We are using python virtualbox API for controlling the virtualbox. For that we are using the "pyvb" package(as given in python API documentation).
al=pyvb.vb.VB()
m=pyvb.vm.vbVM()
al.startVM(m)
we have executed using the python interpreter. No error is shown but the virtualbox doesnt start. Could you please tell us what could be wrong(all necessary modules and packages have been imported)
I found that I can use the following functions to find if a VM is running, restore a VM to a specific snapshot, and start a VM by name.
from subprocess import Popen, PIPE
def running_vms():
"""
Return list of running vms
"""
f = Popen(r'vboxmanage --nologo list runningvms', stdout=PIPE).stdout
data = [ eachLine.strip() for eachLine in f ]
return data
def restore_vm(name='', snapshot=''):
"""
Restore VM to specific snapshot uuid
name = VM Name
snapshot = uuid of snapshot (uuid can be found in the xml file of your machines folder)
"""
command = r'vboxmanage --nologo snapshot %s restore %s' % (name,snapshot)
f = Popen(command, stdout=PIPE).stdout
data = [ eachLine.strip() for eachLine in f ]
return data
def launch_vm(name=''):
"""
Launch VM
name = VM Name
"""
command = r'vboxmanage --nologo startvm %s ' % name
f = Popen(command, stdout=PIPE).stdout
data = [ eachLine.strip() for eachLine in f ]
return data
The code quoted doesn't seem to specify what VM to run. Shouldn't you be doing a getVM call and then using that resulting VM instance in your startVM call? E.g.:
al=pyvb.vb.VB()
m=al.getVM(guid_of_vm)
al.startVM(m)
...would start the VM identified with the given GUID (all VirtualBox VMs have a GUID assigned when they're created). You can get the GUID from the VM's XML file. If you need to discover VMs at runtime, there's the handy listVMS call:
al=pyvb.vb.VB()
l=al.listVMS()
# choose a VM from the list, assign to 'm'
al.startVM(m)
Related
I have consulted several topics on the subject, but I didn't see any related to launching an app on a device directly using a ppadb command.
I managed to do this code:
import ppadb
import subprocess
from ppadb.client import Client as AdbClient
# Create the connect functiun
def connect():
client = AdbClient(host='localhost', port=5037)
devices = client.devices()
for device in devices:
print (device.serial)
if len(devices) == 0:
print('no device connected')
quit()
phone = devices[0]
print (f'connected to {phone.serial}')
return phone, client
if __name__ == '__main__':
phone, client = connect()
import time
time.sleep(5)
# How to print each app on the emulator
list = phone.list_packages()
for truc in list:
print(truc)
# Launch the desired app through phone.shell using the package name
phone.shell(????????????????)
From there, I have access to each app package (com.package.name). I would like to launch it through a phone.shell() command but I can't access the correct syntax.
I can execute a tap or a keyevent and it's perfectly working, but I want to be sure my code won't be disturbed by any change in position.
From How to start an application using Android ADB tools, the shell command to launch an app is
am start -n com.package.name/com.package.name.ActivityName
Hence you would call
phone.shell("am start -n com.package.name/com.package.name.ActivityName")
A given package may have multiple activities. To find out what they are, you can use dumpsys package as follows:
def parse_activities(package, connection, retval):
out = ""
while True:
data = connection.read(1024)
if not data: break
out += data.decode('utf-8')
retval.clear()
retval += [l.split()[-1] for l in out.splitlines() if package in l and "Activity" in l]
connection.close()
activities = []
phone.shell("dumpsys package", handler=lambda c: parse_activities("com.package.name", c, activities))
print(activities)
Here is the correct and easiest answer:
phone.shell('monkey -p com.package.name 1')
This method will launch the app without needing to have acces to the ActivityName
Using AndroidViewClient/cluebra, you can launch the MAIN Activity of a package as follows:
#! /usr/bin/env python3
# -*- coding: utf-8 -*-
from com.dtmilano.android.viewclient import ViewClient
ViewClient.connectToDeviceOrExit()[0].startActivity(package='com.example.package')
This connects to the device (waiting if necessary) and then invokes startActivity() just using the package name.
startActivity() can also receive a component which is used when you know the package and the activity.
I have a boot controller which runs a boot.py file contained in each folder of each tool i am trying to deploy. I want my boot controller to run all of these boot files simultaneously. The config file has the tool names and the versions desired, which help to generate the path to the boot.py.
def run_boot():
config_file = get_config_file()
parse_config_file.init(config_file)
tools = parse_config_file.get_tools_to_deploy()
#tools is now a list of tool names
top_dir = os.getcwd()
for tool in tools:
ver = parse_config_file.get_tool_version(tool).strip()
boot_file_path = "{0}\\Deploy\\{1}\\{2}".format(os.getcwd(),tool,ver)
try:
subprocess.Popen('boot.py', shell=True, cwd=boot_file_path)
except:
print ("{0} failed to open".format(tool))
print(tool, boot_file_path)
os.chdir(top_dir)
The first time i run this, the print(tool, boot_file_path) executes but the processes do not. the second time it is run the processes do open. I cannot find a reason for this.
Ansible-playbook has a --list-hosts cli switch that just outputs the hosts affected by each play in a playbook. I am looking for a way to access to same information through the python API.
The (very) basic script I am using to test right now is
#!/usr/bin/python
import ansible.runner
import ansible.playbook
import ansible.inventory
from ansible import callbacks
from ansible import utils
import json
# hosts list
hosts = ["127.0.0.1"]
# set up the inventory, if no group is defined then 'all' group is used by default
example_inventory = ansible.inventory.Inventory(hosts)
pm = ansible.runner.Runner(
module_name = 'command',
module_args = 'uname -a',
timeout = 5,
inventory = example_inventory,
subset = 'all' # name of the hosts group
)
out = pm.run()
print json.dumps(out, sort_keys=True, indent=4, separators=(',', ': '))
I just can't figure out what to add to ansible.runner.Runner() to make it output affected hosts and exit.
I'm not sure what are you trying to achieve, but ansible.runner.Runner is actually one task and not playbook.
Your script is a more kind of ansible CLI and not ansible-playbook.
And ansible doesn't have any kind of --list-hosts, while ansible-playbook does.
You can see how listhosts is done here.
I need to obtain the path to the directory created for a usb drive(I think it's something like /media/user/xxxxx) for a simple usb mass storage device browser that I am making. Can anyone suggest the best/simplest way to do this? I am using an Ubuntu 13.10 machine and will be using it on a linux device.
Need this in python.
This should get you started:
#!/usr/bin/env python
import os
from glob import glob
from subprocess import check_output, CalledProcessError
def get_usb_devices():
sdb_devices = map(os.path.realpath, glob('/sys/block/sd*'))
usb_devices = (dev for dev in sdb_devices
if 'usb' in dev.split('/')[5])
return dict((os.path.basename(dev), dev) for dev in usb_devices)
def get_mount_points(devices=None):
devices = devices or get_usb_devices() # if devices are None: get_usb_devices
output = check_output(['mount']).splitlines()
is_usb = lambda path: any(dev in path for dev in devices)
usb_info = (line for line in output if is_usb(line.split()[0]))
return [(info.split()[0], info.split()[2]) for info in usb_info]
if __name__ == '__main__':
print get_mount_points()
How does it work?
First, we parse /sys/block for sd* files (courtesy of https://stackoverflow.com/a/3881817/1388392) to filter out usb devices.
Later you call mount and parse output for lines only for those devices.
Of course they might be some edge cases, when this won't work, portability issues etc. Or better ways to do it. But for more information you should rather seek help on SuperUser or ServerFault, with more experienced linux hackers.
I had to modify #m.wasowski 's code to make it work on Python3.5.4 as follows.
def get_mount_points(devices=None):
devices = devices or get_usb_devices() # if devices are None: get_usb_devices
output = check_output(['mount']).splitlines()
output = [tmp.decode('UTF-8') for tmp in output]
def is_usb(path):
return any(dev in path for dev in devices)
usb_info = (line for line in output if is_usb(line.split()[0]))
return [(info.split()[0], info.split()[2]) for info in usb_info]
Using m.wasowski code, unexpected behavior can occur:
return [(info.split()[0], info.split()[2]) for info in usb_info]
This part of code can produce bug, if your USB device name has white space character in it. I got that behavior with device named "USB DEVICE".
info.split()[2]
Returned media/home/USB for me, when it is media/home/USB DEVICE.
I modified that part, so it was founding word "type", and replaced that line with this:
#return [(info.split()[0], info.split()[2]) for info in usb_info]
fullInfo = []
for info in usb_info:
print(info)
mountURI = info.split()[0]
usbURI = info.split()[2]
print(info.split().__sizeof__())
for x in range(3, info.split().__sizeof__()):
if info.split()[x].__eq__("type"):
for m in range(3, x):
usbURI += " "+info.split()[m]
break
fullInfo.append([mountURI, usbURI])
return fullInfo
I had to further modify #nick-sikrier and #m-wasowski response to handle LUKs encrypted devices.
def get_usb_devices():
sdb_devices = map(os.path.realpath, glob('/sys/block/sd*'))
usb_devices = (dev for dev in sdb_devices
if any(['usb' in dev.split('/')[5],
'usb' in dev.split('/')[6]]))
return dict((os.path.basename(dev), dev) for dev in usb_devices)
def get_mount_points(
devices = get_usb_devices()
fullInfo = []
for dev in devices:
output = subprocess.check_output(['lsblk', '-lnpo', 'NAME,MOUNTPOINT', '/dev/' + dev]).splitlines()
for mnt_point in output:
mnt_point_split = mnt_point.split(' ', 1)
if len(mnt_point_split) > 1 and mnt_point_split[1].strip():
fullInfo.append([mnt_point_split[0], mnt_point_split[1]])
return fullInfo
With a simple shell pipe executed in python:
import subprocess
driver_name = "my_usb_stick"
path = subprocess.check_output("cat /proc/mounts | grep '"+driver_name+"' | awk '{print $2}'", shell=True)
path = path.decode('utf-8') # convert bytes in string
>>> "/media/user/my_usb_stick"
Explanations
/proc/mounts/ : Is a file listing all mounted devices
The 1st column specifies the device that is mounted.
The 2nd column reveals the mount point.
The 3rd column tells the file-system type.
The 4th column tells you if it is mounted read-only (ro) or read-write (rw).
The 5th and 6th columns are dummy values designed to match the format used in /etc/mtab
More details see this answer : How to interpret /proc/mounts?
grep returns the line containing your driver's name
awk returns the 2nd columns, aka the mount point, aka your path.
How do you use Python to determine which Linux device/partition contains a given filesystem?
e.g.
>>> get_filesystem_device('/')
/dev/sda
>>> get_filesystem_partition('/')
/dev/sda1
Your question was about Linux, so this is (more or less) linux specific.
Below is code example for three variants for mapping major/minor to a device name.
Parse /proc/partitions.
Ask hal. Hal also keeps track of "parent" device, meaning you can easily get the disk aswell as the partition.
Check sysfs yourself. This is where hal gets its information from.
I'd say that /proc/partitions is simplest - it is just one file to open and check. hal gives you most information, and abstracts away lots of details. sysfs may be viewed as more correct that /proc/partitions and doesn't require hal to be running.
For a desktop program I would go for hal. On an embedded system I'd go with sysfs.
import os
def main():
dev = os.stat("/home/").st_dev
major, minor = os.major(dev), os.minor(dev)
print "/proc/partitions says:", ask_proc_partitions(major, minor)
print "HAL says:", ask_hal(major, minor)
print "/sys says:", ask_sysfs(major, minor)
def _parse_proc_partitions():
res = {}
for line in file("/proc/partitions"):
fields = line.split()
try:
tmaj = int(fields[0])
tmin = int(fields[1])
name = fields[3]
res[(tmaj, tmin)] = name
except:
# just ignore parse errors in header/separator lines
pass
return res
def ask_proc_partitions(major, minor):
d = _parse_proc_partitions()
return d[(major, minor)]
def ask_hal(major, minor):
import dbus
bus = dbus.SystemBus()
halobj = bus.get_object('org.freedesktop.Hal', '/org/freedesktop/Hal/Manager')
hal = dbus.Interface(halobj, 'org.freedesktop.Hal.Manager')
def getdevprops(p):
bdevi = dbus.Interface(bus.get_object('org.freedesktop.Hal', p),
"org.freedesktop.Hal.Device")
return bdevi.GetAllProperties()
bdevs = hal.FindDeviceByCapability("block")
for bdev in bdevs:
props = getdevprops(bdev)
if (props['block.major'], props['block.minor']) == (major, minor):
parentprops = getdevprops(props['info.parent'])
return (str(props['block.device']),
str(parentprops['block.device']))
def ask_sysfs(major, minor):
from glob import glob
needle = "%d:%d" % (major, minor)
files = glob("/sys/class/block/*/dev")
for f in files:
if file(f).read().strip() == needle:
return os.path.dirname(f)
return None
if __name__ == '__main__':
main()
It looks like this post has some of your answer (still not sure just how to grab the major/minor out of the /dev/sda2 entry to match it up with what os.stat() returns for /:
Device number in stat command output
>>> import os
>>> print hex(os.stat('/')[2])
0x802
\ \minor device number
\major device number
[me#server /]$ ls -l /dev/sda2
brw-rw---- 1 root disk 8, 2 Jun 24 2004 /dev/sda2
[me#server jgaines2]$ \ \minor device number
\major device number
I recently had a need for this solution also. After seeing all the convoluted methods of getting the result I wanted through pure python, I decided to turn to the shell for help.
import subprocess
device = subprocess.check_output("grep '/filesystem' /proc/mounts | awk '{printf $1}'", shell=True)
print device
This gives me exactly what I want, the device string for where my filesystem is mounted.
Short, sweet, and runs in python. :)
There are problems with quite a few of the above solutions. There's actually a problem with the question as well.
The last answer (searching /proc/mounts) just doesn't work: searching for "/" will match every line in /proc/mounts. Even correcting this like this won't work:
import subprocess
device = subprocess.check_output("awk '$2 == \"/filesystem\" { print $1}' /proc/mounts", shell=True)
print device
When "/filesystem" is "/" you'll typically get two entries, one for "rootfs" and one for the actual device. It also won't work when the mounted file system name has spaces in it (the space appears as \040 in /proc/mounts).
The problem is made worse with btrfs subvolumes. Each subvolume is mounted separately but they all share the same device. If you're trying to use a btrfs snapshot for backups (as I was) then you need the subvolume name and an indication of the filesystem type.
This function returns a tuple of (device, mountpoint, filesystem) and seems to work:
import os
def get_filesystem_partition(fs):
res = None
dev = os.lstat(fs).st_dev
for line in file('/proc/mounts'):
# lines are device, mountpoint, filesystem, <rest>
# later entries override earlier ones
line = [s.decode('string_escape') for s in line.split()[:3]]
if dev == os.lstat(line[1]).st_dev:
res = tuple(line)
return res
That seems to work for all the cases I can think of, although I expect that there are still pathological cases where it falls to bits.
It is not the purdiest, but this will get you started:
#!/usr/bin/python
import os, stat, subprocess, shlex, re, sys
dev=os.stat('/')[stat.ST_DEV]
major=os.major(dev)
minor=os.minor(dev)
out = subprocess.Popen(shlex.split("df /"), stdout=subprocess.PIPE).communicate()
m=re.search(r'(/[^\s]+)\s',str(out))
if m:
mp= m.group(1)
else:
print "cannot parse df"
sys.exit(2)
print "'/' mounted at '%s' with dev number %i, %i" % (mp,major,minor)
On OS X:
'/' mounted at '/dev/disk0s2' with dev number 14, 2
On Ubuntu:
'/' mounted at '/dev/sda1' with dev number 8, 1
To get the device name, chop off the minor number from the partition name. On OS X, also chop the 's' + minor number.
How about using the (linux) blkid command (/sbin/blkid)
$ uname --kernel-name --kernel-release
Linux 3.2.0-4-amd64
$ python --version
Python 2.7.3
-
#!/usr/bin/env python
import subprocess
sys_command = "/sbin/blkid"
proc = subprocess.Popen(sys_command,
stdout=subprocess.PIPE,
shell=True)
# proc.communicate() returns a tuple (stdout,stderr)
blkid_output = proc.communicate()[0]
print blkid_output
Here's the output on a dual-boot laptop with an (unmounted) USB drive (sdb1)
$ ./blkid.py
/dev/sda1: LABEL="RECOVERY" UUID="xxxx-xxxx" TYPE="vfat"
/dev/sda2: LABEL="OS" UUID="xxxxxxxxxxxxxxx" TYPE="ntfs"
/dev/sda5: UUID="xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx" TYPE="ext4"
/dev/sda6: UUID="xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx" TYPE="swap"
/dev/sda7: UUID="xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx" TYPE="ext4"
/dev/sdb1: LABEL="CrunchBang" TYPE="iso9660"
Here is how you can simply get the devices major and minor numbers:
import os
major, minor = divmod(os.stat('/').st_dev, 256)