYTE TX/RX
if (I2C_READ == 0) begin // I2C_FROM_HOST
if (I2C_COUNTER == 0) begin
if ((I2C_RX > 5) || (I2C_RX < 1))
i2c_input_data_type = 0;
else
i2c_input_data_type = I2C_RX;
end
else if (I2C_COUNTER == 1) begin
if (I2C_RX != 0)
i2c_input_data_type = 0;
end
else if (I2C_COUNTER == 2) begin
if (i2c_input_data_type == 5) begin
case (I2C_RX) 0: i2c_input_data_type = 5; 16: i2c_input_data_type = 6;
32: i2c_input_data_type = 7; default: i2c_input_data_type = 0; endcase
end
end
else if (I2C_COUNTER == 3) begin
if (((i2c_input_data_type == 5) && (I2C_RX != 1)) || ((i2c_input_data_type == 6) && (I2C_RX != 2)) || ((i2c_input_data_type == 7) && (I2C_RX != 3)))
i2c_input_data_type = 0;
end
else if (I2C_COUNTER == 4) begin
if (i2c_input_data_type == 4)
temp_output_report = I2C_RX[2:0];
else if (((i2c_input_data_type == 6) || (i2c_input_data_type == 7)) && (I2C_RX != 6))
i2c_input_data_type = 0;
end
else if (I2C_COUNTER == 5) begin
if (((i2c_input_data_type == 6) || (i2c_input_data_type == 7)) && (I2C_RX != 0))
i2c_input_data_type = 0;
end
else if (I2C_COUNTER == 8) begin
if (i2c_input_data_type == 7)
temp_output_report = I2C_RX[2:0];
end
end
else begin // I2C_TO_HOST
if (I2C_OUTPUT_TYPE == 2/*3*/) begin
if (I2C_COUNTER == 0) begin
if (ring_rd != ring_wr)
ring_rd = ring_rd + 1;
end
end
end
UART_WR <= 0;
if (I2C_COUNTER != 127)
I2C_COUNTER = I2C_COUNTER + 1;
end // I2C NEW BYTE TX/RX - END
else if ((last_wr == 1) && (I2C_WR == 0)) begin // I2C_NEW_BYTE_NEGEDGE_FOR_UART
UART_WR = 1;
if (I2C_READ == 0)
UART_TX_DATA = I2C_RX;
else
UART_TX_DATA = I2C_TX;
//UART_TX_DATA = I2C_COUNTER;
end // I2C_NEW_BYTE_NEGEDGE_FOR_UART - END
// ---------------------- I2C START/STOP CONDITIONS, START - ONLY UART FF TX, STOP - ALL LOGIC ----------------- //
if ((last_trans == 0) && (I2C_TRANS == 1)) begin // I2C_START_CONDITION OR REPEAT START (UART FF)
i2c_input_data_type = 0; // UNKNOWN DATA IN
UART_TX_DATA = 8'hFF;
UART_WR = 1;
I2C_COUNTER = 0;
end // I2C_START_CONDITION (UART FF) - END
else if ((last_trans == 1) && (I2C_TRANS == 0)) begin // I2C_STOP CONDITION (OR REPEAT START DETECTED)
if (I2C_READ == 0) begin // DECODING PACKET RECEIVED FROM HOST
if (((i2c_input_data_type < 4) && (I2C_COUNTER != 2)) || ((i2c_input_data_type == 4) && (I2C_COUNTER != 5)) || ((i2c_input_data_type == 5) && (I2C_COUNTER != 4)) || ((i2c_input_data_type == 6) && (I2C_COUNTER != 6)) || ((i2c_input_data_type == 7) && (I2C_COUNTER != 9)))
i2c_input_data_type = 0;
if ((i2c_input_data_type == 1) || (i2c_input_data_type == 2) || (i2c_input_data_type == 3))
I2C_OUTPUT_TYPE = i2c_input_data_type - 1;
else if ((i2c_input_data_type == 4) || (i2c_input_data_type == 7))
KBD_LED_STATUS = temp_output_report;
else if (i2c_input_data_type == 6)
I2C_OUTPUT_TYPE = 2;//3;
else if (i2c_input_data_type == 5)
rststate <= 4'h0; // RESET COMMAND
if ((I2C_OUTPUT_TYPE == 1) || (I2C_OUTPUT_TYPE == 0))//2))
I2C_OUT_DESC_MASK = 8'hFF;
else
I2C_OUT_DESC_MASK = 8'h00;
end // END OF I2C_READ == 0
else begin
if ((I2C_OUTPUT_TYPE == 2/*3*/) && (I2C_COUNTER > 1)) begin
// DEACTIVATING INTERRRUPT IF HOST READ INPUT REPORT (LEN 10) AFTER INTERRUPT OR EMPTY DATA (>=2 BYTES) AFTER RESET
INT = 1;
int_tmr = 0;
end
I2C_OUTPUT_TYPE = 2;//3;
I2C_OUT_DESC_MASK = 0;
end
UART_WR <= 0;
end // I2C_STOP CONDITION (OR REPEAT START DETECTED) - END
// ---------------- INTERRUPT TO HOST GENERATING LOGIC: DELAY AND INTERRUPT GENERATING (IF NEED) --------------- //
//if (int_tmr != ((1<<(INTERRUPT_TMR_REFLESH+1))-1))
if (int_tmr[INTERRUPT_TMR_REFLESH] != 1)
int_tmr = int_tmr + 1;
else if ((I2C_OUTPUT_TYPE == 2/*3*/) && (I2C_TRANS == 0)) begin
if (ring_rd != ring_wr)
INT = 0;
end
last_trans <= I2C_TRANS;
last_wr <= I2C_WR;
last_isr <= ISR;
end // END OF NON RESET AND NON INIT LOGIC
end
end
assign LED5 = I2C_TRANS;
//assign LED5 = COM_RX;
assign LED1 = INT ^ 1;//KBD_COLUMNS[0];//I2C_OUTPUT_TYPE[0];//I2C_RX[0];
//assign LED2 = I2C_OUTPUT_TYPE[0];
//assign LED3 = I2C_OUTPUT_TYPE[1];
//assign LED2 = KBD_LED_STATUS[0];
assign LED3 = KBD_LED_STATUS[1];
assign LED4 = KBD_LED_STATUS[2];//KBD_FREEZE;//UART_ACTIVE;
//assign LED3 = UART_ACTIVE;
//assign LED4 = uart_double_ff;
//assign ACK = I2C_READ;//I2C_WR; //I2C_ACK;
assign LED2 = KBD_DBG;
assign COM_TX = UART_TX_LINE;//COM_RX;
assign INTERRUPT = INT;
assign COM_RTS = I2C_READ;//UART_RTS;
assign COM_DSR = KBD_FREEZE;//UART_DTR;
assign COM_DCD = INT;
endmodule //top