cooctb- update gpio tests for caravan (#341)

* update gpio tests for caravan

* cocotb - Add gpio caravan tests
This commit is contained in:
M0stafaRady 2022-10-22 21:14:25 +02:00 committed by GitHub
parent 30d35947f1
commit 523fa3a5bb
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
12 changed files with 1319 additions and 27 deletions

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@ -37,6 +37,7 @@ from tests.irq.IRQ_external import *
from tests.irq.IRQ_timer import * from tests.irq.IRQ_timer import *
from tests.irq.IRQ_uart import * from tests.irq.IRQ_uart import *
from tests.gpio.gpio import * from tests.gpio.gpio import *
from tests.gpio_caravan.gpio_caravan import *
from tests.gpio.gpio_user import * from tests.gpio.gpio_user import *
from tests.mgmt_gpio.mgmt_gpio import * from tests.mgmt_gpio.mgmt_gpio import *
from tests.timer.timer import * from tests.timer.timer import *

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@ -371,4 +371,6 @@ reg [7:0] DM_INIT = `ifdef DM_INIT `DM_INIT `else 0 `endif;
reg GL = `ifdef GL 1 `else 0 `endif; reg GL = `ifdef GL 1 `else 0 `endif;
reg CARAVAN = `ifdef CARAVAN 1 `else 0 `endif;
endmodule endmodule

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@ -74,6 +74,7 @@ def fill_macros(macros_hdl):
Macros['MPRJ_IO_PADS_2'] = macros_hdl.MPRJ_IO_PADS_2.value.integer Macros['MPRJ_IO_PADS_2'] = macros_hdl.MPRJ_IO_PADS_2.value.integer
Macros['MPRJ_IO_PADS'] = macros_hdl.MPRJ_IO_PADS.value.integer Macros['MPRJ_IO_PADS'] = macros_hdl.MPRJ_IO_PADS.value.integer
Macros['GL'] = macros_hdl.GL.value.integer Macros['GL'] = macros_hdl.GL.value.integer
Macros['CARAVAN'] = macros_hdl.CARAVAN.value.integer

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@ -193,6 +193,11 @@ class RiskV:
def read_debug_reg2(self): def read_debug_reg2(self):
return self.debug_hdl.debug_reg_2.value.integer return self.debug_hdl.debug_reg_2.value.integer
def read_debug_reg1_str(self):
return self.debug_hdl.debug_reg_1.value.binstr
def read_debug_reg2_str(self):
return self.debug_hdl.debug_reg_2.value.binstr
# writing debug registers using backdoor because in GL cpu can't be disabled for now because of different netlist names # writing debug registers using backdoor because in GL cpu can't be disabled for now because of different netlist names
def write_debug_reg1_backdoor(self,data): def write_debug_reg1_backdoor(self,data):
self.debug_hdl.debug_reg_1.value = data self.debug_hdl.debug_reg_1.value = data

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@ -4,10 +4,16 @@
"_comment1" :"GL regressions run this test in gatelevel, GL_SDF regression run this test with SDF included" "_comment1" :"GL regressions run this test in gatelevel, GL_SDF regression run this test with SDF included"
,"gpio_all_i" :{"level":0, ,"gpio_all_i" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","r_caravan_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","r_caravan_gl","push_gl","gpio_gl","nightly","weekly","tape_out"], "GL":["r_gl","push_gl","gpio_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"configure all gpios as mgmt input using automatic approach firmware and check them"} "description":"configure all gpios as mgmt input using automatic approach firmware and check them"}
,"gpio_all_i_caravan" :{"level":0,
"SW":true,
"RTL":["r_caravan_rtl"],
"GL":["r_caravan_gl"],
"GL_SDF":[],
"description":"configure all gpios as mgmt input using automatic approach firmware and check them for caravan"}
,"hk_disable" :{"level":0, ,"hk_disable" :{"level":0,
"SW":true, "SW":true,
@ -23,25 +29,33 @@
"description":"test uart reception"} "description":"test uart reception"}
,"hk_regs_rst_spi" :{"level":0, ,"hk_regs_rst_spi" :{"level":0,
"SW":false, "SW":false,
"RTL":["r_rtl","setup","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","push_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","push_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"check reset value of house keeping registers by reading them trough the spi housekeeping"} "description":"check reset value of house keeping registers by reading them trough the spi housekeeping"}
,"gpio_all_i_user" :{"level":0, ,"gpio_all_i_user" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","r_caravan_rtl","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","r_caravan_gl","push_gl","gpio_gl","nightly","weekly","tape_out"], "GL":["r_gl","push_gl","gpio_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"configure all gpios as user input using automatic approach firmware and check them"} "description":"configure all gpios as user input using automatic approach firmware and check them"}
,"gpio_all_i_pu" :{"level":0, ,"gpio_all_i_pu" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","r_caravan_rtl","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","r_caravan_gl","push_gl","gpio_gl","nightly","weekly","tape_out"], "GL":["r_gl","push_gl","gpio_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"configure all gpios as mgmt input pull up using automatic approach firmware and check them"} "description":"configure all gpios as mgmt input pull up using automatic approach firmware and check them"}
,"gpio_all_i_pu_caravan" :{"level":0,
"SW":true,
"RTL":["r_caravan_rtl"],
"GL":["r_caravan_gl"],
"GL_SDF":[],
"description":"configure all gpios as mgmt input pull up using automatic approach firmware and check them for caravan"}
,"gpio_all_i_pu_user" :{"level":0, ,"gpio_all_i_pu_user" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
@ -51,15 +65,21 @@
,"gpio_all_i_pd" :{"level":0, ,"gpio_all_i_pd" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","r_caravan_rtl","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","r_caravan_gl","push_gl","gpio_gl","nightly","weekly","tape_out"], "GL":["r_gl","push_gl","gpio_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"configure all gpios as mgmt input pull down using automatic approach firmware and check them"} "description":"configure all gpios as mgmt input pull down using automatic approach firmware and check them"}
,"gpio_all_i_pd_caravan" :{"level":0,
"SW":true,
"RTL":["r_caravan_rtl"],
"GL":["r_caravan_gl"],
"GL_SDF":[],
"description":"configure all gpios as mgmt input pull down using automatic approach firmware and check them for caravan"}
,"gpio_all_i_pd_user" :{"level":0, ,"gpio_all_i_pd_user" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","r_caravan_gl","push_gl","gpio_gl","nightly","weekly","tape_out"], "GL":["r_gl","push_gl","gpio_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"configure all gpios as user input pull down using automatic approach firmware and check them"} "description":"configure all gpios as user input pull down using automatic approach firmware and check them"}
@ -72,11 +92,18 @@
,"gpio_all_o" :{"level":0, ,"gpio_all_o" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","r_caravan_rtl","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
"GL":["r_gl","r_caravan_gl","push_gl","gpio_gl","nightly","weekly","tape_out"], "GL":["r_gl","push_gl","gpio_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"configure all gpios as mgmt output using automatic approach firmware and check them"} "description":"configure all gpios as mgmt output using automatic approach firmware and check them"}
,"gpio_all_o_caravan" :{"level":0,
"SW":true,
"RTL":["r_caravan_rtl"],
"GL":["r_caravan_gl"],
"GL_SDF":[],
"description":"configure all gpios as mgmt output using automatic approach firmware and check them for caravan"}
,"gpio_all_o_user" :{"level":0, ,"gpio_all_o_user" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"], "RTL":["r_rtl","setup","gpio_rtl","push","push_gl","nightly","weekly","tape_out"],
@ -153,8 +180,8 @@
,"timer0_oneshot" :{"level":0, ,"timer0_oneshot" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","nightly","weekly","tape_out"],
"GL":["r_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"check timer0 oneshot mode"} "description":"check timer0 oneshot mode"}
@ -174,27 +201,27 @@
,"uart_tx" :{"level":0, ,"uart_tx" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","nightly","weekly","tape_out"],
"GL":["r_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"test uart transmit"} "description":"test uart transmit"}
,"debug" :{"level":0, ,"debug" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","nightly","weekly","tape_out"],
"GL":["r_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"use caravel in debug mode and check reading and writing from dff2 RAM"} "description":"use caravel in debug mode and check reading and writing from dff2 RAM"}
,"spi_master_rd" :{"level":0, ,"spi_master_rd" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","nightly","weekly","tape_out"],
"GL":["r_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"using SPI master for reading from external memory"} "description":"using SPI master for reading from external memory"}
,"user_pass_thru_rd" :{"level":0, ,"user_pass_thru_rd" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","nightly","weekly","tape_out"],
"GL":["r_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"use the housekeeping spi in user pass thru mode to read from external mem"} "description":"use the housekeeping spi in user pass thru mode to read from external mem"}
@ -214,8 +241,8 @@
,"la" :{"level":0, ,"la" :{"level":0,
"SW":true, "SW":true,
"RTL":["r_rtl","setup","nightly","weekly","tape_out"], "RTL":["r_rtl","r_caravan_rtl","setup","nightly","weekly","tape_out"],
"GL":["r_gl","nightly","weekly","tape_out"], "GL":["r_gl","r_caravan_gl","nightly","weekly","tape_out"],
"GL_SDF":["r_sdf","weekly","tape_out"], "GL_SDF":["r_sdf","weekly","tape_out"],
"description":"check logic analyzer input and output enable"} "description":"check logic analyzer input and output enable"}

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@ -0,0 +1,87 @@
#include <defs.h>
#include <stub.c>
#include "../bitbang/bitbang_functions.c"
void main(){
unsigned int i, j, k;
reg_wb_enable =1; // for enable writing to reg_debug_1 and reg_debug_2
reg_debug_1 = 0x0;
reg_debug_2 = 0x0;
reg_hkspi_disable = 1;
reg_mprj_io_37 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_36 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_35 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_34 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_33 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_32 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_31 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_30 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_29 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_28 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_27 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_26 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_25 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_24 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_23 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_22 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_21 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_20 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_19 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_18 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_17 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_16 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_15 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_14 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_13 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_12 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_11 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_10 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_9 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_8 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_7 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_6 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_5 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_4 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_3 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_2 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_1 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_INPUT_NOPULL;
reg_mprj_xfer = 1;
while (reg_mprj_xfer == 1);
reg_debug_1 = 0XAA; // configuration done wait environment to send 0xFFFFFFFF to reg_mprj_datal
while (reg_mprj_datal != 0xfe003fff); // gpios 14 to 25 has to be 0
reg_debug_2 = reg_mprj_datal;
reg_debug_1 = 0XBB; // configuration done wait environment to send 0xAAAAAAAA to reg_mprj_datal
while (reg_mprj_datal != 0xaa002aaa);
reg_debug_2 = reg_mprj_datal;
reg_debug_1 = 0XCC; // configuration done wait environment to send 0x55555555 to reg_mprj_datal
while (reg_mprj_datal != 0x54001555);
reg_debug_2 = reg_mprj_datal;
reg_debug_1 = 0XDD; // configuration done wait environment to send 0x0 to reg_mprj_datal
while (reg_mprj_datal != 0x0);
reg_debug_2 = reg_mprj_datal;
reg_debug_1 = 0XD1;
while (reg_mprj_datah != 0x3F);
reg_debug_2 = reg_mprj_datah;
reg_debug_1 = 0XD2;
while (reg_mprj_datah != 0x0);
reg_debug_2 = reg_mprj_datah;
reg_debug_1 = 0XD3;
while (reg_mprj_datah != 0x15);
reg_debug_2 = reg_mprj_datah;
reg_debug_1 = 0XD4;
while (reg_mprj_datah != 0x2A);
reg_debug_2 = reg_mprj_datah;
reg_debug_1 = 0XD5;
reg_debug_1 = 0XD5; // for delay insertion for release
// trying to inject error by sending data to gpio by firmware where gpios configured as input
reg_mprj_datal = 0x5AE1FFB8; // random number
reg_mprj_datah = 0x1E; // random number
reg_debug_2 = 0xFF;
}

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@ -0,0 +1,58 @@
#include <defs.h>
#include <stub.c>
#include "../bitbang/bitbang_functions.c"
void main(){
unsigned int i, j, k;
reg_wb_enable =1; // for enable writing to reg_debug_1 and reg_debug_2
reg_debug_1 = 0x0;
reg_debug_2 = 0x0;
reg_hkspi_disable = 1;
reg_mprj_io_37 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_36 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_35 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_34 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_33 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_32 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_31 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_30 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_29 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_28 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_27 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_26 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_25 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_24 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_23 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_22 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_21 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_20 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_19 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_18 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_17 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_16 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_15 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_14 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_13 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_12 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_11 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_10 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_9 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_8 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_7 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_6 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_5 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_4 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_3 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_2 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_1 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_INPUT_PULLDOWN;
reg_mprj_xfer = 1;
while (reg_mprj_xfer == 1);
reg_debug_1 = 0XAA; // configuration done
print("adding a very very long delay because cpu produces X's when code finish and this break the simulation");
while (true);
}

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@ -0,0 +1,57 @@
#include <defs.h>
#include <stub.c>
#include "../bitbang/bitbang_functions.c"
void main(){
unsigned int i, j, k;
reg_wb_enable =1; // for enable writing to reg_debug_1 and reg_debug_2
reg_debug_1 = 0x0;
reg_debug_2 = 0x0;
reg_hkspi_disable = 1;
reg_mprj_io_37 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_36 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_35 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_34 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_33 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_32 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_31 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_30 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_29 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_28 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_27 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_26 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_25 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_24 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_23 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_22 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_21 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_20 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_19 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_18 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_17 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_16 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_15 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_14 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_13 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_12 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_11 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_10 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_9 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_8 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_7 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_6 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_5 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_4 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_3 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_2 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_1 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_INPUT_PULLUP;
reg_mprj_xfer = 1;
while (reg_mprj_xfer == 1);
reg_debug_1 = 0XAA; // configuration done
print("adding a very very long delay because cpu produces X's when code finish and this break the simulation");
while (true);
}

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#include <defs.h>
#include <stub.c>
#include "../bitbang/bitbang_functions.c"
void main(){
unsigned int i, j, k;
reg_wb_enable =1; // for enable writing to reg_debug_1 and reg_debug_2
reg_debug_1 = 0x0;
reg_debug_2 = 0x0;
reg_hkspi_disable = 1;
reg_mprj_io_37 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_36 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_35 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_34 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_33 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_32 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_31 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_30 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_29 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_28 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_27 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_26 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_25 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_24 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_23 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_22 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_21 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_20 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_19 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_18 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_17 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_16 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_15 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_14 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_13 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_12 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_11 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_10 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_9 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_8 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_7 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_6 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_5 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_4 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_3 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_2 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_1 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_io_0 = GPIO_MODE_MGMT_STD_OUTPUT;
reg_mprj_xfer = 1;
while (reg_mprj_xfer == 1);
reg_debug_1 = 0xAA; // finish configuration
reg_mprj_datal = 0x0;
reg_mprj_datah = 0x0;
i = 0x20;
for (j = 0; j < 5; j++) {
reg_mprj_datah = i;
reg_debug_2 = 37-j;
reg_mprj_datah = 0x00000000;
reg_debug_2 = 0;
i >>=1;
i |= 0x20;
}
i = 0x80000000;
for (j = 0; j < 32; j++) {
reg_mprj_datah = 0x3f;
reg_mprj_datal = i;
reg_debug_2 = 32-j;
reg_mprj_datah = 0x00;
reg_mprj_datal = 0x00000000;
reg_debug_2 = 0;
i >>=1;
i |= 0x80000000;
}
reg_debug_1 = 0XFF; // configuration done wait environment to send 0xFFA88C5A to reg_mprj_datal
}

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import random
import cocotb
from cocotb.triggers import FallingEdge,RisingEdge,ClockCycles
import cocotb.log
from interfaces.cpu import RiskV
from interfaces.defsParser import Regs
from cocotb.result import TestSuccess
from tests.common_functions.test_functions import *
from tests.bitbang.bitbang_functions import *
from interfaces.caravel import GPIO_MODE
from interfaces.common import Macros
from cocotb.binary import BinaryValue
reg = Regs()
@cocotb.test()
@repot_test
async def gpio_all_o_caravan(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=586652)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
await wait_reg1(cpu,caravelEnv,0xAA)
await caravelEnv.release_csb()
cocotb.log.info("[TEST] finish configuring ")
i= 0x20
for j in range(5):
await wait_reg2(cpu,caravelEnv,37-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
expected_data = bin(i<<32)[2:].zfill(38)[:13] +"zzzzzzzzzzz" + bin(i<<32)[2:].zfill(38)[24:]
if caravelEnv.monitor_gpio((37,0)).binstr != expected_data:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,0))} instead of {expected_data}')
await wait_reg2(cpu,caravelEnv,0)
expected_data = bin(0)[2:].zfill(38)[:13] +"zzzzzzzzzzz" + bin(0)[2:].zfill(38)[24:]
if caravelEnv.monitor_gpio((37,0)).binstr != expected_data:
cocotb.log.error(f'[TEST] Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {expected_data}')
i = i >> 1
i |= 0x20
i= 0x80000000
for j in range(32):
await wait_reg2(cpu,caravelEnv,32-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,32)).integer != 0x3f:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,32))} instead of {bin(0x3f)} ')
expected_data = bin(i)[2:].zfill(32)[:7] +"zzzzzzzzzzz" + bin(i)[2:].zfill(32)[18:]
if caravelEnv.monitor_gpio((31,0)).binstr != expected_data :
cocotb.log.error(f'[TEST] Wrong gpio low bits output {caravelEnv.monitor_gpio((31,0))} instead of {expected_data}')
await wait_reg2(cpu,caravelEnv,0)
expected_data = bin(0)[2:].zfill(38)[:13] +"zzzzzzzzzzz" + bin(0)[2:].zfill(38)[24:]
if caravelEnv.monitor_gpio((37,0)).binstr != expected_data:
cocotb.log.error(f'Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {expected_data}')
i = i >> 1
i |= 0x80000000
await wait_reg1(cpu,caravelEnv,0XFF)
await ClockCycles(caravelEnv.clk, 10)
@cocotb.test()
@repot_test
async def gpio_all_i_caravan(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=56837)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
await wait_reg1(cpu,caravelEnv,0xAA)
cocotb.log.info(f"[TEST] configuration finished")
data_in = 0xFFFFFFFF
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xBB)
mask = 0xfe003fff
data_expected = data_in & mask
if cpu.read_debug_reg2() == data_expected:
cocotb.log.info(f"[TEST] data {bin(data_in)} sent successfully through gpio[31:0] and seen as {bin(data_expected)}")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {bin(cpu.read_debug_reg2())} instead of {bin(data_expected)}")
data_in = 0xAAAAAAAA
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xCC)
data_expected = data_in & mask
if cpu.read_debug_reg2() == data_expected:
cocotb.log.info(f"[TEST] data {bin(data_in)} sent successfully through gpio[31:0] and seen as {bin(data_expected)}")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {bin(cpu.read_debug_reg2())} instead of {bin(data_expected)}")
data_in = 0x55555555
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xDD)
data_expected = data_in & mask
if cpu.read_debug_reg2() == data_expected:
cocotb.log.info(f"[TEST] data {bin(data_in)} sent successfully through gpio[31:0] and seen as {bin(data_expected)}")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {bin(cpu.read_debug_reg2())} instead of {bin(data_expected)}")
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xD1)
data_expected = data_in & mask
if cpu.read_debug_reg2() == data_expected:
cocotb.log.info(f"[TEST] data {bin(data_in)} sent successfully through gpio[31:0] and seen as {bin(data_expected)}")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {bin(cpu.read_debug_reg2())} instead of {bin(data_expected)}")
data_in = 0x3F
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD2)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD3)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x15
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD4)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x2A
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0XD5)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
caravelEnv.release_gpio((37,0))
await wait_reg2(cpu,caravelEnv,0XFF)
if caravelEnv.monitor_gpio((37,0)).binstr != "zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz":
cocotb.log.error(f"[TEST] ERROR: firmware can write to the gpios while they are configured as input_nopull gpio= {caravelEnv.monitor_gpio((37,0))}")
else:
cocotb.log.info(f"[TEST] [TEST] PASS: firmware cannot write to the gpios while they are configured as input_nopull gpio= {caravelEnv.monitor_gpio((37,0))}")
cocotb.log.info(f"[TEST] finish")
@cocotb.test()
@repot_test
async def gpio_all_i_pu_caravan(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=58961,num_error=2000)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
uut = dut.uut
await wait_reg1(cpu,caravelEnv,0xAA)
await caravelEnv.release_csb()
# monitor the output of padframe module it suppose to be all ones when no input is applied
await ClockCycles(caravelEnv.clk,100)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pullup and float and {i} gpio must be z in caravan")
continue
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and float")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with zero
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pullup and drived with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with ones
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with zeros and float other half
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i%2 ==0: #even
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pullup and drived with odd half with 0 and {i} gpio must be z in caravan")
continue
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with odd half with 0")
else:
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pullup and drived with odd half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i%2 ==0: #odd
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pullup and drived with even half with 0")
else:
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pullup and drived with even half with 0 and {i} gpio must be z in caravan")
continue
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with even half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with ones and float other half
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1) and i%2==0:
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pullup and drived with odd half with 1 and {i} gpio must be z in caravan")
continue
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with odd half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1) and i%2==1:
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pullup and drived with even half with 1 and {i} gpio must be z in caravan")
continue
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with even half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive with zeros then release all gpio
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
caravelEnv.release_gpio((37,0))
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pullup and all released and {i} gpio must be z in caravan")
continue
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and all released")
await ClockCycles(caravelEnv.clk,1000)
@cocotb.test()
@repot_test
async def gpio_all_i_pd_caravan(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=58961,num_error=2000)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
uut = dut.uut
await wait_reg1(cpu,caravelEnv,0xAA)
await caravelEnv.release_csb()
# monitor the output of padframe module it suppose to be all ones when no input is applied
await ClockCycles(caravelEnv.clk,100)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pulldown and float and {i} gpio must be z in caravan")
continue
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and float")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with zero
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with ones
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pulldown and drived with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with zeros and float other half
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1) and i%2==0:
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pulldown and drived with odd half with 0 and {i} gpio must be z in caravan")
continue
if gpio[i]!="0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with odd half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1) and i%2==1:
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pulldown and drived with even half with 0 and {i} gpio must be z in caravan")
continue
if gpio[i]!="0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with even half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with ones and float other half
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i%2 ==1: #odd
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pulldown and drived with odd half with 1")
else:
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pulldown and drived with odd half with 1 and {i} gpio must be z in caravan")
continue
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with odd half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i%2 ==0: #even
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pulldown and drived with odd half with 1")
else:
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while configured as input pulldown and drived with odd half with 1 and {i} gpio must be z in caravan")
continue
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with odd half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive with ones then release all gpio
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
caravelEnv.release_gpio((37,0))
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.mprj_io.value.binstr[::-1]
for i in range(38):
if i in range(14,25,1):
if gpio[i] != "z":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of z while while configured as input pulldown and all released and {i} gpio must be z in caravan")
continue
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and all released")
await ClockCycles(caravelEnv.clk,1000)
@cocotb.test()
@repot_test
async def gpio_all_bidir(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=1144980)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
uut = dut.uut
await wait_reg1(cpu,caravelEnv,0x1A)
await caravelEnv.release_csb()
cocotb.log.info("[TEST] finish configuring ")
i= 0x20
for j in range(5):
await wait_reg2(cpu,caravelEnv,37-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,0)).integer != i << 32:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,0))} instead of {bin(i << 32)}')
await wait_reg2(cpu,caravelEnv,0)
if caravelEnv.monitor_gpio((37,0)).integer != 0:
cocotb.log.error(f'[TEST] Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {bin(0x00000)}')
i = i >> 1
i |= 0x20
i= 0x80000000
for j in range(32):
await wait_reg2(cpu,caravelEnv,32-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,32)).integer != 0x3f:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,32))} instead of {bin(0x3f)} ')
if caravelEnv.monitor_gpio((31,0)).integer != i :
cocotb.log.error(f'[TEST] Wrong gpio low bits output {caravelEnv.monitor_gpio((31,0))} instead of {bin(i)}')
await wait_reg2(cpu,caravelEnv,0)
if caravelEnv.monitor_gpio((37,0)).integer != 0:
cocotb.log.error(f'Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {bin(0x00000)}')
i = i >> 1
i |= 0x80000000
await wait_reg1(cpu,caravelEnv,0x2A)
cocotb.log.info(f"[TEST] configuration finished")
data_in = 0x8F66FD7B
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xBB)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xFFA88C5A
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xCC)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xC9536346
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xD1)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xC9536346
data_in = 0x3F
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD2)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xC9536346
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD3)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xC9536346
data_in = 0x15
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD4)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xC9536346
data_in = 0x2A
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg2(cpu,caravelEnv,0xFF)
cocotb.log.info(f"[TEST] finish")
await ClockCycles(caravelEnv.clk, 10)

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@ -0,0 +1,468 @@
import random
import cocotb
from cocotb.triggers import FallingEdge,RisingEdge,ClockCycles
import cocotb.log
from interfaces.cpu import RiskV
from interfaces.defsParser import Regs
from cocotb.result import TestSuccess
from tests.common_functions.test_functions import *
from tests.bitbang.bitbang_functions import *
from interfaces.caravel import GPIO_MODE
from cocotb.binary import BinaryValue
reg = Regs()
@cocotb.test()
@repot_test
async def gpio_all_o_user(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=542674)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
await wait_reg1(cpu,caravelEnv,0xAA)
await caravelEnv.release_csb()
cocotb.log.info("[TEST] finish configuring as user output")
i= 0x20
for j in range(5):
await wait_reg2(cpu,caravelEnv,37-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,0)).integer != i<<32:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,0))} instead of {bin(i<<32)}')
await wait_reg2(cpu,caravelEnv,0)
if caravelEnv.monitor_gpio((37,0)).integer != 0:
cocotb.log.error(f'[TEST] Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {bin(0x00000)}')
i = i >> 1
i |= 0x20
i= 0x80000000
for j in range(32):
await wait_reg2(cpu,caravelEnv,32-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,32)).integer != 0x3f:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,32))} instead of {bin(0x3f)} ')
if caravelEnv.monitor_gpio((31,0)).integer != i :
cocotb.log.error(f'[TEST] Wrong gpio low bits output {caravelEnv.monitor_gpio((31,0))} instead of {bin(i)}')
await wait_reg2(cpu,caravelEnv,0)
if caravelEnv.monitor_gpio((37,0)).integer != 0:
cocotb.log.error(f'Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {bin(0x00000)}')
i = i >> 1
i |= 0x80000000
await wait_reg1(cpu,caravelEnv,0XBB)
data_in = 0x8F66FD7B
cocotb.log.info(f"[TEST] try send {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
reg2 =0
await wait_reg1(cpu,caravelEnv,0XFF)
try:
reg2 =cpu.read_debug_reg2()
if reg2 == data_in:
cocotb.log.error(f"[TEST] Error: data {hex(data_in)} driven on gpio[31:0] is seen by firmware while gpios are configured as output")
else:
cocotb.log.info(f"[TEST] driven data {hex(data_in)} sent can't be sent to gpio[31:0] when it configure as output it can see {reg2}")
except Exception as e:
cocotb.log.info(f"[TEST] driven data {hex(data_in)} sent can't be sent to gpio[31:0] when it configure as output")
return
await ClockCycles(caravelEnv.clk, 10)
@cocotb.test()
@repot_test
async def gpio_all_i_user(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=56694)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
await wait_reg1(cpu,caravelEnv,0xAA)
cocotb.log.info(f"[TEST] configuration finished")
data_in = 0xFFFFFFFF
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xBB)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xAAAAAAAA
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xCC)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x55555555
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xDD)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xD1)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x3F
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD2)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD3)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x15
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD4)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x2A
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0XD5)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
caravelEnv.release_gpio((37,0))
await wait_reg2(cpu,caravelEnv,0XFF)
if caravelEnv.monitor_gpio((37,0)).binstr != "zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz":
cocotb.log.error(f"[TEST] ERROR: firmware can write to the gpios while they are configured as input_nopull gpio= {caravelEnv.monitor_gpio((37,0))}")
else:
cocotb.log.info(f"[TEST] [TEST] PASS: firmware cannot write to the gpios while they are configured as input_nopull gpio= {caravelEnv.monitor_gpio((37,0))}")
cocotb.log.info(f"[TEST] finish")
@cocotb.test()
@repot_test
async def gpio_all_i_pu_user(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=58961,num_error=2000)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
uut = dut.uut
await wait_reg1(cpu,caravelEnv,0xAA)
await caravelEnv.release_csb()
# monitor the output of padframe module it suppose to be all ones when no input is applied
await ClockCycles(caravelEnv.clk,100)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and float")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with zero
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pullup and drived with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with ones
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with zeros and float other half
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if i%2 ==1: #odd
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with odd half with 0")
else:
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pullup and drived with odd half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if i%2 ==1: #odd
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pullup and drived with even half with 0")
else:
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with even half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with ones and float other half
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with odd half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and drived with even half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive with zeros then release all gpio
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
caravelEnv.release_gpio((37,0))
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pullup and all released")
await ClockCycles(caravelEnv.clk,1000)
@cocotb.test()
@repot_test
async def gpio_all_i_pd_user(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=58961,num_error=2000)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
uut = dut.uut
await wait_reg1(cpu,caravelEnv,0xAA)
await caravelEnv.release_csb()
# monitor the output of padframe module it suppose to be all ones when no input is applied
await ClockCycles(caravelEnv.clk,100)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and float")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with zero
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive gpios with ones
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pulldown and drived with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with zeros and float other half
data_in = 0x0
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i]!="0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with odd half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i]!="0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with even half with 0")
await ClockCycles(caravelEnv.clk,1000)
# drive odd half gpios with ones and float other half
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(0,38,2):
caravelEnv.release_gpio(i) # release even gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if i%2 ==0: #even
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pulldown and drived with odd half with 1")
else:
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with odd half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive even half gpios with zeros and float other half
caravelEnv.drive_gpio_in((37,0),data_in)
for i in range(1,38,2):
caravelEnv.release_gpio(i) # release odd gpios
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if i%2 ==1: #odd
if gpio[i]!="1":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 1 while configured as input pulldown and drived with odd half with 1")
else:
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and drived with odd half with 1")
await ClockCycles(caravelEnv.clk,1000)
# drive with ones then release all gpio
data_in = 0x3FFFFFFFFF
caravelEnv.drive_gpio_in((37,0),data_in)
await ClockCycles(caravelEnv.clk,1000)
caravelEnv.release_gpio((37,0))
await ClockCycles(caravelEnv.clk,1000)
gpio = dut.uut.padframe.mprj_io_in.value.binstr
for i in range(38):
if gpio[i] != "0":
cocotb.log.error(f"[TEST] gpio[{i}] is having wrong value {gpio[i]} instead of 0 while configured as input pulldown and all released")
await ClockCycles(caravelEnv.clk,1000)
@cocotb.test()
@repot_test
async def gpio_all_bidir_user(dut):
caravelEnv,clock = await test_configure(dut,timeout_cycles=290455)
cpu = RiskV(dut)
cpu.cpu_force_reset()
cpu.cpu_release_reset()
uut = dut.uut
await wait_reg1(cpu,caravelEnv,0x1A)
await caravelEnv.release_csb()
cocotb.log.info("[TEST] finish configuring ")
i= 0x20
for j in range(5):
await wait_reg2(cpu,caravelEnv,37-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,0)).integer != i << 32:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,0))} instead of {bin(i << 32)}')
await wait_reg2(cpu,caravelEnv,0)
if caravelEnv.monitor_gpio((37,0)).integer != 0:
cocotb.log.error(f'[TEST] Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {bin(0x00000)}')
i = i >> 1
i |= 0x20
i= 0x80000000
for j in range(32):
await wait_reg2(cpu,caravelEnv,32-j)
cocotb.log.info(f'[Test] gpio out = {caravelEnv.monitor_gpio((37,0))} j = {j}')
if caravelEnv.monitor_gpio((37,32)).integer != 0x3f:
cocotb.log.error(f'[TEST] Wrong gpio high bits output {caravelEnv.monitor_gpio((37,32))} instead of {bin(0x3f)} ')
if caravelEnv.monitor_gpio((31,0)).integer != i :
cocotb.log.error(f'[TEST] Wrong gpio low bits output {caravelEnv.monitor_gpio((31,0))} instead of {bin(i)}')
await wait_reg2(cpu,caravelEnv,0)
if caravelEnv.monitor_gpio((37,0)).integer != 0:
cocotb.log.error(f'Wrong gpio output {caravelEnv.monitor_gpio((37,0))} instead of {bin(0x00000)}')
i = i >> 1
i |= 0x80000000
caravelEnv.release_gpio((37,0))
await ClockCycles(caravelEnv.clk, 10)
caravelEnv.drive_gpio_in((31,0),0)
await ClockCycles(caravelEnv.clk, 10)
await wait_reg1(cpu,caravelEnv,0xAA)
cocotb.log.info(f"[TEST] configuration finished")
data_in = 0xFFFFFFFF
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xBB)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0xAAAAAAAA
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xCC)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x55555555
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xDD)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[31:0]")
caravelEnv.drive_gpio_in((31,0),data_in)
await wait_reg1(cpu,caravelEnv,0xD1)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[31:0]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datal has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x3F
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD2)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x0
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD3)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x15
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0xD4)
if cpu.read_debug_reg2() == data_in:
cocotb.log.info(f"[TEST] data {hex(data_in)} sent successfully through gpio[37:32]")
else:
cocotb.log.error(f"[TEST] Error: reg_mprj_datah has recieved wrong data {cpu.read_debug_reg2()} instead of {data_in}")
data_in = 0x2A
cocotb.log.info(f"[TEST] drive {hex(data_in)} to gpio[37:32]")
caravelEnv.drive_gpio_in((37,32),data_in)
await wait_reg1(cpu,caravelEnv,0XD5)
await wait_reg2(cpu,caravelEnv,0XFF)
cocotb.log.info(f"[TEST] finish")
await ClockCycles(caravelEnv.clk, 10)

View File

@ -134,6 +134,7 @@ class RunTest:
# vcs function # vcs function
def runTest_vcs(self): def runTest_vcs(self):
print(f"Start running test: {self.sim_type}-{self.test_name}") print(f"Start running test: {self.sim_type}-{self.test_name}")
CARAVEL_PATH = os.getenv('CARAVEL_PATH')
PDK_ROOT = os.getenv('PDK_ROOT') PDK_ROOT = os.getenv('PDK_ROOT')
PDK = os.getenv('PDK') PDK = os.getenv('PDK')
VERILOG_PATH = os.getenv('VERILOG_PATH') VERILOG_PATH = os.getenv('VERILOG_PATH')
@ -168,7 +169,11 @@ class RunTest:
os.environ["TESTCASE"] = f"{self.test_name}" os.environ["TESTCASE"] = f"{self.test_name}"
os.environ["MODULE"] = f"caravel_tests" os.environ["MODULE"] = f"caravel_tests"
os.environ["SIM"] = self.sim_type os.environ["SIM"] = self.sim_type
# user_project = f"-v {CARAVEL_PATH}/rtl/__user_project_wrapper.v"
# if caravan:
# print ("Use caravan")
# macros = f'+define+CARAVAN {macros} '
# user_project = f"-v {CARAVEL_PATH}/rtl/__user_analog_project_wrapper.v"
os.system(f"vlogan -full64 -sverilog +error+30 caravel_top.sv {dirs} {macros} +define+TESTNAME=\\\"{self.test_name}\\\" +define+FTESTNAME=\\\"{self.full_test_name}\\\" +define+TAG=\\\"{os.getenv('RUNTAG')}\\\" -l {self.sim_path}/analysis.log -o {self.sim_path} ") os.system(f"vlogan -full64 -sverilog +error+30 caravel_top.sv {dirs} {macros} +define+TESTNAME=\\\"{self.test_name}\\\" +define+FTESTNAME=\\\"{self.full_test_name}\\\" +define+TAG=\\\"{os.getenv('RUNTAG')}\\\" -l {self.sim_path}/analysis.log -o {self.sim_path} ")
os.system(f"vcs +lint=TFIPC-L {coverage_command} +error+30 -R -diag=sdf:verbose +sdfverbose +neg_tchk -debug_access -full64 -l {self.sim_path}/test.log caravel_top -Mdir={self.sim_path}/csrc -o {self.sim_path}/simv +vpi -P pli.tab -load $(cocotb-config --lib-name-path vpi vcs)") os.system(f"vcs +lint=TFIPC-L {coverage_command} +error+30 -R -diag=sdf:verbose +sdfverbose +neg_tchk -debug_access -full64 -l {self.sim_path}/test.log caravel_top -Mdir={self.sim_path}/csrc -o {self.sim_path}/simv +vpi -P pli.tab -load $(cocotb-config --lib-name-path vpi vcs)")
self.passed = search_str(self.test_log.name,"Test passed with (0)criticals (0)errors") self.passed = search_str(self.test_log.name,"Test passed with (0)criticals (0)errors")