Commit 860b1594 authored by Andrey Filippov's avatar Andrey Filippov

minor fixes

parent 05a118d9
......@@ -15,6 +15,11 @@ from __future__ import print_function
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http:#www.gnu.org/licenses/>.
@brief: Provides sockets-related functionality for both the simulation server
and tghe client. Server is linked to the Cocotb and custom modules and controls
the simulation, server is used to replace memory read/write functionality in the
target system
@author: Andrey Filippov
@copyright: 2016 Elphel, Inc.
@license: GPLv3.0+
......@@ -97,19 +102,13 @@ class x393Client():
def write(self, address, data):
self.cmd.setWrite([address,data])
rslt = self.communicate(self.cmd.toJSON())
# print("write->",rslt)
def waitIrq(self, irqMask,wait_ns):
self.cmd.setWait([irqMask,wait_ns])
rslt = self.communicate(self.cmd.toJSON())
# print("waitIrq->",rslt)
def flush(self):
self.cmd.setFlush()
# print("flush->",self.communicate(self.cmd.toJSON()))
def read(self, address):
self.cmd.setRead(address)
# print("read->args",self.cmd.getArgs())
rslt = self.communicate(self.cmd.toJSON())
#print("read->",rslt)
return json.loads(rslt)
......@@ -15,6 +15,9 @@ from __future__ import print_function
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http:#www.gnu.org/licenses/>.
@brief: Simulation server for x393_dut.v top Verilog module.
Listens to the socket connection, accepts incoming commands, applies them
to the simulator and sends back data from the model.
@author: Andrey Filippov
@copyright: 2016 Elphel, Inc.
@license: GPLv3.0+
......
......@@ -2,15 +2,15 @@
* <b>Module:</b> x393_dut
* @file x393_dut.v
* @date 2016-06-27
* @author eyesis
* @author Andrey Filippov
*
* @brief Top DUT module for trying cocotb
* Initially will include other simulation modules, leaving just AXI for communicating
* with Cocotb
* @brief Top DUT module for simulating x393 project with Cocotb
* Includes instances of other Verilog simulation modules and I/O ports
* for interfacing with Python modules
*
* @copyright Copyright (c) 2016 <set up in Preferences-Verilog/VHDL Editor-Templates> .
* @copyright Copyright (c) 2016 Elphel, Inc.
*
* <b>License </b>
* <b>License:</b>
*
* x393_dut.v is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
......@@ -1712,406 +1712,5 @@ simul_axi_hp_wr #(
assign x393_i.ps7_i.FCLKCLK= {4{CLK}};
assign x393_i.ps7_i.FCLKRESETN= {RST,~RST,RST,~RST};
//`define SHOW_TMP_TASKS
// Temporary
`ifdef SHOW_TMP_TASKS
task write_contol_register;
input [29:0] reg_addr;
// input integer reg_addr;
input [31:0] data;
begin
axi_write_single_w(CONTROL_ADDR+reg_addr, data);
end
endtask
task read_contol_register;
input [29:0] reg_addr;
begin
read_and_wait_w(CONTROL_RBACK_ADDR+reg_addr);
end
endtask
task wait_read_queue_empty;
begin
wait (~rvalid && rready && (rid==LAST_ARID)); // nothing left in read queue?
SIMUL_AXI_FULL<=1'b0;
end
endtask
task axi_set_rd_lag;
input [3:0] lag;
begin
@(posedge CLK);
dutm0_xtra_rdlag <= lag;
end
endtask
task axi_set_b_lag;
input [3:0] lag;
begin
@(posedge CLK);
dutm0_xtra_blag <= lag;
end
endtask
task read_and_wait_w;
input [29:0] address;
begin
read_and_wait ({address,2'b0});
end
endtask
task read_and_wait;
input [31:0] address;
begin
IRQ_EN = 0;
wait (CLK);
while (!MAIN_GO) begin
wait (!CLK);
wait (CLK);
end
axi_read_addr_inner(
GLOBAL_READ_ID, // id
address & 32'hfffffffc, // addr
4'h0, // len - single
1 // burst type - increment
);
GLOBAL_READ_ID <= GLOBAL_READ_ID+1;
wait (!CLK && rvalid && rready);
wait (CLK);
registered_rdata <= rdata;
wait (!CLK); // registered_rdata should be valid on exit
IRQ_EN = 1;
if (IRQS) begin
@(posedge CLK);
@(negedge CLK);
end
end
endtask
task axi_write_single_w; // address in dwords
input [29:0] address;
input [31:0] data;
begin
`ifdef DEBUG_WR_SINGLE
$display("axi_write_single_w %h:%h @ %t",address,data,$time);
`endif
axi_write_single ({address,2'b0},data);
end
endtask
task axi_write_single; // address in bytes, not words
input [31:0] address;
input [31:0] data;
begin
axi_write_addr_data(
GLOBAL_WRITE_ID, // id
// address << 2, // addr
address & 32'hfffffffc, // addr
data,
4'h0, // len - single
1, // burst type - increment
1'b1, // data_en
4'hf, // wstrb
1'b1 // last
);
GLOBAL_WRITE_ID <= GLOBAL_WRITE_ID+1;
#0.1; // without this delay axi_write_addr_data() used old value of GLOBAL_WRITE_ID
end
endtask
task axi_write_addr_data;
input [11:0] id;
input [31:0] addr;
input [31:0] data;
input [ 3:0] len;
input [ 1:0] burst;
input data_en; // if 0 - do not send data, only address
input [ 3:0] wstrb;
input last;
begin
IRQ_EN = 0;
wait (CLK);
while (!MAIN_GO) begin
wait (!CLK);
wait (CLK);
end
axi_write_addr_data_inner (id, addr, data, len, burst, data_en, wstrb, last);
IRQ_EN = 1;
if (IRQS) begin
@(posedge CLK);
@(negedge CLK);
end
end
endtask
task axi_write_data;
input [11:0] id;
input [31:0] data;
input [ 3:0] wstrb;
input last;
begin
IRQ_EN = 0;
wait (CLK);
while (!MAIN_GO) begin
wait (!CLK);
wait (CLK);
end
axi_write_data_inner (id, data, wstrb, last);
IRQ_EN = 1;
if (IRQS) begin
@(posedge CLK);
@(negedge CLK);
end
end
endtask
// Tasks called from ISR
task read_contol_register_irq;
input [29:0] reg_addr;
output [31:0] rslt;
begin
read_and_wait_w_irq(CONTROL_RBACK_ADDR+reg_addr, rslt);
end
endtask
task read_status_irq;
input [STATUS_DEPTH-1:0] address;
output [31:0] rslt;
begin
read_and_wait_w_irq(STATUS_ADDR + address , rslt);
end
endtask
task read_and_wait_w_irq;
input [29:0] address;
output [31:0] rslt;
begin
read_and_wait_irq ({address,2'b0},rslt);
end
endtask
task read_and_wait_irq;
input [31:0] address;
output reg [31:0] rslt;
begin
axi_read_addr_irq(
GLOBAL_READ_ID, // id
address & 32'hfffffffc, // addr
4'h0, // len - single
1 // burst type - increment
);
GLOBAL_READ_ID <= GLOBAL_READ_ID+1;
wait (!CLK && rvalid && rready);
wait (CLK);
rslt <= rdata;
wait (!CLK); // registered_rdata should be valid on exit
end
endtask
task axi_read_addr_irq; // called ferom the main loop, not from interrupts
input [11:0] id;
input [31:0] addr;
input [ 3:0] len;
input [ 1:0] burst;
begin
// IRQ_EN = 0;
// wait (CLK);
// while (!MAIN_GO) begin
// wait (!CLK);
// wait (CLK);
// end
axi_read_addr_inner (id, addr, len, burst);
// IRQ_EN = 1;
end
endtask
task write_contol_register_irq;
input [29:0] reg_addr;
// input integer reg_addr;
input [31:0] data;
begin
axi_write_single_w_irq(CONTROL_ADDR+reg_addr, data);
end
endtask
task axi_write_single_w_irq; // address in dwords
input [29:0] address;
input [31:0] data;
begin
`ifdef DEBUG_WR_SINGLE
$display("axi_write_single_w %h:%h @ %t",address,data,$time);
`endif
axi_write_single_irq ({address,2'b0},data);
end
endtask
task axi_write_single_irq; // address in bytes, not words
input [31:0] address;
input [31:0] data;
begin
axi_write_addr_data_irq(
GLOBAL_WRITE_ID, // id
address & 32'hfffffffc, // addr
data,
4'h0, // len - single
1, // burst type - increment
1'b1, // data_en
4'hf, // wstrb
1'b1 // last
);
GLOBAL_WRITE_ID <= GLOBAL_WRITE_ID+1;
#0.1; // without this delay axi_write_addr_data() used old value of GLOBAL_WRITE_ID
end
endtask
task axi_write_addr_data_irq;
input [11:0] id;
input [31:0] addr;
input [31:0] data;
input [ 3:0] len;
input [ 1:0] burst;
input data_en; // if 0 - do not send data, only address
input [ 3:0] wstrb;
input last;
begin
// IRQ_EN = 0;
// wait (CLK);
// while (!MAIN_GO) begin
// wait (!CLK);
// wait (CLK);
// end
axi_write_addr_data_inner (id, addr, data, len, burst, data_en, wstrb, last);
// IRQ_EN = 1;
end
endtask
// Tasks common for main ind ISR
task axi_write_addr_data_inner;
input [11:0] id;
input [31:0] addr;
input [31:0] data;
input [ 3:0] len;
input [ 1:0] burst;
input data_en; // if 0 - do not send data, only address
input [ 3:0] wstrb;
input last;
reg data_sent;
// wire data_sent_d;
// assign #(.1) data_sent_d= data_sent;
begin
wait (!CLK && dutm0_awready);
dutm0_awid <= id;
dutm0_awaddr <= addr;
dutm0_awlen <= len;
dutm0_awsize <= 2'b10;
dutm0_awburst <= burst;
dutm0_awvalid <= 1'b1;
if (data_en && dutm0_wready) begin
dutm0_wid <= id;
dutm0_wdata <= data;
dutm0_wstb <= wstrb;
dutm0_wlast <= last;
dutm0_wvalid <= 1'b1;
data_sent <= 1'b1;
end else begin
data_sent <= 1'b0;
end
DEBUG1 <=1'b1;
wait (CLK);
DEBUG1 <=1'b0;
dutm0_awid <= 'hz;
dutm0_awaddr <= 'hz;
dutm0_awlen <= 'hz;
dutm0_awsize <= 'hz;
dutm0_awburst <= 'hz;
dutm0_awvalid <= 1'b0;
DEBUG2 <=1'b1;
if (data_sent) begin
dutm0_wid <= 'hz;
dutm0_wdata <= 'hz;
dutm0_wstb <= 'hz;
dutm0_wlast <= 'hz;
dutm0_wvalid <= 1'b0;
end
// Now sent data if it was not sent simultaneously with the address
if (data_en && !data_sent) begin
DEBUG3 <=1'b1;
wait (!CLK && dutm0_wready);
DEBUG3 <=1'b0;
dutm0_wid <= id;
dutm0_wdata <= data;
dutm0_wstb <= wstrb;
dutm0_wlast <= last;
dutm0_wvalid <= 1'b1;
wait (CLK);
DEBUG3 <=1'bx;
dutm0_wid <= 'hz;
dutm0_wdata <= 'hz;
dutm0_wstb <= 'hz;
dutm0_wlast <= 'hz;
dutm0_wvalid <= 1'b0;
end
DEBUG2 <=1'b0;
#0.1;
data_sent <= 1'b0;
#0.1;
end
endtask
task axi_write_data_inner;
input [11:0] id;
input [31:0] data;
input [ 3:0] wstrb;
input last;
begin
wait (!CLK && dutm0_wready);
dutm0_wid <= id;
dutm0_wdata <= data;
dutm0_wstb <= wstrb;
dutm0_wlast <= last;
dutm0_wvalid <= 1'b1;
wait (CLK);
dutm0_wid <= 12'hz;
dutm0_wdata <= 'hz;
dutm0_wstb <= 4'hz;
dutm0_wlast <= 1'bz;
dutm0_wvalid <= 1'b0;
#0.1;
end
endtask
task axi_read_addr_inner; // regardless of main loop/interrupts
input [11:0] id;
input [31:0] addr;
input [ 3:0] len;
input [ 1:0] burst;
begin
wait (!CLK && dutm0_arready);
dutm0_arid <= id;
dutm0_araddr <= addr;
dutm0_arlen <= len;
dutm0_arsize <= 2'b10;
dutm0_arburst <= burst;
dut_arvalid <= 1'b1;
wait (CLK);
dutm0_arid <= 12'hz;
dutm0_araddr <= 'hz;
dutm0_arlen <= 4'hz;
dutm0_arsize <= 2'hz;
dutm0_arburst <= 2'hz;
dut_arvalid <= 1'b0;
LAST_ARID <= id;
NUM_WORDS_EXPECTED <= NUM_WORDS_EXPECTED+len+1;
end
endtask
`endif // SHOW_TMP_TASKS
endmodule
......@@ -17,10 +17,11 @@ from __future__ import print_function
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http:#www.gnu.org/licenses/>.
@author: Andrey Filippov
@copyright: 2016 Elphel, Inc.
@license: GPLv3.0+
@contact: andrey@elphel.coml
@brief I/O Interfaces of the x393 project for simulation using cocotb
@author Andrey Filippov
@copyright 2016 Elphel, Inc.
@license GPLv3.0+
@contact andrey@elphel.coml
Uses code from https://github.com/potentialventures/cocotb/blob/master/cocotb/drivers/amba.py
Below are the copyright/license notices of the amba.py
......
......@@ -80,7 +80,7 @@ class X393Mem(object):
try:
X393_CLIENT.start()
except:
print ("Failed to communicate to the server. Is it started? Swithching to dry tun mode")
print ("Failed to communicate to the server. Is it started? Switching to dry run mode")
X393_CLIENT = True
......@@ -170,7 +170,6 @@ class X393Mem(object):
@param quiet - reduce output
"""
if X393_CLIENT is True:
# if self.DRY_MODE:
print ("simulated: write_mem(0x%x,0x%x)"%(addr,data))
return
elif not X393_CLIENT is None:
......@@ -184,23 +183,11 @@ class X393Mem(object):
page_addr=addr & (~(self.PAGE_SIZE-1))
page_offs=addr-page_addr
mm = self.wrap_mm(f, page_addr)
# if (page_addr>=0x80000000):
# page_addr-= (1<<32)
# mm = mmap.mmap(f.fileno(), self.PAGE_SIZE, offset=page_addr)
packedData=struct.pack(self.ENDIAN+"L",data)
d=struct.unpack(self.ENDIAN+"L",packedData)[0]
mm[page_offs:page_offs+4]=packedData
if quiet <2:
print ("0x%08x <== 0x%08x (%d)"%(addr,d,d))
'''
if MONITOR_EMIO and VEBOSE:
gpio0=read_mem (0xe000a068)
gpio1=read_mem (0xe000a06c)
print("GPIO: %04x %04x %04x %04x"%(gpio1>>16, gpio1 & 0xffff, gpio0>>16, gpio0 & 0xffff))
if ((gpio0 & 0xc) != 0xc) or ((gpio0 & 0xff00) != 0):
print("******** AXI STUCK ************")
exit (0)
'''
def read_mem (self,addr,quiet=1):
'''
......
......@@ -104,7 +104,7 @@ WARN_LOGFILE = log.txt
#---------------------------------------------------------------------------
# Configuration options related to the input files
#---------------------------------------------------------------------------
INPUT = . axi compressor_jp dsp includes logger memctrl sensor simulation_modules timing util_modules wrap x393_sata py393 helpers
INPUT = . axi compressor_jp dsp includes logger memctrl sensor simulation_modules timing util_modules wrap x393_sata helpers
INPUT_ENCODING = UTF-8
FILE_PATTERNS = *.v *.vh *.ucf *.qsf *.tcl *.py
......
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