def __init__(self):
ScopeTemplate.__init__(self)
self._is_connected = False
self.params.init()
self._cwusb = NAEUSB()
self.ser = self._cwusb
self.scopetype = self
self.dev = self
self.xmega = XMEGAPDI(self._cwusb)
self.avr = AVRISP(self._cwusb)
self.usart = USART(self._cwusb)
self.serialstm32f = STM32FSerial(cwserial=self.usart)
self.serialstm32f.scope = self
self.io = GPIOSettings(self._cwusb)
self.adc = ADCSettings(self._cwusb)
self.glitch = GlitchSettings(self._cwusb)
self._timeout = 2
self._lasttrace = None
self.getParams().addChildren([
{'name':"CW-Lite XMEGA Programmer", 'tip':"Open XMEGA Programmer (ChipWhisperer-Lite Only)", 'type':"menu", "action":lambda _:self.getCwliteXMEGA().show()},
{'name':"CW-Lite AVR Programmer", 'tip':"Open AVR Programmer (ChipWhisperer-Lite Only)", 'type':"menu", "action":lambda _:self.getCwliteAVR().show()},
{'name':'Serial STM32F Programmer', 'tip':"Open STM32F Programmer (Serial/ChipWhisperer)", 'type':"menu", "action":lambda _:self.getSerialSTM32F().show()}
])
self.disable_newattr()
def __init__(self):
self._cwusb = NAEUSB()
# Connect required modules up here
self.fpga = FPGA(self._cwusb)
self.xmega = XMEGAPDI(self._cwusb)
self.avr = AVRISP(self._cwusb)
self.usart = USART(self._cwusb)
self.getParams().addChildren([{
'name':
"CW-Lite XMEGA Programmer",
'tip':
"Open XMEGA Programmer (ChipWhisperer-Lite Only)",
'type':
"menu",
"action":
lambda _: self.getCwliteXMEGA().show()
}, {
'name':
"CW-Lite AVR Programmer",
'tip':
"Open AVR Programmer (ChipWhisperer-Lite Only)",
'type':
"menu",
"action":
lambda _: self.getCwliteAVR().show()
}])
def __init__(self):
self._cwusb = NAEUSB()
# Connect required modules up here
self.fpga = FPGA(self._cwusb)
self.xmega = XMEGAPDI(self._cwusb)
self.avr = AVRISP(self._cwusb)
self.usart = USART(self._cwusb)
self.serialstm32f = STM32FSerial(cwserial=self.usart, cwapi=None)
def __init__(self, scope, baudrate, stopbits=1, parity="none"):
'''
up to 250000 baud is supported
stopbits can be 1, 1.5, or 2
parity can be one of "none","odd","even","mark","space
'''
super().__init__(scope)
# TODO: sanity check these
self.baudrate = baudrate
self.stopbits = stopbits
self.parity = parity
self.serial = USART(self.scope._getNAEUSB())
self.serial.init(baudrate, stopbits, parity)
def __init__(self):
ScopeTemplate.__init__(self)
self._is_connected = False
self._cwusb = NAEUSB()
self.ser = self._cwusb
self.scopetype = self
self.dev = self
self.xmega = XMEGAPDI(self._cwusb)
self.avr = AVRISP(self._cwusb)
self.usart = USART(self._cwusb)
self.serialstm32f = STM32FSerial(cwserial=self.usart)
self.serialstm32f.scope = self
self.io = GPIOSettings(self._cwusb)
self.adc = ADCSettings(self._cwusb)
self.glitch = GlitchSettings(self._cwusb)
self._timeout = 2
self._lasttrace = None
self.disable_newattr()
def __init__(self):
self._cwusb = NAEUSB()
# Connect required modules up here
self.fpga = FPGA(self._cwusb)
self.xmega = XMEGAPDI(self._cwusb)
self.avr = AVRISP(self._cwusb)
self.usart = USART(self._cwusb)
self.serialstm32f = STM32FSerial(cwserial=self.usart,
cwapi=CWCoreAPI.getInstance())
self.getParams().addChildren([{
'name':
"CW-Lite XMEGA Programmer",
'tip':
"Open XMEGA Programmer (ChipWhisperer-Lite Only)",
'type':
"menu",
"action":
lambda _: self.getCwliteXMEGA().show()
}, {
'name':
"CW-Lite AVR Programmer",
'tip':
"Open AVR Programmer (ChipWhisperer-Lite Only)",
'type':
"menu",
"action":
lambda _: self.getCwliteAVR().show()
}, {
'name':
'Serial STM32F Programmer',
'tip':
"Open STM32F Programmer (Serial/ChipWhisperer)",
'type':
"menu",
"action":
lambda _: self.getSerialSTM32F().show()
}])
if __name__ == '__main__':
from chipwhisperer.hardware.naeusb.fpga import FPGA
from chipwhisperer.hardware.naeusb.programmer_avr import AVRISP
from chipwhisperer.hardware.naeusb.programmer_xmega import XMEGAPDI, supported_xmega
from chipwhisperer.hardware.naeusb.serial import USART
cwtestusb = NAEUSB()
cwtestusb.con()
#Connect required modules up here
fpga = FPGA(cwtestusb)
xmega = XMEGAPDI(cwtestusb)
avr = AVRISP(cwtestusb)
usart = USART(cwtestusb)
force = True
if fpga.isFPGAProgrammed() == False or force:
from datetime import datetime
starttime = datetime.now()
fpga.FPGAProgram(
open(
r"C:\E\Documents\academic\sidechannel\chipwhisperer\hardware\capture\chipwhisperer-lite\hdl\cwlite_ise\cwlite_interface.bit",
"rb"))
# fpga.FPGAProgram(open(r"C:\Users\colin\dropbox\engineering\git_repos\CW305_ArtixTarget\temp\artix7test\artix7test.runs\impl_1\cw305_top.bit", "rb"))
# fpga.FPGAProgram(open(r"C:\E\Documents\academic\sidechannel\chipwhisperer\hardware\api\chipwhisperer-lite\hdl\cwlite_ise_spifake\cwlite_interface.bit", "rb"))
stoptime = datetime.now()
print("FPGA Config time: %s" % str(stoptime - starttime))
# print fpga.cmdReadMem(10, 6)
