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I was attempting to scan documents using the EPSON DS-40 (due to its compact nature) and a Raspberry Pi 3B+.

I started out by trying the SANE project with no success, currently the scanner is listed as "Untested", the software recognizes the scanner but times out when sending start scan commands.

I then found a piece of python code written specifically for this scanner here. This code would start the scan but after a few seconds would report the error message:

usb.core.USBError: [Errno 110] Operation timed out

I figured that the line in the code:

def read():
d = dev.read(EP_IN, IN_BUF_SIZE)
return bytes(d)

Just needed a timeout on the read command, so I changed it to the following.

def read():
d = dev.read(EP_IN, IN_BUF_SIZE,10000) # the 3rd parameter adds a 10000ms timeout
return bytes(d)

The timeout did wait but the error still occurs after the 10 second timeout is complete. I also tried playing around with the packet size (IN_BUF_SIZE) with no avail.

I figured out that if I printed out the entire byte stream being read off the USB port, the scan would complete and I got an image.

I then figured out, instead of printing, I put a sleep command after receiving large packets, the scanning operation would consistently succeed.

def read():
  d = dev.read(EP_IN, IN_BUF_SIZE)
  inbuffer = np.array(d, dtype=np.uint8)
  if(len(inbuffer) > 10000):
    sleep(4)
  return bytes(d)

My question is, what is actually happening to cause this? Is there a less hacky way to solve this problem? Is this issue due to the Raspberry Pi implementation of Python USB?

Here is the full modified code that I am running, for the original just visit the github link. The only modifications that I made are the 3 additional lines mentioned above

#!/usr/bin/env python
# dsforty.py - Scan a page on Epson DS-40
# Copyright 2015 (C) Mansour Behabadi <mansour@oxplot.com>

from subprocess import Popen, PIPE
from collections import deque
import argparse
import atexit
import os
import sys
import tempfile
import threading
import usb.core
import usb.util
from time import sleep
import numpy as np

IN_BUF_SIZE = 1024 ** 2 #2 ** 19 
VENDOR = 0x04b8
PRODUCT = 0x0152
EP_OUT = 0x02
EP_IN = 0x81
MAX_W = 8.5 # in inches
MAX_H = 14 # in inches


CLRS = {'g': b'M008', 'c': b'C024'}
BLANKS = {'g': 45, 'c': (44, 45, 45)}
BLANK_VARI = 25
MIN_HFEATURE_LEN = 0.3937 # in inches ~ 1mm

def find_edge(line, blank, vari, streak_thresh):
  streak = 0
  low = [max(0, c - vari) for c in blank]
  high = [min(255, c + vari) for c in blank]
  for pi, p in enumerate(line):
    for c, cl, ch in zip(p, low, high):
      if c < cl or c > ch:
        streak += 1
        if streak > streak_thresh:
          return pi - streak + 1
        break
      streak = 0
  return 0

def main():
  def arg_range(low, high):
    def fn(v):
      v = int(v)
      if v < low or v > high:
        raise argparse.ArgumentTypeError(
          'must be in range %d..%d' % (low, high))
      return v
    return fn
  parser = argparse.ArgumentParser(
    formatter_class=argparse.RawDescriptionHelpFormatter,
    description='Scan a page on Epson DS-40'
  )
  parser.add_argument(
    '-r', '--res',
    choices=[300, 600],
    default=300,
    type=int,
    help='scan resolution - defaults to 300 dpi'
  )
  parser.add_argument(
    '-c', '--color',
    choices=list(sorted(CLRS)),
    default='c',
    help='scan color: `g` for grayscale and `c` for color'
         ' - defaults to color'
  )
  parser.add_argument(
    '-q', '--quality',
    type=arg_range(1, 100),
    default=100,
    help='quality of output JPEG, between 1..100 - defaults to 100'
  )
  parser.add_argument(
    '-n', '--no-crop',
    action='store_true',
    help='do not crop vertical borders - use when autocrop messes up'
  )
  args = parser.parse_args()

  # Setup device

  tmpout = tempfile.TemporaryFile(mode='r+b')
  sys.stdout = open(sys.stdout.fileno(), 'wb')
  dev = usb.core.find(idVendor=VENDOR, idProduct=PRODUCT)

  if dev is None:
    print('DS-40 is not available', file=sys.stderr)
    exit(1)

  atexit.register(lambda: usb.util.dispose_resources(dev))
  dev.set_configuration()

  def read(): 
    d = dev.read(EP_IN, IN_BUF_SIZE, 1000)
    inbuffer = np.array(d, dtype=np.uint8)
    if(len(inbuffer) > 10000):
      sleep(1)
    return bytes(d)

  def write(d):
    dev.write(EP_OUT, d)

  write(b'\x1c\x58') # put scanner in control mode
  if read() != b'\x06':
    print('scanner didn\'t ACK control mode', file=sys.stderr)
    exit(1)

  # Setup parameters:
  # COL sets image type as defined by CLRS{}
  # GMM sets gamma: (UG10 -> 1.0, UG18 -> 1.8)
  # CMX sets color correction: (UNIT -> disable, UM08 -> for C024)
  # RSM, RSS sets resolution

  width, height = int(args.res * MAX_W), int(args.res * MAX_H)

  params = deque()
  params.append(b'#ADF#COL')
  params.append(CLRS[args.color])
  params.append(b'#FMTJPG #JPGd%03d#GMMUG18#CMXUNIT' % args.quality)
  params.append(
    b'#RSMi%07d#RSSi%07d' % (args.res, args.res))
  params.append(b'#ACQi%07di%07di%07di%07d' % (0, 0, width, height))
  params.append(b'#PAGd000#BSZi%07d' % IN_BUF_SIZE)
  for gmt in (b'RED', b'GRN', b'BLU'):
    params.append(b'#GMT' + gmt + b' h100')
    params.append(bytes(range(256)))
  params = b''.join(params)

  write(b'PARAx%07X' % len(params))
  write(params)
  if b'#parOK' not in read():
    print('scanner didn\'t accept params', file=sys.stderr)
    exit(1)

  # Start scanning

  write(b'TRDTx0000000')
  ret = read()
  if b'#errADF PE' in ret:
    print('no paper to scan', file=sys.stderr)
    exit(1)

  final_height = None
  while True:
    write(b'IMG x0000000')
    ret = read()
    if not ret.startswith(b'IMG x'):
      print('bad image data ack', file=sys.stderr)
      exit(1)
    if b'#errADF PE' in ret:
      break
    pen_idx = ret.find(b'#peni')
    if pen_idx >= 0:
      final_height = int(ret[pen_idx + 13:pen_idx + 20])
    dl = int(ret[5:12], 16)
    while dl > 0:
      d = read()
      dl -= len(d)
      tmpout.write(d)

  threading.Thread(target=dev.reset, daemon=True).start()
  tmpout.flush()
  tmpout.seek(0)

  if final_height is None:
    print('no final height reported', file=sys.stderr)
    exit(1)

  # Analyse the output for better cropping if PIL is available

  left, right = 0, width
  try:
    from PIL import Image
  except ImportError:
    if not args.no_crop:
      print('PIL not installed - disabled autocrop', file=sys.stderr)
      args.no_crop = True

  if not args.no_crop:
    vnorm = (lambda x: (x, x, x)) if args.color == 'g' else lambda x: x
    line = [vnorm(p)
      for p in Image.open(tmpout).crop((0, 0, width, final_height))
        .resize((width, 1), 1).getdata()]
    streak_th = int((MIN_HFEATURE_LEN / MAX_H) * len(line))
    blank = vnorm(BLANKS[args.color])
    left = find_edge(line, blank, BLANK_VARI, streak_th)
    right = find_edge(reversed(line), blank, BLANK_VARI, streak_th)
    right = width - right
    if left >= right:
      left, right = 0, width
      print('couldn\'t find edges', file=sys.stderr)
    tmpout.seek(0)

  # Crop

  jpegtran = Popen(
    ['jpegtran', '-crop', '%dx%d+%d+0' % (
      right - left, final_height, left
    )], stdin=tmpout, stderr=open(os.devnull, 'wb')
  )
  jpegtran.wait()
  exit(0)

if __name__ == '__main__':
  main()

Update: I figured out that just adding the sleep after the read does not fully fix the problem, I had to increase the timeout on the read command from the default to 1000ms. I also figured out that I could decrease the sleep time to 1 second and it would still work consistently.

d = dev.read(EP_IN, IN_BUF_SIZE,1000)

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