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-rw-r--r--doc/usbtmc/USBTMC_1_00.pdfbin0 -> 412058 bytes
-rw-r--r--doc/usbtmc/USBTMC_usb488_subclass_1_00.pdfbin0 -> 321908 bytes
-rw-r--r--doc/usbtmc/open_close.pcapngbin0 -> 1572 bytes
-rw-r--r--doc/usbtmc/usbtmc.py997
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diff --git a/doc/usbtmc/USBTMC_1_00.pdf b/doc/usbtmc/USBTMC_1_00.pdf
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diff --git a/doc/usbtmc/USBTMC_usb488_subclass_1_00.pdf b/doc/usbtmc/USBTMC_usb488_subclass_1_00.pdf
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+++ b/doc/usbtmc/USBTMC_usb488_subclass_1_00.pdf
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diff --git a/doc/usbtmc/open_close.pcapng b/doc/usbtmc/open_close.pcapng
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diff --git a/doc/usbtmc/usbtmc.py b/doc/usbtmc/usbtmc.py
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--- /dev/null
+++ b/doc/usbtmc/usbtmc.py
@@ -0,0 +1,997 @@
+"""
+
+Python USBTMC driver
+
+Copyright (c) 2012-2017 Alex Forencich
+
+Permission is hereby granted, free of charge, to any person obtaining a copy
+of this software and associated documentation files (the "Software"), to deal
+in the Software without restriction, including without limitation the rights
+to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+copies of the Software, and to permit persons to whom the Software is
+furnished to do so, subject to the following conditions:
+
+The above copyright notice and this permission notice shall be included in
+all copies or substantial portions of the Software.
+
+THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
+FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+THE SOFTWARE.
+
+"""
+
+import usb.core
+import usb.util
+import struct
+import time
+import os
+import re
+import sys
+
+# constants
+USBTMC_bInterfaceClass = 0xFE
+USBTMC_bInterfaceSubClass = 3
+USBTMC_bInterfaceProtocol = 0
+USB488_bInterfaceProtocol = 1
+
+USBTMC_MSGID_DEV_DEP_MSG_OUT = 1
+USBTMC_MSGID_REQUEST_DEV_DEP_MSG_IN = 2
+USBTMC_MSGID_DEV_DEP_MSG_IN = 2
+USBTMC_MSGID_VENDOR_SPECIFIC_OUT = 126
+USBTMC_MSGID_REQUEST_VENDOR_SPECIFIC_IN = 127
+USBTMC_MSGID_VENDOR_SPECIFIC_IN = 127
+USB488_MSGID_TRIGGER = 128
+
+USBTMC_STATUS_SUCCESS = 0x01
+USBTMC_STATUS_PENDING = 0x02
+USBTMC_STATUS_FAILED = 0x80
+USBTMC_STATUS_TRANSFER_NOT_IN_PROGRESS = 0x81
+USBTMC_STATUS_SPLIT_NOT_IN_PROGRESS = 0x82
+USBTMC_STATUS_SPLIT_IN_PROGRESS = 0x83
+USB488_STATUS_INTERRUPT_IN_BUSY = 0x20
+
+USBTMC_REQUEST_INITIATE_ABORT_BULK_OUT = 1
+USBTMC_REQUEST_CHECK_ABORT_BULK_OUT_STATUS = 2
+USBTMC_REQUEST_INITIATE_ABORT_BULK_IN = 3
+USBTMC_REQUEST_CHECK_ABORT_BULK_IN_STATUS = 4
+USBTMC_REQUEST_INITIATE_CLEAR = 5
+USBTMC_REQUEST_CHECK_CLEAR_STATUS = 6
+USBTMC_REQUEST_GET_CAPABILITIES = 7
+USBTMC_REQUEST_INDICATOR_PULSE = 64
+
+USB488_READ_STATUS_BYTE = 128
+USB488_REN_CONTROL = 160
+USB488_GOTO_LOCAL = 161
+USB488_LOCAL_LOCKOUT = 162
+
+USBTMC_HEADER_SIZE = 12
+
+RIGOL_QUIRK_PIDS = [0x04ce, 0x0588]
+
+
+def parse_visa_resource_string(resource_string):
+ # valid resource strings:
+ # USB::1234::5678::INSTR
+ # USB::1234::5678::SERIAL::INSTR
+ # USB0::0x1234::0x5678::INSTR
+ # USB0::0x1234::0x5678::SERIAL::INSTR
+ m = re.match('^(?P<prefix>(?P<type>USB)\d*)(::(?P<arg1>[^\s:]+))'
+ '(::(?P<arg2>[^\s:]+(\[.+\])?))(::(?P<arg3>[^\s:]+))?'
+ '(::(?P<suffix>INSTR))$', resource_string, re.I)
+
+ if m is not None:
+ return dict(
+ type=m.group('type').upper(),
+ prefix=m.group('prefix'),
+ arg1=m.group('arg1'),
+ arg2=m.group('arg2'),
+ arg3=m.group('arg3'),
+ suffix=m.group('suffix')
+ )
+
+
+# Exceptions
+class UsbtmcException(Exception):
+ em = {0: "No error"}
+
+ def __init__(self, err=None, note=None):
+ self.err = err
+ self.note = note
+ self.msg = ''
+
+ if err is None:
+ self.msg = note
+ else:
+ if type(err) is int:
+ if err in self.em:
+ self.msg = "%d: %s" % (err, self.em[err])
+ else:
+ self.msg = "%d: Unknown error" % err
+ else:
+ self.msg = err
+ if note is not None:
+ self.msg = "%s [%s]" % (self.msg, note)
+
+ def __str__(self):
+ return self.msg
+
+
+def list_devices():
+ "List all connected USBTMC devices"
+
+ def is_usbtmc_device(dev):
+ for cfg in dev:
+ d = usb.util.find_descriptor(cfg, bInterfaceClass=USBTMC_bInterfaceClass,
+ bInterfaceSubClass=USBTMC_bInterfaceSubClass)
+ if d is not None:
+ return True
+
+ if dev.idVendor == 0x1334:
+ # Advantest
+ return True
+
+ if dev.idVendor == 0x0957:
+ # Agilent
+ if dev.idProduct in [0x2818, 0x4218, 0x4418]:
+ # Agilent U27xx modular devices in firmware update mode
+ # 0x2818 for U2701A/U2702A (firmware update mode on power up)
+ # 0x4218 for U2722A (firmware update mode on power up)
+ # 0x4418 for U2723A (firmware update mode on power up)
+ return True
+
+ return False
+
+ return list(usb.core.find(find_all=True, custom_match=is_usbtmc_device))
+
+
+def list_resources():
+ "List resource strings for all connected USBTMC devices"
+
+ res = []
+
+ for dev in list_devices():
+ idVendor = dev.idVendor
+ idProduct = dev.idProduct
+
+ # "fix" IDs for devices in firmware update mode
+ if idVendor == 0x0957 and idProduct == 0x2818:
+ # Agilent U2701A/U2702A firmware update mode
+ idProduct = 0x2918
+
+ if idVendor == 0x0957 and idProduct == 0x4218:
+ # Agilent U2722A firmware update mode
+ idProduct = 0x4118
+
+ if idVendor == 0x0957 and idProduct == 0x4418:
+ # Agilent U2723A firmware update mode
+ idProduct = 0x4318
+
+ # attempt to read serial number
+ iSerial = None
+ try:
+ iSerial = dev.serial_number
+ except:
+ pass
+
+ # append formatted resource string to list
+ if iSerial is None:
+ res.append("USB::%d::%d::INSTR" % (idVendor, idProduct))
+ else:
+ res.append("USB::%d::%d::%s::INSTR" % (idVendor, idProduct, iSerial))
+
+ return res
+
+
+def find_device(idVendor=None, idProduct=None, iSerial=None):
+ "Find USBTMC instrument"
+
+ devs = list_devices()
+
+ if len(devs) == 0:
+ return None
+
+ for dev in devs:
+ # match VID and PID
+ found = dev.idVendor == idVendor and dev.idProduct == idProduct
+
+ if idVendor == 0x0957 and idProduct == 0x2918:
+ # Agilent U2701A/U2702A firmware update mode
+ if dev.idVendor == idVendor and dev.idProduct == 0x2818:
+ found = True
+
+ if idVendor == 0x0957 and idProduct == 0x4118:
+ # Agilent U2722A firmware update mode
+ if dev.idVendor == idVendor and dev.idProduct == 0x4218:
+ found = True
+
+ if idVendor == 0x0957 and idProduct == 0x4318:
+ # Agilent U2723A firmware update mode
+ if dev.idVendor == idVendor and dev.idProduct == 0x4418:
+ found = True
+
+ if not found:
+ continue
+
+ if iSerial is None:
+ return dev
+ else:
+ s = ''
+
+ # try reading serial number
+ try:
+ s = dev.serial_number
+ except:
+ pass
+
+ if iSerial == s:
+ return dev
+
+ return None
+
+
+class Instrument(object):
+ "USBTMC instrument interface client"
+ def __init__(self, *args, **kwargs):
+ "Create new USBTMC instrument object"
+ self.idVendor = 0
+ self.idProduct = 0
+ self.iSerial = None
+ self.device = None
+ self.cfg = None
+ self.iface = None
+ self.term_char = None
+
+ self.bcdUSBTMC = 0
+ self.support_pulse = False
+ self.support_talk_only = False
+ self.support_listen_only = False
+ self.support_term_char = False
+
+ self.bcdUSB488 = 0
+ self.support_USB4882 = False
+ self.support_remote_local = False
+ self.support_trigger = False
+ self.support_scpi = False
+ self.support_SR = False
+ self.support_RL = False
+ self.support_DT = False
+
+ self.max_transfer_size = 1024*1024
+
+ self.timeout = 5.0
+
+ self.bulk_in_ep = None
+ self.bulk_out_ep = None
+ self.interrupt_in_ep = None
+
+ self.last_btag = 0
+ self.last_rstb_btag = 0
+
+ self.connected = False
+ self.reattach = []
+ self.old_cfg = None
+
+ # quirks
+ self.advantest_quirk = False
+ self.advantest_locked = False
+
+ self.rigol_quirk = False
+ self.rigol_quirk_ieee_block = False
+
+ resource = None
+
+ # process arguments
+ if len(args) == 1:
+ if type(args[0]) == str:
+ resource = args[0]
+ else:
+ self.device = args[0]
+ if len(args) >= 2:
+ self.idVendor = args[0]
+ self.idProduct = args[1]
+ if len(args) >= 3:
+ self.iSerial = args[2]
+
+ for op in kwargs:
+ val = kwargs[op]
+ if op == 'idVendor':
+ self.idVendor = val
+ elif op == 'idProduct':
+ self.idProduct = val
+ elif op == 'iSerial':
+ self.iSerial = val
+ elif op == 'device':
+ self.device = val
+ elif op == 'dev':
+ self.device = val
+ elif op == 'term_char':
+ self.term_char = val
+ elif op == 'resource':
+ resource = val
+
+ if resource is not None:
+ res = parse_visa_resource_string(resource)
+
+ if res is None:
+ raise UsbtmcException("Invalid resource string", 'init')
+
+ if res['arg1'] is None and res['arg2'] is None:
+ raise UsbtmcException("Invalid resource string", 'init')
+
+ self.idVendor = int(res['arg1'], 0)
+ self.idProduct = int(res['arg2'], 0)
+ self.iSerial = res['arg3']
+
+ # find device
+ if self.device is None:
+ if self.idVendor is None or self.idProduct is None:
+ raise UsbtmcException("No device specified", 'init')
+ else:
+ self.device = find_device(self.idVendor, self.idProduct, self.iSerial)
+ if self.device is None:
+ raise UsbtmcException("Device not found", 'init')
+
+ def __del__(self):
+ if self.connected:
+ self.close()
+
+ @property
+ def timeout(self):
+ return self._timeout
+
+ @timeout.setter
+ def timeout(self, val):
+ self._timeout = val
+ self._timeout_ms = int(val * 1000)
+
+ def open(self):
+ if self.connected:
+ return
+
+ # initialize device
+
+ if self.device.idVendor == 0x0957 and self.device.idProduct in [0x2818, 0x4218, 0x4418]:
+ # Agilent U27xx modular devices
+ # U2701A/U2702A, U2722A/U2723A
+ # These devices require a short initialization sequence, presumably
+ # to take them out of 'firmware update' mode after confirming
+ # that the firmware version is correct. This is required once
+ # on every power-on before the device can be used.
+ # Note that the device will reset and the product ID will change.
+ # U2701A/U2702A boot 0x2818, usbtmc 0x2918
+ # U2722A boot 0x4218, usbtmc 0x4118
+ # U2723A boot 0x4418, usbtmc 0x4318
+
+ serial = self.device.serial_number
+
+ new_id = 0
+
+ if self.device.idProduct == 0x2818:
+ # U2701A/U2702A
+ new_id = 0x2918
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x047E, data_or_wLength=0x0001)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x047D, data_or_wLength=0x0006)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x0484, data_or_wLength=0x0005)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x0472, data_or_wLength=0x000C)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x047A, data_or_wLength=0x0001)
+ self.device.ctrl_transfer(bmRequestType=0x40, bRequest=0x0C, wValue=0x0000, wIndex=0x0475, data_or_wLength=b'\x00\x00\x01\x01\x00\x00\x08\x01')
+
+ if self.device.idProduct in [0x4218, 0x4418]:
+ # U2722A/U2723A
+ if self.device.idProduct == 0x4218:
+ # U2722A
+ new_id = 0x4118
+ elif self.device.idProduct == 0x4418:
+ # U2723A
+ new_id = 0x4318
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x047E, data_or_wLength=0x0001)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x047D, data_or_wLength=0x0006)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x0487, data_or_wLength=0x0005)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x0472, data_or_wLength=0x000C)
+ self.device.ctrl_transfer(bmRequestType=0xC0, bRequest=0x0C, wValue=0x0000, wIndex=0x047A, data_or_wLength=0x0001)
+ self.device.ctrl_transfer(bmRequestType=0x40, bRequest=0x0C, wValue=0x0000, wIndex=0x0475, data_or_wLength=b'\x00\x00\x01\x01\x00\x00\x08\x01')
+
+ usb.util.dispose_resources(self.device)
+ self.device = None
+
+ for i in range(40):
+ self.device = find_device(0x0957, new_id, serial)
+ if self.device is not None:
+ break
+ time.sleep(0.5)
+
+ if self.device is None:
+ print("Agilent U27xx modular device initialization failed")
+
+ # find first USBTMC interface
+ for cfg in self.device:
+ for iface in cfg:
+ if (iface.bInterfaceClass == USBTMC_bInterfaceClass and
+ iface.bInterfaceSubClass == USBTMC_bInterfaceSubClass):
+ # USBTMC device
+ self.cfg = cfg
+ self.iface = iface
+ break
+ elif (self.device.idVendor == 0x1334):
+ # Advantest
+ self.cfg = cfg
+ self.iface = iface
+ break
+ else:
+ continue
+ break
+
+ if self.iface is None:
+ raise UsbtmcException("Not a USBTMC device", 'init')
+
+ try:
+ self.old_cfg = self.device.get_active_configuration()
+ except usb.core.USBError:
+ # ignore exception if configuration is not set
+ pass
+
+ if self.old_cfg is not None and self.old_cfg.bConfigurationValue == self.cfg.bConfigurationValue:
+ # already set to correct configuration
+
+ # release kernel driver on USBTMC interface
+ self._release_kernel_driver(self.iface.bInterfaceNumber)
+ else:
+ # wrong configuration or configuration not set
+
+ # release all kernel drivers
+ if self.old_cfg is not None:
+ for iface in self.old_cfg:
+ self._release_kernel_driver(iface.bInterfaceNumber)
+
+ # set proper configuration
+ self.device.set_configuration(self.cfg)
+
+ # claim interface
+ usb.util.claim_interface(self.device, self.iface)
+
+ # don't need to set altsetting - USBTMC devices have 1 altsetting as per the spec
+
+ # find endpoints
+ for ep in self.iface:
+ ep_dir = usb.util.endpoint_direction(ep.bEndpointAddress)
+ ep_type = usb.util.endpoint_type(ep.bmAttributes)
+
+ if (ep_type == usb.util.ENDPOINT_TYPE_BULK):
+ if (ep_dir == usb.util.ENDPOINT_IN):
+ self.bulk_in_ep = ep
+ elif (ep_dir == usb.util.ENDPOINT_OUT):
+ self.bulk_out_ep = ep
+ elif (ep_type == usb.util.ENDPOINT_TYPE_INTR):
+ if (ep_dir == usb.util.ENDPOINT_IN):
+ self.interrupt_in_ep = ep
+
+ if self.bulk_in_ep is None or self.bulk_out_ep is None:
+ raise UsbtmcException("Invalid endpoint configuration", 'init')
+
+ # set quirk flags if necessary
+ if self.device.idVendor == 0x1334:
+ # Advantest/ADCMT devices have a very odd USBTMC implementation
+ # which requires max 63 byte reads and never signals EOI on read
+ self.max_transfer_size = 63
+ self.advantest_quirk = True
+
+ if self.device.idVendor == 0x1ab1 and self.device.idProduct in RIGOL_QUIRK_PIDS:
+ self.rigol_quirk = True
+
+ if self.device.idProduct == 0x04ce:
+ self.rigol_quirk_ieee_block = True
+
+ self.connected = True
+
+ self.clear()
+
+ self.get_capabilities()
+
+ def close(self):
+ if not self.connected:
+ return
+
+ usb.util.dispose_resources(self.device)
+
+ try:
+ # reset configuration
+ if self.cfg.bConfigurationValue != self.old_cfg.bConfigurationValue:
+ self.device.set_configuration(self.old_cfg)
+
+ # try to reattach kernel driver
+ for iface in self.reattach:
+ try:
+ self.device.attach_kernel_driver(iface)
+ except:
+ pass
+ except:
+ pass
+
+ self.reattach = []
+
+ self.connected = False
+
+ def is_usb488(self):
+ return self.iface.bInterfaceProtocol == USB488_bInterfaceProtocol
+
+ def get_capabilities(self):
+
+ if not self.connected:
+ self.open()
+
+ b = self.device.ctrl_transfer(
+ usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_INTERFACE),
+ USBTMC_REQUEST_GET_CAPABILITIES,
+ 0x0000,
+ self.iface.index,
+ 0x0018,
+ timeout=self._timeout_ms)
+ if (b[0] == USBTMC_STATUS_SUCCESS):
+ self.bcdUSBTMC = (b[3] << 8) + b[2]
+ self.support_pulse = b[4] & 4 != 0
+ self.support_talk_only = b[4] & 2 != 0
+ self.support_listen_only = b[4] & 1 != 0
+ self.support_term_char = b[5] & 1 != 0
+
+ if self.is_usb488():
+ self.bcdUSB488 = (b[13] << 8) + b[12]
+ self.support_USB4882 = b[4] & 4 != 0
+ self.support_remote_local = b[4] & 2 != 0
+ self.support_trigger = b[4] & 1 != 0
+ self.support_scpi = b[4] & 8 != 0
+ self.support_SR = b[4] & 4 != 0
+ self.support_RL = b[4] & 2 != 0
+ self.support_DT = b[4] & 1 != 0
+ else:
+ raise UsbtmcException("Get capabilities failed", 'get_capabilities')
+
+ def pulse(self):
+ """
+ Send a pulse indicator request, this should blink a light
+ for 500-1000ms and then turn off again. (Only if supported)
+ """
+ if not self.connected:
+ self.open()
+
+ if self.support_pulse:
+ b = self.device.ctrl_transfer(
+ usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_INTERFACE),
+ USBTMC_REQUEST_INDICATOR_PULSE,
+ 0x0000,
+ self.iface.index,
+ 0x0001,
+ timeout=self._timeout_ms)
+ if (b[0] != USBTMC_STATUS_SUCCESS):
+ raise UsbtmcException("Pulse failed", 'pulse')
+
+ # message header management
+ def pack_bulk_out_header(self, msgid):
+ self.last_btag = btag = (self.last_btag % 255) + 1
+ return struct.pack('BBBx', msgid, btag, ~btag & 0xFF)
+
+ def pack_dev_dep_msg_out_header(self, transfer_size, eom = True):
+ hdr = self.pack_bulk_out_header(USBTMC_MSGID_DEV_DEP_MSG_OUT)
+ return hdr+struct.pack("<LBxxx", transfer_size, eom)
+
+ def pack_dev_dep_msg_in_header(self, transfer_size, term_char = None):
+ hdr = self.pack_bulk_out_header(USBTMC_MSGID_DEV_DEP_MSG_IN)
+ transfer_attributes = 0
+ if term_char is None:
+ term_char = 0
+ else:
+ transfer_attributes = 2
+ term_char = self.term_char
+ return hdr+struct.pack("<LBBxx", transfer_size, transfer_attributes, term_char)
+
+ def pack_vendor_specific_out_header(self, transfer_size):
+ hdr = self.pack_bulk_out_header(USBTMC_MSGID_VENDOR_SPECIFIC_OUT)
+ return hdr+struct.pack("<Lxxxx", transfer_size)
+
+ def pack_vendor_specific_in_header(self, transfer_size):
+ hdr = self.pack_bulk_out_header(USBTMC_MSGID_VENDOR_SPECIFIC_IN)
+ return hdr+struct.pack("<Lxxxx", transfer_size)
+
+ def pack_usb488_trigger(self):
+ hdr = self.pack_bulk_out_header(USB488_MSGID_TRIGGER)
+ return hdr+b'\x00'*8
+
+ def unpack_bulk_in_header(self, data):
+ msgid, btag, btaginverse = struct.unpack_from('BBBx', data)
+ return (msgid, btag, btaginverse)
+
+ def unpack_dev_dep_resp_header(self, data):
+ msgid, btag, btaginverse = self.unpack_bulk_in_header(data)
+ transfer_size, transfer_attributes = struct.unpack_from('<LBxxx', data, 4)
+ data = data[USBTMC_HEADER_SIZE:transfer_size+USBTMC_HEADER_SIZE]
+ return (msgid, btag, btaginverse, transfer_size, transfer_attributes, data)
+
+ def write_raw(self, data):
+ "Write binary data to instrument"
+
+ if not self.connected:
+ self.open()
+
+ eom = False
+
+ num = len(data)
+
+ offset = 0
+
+ try:
+ while num > 0:
+ if num <= self.max_transfer_size:
+ eom = True
+
+ block = data[offset:offset+self.max_transfer_size]
+ size = len(block)
+
+ req = self.pack_dev_dep_msg_out_header(size, eom) + block + b'\0'*((4 - (size % 4)) % 4)
+ self.bulk_out_ep.write(req, timeout=self._timeout_ms)
+
+ offset += size
+ num -= size
+ except usb.core.USBError:
+ exc = sys.exc_info()[1]
+ if exc.errno == 110:
+ # timeout, abort transfer
+ self._abort_bulk_out()
+ raise
+
+ def read_raw(self, num=-1):
+ "Read binary data from instrument"
+
+ if not self.connected:
+ self.open()
+
+ read_len = self.max_transfer_size
+ if 0 < num < read_len:
+ read_len = num
+
+ eom = False
+
+ term_char = None
+
+ if self.term_char is not None:
+ term_char = self.term_char
+
+ read_data = b''
+
+ try:
+ while not eom:
+ if not self.rigol_quirk or read_data == b'':
+
+ # if the rigol sees this again, it will restart the transfer
+ # so only send it the first time
+
+ req = self.pack_dev_dep_msg_in_header(read_len, term_char)
+ self.bulk_out_ep.write(req, timeout=self._timeout_ms)
+
+ resp = self.bulk_in_ep.read(read_len+USBTMC_HEADER_SIZE+3, timeout=self._timeout_ms)
+
+ if sys.version_info >= (3, 2):
+ resp = resp.tobytes()
+ else:
+ resp = resp.tostring()
+
+ if self.rigol_quirk and read_data:
+ pass # do nothing, the packet has no header if it isn't the first
+ else:
+ msgid, btag, btaginverse, transfer_size, transfer_attributes, data = self.unpack_dev_dep_resp_header(resp)
+
+
+ if self.rigol_quirk:
+ # rigol devices only send the header in the first packet, and they lie about whether the transaction is complete
+ if read_data:
+ read_data += resp
+ else:
+ if self.rigol_quirk_ieee_block and data.startswith(b"#"):
+
+ # ieee block incoming, the transfer_size usbtmc header is lying about the transaction size
+ l = int(chr(data[1]))
+ n = int(data[2:l+2])
+
+ transfer_size = n + (l+2) # account for ieee header
+
+ read_data += data
+
+ if len(read_data) >= transfer_size:
+ read_data = read_data[:transfer_size] # as per usbtmc spec section 3.2 note 2
+ eom = True
+ else:
+ eom = False
+ else:
+ eom = transfer_attributes & 1
+ read_data += data
+
+ # Advantest devices never signal EOI and may only send one read packet
+ if self.advantest_quirk:
+ break
+
+ if num > 0:
+ num = num - len(data)
+ if num <= 0:
+ break
+ if num < read_len:
+ read_len = num
+ except usb.core.USBError:
+ exc = sys.exc_info()[1]
+ if exc.errno == 110:
+ # timeout, abort transfer
+ self._abort_bulk_in()
+ raise
+
+ return read_data
+
+ def ask_raw(self, data, num=-1):
+ "Write then read binary data"
+ # Advantest/ADCMT hardware won't respond to a command unless it's in Local Lockout mode
+ was_locked = self.advantest_locked
+ try:
+ if self.advantest_quirk and not was_locked:
+ self.lock()
+ self.write_raw(data)
+ return self.read_raw(num)
+ finally:
+ if self.advantest_quirk and not was_locked:
+ self.unlock()
+
+ def write(self, message, encoding='utf-8'):
+ "Write string to instrument"
+ if type(message) is tuple or type(message) is list:
+ # recursive call for a list of commands
+ for message_i in message:
+ self.write(message_i, encoding)
+ return
+
+ self.write_raw(str(message).encode(encoding))
+
+ def read(self, num=-1, encoding='utf-8'):
+ "Read string from instrument"
+ return self.read_raw(num).decode(encoding).rstrip('\r\n')
+
+ def ask(self, message, num=-1, encoding='utf-8'):
+ "Write then read string"
+ if type(message) is tuple or type(message) is list:
+ # recursive call for a list of commands
+ val = list()
+ for message_i in message:
+ val.append(self.ask(message_i, num, encoding))
+ return val
+
+ # Advantest/ADCMT hardware won't respond to a command unless it's in Local Lockout mode
+ was_locked = self.advantest_locked
+ try:
+ if self.advantest_quirk and not was_locked:
+ self.lock()
+ self.write(message, encoding)
+ return self.read(num, encoding)
+ finally:
+ if self.advantest_quirk and not was_locked:
+ self.unlock()
+
+ def read_stb(self):
+ "Read status byte"
+
+ if not self.connected:
+ self.open()
+
+ if self.is_usb488():
+ rstb_btag = (self.last_rstb_btag % 128) + 1
+ if rstb_btag < 2:
+ rstb_btag = 2
+ self.last_rstb_btag = rstb_btag
+
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_INTERFACE),
+ bRequest=USB488_READ_STATUS_BYTE,
+ wValue=rstb_btag,
+ wIndex=self.iface.index,
+ data_or_wLength=0x0003,
+ timeout=self._timeout_ms
+ )
+ if (b[0] == USBTMC_STATUS_SUCCESS):
+ # check btag
+ if rstb_btag != b[1]:
+ raise UsbtmcException("Read status byte btag mismatch", 'read_stb')
+ if self.interrupt_in_ep is None:
+ # no interrupt channel, value is here
+ return b[2]
+ else:
+ # read response from interrupt channel
+ resp = self.interrupt_in_ep.read(2, timeout=self._timeout_ms)
+ if resp[0] != rstb_btag + 128:
+ raise UsbtmcException("Read status byte btag mismatch", 'read_stb')
+ else:
+ return resp[1]
+ else:
+ raise UsbtmcException("Read status failed", 'read_stb')
+ else:
+ return int(self.ask("*STB?"))
+
+ def trigger(self):
+ "Send trigger command"
+
+ if not self.connected:
+ self.open()
+
+ if self.support_trigger:
+ data = self.pack_usb488_trigger()
+ print(repr(data))
+ self.bulk_out_ep.write(data, timeout=self._timeout_ms)
+ else:
+ self.write("*TRG")
+
+ def clear(self):
+ "Send clear command"
+
+ if not self.connected:
+ self.open()
+
+ # Send INITIATE_CLEAR
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_INTERFACE),
+ bRequest=USBTMC_REQUEST_INITIATE_CLEAR,
+ wValue=0x0000,
+ wIndex=self.iface.index,
+ data_or_wLength=0x0001,
+ timeout=self._timeout_ms
+ )
+ if (b[0] == USBTMC_STATUS_SUCCESS):
+ # Initiate clear succeeded, wait for completion
+ while True:
+ # Check status
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_INTERFACE),
+ bRequest=USBTMC_REQUEST_CHECK_CLEAR_STATUS,
+ wValue=0x0000,
+ wIndex=self.iface.index,
+ data_or_wLength=0x0002,
+ timeout=self._timeout_ms
+ )
+ time.sleep(0.1)
+ if (b[0] != USBTMC_STATUS_PENDING):
+ break
+ # Clear halt condition
+ self.bulk_out_ep.clear_halt()
+ else:
+ raise UsbtmcException("Clear failed", 'clear')
+
+ def _abort_bulk_out(self, btag=None):
+ "Abort bulk out"
+
+ if not self.connected:
+ return
+
+ if btag is None:
+ btag = self.last_btag
+
+ # Send INITIATE_ABORT_BULK_OUT
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_ENDPOINT),
+ bRequest=USBTMC_REQUEST_INITIATE_ABORT_BULK_OUT,
+ wValue=btag,
+ wIndex=self.bulk_out_ep.bEndpointAddress,
+ data_or_wLength=0x0002,
+ timeout=self._timeout_ms
+ )
+ if (b[0] == USBTMC_STATUS_SUCCESS):
+ # Initiate abort bulk out succeeded, wait for completion
+ while True:
+ # Check status
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_ENDPOINT),
+ bRequest=USBTMC_REQUEST_CHECK_ABORT_BULK_OUT_STATUS,
+ wValue=0x0000,
+ wIndex=self.bulk_out_ep.bEndpointAddress,
+ data_or_wLength=0x0008,
+ timeout=self._timeout_ms
+ )
+ time.sleep(0.1)
+ if (b[0] != USBTMC_STATUS_PENDING):
+ break
+ else:
+ # no transfer in progress; nothing to do
+ pass
+
+ def _abort_bulk_in(self, btag=None):
+ "Abort bulk in"
+
+ if not self.connected:
+ return
+
+ if btag is None:
+ btag = self.last_btag
+
+ # Send INITIATE_ABORT_BULK_IN
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_ENDPOINT),
+ bRequest=USBTMC_REQUEST_INITIATE_ABORT_BULK_IN,
+ wValue=btag,
+ wIndex=self.bulk_in_ep.bEndpointAddress,
+ data_or_wLength=0x0002,
+ timeout=self._timeout_ms
+ )
+ if (b[0] == USBTMC_STATUS_SUCCESS):
+ # Initiate abort bulk in succeeded, wait for completion
+ while True:
+ # Check status
+ b = self.device.ctrl_transfer(
+ bmRequestType=usb.util.build_request_type(usb.util.CTRL_IN, usb.util.CTRL_TYPE_CLASS, usb.util.CTRL_RECIPIENT_ENDPOINT),
+ bRequest=USBTMC_REQUEST_CHECK_ABORT_BULK_IN_STATUS,
+ wValue=0x0000,
+ wIndex=self.bulk_in_ep.bEndpointAddress,
+ data_or_wLength=0x0008,
+ timeout=self._timeout_ms
+ )
+ time.sleep(0.1)
+ if (b[0] != USBTMC_STATUS_PENDING):
+ break
+ else:
+ # no transfer in progress; nothing to do
+ pass
+
+ def remote(self):
+ "Send remote command"
+ raise NotImplementedError()
+
+ def local(self):
+ "Send local command"
+ raise NotImplementedError()
+
+ def lock(self):
+ "Send lock command"
+
+ if not self.connected:
+ self.open()
+
+ if self.advantest_quirk:
+ # This Advantest/ADCMT vendor-specific control command enables remote control and must be sent before any commands are exchanged
+ # (otherwise READ commands will only retrieve the latest measurement)
+ self.advantest_locked = True
+ self.device.ctrl_transfer(bmRequestType=0xA1, bRequest=0xA0, wValue=0x0001, wIndex=0x0000, data_or_wLength=1)
+ else:
+ raise NotImplementedError()
+
+ def unlock(self):
+ "Send unlock command"
+
+ if not self.connected:
+ self.open()
+
+ if self.advantest_quirk:
+ # This Advantest/ADCMT vendor-specific control command enables remote control and must be sent before any commands are exchanged
+ # (otherwise READ commands will only retrieve the latest measurement)
+ self.advantest_locked = False
+ self.device.ctrl_transfer(bmRequestType=0xA1, bRequest=0xA0, wValue=0x0000, wIndex=0x0000, data_or_wLength=1)
+ else:
+ raise NotImplementedError()
+
+ def advantest_read_myid(self):
+
+ if not self.connected:
+ self.open()
+
+ "Read MyID value from Advantest and ADCMT devices"
+ if self.advantest_quirk:
+ # This Advantest/ADCMT vendor-specific control command reads the "MyID" identifier
+ try:
+ return int(self.device.ctrl_transfer(bmRequestType=0xC1, bRequest=0xF5, wValue=0x0000, wIndex=0x0000, data_or_wLength=1)[0])
+ except:
+ return None
+ else:
+ raise NotImplementedError()
+
+ def _release_kernel_driver(self, interface_number):
+ if os.name == 'posix':
+ if self.device.is_kernel_driver_active(interface_number):
+ self.reattach.append(interface_number)
+ try:
+ self.device.detach_kernel_driver(interface_number)
+ except usb.core.USBError as e:
+ sys.exit(
+ "Could not detach kernel driver from interface({0}): {1}".format(interface_number,
+ str(e)))