quasar/design/target/scala-2.12/classes/vsrc/swervolf_syscon.v

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2021-02-16 17:22:02 +08:00
// SPDX-License-Identifier: Apache-2.0
// Copyright 2019-2020 Western Digital Corporation or its affiliates.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//********************************************************************************
// $Id$
//
// Function: SweRVolf SoC-level controller
// Comments:
//
//********************************************************************************
module swervolf_syscon
#(parameter [31:0] clk_freq_hz = 0)
(input wire i_clk,
input wire i_rst,
input wire [63:0] i_gpio,
output reg [63:0] o_gpio,
output reg o_timer_irq,
output wire o_sw_irq3,
output wire o_sw_irq4,
input wire i_ram_init_done,
input wire i_ram_init_error,
output reg [31:0] o_nmi_vec,
output wire o_nmi_int,
input wire [5:0] i_wb_adr,
input wire [31:0] i_wb_dat,
input wire [3:0] i_wb_sel,
input wire i_wb_we,
input wire i_wb_cyc,
input wire i_wb_stb,
output reg [31:0] o_wb_rdt,
output reg o_wb_ack);
reg [63:0] mtime;
reg [63:0] mtimecmp;
reg sw_irq3;
reg sw_irq3_edge;
reg sw_irq3_pol;
reg sw_irq3_timer;
reg sw_irq4;
reg sw_irq4_edge;
reg sw_irq4_pol;
reg sw_irq4_timer;
reg irq_timer_en;
reg [31:0] irq_timer_cnt;
reg nmi_int;
reg nmi_int_r;
`ifdef SIMPRINT
reg [1023:0] signature_file;
integer f = 0;
initial begin
if ($value$plusargs("signature=%s", signature_file)) begin
$display("Writing signature to %0s", signature_file);
f = $fopen(signature_file, "w");
end
end
`endif
`ifndef VERSION_DIRTY
`define VERSION_DIRTY 1
`endif
`ifndef VERSION_MAJOR
`define VERSION_MAJOR 255
`endif
`ifndef VERSION_MINOR
`define VERSION_MINOR 255
`endif
`ifndef VERSION_REV
`define VERSION_REV 255
`endif
`ifndef VERSION_SHA
`define VERSION_SHA deadbeef
`endif
wire [31:0] version;
assign version[31] = `VERSION_DIRTY;
assign version[30:24] = `VERSION_REV;
assign version[23:16] = `VERSION_MAJOR;
assign version[15: 8] = `VERSION_MINOR;
assign version[ 7: 0] = `VERSION_PATCH;
assign o_sw_irq4 = sw_irq4^sw_irq4_pol;
assign o_sw_irq3 = sw_irq3^sw_irq3_pol;
assign o_nmi_int = nmi_int | nmi_int_r;
wire reg_we = i_wb_cyc & i_wb_stb & i_wb_we & !o_wb_ack;
//00 = ver
//04 = sha
//08 = simprint
//09 = simexit
//0A = RAM status
//0B = sw_irq
//10 = gpio
//20 = timer/timecmp
//40 = SPI
always @(posedge i_clk) begin
o_wb_ack <= i_wb_cyc & !o_wb_ack;
if (sw_irq3_edge)
sw_irq3 <= 1'b0;
if (sw_irq4_edge)
sw_irq4 <= 1'b0;
if (irq_timer_en)
irq_timer_cnt <= irq_timer_cnt - 1;
nmi_int <= 1'b0;
nmi_int_r <= nmi_int;
if (irq_timer_cnt == 32'd1) begin
irq_timer_en <= 1'b0;
if (sw_irq3_timer)
sw_irq3 <= 1'b1;
if (sw_irq4_timer)
sw_irq4 <= 1'b1;
if (!(sw_irq3_timer | sw_irq4_timer))
nmi_int <= 1'b1;
end
if (reg_we)
case (i_wb_adr[5:2])
2: begin //0x08-0x0B
`ifdef SIMPRINT
if (i_wb_sel[0]) begin
if (|f) $fwrite(f, "%c", i_wb_dat[7:0]);
$write("%c", i_wb_dat[7:0]);
end
if (i_wb_sel[1]) begin
$display("\nFinito");
$finish;
end
`endif
if (i_wb_sel[3]) begin
sw_irq4 <= i_wb_dat[31];
sw_irq4_edge <= i_wb_dat[30];
sw_irq4_pol <= i_wb_dat[29];
sw_irq4_timer <= i_wb_dat[28];
sw_irq3 <= i_wb_dat[27];
sw_irq3_edge <= i_wb_dat[26];
sw_irq3_pol <= i_wb_dat[25];
sw_irq3_timer <= i_wb_dat[24];
end
end
3: begin //0x0C-0x0F
if (i_wb_sel[0]) o_nmi_vec[7:0] <= i_wb_dat[7:0];
if (i_wb_sel[1]) o_nmi_vec[15:8] <= i_wb_dat[15:8];
if (i_wb_sel[2]) o_nmi_vec[23:16] <= i_wb_dat[23:16];
if (i_wb_sel[3]) o_nmi_vec[31:24] <= i_wb_dat[31:24];
end
4 : begin //0x10-0x13
if (i_wb_sel[0]) o_gpio[7:0] <= i_wb_dat[7:0] ;
if (i_wb_sel[1]) o_gpio[15:8] <= i_wb_dat[15:8] ;
if (i_wb_sel[2]) o_gpio[23:16] <= i_wb_dat[23:16];
if (i_wb_sel[3]) o_gpio[31:24] <= i_wb_dat[31:24];
end
5: begin //0x14-0x17
if (i_wb_sel[0]) o_gpio[39:32] <= i_wb_dat[7:0];
if (i_wb_sel[1]) o_gpio[47:40] <= i_wb_dat[15:8];
if (i_wb_sel[2]) o_gpio[55:48] <= i_wb_dat[23:16];
if (i_wb_sel[3]) o_gpio[63:56] <= i_wb_dat[31:24];
end
10 : begin //0x28-0x2B
if (i_wb_sel[0]) mtimecmp[7:0] <= i_wb_dat[7:0];
if (i_wb_sel[1]) mtimecmp[15:8] <= i_wb_dat[15:8];
if (i_wb_sel[2]) mtimecmp[23:16] <= i_wb_dat[23:16];
if (i_wb_sel[3]) mtimecmp[31:24] <= i_wb_dat[31:24];
end
11 : begin //0x2C-0x2F
if (i_wb_sel[0]) mtimecmp[39:32] <= i_wb_dat[7:0];
if (i_wb_sel[1]) mtimecmp[47:40] <= i_wb_dat[15:8];
if (i_wb_sel[2]) mtimecmp[55:48] <= i_wb_dat[23:16];
if (i_wb_sel[3]) mtimecmp[63:56] <= i_wb_dat[31:24];
end
12 : begin //0x30-3f
if (i_wb_sel[0]) irq_timer_cnt[7:0] <= i_wb_dat[7:0] ;
if (i_wb_sel[1]) irq_timer_cnt[15:8] <= i_wb_dat[15:8] ;
if (i_wb_sel[2]) irq_timer_cnt[23:16] <= i_wb_dat[23:16];
if (i_wb_sel[3]) irq_timer_cnt[31:24] <= i_wb_dat[31:24];
end
13 : begin
if (i_wb_sel[0])
irq_timer_en <= i_wb_dat[0];
end
endcase
case (i_wb_adr[5:2])
//0x00-0x03
0 : o_wb_rdt <= version;
//0x04-0x07
1 : o_wb_rdt <= 32'h`VERSION_SHA;
//0x08-0x0C
2 : begin
//0xB
o_wb_rdt[31:28] <= {sw_irq4, sw_irq4_edge, sw_irq4_pol, sw_irq4_timer};
o_wb_rdt[27:24] <= {sw_irq3, sw_irq3_edge, sw_irq3_pol, sw_irq3_timer};
//0xA
o_wb_rdt[23:18] <= 6'd0;
o_wb_rdt[17:16] <= {i_ram_init_error, i_ram_init_done};
//0x8-0x9
o_wb_rdt[15:0] <= 16'd0;
end
//0xC-0xF
3 : o_wb_rdt <= o_nmi_vec;
//0x10-0x13
4 : o_wb_rdt <= i_gpio[31:0];
//0x14-0x17
5 : o_wb_rdt <= i_gpio[63:32];
//0x20-0x23
8 : o_wb_rdt <= mtime[31:0];
//0x24-0x27
9 : o_wb_rdt <= mtime[63:32];
//0x28-0x2B
10 : o_wb_rdt <= mtimecmp[31:0];
//0x2C-0x2F
11 : o_wb_rdt <= mtimecmp[63:32];
//0x30-0x33
12 : o_wb_rdt <= irq_timer_cnt;
//0x34-0x37
13 : o_wb_rdt <= {31'd0, irq_timer_en};
//0x3C
15 : o_wb_rdt <= clk_freq_hz;
endcase
mtime <= mtime + 64'd1;
o_timer_irq <= (mtime >= mtimecmp);
if (i_rst) begin
mtime <= 64'd0;
mtimecmp <= 64'd0;
o_wb_ack <= 1'b0;
end
end
endmodule