Related
I had no issues with accessing my apps running in Ubuntu through WSL from windows until I installed docker and did a reboot.
I checked my hosts configuration file and it looked something like the following:
# Copyright (c) 1993-2009 Microsoft Corp.
#
# This is a sample HOSTS file used by Microsoft TCP/IP for Windows.
#
# This file contains the mappings of IP addresses to host names. Each
# entry should be kept on an individual line. The IP address should
# be placed in the first column followed by the corresponding host name.
# The IP address and the host name should be separated by at least one
# space.
#
# Additionally, comments (such as these) may be inserted on individual
# lines or following the machine name denoted by a '#' symbol.
#
# For example:
#
# 102.54.94.97 rhino.acme.com # source server
# 38.25.63.10 x.acme.com # x client host
# localhost name resolution is handled within DNS itself.
# 127.0.0.1 localhost
# ::1 localhost
# Added by Docker Desktop
192.168.1.244 host.docker.internal
192.168.1.244 gateway.docker.internal
# To allow the same kube context to work on the host and the container:
127.0.0.1 kubernetes.docker.internal
# End of section
I commented out the second to last line
# 127.0.0.1 kubernetes.docker.internal
and flushed my dns using
ipconfig /flushdns
but still if I try to access my node app running on port 3001 in wsl my browser gives the "Can't reach this page message"
This isn't an issue with node or my app because I am able to successfully curl my app from the ubuntu terminal
I was able to fix the issue by simply adding the ip address for wsl to my hosts file above the docker declaration:
<ip address of wsl> localhost
Good day everyone,
I am having some issues any task on a Windows machine
i ran the following:
ansible -m ping Windows -u ansible -kK -vvv
192.168.140.147 | UNREACHABLE! => {
"changed": false,
"msg": "Authentication or permission failure. In some cases, you may have been able to authenticate and did not have permissions on the target directory. Consider changing the remote tmp path in ansible.cfg to a path rooted in \"/tmp\".
Failed command was: ( umask 77 && mkdir -p \"` echo ~/.ansible/tmp/ansible-tmp-1602653442.59-46527212445528 `\" && echo ansible-tmp-1602653442.59-46527212445528=\"` echo ~/.ansible/tmp/ansible-tmp-1602653442.59-46527212445528 `\" ), exited with result 1, stderr output: OpenSSH_7.6p1 Ubuntu-4ubuntu0.3, OpenSSL 1.0.2n 7 Dec 2017\r\ndebug1: Reading configuration data /etc/ssh/ssh_config\r\ndebug1: /etc/ssh/ssh_config line 19: Applying options for *\r\ndebug1: auto-mux: Trying existing master\r\ndebug2: fd 3 setting O_NONBLOCK\r\ndebug2: mux_client_hello_exchange: master version 4\r\ndebug3: mux_client_forwards: request forwardings: 0 local, 0 remote\r\ndebug3: mux_client_request_session: entering\r\ndebug3: mux_client_request_alive: entering\r\ndebug3: mux_client_request_alive: done pid = 7535\r\ndebug3: mux_client_request_session: session request sent\r\ndebug1: mux_client_request_session: master session id: 2\r\nThe system cannot find the path specified.\r\ndebug3: mux_client_read_packet: read header failed: Broken pipe\r\ndebug2: Received exit status from master 1\r\n",
"unreachable": true
}
Has anyone face this before? i am not too sure what am i supposed to change, i have no issues excuting playbooks/tasks on linux
I also have no issues establishing a ssh connection to the Windows client. I did try changing the path mentioned in the error, but the error was still the same..
Any idea how to fix this?
Hostfile:
[Windows]
192.168.140.147
Config file:
```[defaults]
# some basic default values...
#inventory = /etc/ansible/hosts
#library = /usr/share/my_modules/
#module_utils = /usr/share/my_module_utils/
#remote_tmp = ~/.ansible/tmp
#local_tmp = ~/.ansible/tmp
#plugin_filters_cfg = /etc/ansible/plugin_filters.yml
#forks = 5
#poll_interval = 15
#sudo_user = root
#ask_sudo_pass = True
#ask_pass = True
#transport = smart
#remote_port = 22
#module_lang = C
#module_set_locale = False
# plays will gather facts by default, which contain information about
# the remote system.
#
# smart - gather by default, but don't regather if already gathered
# implicit - gather by default, turn off with gather_facts: False
# explicit - do not gather by default, must say gather_facts: True
#gathering = implicit
# This only affects the gathering done by a play's gather_facts directive,
# by default gathering retrieves all facts subsets
# all - gather all subsets
# network - gather min and network facts
# hardware - gather hardware facts (longest facts to retrieve)
# virtual - gather min and virtual facts
# facter - import facts from facter
# ohai - import facts from ohai
# You can combine them using comma (ex: network,virtual)
# You can negate them using ! (ex: !hardware,!facter,!ohai)
# A minimal set of facts is always gathered.
#gather_subset = all
# some hardware related facts are collected
# with a maximum timeout of 10 seconds. This
# option lets you increase or decrease that
# timeout to something more suitable for the
# environment.
# gather_timeout = 10
# additional paths to search for roles in, colon separated
#roles_path = /etc/ansible/roles
# uncomment this to disable SSH key host checking
#host_key_checking = False
# change the default callback, you can only have one 'stdout' type enabled at a time.
#stdout_callback = skippy
## Ansible ships with some plugins that require whitelisting,
## this is done to avoid running all of a type by default.
## These setting lists those that you want enabled for your system.
## Custom plugins should not need this unless plugin author specifies it.
# enable callback plugins, they can output to stdout but cannot be 'stdout' type.
#callback_whitelist = timer, mail
# Determine whether includes in tasks and handlers are "static" by
# default. As of 2.0, includes are dynamic by default. Setting these
# values to True will make includes behave more like they did in the
# 1.x versions.
#task_includes_static = False
#handler_includes_static = False
# Controls if a missing handler for a notification event is an error or a warning
#error_on_missing_handler = True
# change this for alternative sudo implementations
#sudo_exe = sudo
# What flags to pass to sudo
# WARNING: leaving out the defaults might create unexpected behaviours
#sudo_flags = -H -S -n
# SSH timeout
#timeout = 10
# default user to use for playbooks if user is not specified
# (/usr/bin/ansible will use current user as default)
#remote_user = root
# logging is off by default unless this path is defined
# if so defined, consider logrotate
#log_path = /var/log/ansible.log
# default module name for /usr/bin/ansible
#module_name = command
# use this shell for commands executed under sudo
# you may need to change this to bin/bash in rare instances
# if sudo is constrained
#executable = /bin/sh
# if inventory variables overlap, does the higher precedence one win
# or are hash values merged together? The default is 'replace' but
# this can also be set to 'merge'.
#hash_behaviour = replace
# by default, variables from roles will be visible in the global variable
# scope. To prevent this, the following option can be enabled, and only
# tasks and handlers within the role will see the variables there
#private_role_vars = yes
# list any Jinja2 extensions to enable here:
#jinja2_extensions = jinja2.ext.do,jinja2.ext.i18n
# if set, always use this private key file for authentication, same as
# if passing --private-key to ansible or ansible-playbook
#private_key_file = /path/to/file
# If set, configures the path to the Vault password file as an alternative to
# specifying --vault-password-file on the command line.
#vault_password_file = /path/to/vault_password_file
# format of string {{ ansible_managed }} available within Jinja2
# templates indicates to users editing templates files will be replaced.
# replacing {file}, {host} and {uid} and strftime codes with proper values.
#ansible_managed = Ansible managed: {file} modified on %Y-%m-%d %H:%M:%S by {uid} on {host}
# {file}, {host}, {uid}, and the timestamp can all interfere with idempotence
# in some situations so the default is a static string:
#ansible_managed = Ansible managed
# by default, ansible-playbook will display "Skipping [host]" if it determines a task
# should not be run on a host. Set this to "False" if you don't want to see these "Skipping"
# messages. NOTE: the task header will still be shown regardless of whether or not the
# task is skipped.
#display_skipped_hosts = True
# by default, if a task in a playbook does not include a name: field then
# ansible-playbook will construct a header that includes the task's action but
# not the task's args. This is a security feature because ansible cannot know
# if the *module* considers an argument to be no_log at the time that the
# header is printed. If your environment doesn't have a problem securing
# stdout from ansible-playbook (or you have manually specified no_log in your
# playbook on all of the tasks where you have secret information) then you can
# safely set this to True to get more informative messages.
#display_args_to_stdout = False
# by default (as of 1.3), Ansible will raise errors when attempting to dereference
# Jinja2 variables that are not set in templates or action lines. Uncomment this line
# to revert the behavior to pre-1.3.
#error_on_undefined_vars = False
# by default (as of 1.6), Ansible may display warnings based on the configuration of the
# system running ansible itself. This may include warnings about 3rd party packages or
# other conditions that should be resolved if possible.
# to disable these warnings, set the following value to False:
#system_warnings = True
# by default (as of 1.4), Ansible may display deprecation warnings for language
# features that should no longer be used and will be removed in future versions.
# to disable these warnings, set the following value to False:
#deprecation_warnings = True
# (as of 1.8), Ansible can optionally warn when usage of the shell and
# command module appear to be simplified by using a default Ansible module
# instead. These warnings can be silenced by adjusting the following
# setting or adding warn=yes or warn=no to the end of the command line
# parameter string. This will for example suggest using the git module
# instead of shelling out to the git command.
# command_warnings = False
# set plugin path directories here, separate with colons
#action_plugins = /usr/share/ansible/plugins/action
#cache_plugins = /usr/share/ansible/plugins/cache
#callback_plugins = /usr/share/ansible/plugins/callback
#connection_plugins = /usr/share/ansible/plugins/connection
#lookup_plugins = /usr/share/ansible/plugins/lookup
#inventory_plugins = /usr/share/ansible/plugins/inventory
#vars_plugins = /usr/share/ansible/plugins/vars
#filter_plugins = /usr/share/ansible/plugins/filter
#test_plugins = /usr/share/ansible/plugins/test
#terminal_plugins = /usr/share/ansible/plugins/terminal
#strategy_plugins = /usr/share/ansible/plugins/strategy
# by default, ansible will use the 'linear' strategy but you may want to try
# another one
#strategy = free
# by default callbacks are not loaded for /bin/ansible, enable this if you
# want, for example, a notification or logging callback to also apply to
# /bin/ansible runs
#bin_ansible_callbacks = False
# don't like cows? that's unfortunate.
# set to 1 if you don't want cowsay support or export ANSIBLE_NOCOWS=1
#nocows = 1
# set which cowsay stencil you'd like to use by default. When set to 'random',
# a random stencil will be selected for each task. The selection will be filtered
# against the `cow_whitelist` option below.
#cow_selection = default
#cow_selection = random
# when using the 'random' option for cowsay, stencils will be restricted to this list.
# it should be formatted as a comma-separated list with no spaces between names.
# NOTE: line continuations here are for formatting purposes only, as the INI parser
# in python does not support them.
#cow_whitelist=bud-frogs,bunny,cheese,daemon,default,dragon,elephant-in-snake,elephant,eyes,\
# hellokitty,kitty,luke-koala,meow,milk,moofasa,moose,ren,sheep,small,stegosaurus,\
# stimpy,supermilker,three-eyes,turkey,turtle,tux,udder,vader-koala,vader,www
# don't like colors either?
# set to 1 if you don't want colors, or export ANSIBLE_NOCOLOR=1
#nocolor = 1
# if set to a persistent type (not 'memory', for example 'redis') fact values
# from previous runs in Ansible will be stored. This may be useful when
# wanting to use, for example, IP information from one group of servers
# without having to talk to them in the same playbook run to get their
# current IP information.
#fact_caching = memory
# retry files
# When a playbook fails by default a .retry file will be created in ~/
# You can disable this feature by setting retry_files_enabled to False
# and you can change the location of the files by setting retry_files_save_path
#retry_files_enabled = False
#retry_files_save_path = ~/.ansible-retry
# squash actions
# Ansible can optimise actions that call modules with list parameters
# when looping. Instead of calling the module once per with_ item, the
# module is called once with all items at once. Currently this only works
# under limited circumstances, and only with parameters named 'name'.
#squash_actions = apk,apt,dnf,homebrew,pacman,pkgng,yum,zypper
# prevents logging of task data, off by default
#no_log = False
# prevents logging of tasks, but only on the targets, data is still logged on the master/controller
#no_target_syslog = False
# controls whether Ansible will raise an error or warning if a task has no
# choice but to create world readable temporary files to execute a module on
# the remote machine. This option is False by default for security. Users may
# turn this on to have behaviour more like Ansible prior to 2.1.x. See
# https://docs.ansible.com/ansible/become.html#becoming-an-unprivileged-user
# for more secure ways to fix this than enabling this option.
#allow_world_readable_tmpfiles = False
# controls the compression level of variables sent to
# worker processes. At the default of 0, no compression
# is used. This value must be an integer from 0 to 9.
#var_compression_level = 9
# controls what compression method is used for new-style ansible modules when
# they are sent to the remote system. The compression types depend on having
# support compiled into both the controller's python and the client's python.
# The names should match with the python Zipfile compression types:
# * ZIP_STORED (no compression. available everywhere)
# * ZIP_DEFLATED (uses zlib, the default)
# These values may be set per host via the ansible_module_compression inventory
# variable
#module_compression = 'ZIP_DEFLATED'
# This controls the cutoff point (in bytes) on --diff for files
# set to 0 for unlimited (RAM may suffer!).
#max_diff_size = 1048576
# This controls how ansible handles multiple --tags and --skip-tags arguments
# on the CLI. If this is True then multiple arguments are merged together. If
# it is False, then the last specified argument is used and the others are ignored.
# This option will be removed in 2.8.
#merge_multiple_cli_flags = True
# Controls showing custom stats at the end, off by default
#show_custom_stats = True
# Controls which files to ignore when using a directory as inventory with
# possibly multiple sources (both static and dynamic)
#inventory_ignore_extensions = ~, .orig, .bak, .ini, .cfg, .retry, .pyc, .pyo
# This family of modules use an alternative execution path optimized for network appliances
# only update this setting if you know how this works, otherwise it can break module execution
#network_group_modules=eos, nxos, ios, iosxr, junos, vyos
# When enabled, this option allows lookups (via variables like {{lookup('foo')}} or when used as
# a loop with `with_foo`) to return data that is not marked "unsafe". This means the data may contain
# jinja2 templating language which will be run through the templating engine.
# ENABLING THIS COULD BE A SECURITY RISK
#allow_unsafe_lookups = False
# set default errors for all plays
#any_errors_fatal = False
[inventory]
# enable inventory plugins, default: 'host_list', 'script', 'yaml', 'ini'
#enable_plugins = host_list, virtualbox, yaml, constructed
# ignore these extensions when parsing a directory as inventory source
#ignore_extensions = .pyc, .pyo, .swp, .bak, ~, .rpm, .md, .txt, ~, .orig, .ini, .cfg, .retry
# ignore files matching these patterns when parsing a directory as inventory source
#ignore_patterns=
# If 'true' unparsed inventory sources become fatal errors, they are warnings otherwise.
#unparsed_is_failed=False
[privilege_escalation]
#become=True
#become_method=sudo
#become_user=root
#become_ask_pass=False
[paramiko_connection]
# uncomment this line to cause the paramiko connection plugin to not record new host
# keys encountered. Increases performance on new host additions. Setting works independently of the
# host key checking setting above.
#record_host_keys=False
# by default, Ansible requests a pseudo-terminal for commands executed under sudo. Uncomment this
# line to disable this behaviour.
#pty=False
# paramiko will default to looking for SSH keys initially when trying to
# authenticate to remote devices. This is a problem for some network devices
# that close the connection after a key failure. Uncomment this line to
# disable the Paramiko look for keys function
#look_for_keys = False
# When using persistent connections with Paramiko, the connection runs in a
# background process. If the host doesn't already have a valid SSH key, by
# default Ansible will prompt to add the host key. This will cause connections
# running in background processes to fail. Uncomment this line to have
# Paramiko automatically add host keys.
#host_key_auto_add = True
[ssh_connection]
# ssh arguments to use
# Leaving off ControlPersist will result in poor performance, so use
# paramiko on older platforms rather than removing it, -C controls compression use
#ssh_args = -C -o ControlMaster=auto -o ControlPersist=60s
# The base directory for the ControlPath sockets.
# This is the "%(directory)s" in the control_path option
#
# Example:
# control_path_dir = /tmp/.ansible/cp
#control_path_dir = ~/.ansible/cp
# The path to use for the ControlPath sockets. This defaults to a hashed string of the hostname,
# port and username (empty string in the config). The hash mitigates a common problem users
# found with long hostames and the conventional %(directory)s/ansible-ssh-%%h-%%p-%%r format.
# In those cases, a "too long for Unix domain socket" ssh error would occur.
#
# Example:
# control_path = %(directory)s/%%h-%%r
#control_path =
# Enabling pipelining reduces the number of SSH operations required to
# execute a module on the remote server. This can result in a significant
# performance improvement when enabled, however when using "sudo:" you must
# first disable 'requiretty' in /etc/sudoers
#
# By default, this option is disabled to preserve compatibility with
# sudoers configurations that have requiretty (the default on many distros).
#
#pipelining = False
# Control the mechanism for transferring files (old)
# * smart = try sftp and then try scp [default]
# * True = use scp only
# * False = use sftp only
#scp_if_ssh = smart
# Control the mechanism for transferring files (new)
# If set, this will override the scp_if_ssh option
# * sftp = use sftp to transfer files
# * scp = use scp to transfer files
# * piped = use 'dd' over SSH to transfer files
# * smart = try sftp, scp, and piped, in that order [default]
#transfer_method = smart
# if False, sftp will not use batch mode to transfer files. This may cause some
# types of file transfer failures impossible to catch however, and should
# only be disabled if your sftp version has problems with batch mode
#sftp_batch_mode = False
# The -tt argument is passed to ssh when pipelining is not enabled because sudo
# requires a tty by default.
#use_tty = True
[persistent_connection]
# Configures the persistent connection timeout value in seconds. This value is
# how long the persistent connection will remain idle before it is destroyed.
# If the connection doesn't receive a request before the timeout value
# expires, the connection is shutdown. The default value is 30 seconds.
#connect_timeout = 30
# Configures the persistent connection retry timeout. This value configures the
# the retry timeout that ansible-connection will wait to connect
# to the local domain socket. This value must be larger than the
# ssh timeout (timeout) and less than persistent connection idle timeout (connect_timeout).
# The default value is 15 seconds.
#connect_retry_timeout = 15
# The command timeout value defines the amount of time to wait for a command
# or RPC call before timing out. The value for the command timeout must
# be less than the value of the persistent connection idle timeout (connect_timeout)
# The default value is 10 second.
#command_timeout = 10
[accelerate]
#accelerate_port = 5099
#accelerate_timeout = 30
#accelerate_connect_timeout = 5.0
# The daemon timeout is measured in minutes. This time is measured
# from the last activity to the accelerate daemon.
#accelerate_daemon_timeout = 30
# If set to yes, accelerate_multi_key will allow multiple
# private keys to be uploaded to it, though each user must
# have access to the system via SSH to add a new key. The default
# is "no".
#accelerate_multi_key = yes
[selinux]
# file systems that require special treatment when dealing with security context
# the default behaviour that copies the existing context or uses the user default
# needs to be changed to use the file system dependent context.
#special_context_filesystems=nfs,vboxsf,fuse,ramfs,9p
# Set this to yes to allow libvirt_lxc connections to work without SELinux.
#libvirt_lxc_noseclabel = yes
[colors]
#highlight = white
#verbose = blue
#warn = bright purple
#error = red
#debug = dark gray
#deprecate = purple
#skip = cyan
#unreachable = red
#ok = green
#changed = yellow
#diff_add = green
#diff_remove = red
#diff_lines = cyan
[diff]
# Always print diff when running ( same as always running with -D/--diff )
# always = no
# Set how many context lines to show in diff
# context = 3
Sorry if this is something you've already done. Windows is very different from Linux and this applies to ansible too! Out of the box you need to do a bit of setting up of the windows host.
This is a useful link to getting everything ready:
https://docs.ansible.com/ansible/latest/user_guide/windows_setup.html
You'll need to add extra settings into your inventory file too.
Like these:
[windows:vars]
ansible_user=Administrator
ansible_port=5986
ansible_connection=winrm
ansible_winrm_scheme=https
ansible_winrm_server_cert_validation=ignore
ansible_winrm_kerberos_delegation=true
And once you've done all that, pinging Windows hosts use win_ping like this:
ansible -i inventory win -m win_ping
I hope this helps. Sorry if you've already done all this!
I am very new to Ansible and am trying to run my first playbook against a nexus 5600. I am using the cisco-programmable-fabric playbook I have connectivity to the N5K, and can ping it from the Centos7 VM. I can also access the NXAPI sandbox via the browser.
When I run the playbook I the errors shown in the picture. One host gets gets a connection timed out error. The host "mt-l1" has an error with a redirect.
Ansible version is 2.5.1 and python version is 2.7.5.
Errors
NXAPI Config
hosts file
etc/hosts file
# config file for ansible -- https://ansible.com/
# ===============================================
# nearly all parameters can be overridden in ansible-playbook
# or with command line flags. ansible will read ANSIBLE_CONFIG,
# ansible.cfg in the current working directory, .ansible.cfg in
# the home directory or /etc/ansible/ansible.cfg, whichever it
# finds first
[defaults]
# some basic default values...
inventory = /etc/ansible/hosts
library = /usr/share/my_modules/
module_utils = /usr/share/my_module_utils/
remote_tmp = ~/.ansible/tmp
local_tmp = ~/.ansible/tmp
plugin_filters_cfg = /etc/ansible/plugin_filters.yml
forks = 5
poll_interval = 15
#sudo_user = root
#ask_sudo_pass = True
#ask_pass = True
transport = smart
remote_port = 22
module_lang = C
module_set_locale = False
# plays will gather facts by default, which contain information about
# the remote system.
#
# smart - gather by default, but don't regather if already gathered
# implicit - gather by default, turn off with gather_facts: False
# explicit - do not gather by default, must say gather_facts: True
#gathering = implicit
# This only affects the gathering done by a play's gather_facts directive,
# by default gathering retrieves all facts subsets
# all - gather all subsets
# network - gather min and network facts
# hardware - gather hardware facts (longest facts to retrieve)
# virtual - gather min and virtual facts
# facter - import facts from facter
# ohai - import facts from ohai
# You can combine them using comma (ex: network,virtual)
# You can negate them using ! (ex: !hardware,!facter,!ohai)
# A minimal set of facts is always gathered.
#gather_subset = all
# some hardware related facts are collected
# with a maximum timeout of 10 seconds. This
# option lets you increase or decrease that
# timeout to something more suitable for the
# environment.
# gather_timeout = 10
# additional paths to search for roles in, colon separated
#roles_path = /etc/ansible/roles
# uncomment this to disable SSH key host checking
#host_key_checking = False
# change the default callback, you can only have one 'stdout' type enabled at a time.
#stdout_callback = skippy
## Ansible ships with some plugins that require whitelisting,
## this is done to avoid running all of a type by default.
## These setting lists those that you want enabled for your system.
## Custom plugins should not need this unless plugin author specifies it.
# enable callback plugins, they can output to stdout but cannot be 'stdout' type.
#callback_whitelist = timer, mail
# Determine whether includes in tasks and handlers are "static" by
# default. As of 2.0, includes are dynamic by default. Setting these
# values to True will make includes behave more like they did in the
# 1.x versions.
#task_includes_static = False
#handler_includes_static = False
# Controls if a missing handler for a notification event is an error or a warning
#error_on_missing_handler = True
# change this for alternative sudo implementations
#sudo_exe = sudo
# What flags to pass to sudo
# WARNING: leaving out the defaults might create unexpected behaviours
#sudo_flags = -H -S -n
# SSH timeout
#timeout = 10
# default user to use for playbooks if user is not specified
# (/usr/bin/ansible will use current user as default)
#remote_user = root
# logging is off by default unless this path is defined
# if so defined, consider logrotate
#log_path = /var/log/ansible.log
# default module name for /usr/bin/ansible
#module_name = command
# use this shell for commands executed under sudo
# you may need to change this to bin/bash in rare instances
# if sudo is constrained
#executable = /bin/sh
# if inventory variables overlap, does the higher precedence one win
# or are hash values merged together? The default is 'replace' but
# this can also be set to 'merge'.
#hash_behaviour = replace
# by default, variables from roles will be visible in the global variable
# scope. To prevent this, the following option can be enabled, and only
# tasks and handlers within the role will see the variables there
#private_role_vars = yes
# list any Jinja2 extensions to enable here:
#jinja2_extensions = jinja2.ext.do,jinja2.ext.i18n
# if set, always use this private key file for authentication, same as
# if passing --private-key to ansible or ansible-playbook
#private_key_file = /path/to/file
# If set, configures the path to the Vault password file as an alternative to
# specifying --vault-password-file on the command line.
#vault_password_file = /path/to/vault_password_file
# format of string {{ ansible_managed }} available within Jinja2
# templates indicates to users editing templates files will be replaced.
# replacing {file}, {host} and {uid} and strftime codes with proper values.
#ansible_managed = Ansible managed: {file} modified on %Y-%m-%d %H:%M:%S by {uid} on {host}
# {file}, {host}, {uid}, and the timestamp can all interfere with idempotence
# in some situations so the default is a static string:
#ansible_managed = Ansible managed
# by default, ansible-playbook will display "Skipping [host]" if it determines a task
# should not be run on a host. Set this to "False" if you don't want to see these "Skipping"
# messages. NOTE: the task header will still be shown regardless of whether or not the
# task is skipped.
#display_skipped_hosts = True
# by default, if a task in a playbook does not include a name: field then
# ansible-playbook will construct a header that includes the task's action but
# not the task's args. This is a security feature because ansible cannot know
# if the *module* considers an argument to be no_log at the time that the
# header is printed. If your environment doesn't have a problem securing
# stdout from ansible-playbook (or you have manually specified no_log in your
# playbook on all of the tasks where you have secret information) then you can
# safely set this to True to get more informative messages.
#display_args_to_stdout = False
# by default (as of 1.3), Ansible will raise errors when attempting to dereference
# Jinja2 variables that are not set in templates or action lines. Uncomment this line
# to revert the behavior to pre-1.3.
#error_on_undefined_vars = False
# by default (as of 1.6), Ansible may display warnings based on the configuration of the
# system running ansible itself. This may include warnings about 3rd party packages or
# other conditions that should be resolved if possible.
# to disable these warnings, set the following value to False:
#system_warnings = True
# by default (as of 1.4), Ansible may display deprecation warnings for language
# features that should no longer be used and will be removed in future versions.
# to disable these warnings, set the following value to False:
#deprecation_warnings = True
# (as of 1.8), Ansible can optionally warn when usage of the shell and
# command module appear to be simplified by using a default Ansible module
# instead. These warnings can be silenced by adjusting the following
# setting or adding warn=yes or warn=no to the end of the command line
# parameter string. This will for example suggest using the git module
# instead of shelling out to the git command.
# command_warnings = False
# set plugin path directories here, separate with colons
#action_plugins = /usr/share/ansible/plugins/action
#cache_plugins = /usr/share/ansible/plugins/cache
#callback_plugins = /usr/share/ansible/plugins/callback
#connection_plugins = /usr/share/ansible/plugins/connection
#lookup_plugins = /usr/share/ansible/plugins/lookup
#inventory_plugins = /usr/share/ansible/plugins/inventory
#vars_plugins = /usr/share/ansible/plugins/vars
#filter_plugins = /usr/share/ansible/plugins/filter
#test_plugins = /usr/share/ansible/plugins/test
#terminal_plugins = /usr/share/ansible/plugins/terminal
#strategy_plugins = /usr/share/ansible/plugins/strategy
# by default, ansible will use the 'linear' strategy but you may want to try
# another one
#strategy = free
# by default callbacks are not loaded for /bin/ansible, enable this if you
# want, for example, a notification or logging callback to also apply to
# /bin/ansible runs
#bin_ansible_callbacks = False
# don't like cows? that's unfortunate.
# set to 1 if you don't want cowsay support or export ANSIBLE_NOCOWS=1
#nocows = 1
# set which cowsay stencil you'd like to use by default. When set to 'random',
# a random stencil will be selected for each task. The selection will be filtered
# against the `cow_whitelist` option below.
#cow_selection = default
#cow_selection = random
# when using the 'random' option for cowsay, stencils will be restricted to this list.
# it should be formatted as a comma-separated list with no spaces between names.
# NOTE: line continuations here are for formatting purposes only, as the INI parser
# in python does not support them.
#cow_whitelist=bud-frogs,bunny,cheese,daemon,default,dragon,elephant-in-snake,elephant,eyes,\
# hellokitty,kitty,luke-koala,meow,milk,moofasa,moose,ren,sheep,small,stegosaurus,\
# stimpy,supermilker,three-eyes,turkey,turtle,tux,udder,vader-koala,vader,www
# don't like colors either?
# set to 1 if you don't want colors, or export ANSIBLE_NOCOLOR=1
#nocolor = 1
# if set to a persistent type (not 'memory', for example 'redis') fact values
# from previous runs in Ansible will be stored. This may be useful when
# wanting to use, for example, IP information from one group of servers
# without having to talk to them in the same playbook run to get their
# current IP information.
#fact_caching = memory
# retry files
# When a playbook fails by default a .retry file will be created in ~/
# You can disable this feature by setting retry_files_enabled to False
# and you can change the location of the files by setting retry_files_save_path
#retry_files_enabled = False
#retry_files_save_path = ~/.ansible-retry
# squash actions
# Ansible can optimise actions that call modules with list parameters
# when looping. Instead of calling the module once per with_ item, the
# module is called once with all items at once. Currently this only works
# under limited circumstances, and only with parameters named 'name'.
#squash_actions = apk,apt,dnf,homebrew,pacman,pkgng,yum,zypper
# prevents logging of task data, off by default
#no_log = False
# prevents logging of tasks, but only on the targets, data is still logged on the master/controller
#no_target_syslog = False
# controls whether Ansible will raise an error or warning if a task has no
# choice but to create world readable temporary files to execute a module on
# the remote machine. This option is False by default for security. Users may
# turn this on to have behaviour more like Ansible prior to 2.1.x. See
# https://docs.ansible.com/ansible/become.html#becoming-an-unprivileged-user
# for more secure ways to fix this than enabling this option.
#allow_world_readable_tmpfiles = False
# controls the compression level of variables sent to
# worker processes. At the default of 0, no compression
# is used. This value must be an integer from 0 to 9.
#var_compression_level = 9
# controls what compression method is used for new-style ansible modules when
# they are sent to the remote system. The compression types depend on having
# support compiled into both the controller's python and the client's python.
# The names should match with the python Zipfile compression types:
# * ZIP_STORED (no compression. available everywhere)
# * ZIP_DEFLATED (uses zlib, the default)
# These values may be set per host via the ansible_module_compression inventory
# variable
#module_compression = 'ZIP_DEFLATED'
# This controls the cutoff point (in bytes) on --diff for files
# set to 0 for unlimited (RAM may suffer!).
#max_diff_size = 1048576
# This controls how ansible handles multiple --tags and --skip-tags arguments
# on the CLI. If this is True then multiple arguments are merged together. If
# it is False, then the last specified argument is used and the others are ignored.
# This option will be removed in 2.8.
#merge_multiple_cli_flags = True
# Controls showing custom stats at the end, off by default
#show_custom_stats = True
# Controls which files to ignore when using a directory as inventory with
# possibly multiple sources (both static and dynamic)
#inventory_ignore_extensions = ~, .orig, .bak, .ini, .cfg, .retry, .pyc, .pyo
# This family of modules use an alternative execution path optimized for network appliances
# only update this setting if you know how this works, otherwise it can break module execution
#network_group_modules=eos, nxos, ios, iosxr, junos, vyos
# When enabled, this option allows lookups (via variables like {{lookup('foo')}} or when used as
# a loop with `with_foo`) to return data that is not marked "unsafe". This means the data may contain
# jinja2 templating language which will be run through the templating engine.
# ENABLING THIS COULD BE A SECURITY RISK
#allow_unsafe_lookups = False
# set default errors for all plays
#any_errors_fatal = False
[inventory]
# enable inventory plugins, default: 'host_list', 'script', 'yaml', 'ini'
#enable_plugins = host_list, virtualbox, yaml, constructed
# ignore these extensions when parsing a directory as inventory source
#ignore_extensions = .pyc, .pyo, .swp, .bak, ~, .rpm, .md, .txt, ~, .orig, .ini, .cfg, .retry
# ignore files matching these patterns when parsing a directory as inventory source
#ignore_patterns=
# If 'true' unparsed inventory sources become fatal errors, they are warnings otherwise.
#unparsed_is_failed=False
[privilege_escalation]
#become=True
#become_method=sudo
#become_user=root
#become_ask_pass=False
[paramiko_connection]
# uncomment this line to cause the paramiko connection plugin to not record new host
# keys encountered. Increases performance on new host additions. Setting works independently of the
# host key checking setting above.
#record_host_keys=False
# by default, Ansible requests a pseudo-terminal for commands executed under sudo. Uncomment this
# line to disable this behaviour.
#pty=False
# paramiko will default to looking for SSH keys initially when trying to
# authenticate to remote devices. This is a problem for some network devices
# that close the connection after a key failure. Uncomment this line to
# disable the Paramiko look for keys function
#look_for_keys = False
# When using persistent connections with Paramiko, the connection runs in a
# background process. If the host doesn't already have a valid SSH key, by
# default Ansible will prompt to add the host key. This will cause connections
# running in background processes to fail. Uncomment this line to have
# Paramiko automatically add host keys.
#host_key_auto_add = True
[ssh_connection]
# ssh arguments to use
# Leaving off ControlPersist will result in poor performance, so use
# paramiko on older platforms rather than removing it, -C controls compression use
#ssh_args = -C -o ControlMaster=auto -o ControlPersist=60s
# The base directory for the ControlPath sockets.
# This is the "%(directory)s" in the control_path option
#
# Example:
# control_path_dir = /tmp/.ansible/cp
#control_path_dir = ~/.ansible/cp
# The path to use for the ControlPath sockets. This defaults to a hashed string of the hostname,
# port and username (empty string in the config). The hash mitigates a common problem users
# found with long hostames and the conventional %(directory)s/ansible-ssh-%%h-%%p-%%r format.
# In those cases, a "too long for Unix domain socket" ssh error would occur.
#
# Example:
# control_path = %(directory)s/%%h-%%r
#control_path =
# Enabling pipelining reduces the number of SSH operations required to
# execute a module on the remote server. This can result in a significant
# performance improvement when enabled, however when using "sudo:" you must
# first disable 'requiretty' in /etc/sudoers
#
# By default, this option is disabled to preserve compatibility with
# sudoers configurations that have requiretty (the default on many distros).
#
#pipelining = False
# Control the mechanism for transferring files (old)
# * smart = try sftp and then try scp [default]
# * True = use scp only
# * False = use sftp only
#scp_if_ssh = smart
# Control the mechanism for transferring files (new)
# If set, this will override the scp_if_ssh option
# * sftp = use sftp to transfer files
# * scp = use scp to transfer files
# * piped = use 'dd' over SSH to transfer files
# * smart = try sftp, scp, and piped, in that order [default]
#transfer_method = smart
# if False, sftp will not use batch mode to transfer files. This may cause some
# types of file transfer failures impossible to catch however, and should
# only be disabled if your sftp version has problems with batch mode
#sftp_batch_mode = False
# The -tt argument is passed to ssh when pipelining is not enabled because sudo
# requires a tty by default.
#use_tty = True
[persistent_connection]
# Configures the persistent connection timeout value in seconds. This value is
# how long the persistent connection will remain idle before it is destroyed.
# If the connection doesn't receive a request before the timeout value
# expires, the connection is shutdown. The default value is 30 seconds.
#connect_timeout = 30
# Configures the persistent connection retry timeout. This value configures the
# the retry timeout that ansible-connection will wait to connect
# to the local domain socket. This value must be larger than the
# ssh timeout (timeout) and less than persistent connection idle timeout (connect_timeout).
# The default value is 15 seconds.
#connect_retry_timeout = 15
# The command timeout value defines the amount of time to wait for a command
# or RPC call before timing out. The value for the command timeout must
# be less than the value of the persistent connection idle timeout (connect_timeout)
# The default value is 10 second.
#command_timeout = 10
[accelerate]
#accelerate_port = 5099
#accelerate_timeout = 30
#accelerate_connect_timeout = 5.0
# The daemon timeout is measured in minutes. This time is measured
# from the last activity to the accelerate daemon.
#accelerate_daemon_timeout = 30
# If set to yes, accelerate_multi_key will allow multiple
# private keys to be uploaded to it, though each user must
# have access to the system via SSH to add a new key. The default
# is "no".
#accelerate_multi_key = yes
[selinux]
# file systems that require special treatment when dealing with security context
# the default behaviour that copies the existing context or uses the user default
# needs to be changed to use the file system dependent context.
#special_context_filesystems=nfs,vboxsf,fuse,ramfs,9p
# Set this to yes to allow libvirt_lxc connections to work without SELinux.
#libvirt_lxc_noseclabel = yes
[colors]
#highlight = white
#verbose = blue
#warn = bright purple
#error = red
#debug = dark gray
#deprecate = purple
#skip = cyan
#unreachable = red
#ok = green
#changed = yellow
#diff_add = green
#diff_remove = red
#diff_lines = cyan
[diff]
# Always print diff when running ( same as always running with -D/--diff )
# always = no
# Set how many context lines to show in diff
# context = 3
Any ideas on what I am doing wrong? Help is greatly appreciated!
"Connection failure: timed out", "status": -1, "url" :"http://192.168.77.15:80/ins"
It appears from your error message that the connection to the devices using the nxos_config module is attempting to use a proxy server. I'm guessing that since you are manipulating /etc/hosts on your local machine that these devices are not registered in DNS, and therefore the proxy would not be able to reach them.
As a quick test, I would run the following commands and re-run your playbook.
unset HTTP_PROXY
unset HTTPS_PROXY
unset http_proxy
unset https_proxy
Assuming that works, you could have a peek here for a more elegant fix
HTH
I am trying to send an email from R, using the sendmailR package. The code below works fine when I run it on my PC, and I recieve the email. However, when I run it with my macbook pro, it fails with the following error:
library(sendmailR)
from <- sprintf("<sendmailR#%s>", Sys.info()[4])
to <- "<myemail#gmail.com>"
subject <- "TEST"
sendmail(from, to, subject, body,
control=list(smtpServer="ASPMX.L.GOOGLE.COM"))
Error in socketConnection(host = server, port = port, blocking = TRUE) :
cannot open the connection
In addition: Warning message:
In socketConnection(host = server, port = port, blocking = TRUE) :
ASPMX.L.GOOGLE.COM:25 cannot be opened
Any ideas as to why this would work on a PC, but not a mac? I turned the firewall off on both machines.
Are you able to send email via the command-line?
So, first of all, fire up a Terminal and then
$ echo “Test 123” | mail -s “Test” user#domain.com
Look into /var/log/mail.log, or better use
$ tail -f /var/log/mail.log
in a different window while you send your email. If you see something like
... setting up TLS connection to smtp.gmail.com[xxx.xx.xxx.xxx]:587
... Trusted TLS connection established to smtp.gmail.com[xxx.xx.xxx.xxx]:587:\
TLSv1 with cipher RC4-MD5 (128/128 bits)
then you succeeded. Otherwise, it means you have to configure you mailing system. I use postfix with Gmail for two years now, and I never had have problem with it. Basically, you need to grab the Equifax certificates, Equifax_Secure_CA.pem from here: http://www.geotrust.com/resources/root-certificates/. (They were using Thawtee certificates before but they changed last year.) Then, assuming you used Gmail,
Create relay_password in /etc/postfix and put a single line like this (with your correct login and password):
smtp.gmail.com login#gmail.com:password
then in a Terminal,
$ sudo postmap /etc/postfix/relay_password
to update Postfix lookup table.
Add the certificates in /etc/postfix/certs, or any folder you like, then
$ sudo c_rehash /etc/postfix/certs/
(i.e., rehash the certificates with Openssl).
Edit /etc/postfix/main.cf so that it includes the following lines (adjust the paths if needed):
relayhost = smtp.gmail.com:587
smtp_sasl_auth_enable = yes
smtp_sasl_password_maps = hash:/etc/postfix/relay_password
smtp_sasl_security_options = noanonymous
smtp_tls_security_level = may
smtp_tls_CApath = /etc/postfix/certs
smtp_tls_session_cache_database = btree:/etc/postfix/smtp_scache
smtp_tls_session_cache_timeout = 3600s
smtp_tls_loglevel = 1
tls_random_source = dev:/dev/urandom
Finally, just reload the Postfix process, with e.g.
$ sudo postfix reload
(a combination of start/stop works too).
You can choose a different port for the SMTP, e.g. 465.
It’s still possible to use SASL without TLS (the above steps are basically the same), but in both case the main problem is that your login informations are available in a plan text file... Also, should you want to use your MobileMe account, just replace the Gmail SMTP server with smtp.me.com.
I'm in the process of maintaining a Ruby on Rails app and am looking for an easy way to find the hostname or IP address of the box I'm on (since it's a VM and new instances may have different hostnames or IP addresses). Is there a quick and easy way to do this in Ruby on Rails?
Edit: The answer below is correct but the clarification Craig provided is useful (see also provided link in answer):
The [below] code does NOT make a
connection or send any packets (to
64.233.187.99 which is google). Since UDP is a stateless protocol connect()
merely makes a system call which
figures out how to route the packets
based on the address and what
interface (and therefore IP address)
it should bind to. addr() returns an
array containing the family (AF_INET),
local port, and local address (which
is what we want) of the socket.
Hostname
A simple way to just get the hostname in Ruby is:
require 'socket'
hostname = Socket.gethostname
The catch is that this relies on the host knowing its own name because it uses either the gethostname or uname system call, so it will not work for the original problem.
Functionally this is identical to the hostname answer, without invoking an external program. The hostname may or may not be fully qualified, depending on the machine's configuration.
IP Address
Since ruby 1.9, you can also use the Socket library to get a list of local addresses. ip_address_list returns an array of AddrInfo objects. How you choose from it will depend on what you want to do and how many interfaces you have, but here's an example which simply selects the first non-loopback IPV4 IP address as a string:
require 'socket'
ip_address = Socket.ip_address_list.find { |ai| ai.ipv4? && !ai.ipv4_loopback? }.ip_address
From coderrr.wordpress.com:
require 'socket'
def local_ip
orig, Socket.do_not_reverse_lookup = Socket.do_not_reverse_lookup, true # turn off reverse DNS resolution temporarily
UDPSocket.open do |s|
s.connect '64.233.187.99', 1
s.addr.last
end
ensure
Socket.do_not_reverse_lookup = orig
end
# irb:0> local_ip
# => "192.168.0.127"
Try this:
host = `hostname`.strip # Get the hostname from the shell and removing trailing \n
puts host # Output the hostname
A server typically has more than one interface, at least one private and one public.
Since all the answers here deal with this simple scenario, a cleaner way is to ask Socket for the current ip_address_list() as in:
require 'socket'
def my_first_private_ipv4
Socket.ip_address_list.detect{|intf| intf.ipv4_private?}
end
def my_first_public_ipv4
Socket.ip_address_list.detect{|intf| intf.ipv4? and !intf.ipv4_loopback? and !intf.ipv4_multicast? and !intf.ipv4_private?}
end
Both return an Addrinfo object, so if you need a string you can use the ip_address() method, as in:
ip= my_first_public_ipv4.ip_address unless my_first_public_ipv4.nil?
You can easily work out the more suitable solution to your case changing the Addrinfo methods used to filter the required interface address.
Simplest is host_with_port in controller.rb
host_port= request.host_with_port
This IP address used here is Google's, but you can use any accessible IP.
require "socket"
local_ip = UDPSocket.open {|s| s.connect("64.233.187.99", 1); s.addr.last}
Similar to the answer using hostname, using the external uname command on UNIX/LINUX:
hostname = `uname -n`.chomp.sub(/\..*/,'') # stripping off "\n" and the network name if present
for the IP addresses in use (your machine could have multiple network interfaces),
you could use something like this:
# on a Mac:
ip_addresses = `ifconfig | grep 'inet ' | grep -v 127.0.0.1 | cut -d' ' -f 2`.split
=> ['10.2.21.122','10.8.122.12']
# on Linux:
ip_addresses = `ifconfig -a | grep 'inet ' | grep -v 127.0.0.1 | cut -d':' -f 2 | cut -d' ' -f 1`.split
=> ['10.2.21.122','10.8.122.12']
The accepted answer works but you have to create a socket for every request and it does not work if the server is on a local network and/or not connected to the internet. The below, I believe will always work since it is parsing the request header.
request.env["SERVER_ADDR"]
Put the highlighted part in backticks:
`dig #{request.host} +short`.strip # dig gives a newline at the end
Or just request.host if you don't care whether it's an IP or not.
You will likely find yourself having multiple IP addresses on each machine (127.0.0.1, 192.168.0.1, etc). If you are using *NIX as your OS, I'd suggest using hostname, and then running a DNS look up on that. You should be able to use /etc/hosts to define the local hostname to resolve to the IP address for that machine. There is similar functionality on Windows, but I haven't used it since Windows 95 was the bleeding edge.
The other option would be to hit a lookup service like WhatIsMyIp.com. These guys will kick back your real-world IP address to you. This is also something that you can easily setup with a Perl script on a local server if you prefer. I believe 3 lines or so of code to output the remote IP from %ENV should cover you.
io = IO.popen('hostname')
hostname = io.readlines
io = IO.popen('ifconfig')
ifconfig = io.readlines
ip = ifconfig[11].scan(/\ \d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}\ /)
The couple of answers with require 'socket' look good. The ones with request.blah_blah_blah
assume that you are using Rails.
IO should be available all the time. The only problem with this script would be that if ifconfig is output in a different manor on your systems, then you would get different results for the IP. The hostname look up should be solid as Sears.
try: Request.remote_ip
remote_ip()
Determine originating IP address. REMOTE_ADDR is the standard but will
fail if the user is behind a proxy. HTTP_CLIENT_IP and/or
HTTP_X_FORWARDED_FOR are set by proxies so check for these if
REMOTE_ADDR is a proxy. HTTP_X_FORWARDED_FOR may be a comma- delimited
list in the case of multiple chained proxies; the last address which
is not trusted is the originating IP.
Update:
Oops, sorry I misread the documentation.