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authorMartin Braun <martin.braun@ettus.com>2015-07-31 17:11:08 -0700
committerMartin Braun <martin.braun@ettus.com>2015-07-31 17:14:41 -0700
commit8737c550f535b738c0fad703d7302a305ef871d2 (patch)
tree279b26a6bfc9a3cd847817773c2381b0584bf2a1 /tools
parente956fc124029394f8d4a9157e1feeb0b76f0e8ee (diff)
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utils: Updated b2xx_side_channel utility, moved over from tools/
Diffstat (limited to 'tools')
-rwxr-xr-xtools/b200/b2x0_side_channel.py650
1 files changed, 0 insertions, 650 deletions
diff --git a/tools/b200/b2x0_side_channel.py b/tools/b200/b2x0_side_channel.py
deleted file mode 100755
index cf88bd35f..000000000
--- a/tools/b200/b2x0_side_channel.py
+++ /dev/null
@@ -1,650 +0,0 @@
-#!/usr/bin/env python
-# -*- coding: utf-8 -*-
-#
-# Copyright 2013-2014 Ettus Research LLC
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-#
-"""
-Tool to read log buffers from the FX3. Use to debug USB connection issues.
-Requires PyUSB 1.0.
-"""
-
-import sys
-import time
-import struct
-from optparse import OptionParser
-import serial
-
-try:
- import usb.core
- import usb.util
-except Exception as e:
- print "Failed to import usb - please have pyusb in your PYTHONPATH"
- raise e
-
-VRT_OUT = usb.util.CTRL_TYPE_VENDOR | usb.util.CTRL_OUT
-VRT_IN = usb.util.CTRL_TYPE_VENDOR | usb.util.CTRL_IN
-
-VRQS = {}
-B200_VREQ_GET_LOG = 0x23
-VRQS[B200_VREQ_GET_LOG] = 'B200_VREQ_GET_LOG'
-B200_VREQ_GET_COUNTERS = 0x24
-VRQS[B200_VREQ_GET_COUNTERS] = 'B200_VREQ_GET_COUNTERS'
-B200_VREQ_CLEAR_COUNTERS = 0x25
-VRQS[B200_VREQ_CLEAR_COUNTERS] = 'B200_VREQ_CLEAR_COUNTERS'
-B200_VREQ_GET_USB_EVENT_LOG = 0x26
-VRQS[B200_VREQ_GET_USB_EVENT_LOG] = 'B200_VREQ_GET_USB_EVENT_LOG'
-B200_VREQ_SET_CONFIG = 0x27
-VRQS[B200_VREQ_SET_CONFIG] = 'B200_VREQ_SET_CONFIG'
-B200_VREQ_GET_CONFIG = 0x28
-VRQS[B200_VREQ_GET_CONFIG] = 'B200_VREQ_GET_CONFIG'
-B200_VREQ_GET_USB_SPEED = 0x80
-VRQS[B200_VREQ_GET_USB_SPEED] ='B200_VREQ_GET_USB_SPEED'
-B200_VREQ_WRITE_SB = 0x29
-VRQS[B200_VREQ_WRITE_SB] = 'B200_VREQ_WRITE_SB'
-B200_VREQ_SET_SB_BAUD_DIV = 0x30
-VRQS[B200_VREQ_SET_SB_BAUD_DIV] = 'B200_VREQ_SET_SB_BAUD_DIV'
-B200_VREQ_FLUSH_DATA_EPS = 0x31
-VRQS[B200_VREQ_FLUSH_DATA_EPS] = 'B200_VREQ_FLUSH_DATA_EPS'
-B200_VREQ_AD9361_LOOPBACK = 0x92
-VRQS[B200_VREQ_AD9361_LOOPBACK] = 'B200_VREQ_AD9361_LOOPBACK'
-
-COUNTER_MAGIC = 0x10024001
-"""
-typedef struct Counters {
- int magic;
-
- DMA_COUNTERS dma_to_host;
- DMA_COUNTERS dma_from_host;
-
- int log_overrun_count;
-
- int usb_error_update_count;
- USB_ERROR_COUNTERS usb_error_counters;
-
- int usb_ep_underrun_count;
-
- int heap_size;
-} COUNTERS, *PCOUNTERS;
-
-typedef struct USBErrorCounters {
- int phy_error_count;
- int link_error_count;
-
- int PHY_LOCK_EV;
- int TRAINING_ERROR_EV;
- int RX_ERROR_CRC32_EV;
- int RX_ERROR_CRC16_EV;
- int RX_ERROR_CRC5_EV;
- int PHY_ERROR_DISPARITY_EV;
- int PHY_ERROR_EB_UND_EV;
- int PHY_ERROR_EB_OVR_EV;
- int PHY_ERROR_DECODE_EV;
-} USB_ERROR_COUNTERS, *PUSB_ERROR_COUNTERS;
-
-typedef struct DMACounters {
- int XFER_CPLT;
- int SEND_CPLT;
- int RECV_CPLT;
- int PROD_EVENT;
- int CONS_EVENT;
- int ABORTED;
- int ERROR;
- int PROD_SUSP;
- int CONS_SUSP;
-
- int BUFFER_MARKER;
- int BUFFER_EOP;
- int BUFFER_ERROR;
- int BUFFER_OCCUPIED;
-
- int last_count;
- int last_size;
-
- int last_sid;
- int bad_sid_count;
-
- int resume_count;
-} DMA_COUNTERS, *PDMA_COUNTERS;
-"""
-DMA_COUNTERS = [
- 'XFER_CPLT',
- 'SEND_CPLT',
- 'RECV_CPLT',
- 'PROD_EVENT',
- 'CONS_EVENT',
- 'ABORTED',
- 'ERROR',
- 'PROD_SUSP',
- 'CONS_SUSP',
-
- 'BUFFER_MARKER',
- 'BUFFER_EOP',
- 'BUFFER_ERROR',
- 'BUFFER_OCCUPIED',
-
- 'last_count',
- 'last_size',
-
- 'last_sid',
- 'bad_sid_count'
-]
-
-USB_ERROR_COUNTERS = [
- 'phy_error_count',
- 'link_error_count'
-]
-
-USB_PHY_ERROR_REGISTERS = [
- 'PHY_LOCK_EV',
- 'TRAINING_ERROR_EV',
- 'RX_ERROR_CRC32_EV',
- 'RX_ERROR_CRC16_EV',
- 'RX_ERROR_CRC5_EV',
- 'PHY_ERROR_DISPARITY_EV',
- 'PHY_ERROR_EB_UND_EV',
- 'PHY_ERROR_EB_OVR_EV',
- 'PHY_ERROR_DECODE_EV'
-]
-
-USB_ERROR_COUNTERS += USB_PHY_ERROR_REGISTERS
-
-COUNTERS = [
- 'magic',
-
- ('dma_to_host', DMA_COUNTERS),
- ('dma_from_host', DMA_COUNTERS),
-
- 'log_overrun_count',
-
- 'usb_error_update_count',
- ('usb_error_counters', USB_ERROR_COUNTERS),
-
- 'usb_ep_underrun_count',
-
- 'heap_size',
-
- 'resume_count'
-]
-
-USB_EVENTS = {}
-USB_EVENTS[0x01] = ('CYU3P_USB_LOG_VBUS_OFF' , 'Indicates VBus turned off.')
-USB_EVENTS[0x02] = ('CYU3P_USB_LOG_VBUS_ON' , 'Indicates VBus turned on.')
-USB_EVENTS[0x03] = ('CYU3P_USB_LOG_USB2_PHY_OFF' , 'Indicates that the 2.0 PHY has been turned off.')
-USB_EVENTS[0x04] = ('CYU3P_USB_LOG_USB3_PHY_OFF' , 'Indicates that the 3.0 PHY has been turned off.')
-USB_EVENTS[0x05] = ('CYU3P_USB_LOG_USB2_PHY_ON' , 'Indicates that the 2.0 PHY has been turned on.')
-USB_EVENTS[0x06] = ('CYU3P_USB_LOG_USB3_PHY_ON' , 'Indicates that the 3.0 PHY has been turned on.')
-USB_EVENTS[0x10] = ('CYU3P_USB_LOG_USBSS_DISCONNECT' , 'Indicates that the USB 3.0 link has been disabled.')
-USB_EVENTS[0x11] = ('CYU3P_USB_LOG_USBSS_RESET' , 'Indicates that a USB 3.0 reset (warm/hot) has happened.')
-USB_EVENTS[0x12] = ('CYU3P_USB_LOG_USBSS_CONNECT' , 'Indicates that USB 3.0 Rx Termination has been detected.')
-USB_EVENTS[0x14] = ('CYU3P_USB_LOG_USBSS_CTRL' , 'Indicates that a USB 3.0 control request has been received.')
-USB_EVENTS[0x15] = ('CYU3P_USB_LOG_USBSS_STATUS' , 'Indicates completion of status stage for a 3.0 control request.')
-USB_EVENTS[0x16] = ('CYU3P_USB_LOG_USBSS_ACKSETUP' , 'Indicates that the CyU3PUsbAckSetup API has been called.')
-USB_EVENTS[0x21] = ('CYU3P_USB_LOG_LGO_U1' , 'Indicates that a LGO_U1 command has been received.')
-USB_EVENTS[0x22] = ('CYU3P_USB_LOG_LGO_U2' , 'Indicates that a LGO_U2 command has been received.')
-USB_EVENTS[0x23] = ('CYU3P_USB_LOG_LGO_U3' , 'Indicates that a LGO_U3 command has been received.')
-USB_EVENTS[0x40] = ('CYU3P_USB_LOG_USB2_SUSP' , 'Indicates that a USB 2.0 suspend condition has been detected.')
-USB_EVENTS[0x41] = ('CYU3P_USB_LOG_USB2_RESET' , 'Indicates that a USB 2.0 bus reset has been detected.')
-USB_EVENTS[0x42] = ('CYU3P_USB_LOG_USB2_HSGRANT' , 'Indicates that the USB High-Speed handshake has been completed.')
-USB_EVENTS[0x44] = ('CYU3P_USB_LOG_USB2_CTRL' , 'Indicates that a FS/HS control request has been received.')
-USB_EVENTS[0x45] = ('CYU3P_USB_LOG_USB2_STATUS' , 'Indicates completion of status stage for a FS/HS control transfer.')
-USB_EVENTS[0x50] = ('CYU3P_USB_LOG_USB_FALLBACK' , 'Indicates that the USB connection is dropping from 3.0 to 2.0')
-USB_EVENTS[0x51] = ('CYU3P_USB_LOG_USBSS_ENABLE' , 'Indicates that a USB 3.0 connection is being attempted again.')
-USB_EVENTS[0x52] = ('CYU3P_USB_LOG_USBSS_LNKERR' , 'The number of link errors has crossed the threshold.')
-USB_EVENTS[0x80] = ('CYU3P_USB_LOG_LTSSM_CHG' , 'Base of values that indicate a USB 3.0 LTSSM state change.')
-
-LTSSM_STATES = {}
-LTSSM_STATES[0x00] = ['00000', "SS.Disabled"]
-LTSSM_STATES[0x01] = ['00001', "Rx.Detect.Reset"]
-LTSSM_STATES[0x02] = ['00010', "Rx.Detect.Active"]
-LTSSM_STATES[0x03] = ['00011', "Rx.Detect.Quiet"]
-LTSSM_STATES[0x04] = ['00100', "SS.Inactive.Quiet"]
-LTSSM_STATES[0x05] = ['00101', "SS.Inactive.Disconnect.Detect"]
-LTSSM_STATES[0x06] = ['00110', "Hot Reset.Active"]
-LTSSM_STATES[0x07] = ['00111', "Hot Reset.Exit"]
-LTSSM_STATES[0x08] = ['01000', "Polling.LFPS"]
-LTSSM_STATES[0x09] = ['01001', "Polling.RxEQ"]
-LTSSM_STATES[0x0a] = ['01010', "Polling.Active"]
-LTSSM_STATES[0x0b] = ['01011', "Polling.Configuration"]
-LTSSM_STATES[0x0c] = ['01100', "Polling.Idle"]
-LTSSM_STATES[0x0d] = ['01101', "(none)"]
-#LTSSM_STATES[0x0X] = ['0111X', "(none)"]
-LTSSM_STATES[0x0e] = ['0111X', "(none)"]
-LTSSM_STATES[0x0f] = ['0111X', "(none)"]
-LTSSM_STATES[0x10] = ['10000', "U0"]
-LTSSM_STATES[0x11] = ['10001', "U1"]
-LTSSM_STATES[0x12] = ['10010', "U2"]
-LTSSM_STATES[0x13] = ['10011', "U3"]
-LTSSM_STATES[0x14] = ['10100', "Loopback.Active"]
-LTSSM_STATES[0x15] = ['10101', "Loopback.Exit"]
-LTSSM_STATES[0x16] = ['10110', "(none)"]
-LTSSM_STATES[0x17] = ['10111', "Compliance"]
-LTSSM_STATES[0x18] = ['11000', "Recovery.Active"]
-LTSSM_STATES[0x19] = ['11001', "Recovery.Configuration"]
-LTSSM_STATES[0x1a] = ['11010', "Recovery.Idle"]
-LTSSM_STATES[0x1b] = ['11011', "(none)"]
-#LTSSM_STATES[0x1X] = ['111XX', "(none)"]
-LTSSM_STATES[0x1c] = ['111XX', "(none)"]
-LTSSM_STATES[0x1d] = ['111XX', "(none)"]
-LTSSM_STATES[0x1c] = ['111XX', "(none)"]
-LTSSM_STATES[0x1f] = ['111XX', "(none)"]
-LTSSM_STATES[0x2c] = ['101100', "Cypress/Intel workaround"]
-
-def _parse_usb_event_log(data):
- l = []
- for d in data:
- if d == 0x14 or d == 0x15 or d == 0x16: # CTRL, STATUS, ACKSETUP
- continue
- elif (d & 0x80):
- #l += [(USB_EVENTS[0x80][0] + "+%i" % (d & ~0x80), USB_EVENTS[0x80][1])]
- ltssm_key = (d & ~0x80)
- ltssm_val = "(unknown)"
- if LTSSM_STATES.has_key(ltssm_key):
- ltssm_val = LTSSM_STATES[ltssm_key][1]
- ltssm_val = "LTSSM: " + ltssm_val
- l += [(USB_EVENTS[0x80][0] + "+%i" % (d & ~0x80), ltssm_val)]
- elif USB_EVENTS.has_key(d):
- l += [USB_EVENTS[d]]
- #else:
- # l += [("?", "?")]
- return l
-
-class counter_set():
- def __init__(self, counters, name='(top)'):
- self._counters = counters
- self._counter_names = []
- self._name = name
- for c in counters:
- o = 0
- default_value = False
- if isinstance(c, str):
- name = c
- default_value = True
- elif isinstance(c, tuple):
- name = c[0]
- o = counter_set(c[1])
- elif isinstance(c, dict):
- raise Exception('Not implemented yet')
- else:
- raise Exception('Unknown counter format')
- setattr(self, name, o)
- self._counter_names += [(name, default_value)]
- self._fmt_str = self._get_struct_format()
-
- def _get_struct_format(self):
- fmt_str = ""
- for name, default_value in self._counter_names:
- if default_value:
- fmt_str += "i"
- else:
- o = getattr(self, name)
- fmt_str += o._get_struct_format()
- return fmt_str
-
- def _update(self, data, parents=[]):
- if len(data) == 0:
- raise Exception('Ran out of data entering %s' % (self._name))
- #return []
- for name, default_value in self._counter_names:
- if default_value:
- if len(data) == 0:
- raise Exception('Ran out of data setting %s in %s' % (name, self._name))
- setattr(self, name, data[0])
- data = data[1:]
- else:
- o = getattr(self, name)
- data = o._update(data, parents+[self])
- return data
-
- def update(self, data):
- try:
- vals = struct.unpack(self._fmt_str, data)
- self._update(vals)
- except Exception, e:
- print e
-
- def __str__(self):
- return self.to_string()
-
- def to_string(self, parents=[]):
- s = ""
- cnt = 0
- for name, default_value in self._counter_names:
- o = getattr(self, name)
- if default_value:
- if cnt > 0:
- s += "\t"
- s += "%s: %05i" % (name, o)
- cnt += 1
- else:
- if cnt > 0:
- s += "\n"
- s += "\t"*(len(parents) + 1)
- s += o.to_string(parents+[self])
- cnt = 0
- s += "\n"
- return s
-
-class usb_device():
- def __init__(self):
- #self.max_buffer_size = 64 # Default to USB2
- self.max_buffer_size = 1024*4 # Apparently it'll frag bigger packets
- self.counters = counter_set(COUNTERS)
- self.timeout = 2000
-
- def open(self, idVendor, idProduct):
- print "Finding %04x:%04x..." % (idVendor, idProduct)
- self.dev = usb.core.find(idVendor=idVendor, idProduct=idProduct)
- if self.dev is None:
- raise ValueError('Device not found: %04x:%04x' % (idVendor, idProduct))
-
- self.log_index = 0
- self.log_read_count = 0
- self.usb_event_log_read_count = 0
- self.counters_read_count = 0
-
- #if self.dev.is_kernel_driver_active(0):
- # print "Detaching kernel driver..."
- # self.dev.detach_kernel_driver(0)
-
- #self.dev.set_configuration() # This will throw as device is already claimed
-
- print "Opened %04x:%04x" % (idVendor, idProduct)
-
- #self.dev.ctrl_transfer(0x21, 0x09, 0, 0, [0x02,0x02,0x00,0x00,0x00,0x00,0x00,0x00] )
- #self.dev.ctrl_transfer(bmRequestType, bRequest, wValue=0, wIndex=0, data_or_wLength = None, timeout = None
-
- #res = self.dev.ctrl_transfer(VRT_IN, 0x83, 0, 0, 1024)
- # Can give 1024 byte size for IN, result will be actual payload size
- # Invalid VREQ results in usb.core.USBError 32 Pipe error
- #print res
-
- #res = self.dev.ctrl_transfer(VRT_IN, B200_VREQ_GET_USB_SPEED, 0, 0, 1)
- #self.usb_speed = res[0]
- while True:
- #l = self.vrt_get(B200_VREQ_GET_USB_SPEED)
- l = []
- try:
- l = self.dev.ctrl_transfer(VRT_IN, B200_VREQ_GET_USB_SPEED, 0, 0, 1)
- except usb.core.USBError, e:
- if e.errno == 32:
- print e
- sys.exit(0)
- if len(l) > 0:
- self.usb_speed = l[0]
- print "Operating at USB", self.usb_speed
- break
- else:
- print "Retrying..."
- #if self.usb_speed == 3:
- # self.max_buffer_size = 512
- print "Max buffer size:", self.max_buffer_size
- print
-
- def _handle_error(self, e, vrt):
- if e.errno == 19: # No such device
- raise e
- vrt_str = "0x%02x" % (vrt)
- if VRQS.has_key(vrt):
- vrt_str += " (%s)" % (VRQS[vrt])
- print "%s: %s" % (vrt_str, str(e))
-
- def vrt_get(self, vrt):
- try:
- return self.dev.ctrl_transfer(VRT_IN, vrt, 0, 0, self.max_buffer_size, self.timeout)
- except usb.core.USBError, e:
- self._handle_error(e, vrt)
- return []
-
- def vrt_set(self, vrt, data=""):
- try:
- return self.dev.ctrl_transfer(VRT_OUT, vrt, 0, 0, data, self.timeout)
- except usb.core.USBError, e:
- self._handle_error(e, vrt)
- return None
-
- def get_log(self, with_log_index=True):
- lines = []
- raw = self.vrt_get(B200_VREQ_GET_LOG)
- if len(raw) == 0:
- return lines
- if raw[0] == 0:
- return lines
- self.log_read_count += 1
- raw = list(raw)
- last = 0
- while raw[last] != 0:
- try:
- idx = raw.index(0, last)
- self.log_index += 1
- line = "".join(map(chr, raw[last:idx]))
- #print "[%05i %05i] %s" % (self.log_index, self.log_read_count, line)
- if with_log_index:
- lines += [(self.log_index, line)]
- else:
- lines += [line]
- last = idx + 1
- if last >= len(raw):
- break
- except Exception, e:
- print e
- break
- return lines
-
- def print_log(self):
- lines = self.get_log()
- if len(lines) == 0:
- return
- for l in lines:
- #print l
- print "[%05i %05i] %s" % (l[0], self.log_read_count, l[1])
- print
-
- def get_counters(self):
- data = self.vrt_get(B200_VREQ_GET_COUNTERS)
- if len(data) == 0:
- return
- self.counters_read_count += 1
- self.counters.update(data)
-
- def print_counters(self):
- self.get_counters()
- print "[%05i]" % (self.counters_read_count)
- print self.counters
-
- def get_usb_event_log(self):
- data = self.vrt_get(B200_VREQ_GET_USB_EVENT_LOG)
- if len(data) == 0:
- return []
- if len(data) == self.max_buffer_size: # ZLP when no new events have been recorded
- return []
- if len(data) > 64:
- raise Exception("USB event log data len = %i" % (len(data)))
- self.usb_event_log_read_count += 1
- return _parse_usb_event_log(data)
-
- def print_usb_event_log(self):
- l = self.get_usb_event_log()
- if len(l) == 0:
- return
- print "\n".join(map(lambda x: ("[%05i] " % (self.usb_event_log_read_count)) + x[0] + ":\t" + x[1], l))
- print
-
-def run_log(dev, options):
- items = [
- (options.log, dev.print_log),
- (options.counters, dev.print_counters),
- (options.usb_events, dev.print_usb_event_log)
- ]
- items = filter(lambda x: x[0] > 0, items)
- smallest_interval = min(map(lambda x: x[0], items))
- time_now = time.time()
- last = [time_now]*len(items)
-
- try:
- for i in items:
- if i[0] < 0:
- i[1]()
- while True:
- time_now = time.time()
- cleared = False
- for i in range(len(items)):
- time_last = last[i]
- if time_now < (time_last + items[i][0]):
- continue
- if options.clear_screen and not cleared:
- print chr(27) + "[2J"
- cleared = True
- #print items[i][1]
- items[i][1]()
- last[i] = time.time()
- time.sleep(smallest_interval)
- except KeyboardInterrupt:
- return
-
-def hex_to_int(s):
- radix = 10
- s = s.lower()
- if (len(s) > 1 and s[0] == 'x') or (len(s) > 2 and s[0:2] == "0x"):
- radix = 16
- return int(s, radix)
-
-def recv_serial_data(ser):
- data = ""
- usb_event_log_read_count = 0
- time_start = time.time()
- while True:
- c = ser.read()
- data += c
- #if c == '\n':
- if len(data) >= 2 and data[-2:] == "\r\n":
- time_now_str = "[%06d]" % (int(time.time() - time_start))
- data = data[0:-2]
- if data == "":
- #print "[Received an empty line]"
- print
- elif data[0] == ' ':
- print time_now_str, data[1:]
- elif data[0] == 'U':
- data = data[1:]
- cur_type = 0
- i = 0
- usb_events = []
- while len(data) > 0:
- c = data[0]
-
- if cur_type == 0:
- if c == 'a':
- cur_type = 1
- elif (c >= 'A') and (c <= 'P'):
- i = ord(c) - ord('A')
- cur_type = 2
- else:
- print time_now_str, "[Unknown type: '%s' (0x%02x) in '%s']" % (c, ord(c), data)
-
- elif cur_type == 1:
- i = ord(c) - ord('a')
- if (i < 0) or (i >= len(USB_PHY_ERROR_REGISTERS)):
- print time_now_str, "[Unknown PHY error register index: '%s' (0x%02x) (%d) in '%s']" % (c, ord(c), i, data)
- else:
- print time_now_str, USB_PHY_ERROR_REGISTERS[i]
- cur_type = 0
-
- elif cur_type == 2:
- i2 = ord(c) - ord('A')
- if (c < 'A') or (c > 'P'):
- print time_now_str, "[Unknown second USB event part: '%s' (0x%02x) (%d) in '%s']" % (c, ord(c), i2, data)
- else:
- i = (i << 4) | i2
- usb_events += [i]
-
- cur_type = 0
-
- data = data[1:]
-
- if len(usb_events) > 0:
- usb_event_log_read_count += 1
- l = _parse_usb_event_log(usb_events)
- print "\n".join(map(lambda x: time_now_str + ("[%05i] " % (usb_event_log_read_count)) + x[0] + ":\t" + x[1], l))
- #print
-
- data = ""
-
-def main():
- parser = OptionParser(usage="%prog: [options]") #option_class=eng_option,
-
- parser.add_option("-v", "--vid", type="string", default="0x2500", help="VID [default=%default]")
- parser.add_option("-p", "--pid", type="string", default="0x0020", help="PID [default=%default]")
- parser.add_option("-t", "--tty", type="string", default=None, help="TTY [default=%default]")
- parser.add_option("-c", "--cmd", type="string", default="", help="Command (empty opens prompt)")
- parser.add_option("-n", "--counters", type="float", default="5.0", help="Counter print interval [default=%default]")
- parser.add_option("-l", "--log", type="float", default="0.25", help="Log print interval [default=%default]")
- parser.add_option("-e", "--usb-events", type="float", default="0.25", help="USB event log print interval [default=%default]")
- parser.add_option("-s", "--sb", type="string", default=None, help="Settings Bus write message [default=%default]")
- parser.add_option("-d", "--sb-baud-div", type="int", default=None, help="Settings Bus baud rate divisor [default=%default]")
- parser.add_option("-b", "--sb-baud", type="int", default=None, help="Settings Bus baud rate [default=%default]")
- parser.add_option("-r", "--clear-screen", action="store_true", default=False, help="Clear screen [default=%default]")
- parser.add_option("-R", "--reset-counters", action="store_true", default=False, help="Reset counters [default=%default]")
- parser.add_option("-f", "--flush-data-eps", action="store_true", default=False, help="Flush data endpoints [default=%default]")
- parser.add_option("-L", "--fe-loopback", type="int", default=None, help="Change AD9361 digital loopback [default=%default]")
-
- (options, args) = parser.parse_args()
-
- if options.tty is not None and options.tty != "":
- while True:
- try:
- ser = serial.Serial(port=options.tty, baudrate=115200, parity=serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout=None) # timeout: None (blocking), 0 (non-blocking)
- print "Opened", options.tty
-
- try:
- recv_serial_data(ser)
- except KeyboardInterrupt:
- break
- except Exception, e:
- print e
- break
- else:
- dev = usb_device()
-
- while True:
- try:
- dev.open(idVendor=hex_to_int(options.vid), idProduct=hex_to_int(options.pid))
- if options.flush_data_eps:
- dev.vrt_set(B200_VREQ_FLUSH_DATA_EPS)
- if options.sb_baud_div is not None:
- dev.vrt_set(B200_VREQ_SET_SB_BAUD_DIV, struct.pack('H', options.sb_baud_div))
- if options.sb is not None and len(options.sb) > 0:
- dev.vrt_set(B200_VREQ_WRITE_SB, " " + options.sb)
- if options.reset_counters:
- dev.vrt_set(B200_VREQ_CLEAR_COUNTERS)
- if options.fe_loopback is not None:
- dev.vrt_set(B200_VREQ_AD9361_LOOPBACK, struct.pack('B', int(options.fe_loopback)))
- if len(options.cmd) == 0:
- run_log(dev, options)
- pass
- else:
- pass
-
- break
- except usb.core.USBError, e:
- if e.errno == 19: # No such device
- pass
- print e
- break
-
- return 0
-
-if __name__ == '__main__':
- main()