view usb488.py @ 0:a43a47dfc902

First stab at code that actually works! Example: import usb488 u = usb488.USB488Device() u.write("*IDN?\n") Sending 20 bytes of data: [1, 1, 254, 0, 6, 0, 0, 0, 1, 0, 0, 0, 42, 73, 68, 78, 63, 10, 0, 0] a = u.read() Read 60 bytes: (2, 2, 253, 0, 48, 0, 0, 0, 1, 0, 0, 0, 84, 69, 75, 84, 82, 79, 78, 73, 88, 44, 84, 68, 83, 32 , 50, 48, 50, 52, 66, 44, 67, 48, 52, 55, 50, 54, 52, 44, 67, 70, 58, 57, 49, 46, 49, 67, 84, 32, 70, 86, 58, 118, 50, 50, 46, 48, 49, 10) s = reduce(lambda x, y: x+y, map(chr, a)) print s xxxxTEKTRONIX,TDS 2024B,C047264,CF:91.1CT FV:v22.01
author Daniel O'Connor <darius@dons.net.au>
date Wed, 13 May 2009 14:44:40 +0930
parents
children e2089824735a
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#!/usr/bin/env python

#
# Spec/info..
#
# http://www.usb.org/developers/devclass_docs/USBTMC_1_006a.zip
# http://svn.openmoko.org/developers/werner/ahrt/host/tmc/README
# http://www.home.agilent.com/agilent/redirector.jspx?action=ref&cname=AGILENT_EDITORIAL&ckey=1189335&lc=eng&cc=US&nfr=-35560.0.00
# linux-2.6.29.3/drivers/usb/class/usbtmc.c
#

import usb

#
# The usual SCPI commands are wrapped before being sent.
#
# Write:
# Offset	Field		Size	Value	Description
# 0		MsgID		1	0x01	DEV_DEP_MSG_OUT
# 1		bTag		1	0x01	Varies with each transfer
# 2		bTagInverse	1	0xfe	Inverse of previous field
# 3		Reserved	1	0x00
# 4		TransferSize	4	0x06
# 5		..			0x00
# 6		..			0x00
# 7		..			0x00
# 8		bmTransferAttr	1	0x01	1 == end of msg
# 9		Reserved	1	0x00
# 10		Reserved	1	0x00
# 11		Reserved	1	0x00
# 12		Msg itself	1	0x2a	'*'
# 13				1	0x49	'I'
# 14				1	0x44	'D'
# 15				1	0x4e	'N'
# 16				1	0x3f	'?'
# 17				1	0x0a	'\n'
# 18-19		Alignment	2	0x0000	Bring into 4 byte alignment
#
#
# Send a read request:
# Offset	Field		Size	Value	Description
# 0		MsgID		1	0x02	REQUEST_DEV_DEP_MSG_IN
# 1		bTag		1	0x02	Varies with each transfer
# 2		bTagInverse	1	0xfd	Inverse of previous field
# 3		Reserved	1	0x00
# 4		TransferSize	4	0x64
# 5		..			0x00
# 6		..			0x00
# 7		..			0x00
# 8		bmTransferAttr	1	0x00
# 9		Term char	1	0x00
# 10		Reserved	1	0x00
# 11		Reserved	1	0x00

# Tektronix TDS2024B
USB_VEND_TEKTRONIX = 1689
USB_PROD_TEKTORNIX = 874

# No libusb versions of these available
USB_CLASS_APP_SPECIFIC = 254
USB_SUBCLASS_TMC = 3
USB_PROTOCOL_488 = 1

# USB488 message IDs
DEV_DEP_MSG_OUT = 1
REQUEST_DEV_DEP_MSG_IN = 2
DEV_DEP_MSG_IN = 2

class USB488Device(object):
    def __init__(self, vendor = None, product = None, serial = None, path = None):
        """Search for a USB488 class device, if specified vendor,
        product, serial and path will refine the search"""

        busses = usb.busses()

        #
        # Search for the device we want
        #
        found = False
        for bus in busses:
            for dev in bus.devices:
                # Skip ones that don't match
                if vendor != None and dev.idVendor != vendor:
                    continue
                if product != None and dev.idProduct != product:
                    continue
                if serial != None and dev.idSerialNumber != serial:
                    continue
                if path != None and dev.filename != path:
                    continue

                # The libusb examples say you can check for device
                # class and then open, however in that case you can't
                # find the endpoint number which seems pretty useless
                # unless you want to hard code everything.
                for confidx in xrange(len(dev.configurations)):
                    for iface in dev.configurations[confidx].interfaces:
                        for altif in iface:
                            # Check if this is a USB488 capable interface
                            if altif.interfaceClass == USB_CLASS_APP_SPECIFIC and \
                                   altif.interfaceSubClass == USB_SUBCLASS_TMC and \
                                   altif.interfaceProtocol == USB_PROTOCOL_488:
                                found = True
                                break
                        if found:
                            break
                    if found:
                        break
                if found:
                    break
            if found:
                break
        if not found:
            raise "Could not find a suitable USB device"
    
        # Open the device and claim the USB interface that supports the spec
        self.handle = dev.open()
        self.handle.setConfiguration(dev.configurations[confidx].value)
        self.handle.claimInterface(altif.interfaceNumber)
        self.handle.setAltInterface(altif.alternateSetting)

        # Get some info for humans
        self.vendname = self.handle.getString(dev.iManufacturer, 1024)
        self.prodname = self.handle.getString(dev.iProduct, 1024)
        self.serial = self.handle.getString(dev.iSerialNumber, 1024)

        # Determine the endpoints for each operation type
        self.intrep = self.bulkinep = self.bulkoutep = None
    
        for ep in altif.endpoints:
            if ep.type == usb.ENDPOINT_TYPE_INTERRUPT and \
                   ep.address & usb.ENDPOINT_IN == usb.ENDPOINT_IN:
                self.intrep = ep.address
                                 
            if ep.type == usb.ENDPOINT_TYPE_BULK:
                if ep.address & usb.ENDPOINT_IN == usb.ENDPOINT_IN:
                    self.bulkinep = ep.address
                else:
                    self.bulkoutep = ep.address
                    self.maxPacket = ep.maxPacketSize

        # Required for 488.2 devices, optional otherwise
        if self.intrep == None:
            print "Can't find interrupt endpoint"

        # Data from the scope (mandatory)
        if self.bulkinep == None:
            raise "Can't find bulk-in endpoint"

        # Data to the scope (mandatory)
        if self.bulkoutep == None:
            raise "Can't find bulk-out endpoint"

        self.tag = 1

    def __str__(self):
        rtn = "Mfg: %s Prod: %s" % (self.vendname, self.prodname)
        if self.serial != "":
            rtn += " S/N: " + self.serial

        return rtn
    
    def incrtag(self):
        self.tag += 1
        if self.tag == 0:
            self.tag += 1

    def write(self, data):
        """Send data (string) to the scope"""
        orddata = map(ord, data)
        datalen = len(orddata)

        # Build the packet
        pkt = [ DEV_DEP_MSG_OUT, self.tag, ~self.tag & 0xff, 0x00,
                datalen & 0xff, datalen >> 8 & 0xff, datalen >> 16 & 0xff,
                datalen >> 24 & 0xff, 1, 0, 0, 0 ]

        # Add the data
        pkt = pkt + orddata

        # Align to 4 bytes
        alignlen = ((len(pkt) / 4) + 1) * 4
        pkt = pkt + [0] * (alignlen - len(pkt))

        # Bump the tag
        self.incrtag()
            
        # Split it up into maxPacket sized chunks and send..
        while len(pkt) > 0:
            chunk = pkt[0:self.maxPacket]
            pkt = pkt[self.maxPacket:]

            print "Sending %s bytes of data: %s" % (len(chunk), chunk)
            wrote = self.handle.bulkWrite(self.bulkoutep, chunk)
            if wrote != len(chunk):
                raise "Short write, got %d, expected %d" % (wrote, len(chunk))

    def read(self):
        """Read data from the device"""


        datalen = 1024
        # Ask the device to send us something
        pkt = [ REQUEST_DEV_DEP_MSG_IN, self.tag, ~self.tag & 0xff, 0x00,
                datalen & 0xff, datalen >> 8 & 0xff, datalen >> 16 & 0xff,
                datalen >> 24 & 0xff, 0, 0, 0, 0]

        # Bump tag
        self.incrtag()

        # Send it
        wrote = self.handle.bulkWrite(self.bulkoutep, pkt)
        if wrote != len(pkt):
            print "Short write, got %d, expected %d" % (wrote, len(pkt))

        read = self.handle.bulkRead(self.bulkinep, datalen)
        print "Read %s bytes: %s" % (len(read), str(read))
        return read
        
def find488():
    """Search for a USB488 device, returns a handle, iface, dev tuple for it"""

    busses = usb.busses()
    
    found = False
    for bus in busses:
        for dev in bus.devices:
            for confidx in xrange(len(dev.configurations)):
                # XXX: what do multi-interface devices look like?
                iface = dev.configurations[confidx].interfaces[0][0]
                # Check if this is a USB488 capable interface
                if iface.interfaceClass == USB_CLASS_APP_SPECIFIC and \
                   iface.interfaceSubClass == USB_SUBCLASS_TMC and \
                   iface.interfaceProtocol == USB_PROTOCOL_488:
                    handle = dev.open()
                    handle.setConfiguration(1)
                    handle.claimInterface(0)
                    handle.setAltInterface(0)
                    #handle.setConfiguration(confidx)
                    #handle.claimInterface(0)
                    found = True
                    break

        if found:
            break
    
    if not found:
        raise "Could not find scope, check perms"
    
    return (handle, iface, dev)

def geteps(iface):
    """Returns a tuple of intr,input,output addresses of endpoints for the interface"""
    intrep = bulkinep = bulkoutep = None
    
    for ep in iface.endpoints:
        if ep.type == usb.ENDPOINT_TYPE_INTERRUPT and \
               ep.address & usb.ENDPOINT_IN == usb.ENDPOINT_IN:
            intrep = ep.address

        if ep.type == usb.ENDPOINT_TYPE_BULK:
            if ep.address & usb.ENDPOINT_IN == usb.ENDPOINT_IN:
                bulkinep = ep.address
            else:
                bulkoutep = ep.address

    # Required for 488.2 devices, optional otherwise
    if intrep == None:
        print "Can't find interrup endpoint"

    # Data from the scope
    if bulkinep == None:
        raise "Can't find bulk-in endpoint"

    # Data to the scope
    if bulkoutep == None:
        raise "Can't find bulk-out endpoint"

    return intrep, bulkinep, bulkoutep

def main():
    handle, iface, dev = find488()
    print "Found device"

    intrep, bulkinep, bulkoutep = geteps(iface)
    print "Found endpoints"
    
if __name__ == "__main__":
    main()