From: Andrey Miroshnikov Date: Fri, 3 Dec 2021 16:12:53 +0000 (+0000) Subject: Added assert test for all input oand gpio_o_test combinations. X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=7cdaba7956e38b572dcb0795f7f5bb5e8446815b;p=pinmux.git Added assert test for all input oand gpio_o_test combinations. --- diff --git a/src/spec/testing_stage1.py b/src/spec/testing_stage1.py index f8b458a..86d37f4 100644 --- a/src/spec/testing_stage1.py +++ b/src/spec/testing_stage1.py @@ -168,8 +168,17 @@ class Blinker(Elaboratable): #m.d.sync += count[0].eq(gpio.gpio1.i) num_gpios = 4 + gpio_i_ro = Signal(num_gpios) gpio_o_test = Signal(num_gpios) gpio_oe_test = Signal(num_gpios) + + # Create a read-only copy of core-side GPIO input signals + # for Simulation asserts + m.d.comb += gpio_i_ro[0].eq(gpio.gpio0.i) + m.d.comb += gpio_i_ro[1].eq(gpio.gpio1.i) + m.d.comb += gpio_i_ro[2].eq(gpio.gpio2.i) + m.d.comb += gpio_i_ro[3].eq(gpio.gpio3.i) + # Wire up the output signal of each gpio by XOR'ing each bit of # gpio_o_test with gpio's input # Wire up each bit of gpio_oe_test signal to oe signal of each gpio. @@ -196,6 +205,7 @@ class Blinker(Elaboratable): # available - i.e. not as local variables self.gpio = gpio self.uart = uart + self.gpio_i_ro = gpio_i_ro self.gpio_o_test = gpio_o_test self.gpio_oe_test = gpio_oe_test @@ -465,13 +475,14 @@ def test_gpios(): gpio1_o = top.jtag.boundary_scan_pads['gpio_0__gpio1__o']['o'] gpio2_o = top.jtag.boundary_scan_pads['gpio_0__gpio2__o']['o'] gpio3_o = top.jtag.boundary_scan_pads['gpio_0__gpio3__o']['o'] + gpio_pad_out = [ gpio0_o, gpio1_o, gpio2_o, gpio3_o] # Grab GPIO input pad resource from JTAG BS - start of chain gpio0_pad_in = top.jtag.boundary_scan_pads['gpio_0__gpio0__i']['i'] gpio1_pad_in = top.jtag.boundary_scan_pads['gpio_0__gpio1__i']['i'] gpio2_pad_in = top.jtag.boundary_scan_pads['gpio_0__gpio2__i']['i'] gpio3_pad_in = top.jtag.boundary_scan_pads['gpio_0__gpio3__i']['i'] - #pad_in = [gpio0_pad_in gpio1_pad_in gpio2_pad_in gpio3_pad_in] + gpio_pad_in = [gpio0_pad_in, gpio1_pad_in, gpio2_pad_in, gpio3_pad_in] # temp test # no: already told you, these are never going to work @@ -499,51 +510,68 @@ def test_gpios(): # TODO + if gpio_o_test bit is cleared, output seen at pad matches # input seen at pad num_gpio_o_states = num_gpios**2 - print("Num of permutations of gpio_o_test record: ", num_gpio_o_states) + pad_out = [0] * num_gpios + #print("Num of permutations of gpio_o_test record: ", num_gpio_o_states) for gpio_o_val in range(0, num_gpio_o_states): yield top.gpio_o_test.eq(gpio_o_val) - yield Settle() + #yield Settle() yield # Move to the next clk cycle - - # yield the pad output - pad0_out = yield gpio0_o - pad1_out = yield gpio1_o - pad2_out = yield gpio2_o - pad3_out = yield gpio3_o - print("Applied values:", bin(gpio_o_val), "Seeing", - pad3_out, pad2_out, pad1_out, pad0_out) + + # Cycle through all input combinations + for gpio_i_val in range(0, num_gpio_o_states): + # Set each gpio input at pad to test value + for gpio_bit in range(0, num_gpios): + yield gpio_pad_in[gpio_bit].eq((gpio_i_val >> gpio_bit) & 0x1) + yield + # Read the values of the output at pad + for gpio_bit in range(0, num_gpios): + pad_out[gpio_bit] = yield gpio_pad_out[gpio_bit] + yield + # Test that the output at pad matches: + # Pad output == given test output XOR test input + # TODO add input at core as well + for gpio_bit in range(0, num_gpios): + out_test_bit = ((gpio_o_val & (1 << gpio_bit)) != 0) + in_bit = ((gpio_i_val & (1 << gpio_bit)) != 0) + assert (out_test_bit ^ in_bit) == pad_out[gpio_bit] + + # For debugging - VERY verbose + #print("---------------------") + #print("Test Out: ", bin(gpio_o_val)) + #print("Test Input: ", bin(gpio_i_val)) + # Print MSB first + #print("Pad Output: ", pad_out[3], pad_out[2], + # pad_out[1], pad_out[0],) + #print("---------------------") # Test without asserting input # gpio_o_val is a 4-bit binary number setting each pad (single-bit) - assert ((gpio_o_val & 0b0001) != 0) == pad0_out - assert ((gpio_o_val & 0b0010) != 0) == pad1_out - assert ((gpio_o_val & 0b0100) != 0) == pad2_out - assert ((gpio_o_val & 0b1000) != 0) == pad3_out # Test with input asserted - test_in = 1 - yield gpio0_pad_in.eq(test_in) + #test_in = 1 + #yield gpio0_pad_in.eq(test_in) # don't need this *and* a yield of 1 clock cycle yield Settle() - yield + #yield + #temp = yield top.gpio_i_ro[0] + #print("temp: ", temp) # after changing the gpio0 input, the output is also going to # change. *therefore it must be read again* to get the # snapshot (as a python value) - pad0_out = yield gpio0_o - pad1_out = yield gpio1_o - pad2_out = yield gpio2_o - pad3_out = yield gpio3_o - print("Applied test_in=1 with values:", bin(gpio_o_val), "Seeing", - pad3_out, pad2_out, pad1_out, pad0_out) + #pad0_out = yield gpio0_o + #pad1_out = yield gpio1_o + #pad2_out = yield gpio2_o + #pad3_out = yield gpio3_o + #print("Applied test_in=1 with values:", bin(gpio_o_val), "Seeing", + # pad3_out, pad2_out, pad1_out, pad0_out) # Trying to read input from core side, looks like might be a pin... # XXX don't "look like" - don't guess - *print it out* - print ("don't guess, CHECK", type(top.gpio.gpio0.i)) + #print ("don't guess, CHECK", type(top.gpio.gpio0.i)) #temp_in = yield top.gpio.gpio0.i #print("Core input ", temp_in, temp_in==test_in) #print((gpio_o_val & 0b0001) == 1) #print(((gpio_o_val & 0b0001) == 1) ^ test_in) - assert (((gpio_o_val & 0b0001) != 0) ^ test_in) == pad0_out - test_in = 0 - yield gpio0_pad_in.eq(test_in) - print () # extra print to divide the output + #assert (((gpio_o_val & 0b0001) != 0) ^ test_in) == pad0_out + + #print () # extra print to divide the output # Another for loop to run through gpio_oe_test. Assert: # + oe set at core matches oe seen at pad.