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SummerCart64/fw/rtl/n64/n64_dd.sv

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interface if_dd (
output dd_interrupt
);
// Sector buffer regs
logic [6:0] n64_sector_address;
logic n64_sector_address_valid;
logic n64_sector_write;
logic [15:0] n64_sector_wdata;
logic [5:0] cpu_sector_address;
logic cpu_sector_address_valid;
logic cpu_sector_write;
logic [31:0] cpu_sector_wdata;
logic [31:0] sector_rdata;
// N64 controlled regs
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logic hard_reset;
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logic [15:0] data;
logic [7:0] cmd;
logic cmd_pending;
logic cmd_interrupt;
logic bm_start_pending;
logic bm_stop_pending;
logic bm_transfer_mode;
logic bm_transfer_blocks;
logic bm_pending;
logic bm_interrupt;
logic bm_interrupt_ack;
logic [7:0] sector_num;
logic [7:0] sector_size;
logic [7:0] sector_size_full;
logic [7:0] sectors_in_block;
// CPU controlled regs
logic hard_reset_clear;
logic [15:0] cmd_data;
logic cmd_ready;
logic bm_start_clear;
logic bm_stop_clear;
logic bm_transfer_c2;
logic bm_transfer_data;
logic bm_micro_error;
logic bm_clear;
logic bm_ready;
logic disk_inserted;
logic disk_changed;
logic index_lock;
logic [12:0] head_track;
logic [15:0] drive_id;
always_comb begin
dd_interrupt = cmd_interrupt || bm_interrupt;
end
modport dd (
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output hard_reset,
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output data,
output cmd,
output cmd_pending,
output cmd_interrupt,
output bm_start_pending,
output bm_stop_pending,
output bm_transfer_mode,
output bm_transfer_blocks,
output bm_pending,
output bm_interrupt,
output bm_interrupt_ack,
output sector_num,
output sector_size,
output sector_size_full,
output sectors_in_block,
input hard_reset_clear,
input cmd_data,
input cmd_ready,
input bm_start_clear,
input bm_stop_clear,
input bm_transfer_c2,
input bm_transfer_data,
input bm_micro_error,
input bm_clear,
input bm_ready,
input disk_inserted,
input disk_changed,
input index_lock,
input head_track,
input drive_id,
output .sector_address(n64_sector_address),
output .sector_address_valid(n64_sector_address_valid),
output .sector_write(n64_sector_write),
output .sector_wdata(n64_sector_wdata),
input sector_rdata
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);
modport cpu (
input hard_reset,
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input data,
input cmd,
input cmd_pending,
input bm_start_pending,
input bm_stop_pending,
input bm_transfer_mode,
input bm_transfer_blocks,
input bm_pending,
input bm_interrupt_ack,
input sector_num,
input sector_size,
input sector_size_full,
input sectors_in_block,
output hard_reset_clear,
output cmd_data,
output cmd_ready,
output bm_start_clear,
output bm_stop_clear,
output bm_transfer_c2,
output bm_transfer_data,
output bm_micro_error,
output bm_ready,
output bm_clear,
output disk_inserted,
output disk_changed,
output index_lock,
output head_track,
output drive_id,
output .sector_address(cpu_sector_address),
output .sector_address_valid(cpu_sector_address_valid),
output .sector_write(cpu_sector_write),
output .sector_wdata(cpu_sector_wdata),
input sector_rdata
);
modport sector_buffer (
input n64_sector_address,
input n64_sector_address_valid,
input n64_sector_write,
input n64_sector_wdata,
input cpu_sector_address,
input cpu_sector_address_valid,
input cpu_sector_write,
input cpu_sector_wdata,
output sector_rdata
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);
endinterface
module n64_dd (
if_system.sys sys,
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if_n64_bus bus,
if_dd.dd dd
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);
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const bit [31:0] M_BASE = 32'h0500_0000;
const bit [31:0] M_C2_BUFFER = M_BASE + 11'h000;
const bit [31:0] M_SECTOR_BUFFER = M_BASE + 11'h400;
typedef enum bit [10:0] {
R_DATA = 11'h500,
R_CMD_SR = 11'h508,
R_TRK_CUR = 11'h50C,
R_BM_SCR = 11'h510,
R_RESET = 11'h520,
R_SEC_SIZ = 11'h528,
R_SEC_INFO = 11'h530,
R_ID = 11'h540
} e_reg_id;
typedef enum bit [3:0] {
BM_CONTROL_START_BUFFER_MANAGER = 4'd15,
BM_CONTROL_BUFFER_MANAGER_MODE = 4'd14,
BM_CONTROL_BUFFER_MANAGER_RESET = 4'd12,
BM_CONTROL_BLOCK_TRANSFER = 4'd9,
BM_CONTROL_MECHANIC_INTERRUPT_RESET = 4'd8
} e_bm_control_id;
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typedef enum bit [0:0] {
S_IDLE,
S_WAIT
} e_state;
e_state state;
always_comb begin
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dd.sector_address = bus.address[7:1];
dd.sector_address_valid = bus.request && bus.address[11:8] == M_SECTOR_BUFFER[11:8];
dd.sector_write = bus.write && dd.sector_address_valid;
dd.sector_wdata = bus.wdata;
end
always_comb begin
bus.rdata = 16'd0;
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if (bus.ack) begin
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if (bus.address[10:8] == M_SECTOR_BUFFER[10:8]) begin
if (bus.address[1]) begin
bus.rdata = dd.sector_rdata[15:0];
end else begin
bus.rdata = dd.sector_rdata[31:16];
end
end else begin
case (bus.address[10:0])
R_DATA: bus.rdata = dd.data;
R_CMD_SR: bus.rdata = {
1'b0,
dd.bm_transfer_data,
1'b0,
dd.bm_transfer_c2,
1'b0,
dd.bm_interrupt,
dd.cmd_interrupt,
dd.disk_inserted,
dd.cmd_pending,
dd.hard_reset,
1'b0,
1'b0,
1'b0,
1'b0,
1'b0,
dd.disk_changed
};
R_TRK_CUR: bus.rdata = {1'd0, {2{dd.index_lock}}, dd.head_track};
R_BM_SCR: bus.rdata = {6'd0, dd.bm_micro_error, 9'd0};
R_ID: bus.rdata = {dd.drive_id};
default: bus.rdata = 16'd0;
endcase
end
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end
end
always_ff @(posedge sys.clk) begin
bus.ack <= 1'b0;
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dd.bm_interrupt_ack <= 1'b0;
if (dd.hard_reset_clear) begin
dd.hard_reset <= 1'b0;
end
if (dd.cmd_ready) begin
dd.data <= dd.cmd_data;
dd.cmd_pending <= 1'b0;
dd.cmd_interrupt <= 1'b1;
end
if (dd.bm_start_clear) begin
dd.bm_start_pending <= 1'b0;
end
if (dd.bm_stop_clear) begin
dd.bm_stop_pending <= 1'b0;
end
if (dd.bm_clear) begin
dd.bm_pending <= 1'b0;
end
if (dd.bm_ready) begin
dd.bm_interrupt <= 1'b1;
end
if (bus.real_address == (M_C2_BUFFER + ({dd.sector_size[7:1], 1'b0} * 3'd4)) && bus.read_op) begin
dd.bm_pending <= 1'b1;
end
if (bus.real_address == (M_SECTOR_BUFFER + {dd.sector_size[7:1], 1'b0}) && (bus.read_op || bus.write_op)) begin
dd.bm_pending <= 1'b1;
end
if (bus.real_address == (M_BASE + R_CMD_SR) && bus.read_op) begin
dd.bm_interrupt <= 1'b0;
dd.bm_interrupt_ack <= 1'b1;
end
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if (sys.reset || sys.n64_hard_reset) begin
dd.hard_reset <= 1'b1;
dd.cmd_pending <= 1'b0;
dd.cmd_interrupt <= 1'b0;
dd.bm_start_pending <= 1'b0;
dd.bm_stop_pending <= 1'b0;
dd.bm_pending <= 1'b0;
dd.bm_interrupt <= 1'b0;
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state <= S_IDLE;
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end else begin
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case (state)
S_IDLE: begin
if (bus.request) begin
state <= S_WAIT;
bus.ack <= 1'b1;
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if (bus.write) begin
case (bus.address[10:0])
R_DATA: begin
dd.data <= bus.wdata;
end
R_CMD_SR: begin
dd.cmd <= bus.wdata[7:0];
dd.cmd_pending <= 1'b1;
end
R_BM_SCR: begin
dd.sector_num <= bus.wdata[7:0];
if (bus.wdata[BM_CONTROL_START_BUFFER_MANAGER]) begin
dd.bm_start_pending <= 1'b1;
dd.bm_stop_pending <= 1'b0;
dd.bm_transfer_mode <= bus.wdata[BM_CONTROL_BUFFER_MANAGER_MODE];
dd.bm_transfer_blocks <= bus.wdata[BM_CONTROL_BLOCK_TRANSFER];
end
if (bus.wdata[BM_CONTROL_BUFFER_MANAGER_RESET]) begin
dd.bm_start_pending <= 1'b0;
dd.bm_stop_pending <= 1'b1;
dd.bm_transfer_mode <= 1'b0;
dd.bm_transfer_blocks <= 1'b0;
dd.bm_pending <= 1'b0;
dd.bm_interrupt <= 1'b0;
end
if (bus.wdata[BM_CONTROL_MECHANIC_INTERRUPT_RESET]) begin
dd.cmd_interrupt <= 1'b0;
end
end
R_RESET: begin
if (bus.wdata == 16'hAAAA) begin
dd.hard_reset <= 1'b1;
dd.cmd_pending <= 1'b0;
dd.cmd_interrupt <= 1'b0;
dd.bm_start_pending <= 1'b0;
dd.bm_stop_pending <= 1'b0;
dd.bm_pending <= 1'b0;
dd.bm_interrupt <= 1'b0;
end
end
R_SEC_SIZ: begin
dd.sector_size <= bus.wdata[7:0];
end
R_SEC_INFO: begin
dd.sectors_in_block <= bus.wdata[15:8];
dd.sector_size_full <= bus.wdata[7:0];
end
endcase
end
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end
end
S_WAIT: begin
state <= S_IDLE;
end
endcase
end
end
endmodule
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module n64_dd_sector_buffer (
if_system.sys sys,
if_dd.sector_buffer dd
);
logic [5:0] sector_address;
logic [31:0] sector_buffer [0:63];
logic [15:0] sector_high_buffer;
logic sector_write;
logic [31:0] sector_wdata;
always_comb begin
sector_address = 6'd0;
sector_write = 1'b0;
sector_wdata = 32'd0;
if (dd.n64_sector_address_valid) begin
sector_address = dd.n64_sector_address[6:1];
end else if (dd.cpu_sector_address_valid) begin
sector_address = dd.cpu_sector_address;
end
if (dd.n64_sector_write && dd.n64_sector_address[0]) begin
sector_write = 1'b1;
sector_wdata = {sector_high_buffer, dd.n64_sector_wdata};
end else if (dd.cpu_sector_write) begin
sector_write = 1'b1;
sector_wdata = dd.cpu_sector_wdata;
end
end
always_ff @(posedge sys.clk) begin
if (dd.n64_sector_write && !dd.n64_sector_address[0]) begin
sector_high_buffer <= dd.n64_sector_wdata;
end
end
always_ff @(posedge sys.clk) begin
dd.sector_rdata <= sector_buffer[sector_address];
if (sector_write) begin
sector_buffer[sector_address] <= sector_wdata;
end
end
endmodule
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