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53ee18da2c
SummerCart64/fw/rtl/n64/n64_cfg.sv
Mateusz Faderewski ff69030643
[SC64][FW][HW][SW] New version based on LCMXO2 FPGA (#19) 
* isv support + usb/dd improvements

* make room for saves

* update offset

* fixed debug address

* idk

* exception

* ironed out all broken stuff

* cleanup

* return epc fix

* better

* more cleanup

* even more cleanup

* mooore cleanup

* fixed printf

* no assert

* improved docker build, pyft232 instead of pyserial

* fixed displaying long message strings

description test

* just straight cleanup

* smallest cleanup

* PAL

* cpu buffer

* n64 bootloader done

* super slow usb storage reading implemented

* reduced buffer size

* usb gets fast

* little cleanup

* double buffered reads

* removed separate event id

* ISV in hardware finally

* small exception changes

* mac testing

* py spacing

* fsd write, rtc, isv and reset fixes

* fixxx

* good stopping point

* usb fixed?

* pretend we have 128 MB sdram

* backup

* chmod

* test

* test done

* more tests

* user rm

* help

* final fix

* updated component values

* nice asset names

* cic 64dd support

* ddipl enable separation

* pre DMA rewrite, created dedicated buffer memory space, simplified code

* dma rewrite, needs testing

* moved xml

* dd basics

* timing

* 64dd working yet again, isv brought back, dma fixes, usb path rewrite, pc code rewrite

* added usb read functionality, general cleanup

* changed mem addressing

* added fpga flash update access

* added mcu update

* chmod

* little cleanup

* update format and stuff

* fixes

* uninitialized fix

* small fixes

* update fixes

* update stuff done

* fpga update tested

* build time fix

* boot fix

* test timing

* readme test

* test 2

* reports

* testseet

* final

* build test

* forgot

* button and naming

* General cleanup

And multiline commit message test

* Exception screen UI touch ups

* display separation and tests beginning

* pc software update

* pc software done

* timing test

* delete launch.json

* sw fixes

* fixed button hole diameter in shell

* small cleanup, rpi testing

* shell fillet fix, pc rtc printing

* added cfg lock mechanism

* moved lock to cfg address space

* extended ROM and ISV fixes

* preliminary sd card support

* little sd card cleanup

* sd menu fixes

* 5 second limit

* reduced shell thickness

* basic led act blinking

* faster sd menu loading

* inst cache invalidate

* sd card writing is working

* SD card CSD and CID registers

* wait for previous command

* led error codes

* fixed cfg_translate_address use

* 64dd from sd card working

* 64dd speedup and button handling

* delayed address latching cycle - might break other builds, needs testing

* bootloader improvements

* small fixes

* return previous cfg when setting new

* cache stuff

* unfloader debug protocol support

* UNFLoader style debug command line support

* requirements.txt

* shell groove fillet

* reset state inside controller

* fixed fast PI read, added PI R/W fifo debug info

* PI access prioritize

* SD clock stop when RX FIFO is more than half full

* flash erase method change

* CFG error handling, TLOZ MM debug ISV support

* CIC5167 support

* general fixes

* USB unplugged cable handling

* turn off led when changing between error/act modes

* rtc 2 bit clock stop support

* line endings

* Revert "line endings"

This reverts commit d0ddfe5ec7.

* PI address debug

* readme test

* diagram update

* diagram background

* diagram background

* diagram background

* updated readme
2022-11-10 11:46:54 +01:00

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module n64_cfg (
input clk,
input reset,
n64_reg_bus.cfg reg_bus,
n64_scb.cfg n64_scb,
output logic irq
);
typedef enum bit [3:0] {
REG_STATUS,
REG_COMMAND,
REG_DATA_0_H,
REG_DATA_0_L,
REG_DATA_1_H,
REG_DATA_1_L,
REG_VERSION_H,
REG_VERSION_L,
REG_KEY_H,
REG_KEY_L
} e_reg;
logic cfg_error;
always_comb begin
reg_bus.rdata = 16'd0;
if (reg_bus.address[16] && (reg_bus.address[15:5] == 11'd0)) begin
case (reg_bus.address[4:1])
REG_STATUS: reg_bus.rdata = {
n64_scb.cfg_pending,
cfg_error,
irq,
13'd0
};
REG_COMMAND: reg_bus.rdata = {8'd0, n64_scb.cfg_cmd};
REG_DATA_0_H: reg_bus.rdata = n64_scb.cfg_wdata[0][31:16];
REG_DATA_0_L: reg_bus.rdata = n64_scb.cfg_wdata[0][15:0];
REG_DATA_1_H: reg_bus.rdata = n64_scb.cfg_wdata[1][31:16];
REG_DATA_1_L: reg_bus.rdata = n64_scb.cfg_wdata[1][15:0];
REG_VERSION_H: reg_bus.rdata = n64_scb.cfg_version[31:16];
REG_VERSION_L: reg_bus.rdata = n64_scb.cfg_version[15:0];
REG_KEY_H: reg_bus.rdata = 16'd0;
REG_KEY_L: reg_bus.rdata = 16'd0;
endcase
end
end
logic unlock_flag;
logic lock_sequence_counter;
always_ff @(posedge clk) begin
if (n64_scb.cfg_done) begin
n64_scb.cfg_pending <= 1'b0;
cfg_error <= n64_scb.cfg_error;
end
if (n64_scb.cfg_irq) begin
irq <= 1'b1;
end
if (unlock_flag) begin
n64_scb.cfg_unlock <= 1'b1;
end
if (reset || n64_scb.n64_reset || n64_scb.n64_nmi) begin
n64_scb.cfg_unlock <= 1'b0;
n64_scb.cfg_pending <= 1'b0;
n64_scb.cfg_cmd <= 8'h00;
irq <= 1'b0;
cfg_error <= 1'b0;
lock_sequence_counter <= 1'd0;
end else if (n64_scb.cfg_unlock) begin
if (reg_bus.write && reg_bus.address[16] && (reg_bus.address[15:5] == 11'd0)) begin
case (reg_bus.address[4:1])
REG_COMMAND: begin
n64_scb.cfg_pending <= 1'b1;
n64_scb.cfg_cmd <= reg_bus.wdata[7:0];
cfg_error <= 1'b0;
end
REG_DATA_0_H: n64_scb.cfg_rdata[0][31:16] <= reg_bus.wdata;
REG_DATA_0_L: n64_scb.cfg_rdata[0][15:0] <= reg_bus.wdata;
REG_DATA_1_H: n64_scb.cfg_rdata[1][31:16] <= reg_bus.wdata;
REG_DATA_1_L: n64_scb.cfg_rdata[1][15:0] <= reg_bus.wdata;
REG_VERSION_H: irq <= 1'b0;
REG_KEY_H, REG_KEY_L: begin
lock_sequence_counter <= lock_sequence_counter + 1'd1;
if (reg_bus.wdata != 16'hFFFF) begin
lock_sequence_counter <= 1'd0;
end
if (lock_sequence_counter == 1'd1) begin
n64_scb.cfg_unlock <= (reg_bus.wdata != 16'hFFFF);
end
end
endcase
end
end
end
const bit [15:0] UNLOCK_SEQUENCE [4] = {
16'h5F55,
16'h4E4C,
16'h4F43,
16'h4B5F
};
logic [1:0] unlock_sequence_counter;
always_ff @(posedge clk) begin
unlock_flag <= 1'b0;
if (reset || n64_scb.n64_reset || n64_scb.n64_nmi) begin
unlock_sequence_counter <= 2'd0;
end else if (!n64_scb.cfg_unlock) begin
if (reg_bus.write && reg_bus.address[16] && (reg_bus.address[15:5] == 11'd0)) begin
case (reg_bus.address[4:1])
REG_KEY_H, REG_KEY_L: begin
for (int index = 0; index < $size(UNLOCK_SEQUENCE); index++) begin
if (index == unlock_sequence_counter) begin
if (reg_bus.wdata == UNLOCK_SEQUENCE[index]) begin
unlock_sequence_counter <= unlock_sequence_counter + 1'd1;
if (index == ($size(UNLOCK_SEQUENCE) - 1'd1)) begin
unlock_flag <= 1'b1;
unlock_sequence_counter <= 2'd0;
end
end else begin
unlock_sequence_counter <= 2'd0;
end
end
end
end
endcase
end
end
end
endmodule
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