#!/usr/bin/python # # Copyright 2016 Red Hat | Ansible # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import absolute_import, division, print_function __metaclass__ = type DOCUMENTATION = ''' --- module: docker_container short_description: manage docker containers description: - Manage the life cycle of docker containers. - Supports check mode. Run with C(--check) and C(--diff) to view config difference and list of actions to be taken. notes: - For most config changes, the container needs to be recreated. This means that the existing container has to be destroyed and a new one created. This can cause unexpected data loss and downtime. You can use the I(comparisons) option to prevent this. - If the module needs to recreate the container, it will only use the options provided to the module to create the new container (except I(image)). Therefore, always specify B(all) options relevant to the container. - When I(restart) is set to C(true), the module will only restart the container if no config changes are detected. options: auto_remove: description: - Enable auto-removal of the container on daemon side when the container's process exits. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool blkio_weight: description: - Block IO (relative weight), between 10 and 1000. type: int capabilities: description: - List of capabilities to add to the container. - This is equivalent to C(docker run --cap-add), or the docker-compose option C(cap_add). type: list elements: str cap_drop: description: - List of capabilities to drop from the container. type: list elements: str cgroup_parent: description: - Specify the parent cgroup for the container. type: str version_added: 1.1.0 cleanup: description: - Use with I(detach=false) to remove the container after successful execution. type: bool default: no command: description: - Command to execute when the container starts. A command may be either a string or a list. - Prior to version 2.4, strings were split on commas. - See I(command_handling) for differences in how strings and lists are handled. type: raw comparisons: description: - Allows to specify how properties of existing containers are compared with module options to decide whether the container should be recreated / updated or not. - Only options which correspond to the state of a container as handled by the Docker daemon can be specified, as well as C(networks). - Must be a dictionary specifying for an option one of the keys C(strict), C(ignore) and C(allow_more_present). - If C(strict) is specified, values are tested for equality, and changes always result in updating or restarting. If C(ignore) is specified, changes are ignored. - C(allow_more_present) is allowed only for lists, sets and dicts. If it is specified for lists or sets, the container will only be updated or restarted if the module option contains a value which is not present in the container's options. If the option is specified for a dict, the container will only be updated or restarted if the module option contains a key which is not present in the container's option, or if the value of a key present differs. - The wildcard option C(*) can be used to set one of the default values C(strict) or C(ignore) to I(all) comparisons which are not explicitly set to other values. - See the examples for details. type: dict container_default_behavior: description: - In older versions of this module, various module options used to have default values. This caused problems with containers which use different values for these options. - The default value is now C(no_defaults). To restore the old behavior, set it to C(compatibility), which will ensure that the default values are used when the values are not explicitly specified by the user. - This affects the I(auto_remove), I(detach), I(init), I(interactive), I(memory), I(paused), I(privileged), I(read_only) and I(tty) options. type: str choices: - compatibility - no_defaults default: no_defaults command_handling: description: - The default behavior for I(command) (when provided as a list) and I(entrypoint) is to convert them to strings without considering shell quoting rules. (For comparing idempotency, the resulting string is split considering shell quoting rules.) - Also, setting I(command) to an empty list of string, and setting I(entrypoint) to an empty list will be handled as if these options are not specified. This is different from idempotency handling for other container-config related options. - When this is set to C(compatiblity), which is the default until community.docker 3.0.0, the current behavior will be kept. - When this is set to C(correct), these options are kept as lists, and an empty value or empty list will be handled correctly for idempotency checks. - In community.docker 3.0.0, the default will change to C(correct). type: str choices: - compatibility - correct version_added: 1.9.0 cpu_period: description: - Limit CPU CFS (Completely Fair Scheduler) period. - See I(cpus) for an easier to use alternative. type: int cpu_quota: description: - Limit CPU CFS (Completely Fair Scheduler) quota. - See I(cpus) for an easier to use alternative. type: int cpus: description: - Specify how much of the available CPU resources a container can use. - A value of C(1.5) means that at most one and a half CPU (core) will be used. type: float cpuset_cpus: description: - CPUs in which to allow execution C(1,3) or C(1-3). type: str cpuset_mems: description: - Memory nodes (MEMs) in which to allow execution C(0-3) or C(0,1). type: str cpu_shares: description: - CPU shares (relative weight). type: int default_host_ip: description: - Define the default host IP to use. - Must be an empty string, an IPv4 address, or an IPv6 address. - With Docker 20.10.2 or newer, this should be set to an empty string (C("")) to avoid the port bindings without an explicit IP address to only bind to IPv4. See U(https://github.com/ansible-collections/community.docker/issues/70) for details. - By default, the module will try to auto-detect this value from the C(bridge) network's C(com.docker.network.bridge.host_binding_ipv4) option. If it cannot auto-detect it, it will fall back to C(0.0.0.0). type: str version_added: 1.2.0 detach: description: - Enable detached mode to leave the container running in background. - If disabled, the task will reflect the status of the container run (failed if the command failed). - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(true). type: bool devices: description: - List of host device bindings to add to the container. - "Each binding is a mapping expressed in the format C(::)." type: list elements: str device_read_bps: description: - "List of device path and read rate (bytes per second) from device." type: list elements: dict suboptions: path: description: - Device path in the container. type: str required: yes rate: description: - "Device read limit in format C([])." - "Number is a positive integer. Unit can be one of C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - "Omitting the unit defaults to bytes." type: str required: yes device_write_bps: description: - "List of device and write rate (bytes per second) to device." type: list elements: dict suboptions: path: description: - Device path in the container. type: str required: yes rate: description: - "Device read limit in format C([])." - "Number is a positive integer. Unit can be one of C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - "Omitting the unit defaults to bytes." type: str required: yes device_read_iops: description: - "List of device and read rate (IO per second) from device." type: list elements: dict suboptions: path: description: - Device path in the container. type: str required: yes rate: description: - "Device read limit." - "Must be a positive integer." type: int required: yes device_write_iops: description: - "List of device and write rate (IO per second) to device." type: list elements: dict suboptions: path: description: - Device path in the container. type: str required: yes rate: description: - "Device read limit." - "Must be a positive integer." type: int required: yes device_requests: description: - Allows to request additional resources, such as GPUs. type: list elements: dict suboptions: capabilities: description: - List of lists of strings to request capabilities. - The top-level list entries are combined by OR, and for every list entry, the entries in the list it contains are combined by AND. - The driver tries to satisfy one of the sub-lists. - Available capabilities for the C(nvidia) driver can be found at U(https://github.com/NVIDIA/nvidia-container-runtime). type: list elements: list count: description: - Number or devices to request. - Set to C(-1) to request all available devices. type: int device_ids: description: - List of device IDs. type: list elements: str driver: description: - Which driver to use for this device. type: str options: description: - Driver-specific options. type: dict version_added: 0.1.0 dns_opts: description: - List of DNS options. type: list elements: str dns_servers: description: - List of custom DNS servers. type: list elements: str dns_search_domains: description: - List of custom DNS search domains. type: list elements: str domainname: description: - Container domainname. type: str env: description: - Dictionary of key,value pairs. - Values which might be parsed as numbers, booleans or other types by the YAML parser must be quoted (for example C("true")) in order to avoid data loss. - Please note that if you are passing values in with Jinja2 templates, like C("{{ value }}"), you need to add C(| string) to prevent Ansible to convert strings such as C("true") back to booleans. The correct way is to use C("{{ value | string }}"). type: dict env_file: description: - Path to a file, present on the target, containing environment variables I(FOO=BAR). - If variable also present in I(env), then the I(env) value will override. type: path entrypoint: description: - Command that overwrites the default C(ENTRYPOINT) of the image. - See I(command_handling) for differences in how strings and lists are handled. type: list elements: str etc_hosts: description: - Dict of host-to-IP mappings, where each host name is a key in the dictionary. Each host name will be added to the container's C(/etc/hosts) file. type: dict exposed_ports: description: - List of additional container ports which informs Docker that the container listens on the specified network ports at runtime. - If the port is already exposed using C(EXPOSE) in a Dockerfile, it does not need to be exposed again. type: list elements: str aliases: - exposed - expose force_kill: description: - Use the kill command when stopping a running container. type: bool default: no aliases: - forcekill groups: description: - List of additional group names and/or IDs that the container process will run as. type: list elements: str healthcheck: description: - Configure a check that is run to determine whether or not containers for this service are "healthy". - "See the docs for the L(HEALTHCHECK Dockerfile instruction,https://docs.docker.com/engine/reference/builder/#healthcheck) for details on how healthchecks work." - "I(interval), I(timeout) and I(start_period) are specified as durations. They accept duration as a string in a format that look like: C(5h34m56s), C(1m30s) etc. The supported units are C(us), C(ms), C(s), C(m) and C(h)." type: dict suboptions: test: description: - Command to run to check health. - Must be either a string or a list. If it is a list, the first item must be one of C(NONE), C(CMD) or C(CMD-SHELL). type: raw interval: description: - Time between running the check. - The default used by the Docker daemon is C(30s). type: str timeout: description: - Maximum time to allow one check to run. - The default used by the Docker daemon is C(30s). type: str retries: description: - Consecutive number of failures needed to report unhealthy. - The default used by the Docker daemon is C(3). type: int start_period: description: - Start period for the container to initialize before starting health-retries countdown. - The default used by the Docker daemon is C(0s). type: str hostname: description: - The container's hostname. type: str ignore_image: description: - When I(state) is C(present) or C(started), the module compares the configuration of an existing container to requested configuration. The evaluation includes the image version. If the image version in the registry does not match the container, the container will be recreated. You can stop this behavior by setting I(ignore_image) to C(True). - "B(Warning:) This option is ignored if C(image: ignore) or C(*: ignore) is specified in the I(comparisons) option." type: bool default: no image: description: - Repository path and tag used to create the container. If an image is not found or pull is true, the image will be pulled from the registry. If no tag is included, C(latest) will be used. - Can also be an image ID. If this is the case, the image is assumed to be available locally. The I(pull) option is ignored for this case. type: str init: description: - Run an init inside the container that forwards signals and reaps processes. - This option requires Docker API >= 1.25. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool interactive: description: - Keep stdin open after a container is launched, even if not attached. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool ipc_mode: description: - Set the IPC mode for the container. - Can be one of C(container:) to reuse another container's IPC namespace or C(host) to use the host's IPC namespace within the container. type: str keep_volumes: description: - Retain anonymous volumes associated with a removed container. type: bool default: yes kill_signal: description: - Override default signal used to kill a running container. type: str kernel_memory: description: - "Kernel memory limit in format C([]). Number is a positive integer. Unit can be C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte). Minimum is C(4M)." - Omitting the unit defaults to bytes. type: str labels: description: - Dictionary of key value pairs. type: dict links: description: - List of name aliases for linked containers in the format C(container_name:alias). - Setting this will force container to be restarted. type: list elements: str log_driver: description: - Specify the logging driver. Docker uses C(json-file) by default. - See L(here,https://docs.docker.com/config/containers/logging/configure/) for possible choices. type: str log_options: description: - Dictionary of options specific to the chosen I(log_driver). - See U(https://docs.docker.com/engine/admin/logging/overview/) for details. - I(log_driver) needs to be specified for I(log_options) to take effect, even if using the default C(json-file) driver. type: dict aliases: - log_opt mac_address: description: - Container MAC address (for example, C(92:d0:c6:0a:29:33)). type: str memory: description: - "Memory limit in format C([]). Number is a positive integer. Unit can be C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - Omitting the unit defaults to bytes. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C("0"). type: str memory_reservation: description: - "Memory soft limit in format C([]). Number is a positive integer. Unit can be C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - Omitting the unit defaults to bytes. type: str memory_swap: description: - "Total memory limit (memory + swap) in format C([]), or the special values C(unlimited) or C(-1) for unlimited swap usage. Number is a positive integer. Unit can be C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - Omitting the unit defaults to bytes. type: str memory_swappiness: description: - Tune a container's memory swappiness behavior. Accepts an integer between 0 and 100. - If not set, the value will be remain the same if container exists and will be inherited from the host machine if it is (re-)created. type: int mounts: type: list elements: dict description: - Specification for mounts to be added to the container. More powerful alternative to I(volumes). suboptions: target: description: - Path inside the container. type: str required: true source: description: - Mount source. - For example, this can be a volume name or a host path. - If not supplied when I(type=volume) an anonymous volume will be created. type: str type: description: - The mount type. - Note that C(npipe) is only supported by Docker for Windows. type: str choices: - bind - npipe - tmpfs - volume default: volume read_only: description: - Whether the mount should be read-only. type: bool consistency: description: - The consistency requirement for the mount. type: str choices: - cached - consistent - default - delegated propagation: description: - Propagation mode. Only valid for the C(bind) type. type: str choices: - private - rprivate - shared - rshared - slave - rslave no_copy: description: - False if the volume should be populated with the data from the target. Only valid for the C(volume) type. - The default value is C(false). type: bool labels: description: - User-defined name and labels for the volume. Only valid for the C(volume) type. type: dict volume_driver: description: - Specify the volume driver. Only valid for the C(volume) type. - See L(here,https://docs.docker.com/storage/volumes/#use-a-volume-driver) for details. type: str volume_options: description: - Dictionary of options specific to the chosen volume_driver. See L(here,https://docs.docker.com/storage/volumes/#use-a-volume-driver) for details. type: dict tmpfs_size: description: - "The size for the tmpfs mount in bytes in format []." - "Number is a positive integer. Unit can be one of C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - "Omitting the unit defaults to bytes." type: str tmpfs_mode: description: - The permission mode for the tmpfs mount. type: str name: description: - Assign a name to a new container or match an existing container. - When identifying an existing container name may be a name or a long or short container ID. type: str required: yes network_mode: description: - Connect the container to a network. Choices are C(bridge), C(host), C(none), C(container:), C() or C(default). - "Since community.docker 2.0.0, if I(networks_cli_compatible) is C(true) and I(networks) contains at least one network, the default value for I(network_mode) is the name of the first network in the I(networks) list. You can prevent this by explicitly specifying a value for I(network_mode), like the default value C(default) which will be used by Docker if I(network_mode) is not specified." type: str userns_mode: description: - Set the user namespace mode for the container. Currently, the only valid value are C(host) and the empty string. type: str networks: description: - List of networks the container belongs to. - For examples of the data structure and usage see EXAMPLES below. - To remove a container from one or more networks, use the I(purge_networks) option. - If I(networks_cli_compatible) is set to C(false), this will not remove the default network if I(networks) is specified. This is different from the behavior of C(docker run ...). You need to explicitly use I(purge_networks) to enforce the removal of the default network (and all other networks not explicitly mentioned in I(networks)) in that case. type: list elements: dict suboptions: name: description: - The network's name. type: str required: yes ipv4_address: description: - The container's IPv4 address in this network. type: str ipv6_address: description: - The container's IPv6 address in this network. type: str links: description: - A list of containers to link to. type: list elements: str aliases: description: - List of aliases for this container in this network. These names can be used in the network to reach this container. type: list elements: str networks_cli_compatible: description: - "If I(networks_cli_compatible) is set to C(yes) (default), this module will behave as C(docker run --network) and will B(not) add the default network if I(networks) is specified. If I(networks) is not specified, the default network will be attached." - "When I(networks_cli_compatible) is set to C(no) and networks are provided to the module via the I(networks) option, the module behaves differently than C(docker run --network): C(docker run --network other) will create a container with network C(other) attached, but the default network not attached. This module with I(networks: {name: other}) will create a container with both C(default) and C(other) attached. If I(purge_networks) is set to C(yes), the C(default) network will be removed afterwards." type: bool default: true oom_killer: description: - Whether or not to disable OOM Killer for the container. type: bool oom_score_adj: description: - An integer value containing the score given to the container in order to tune OOM killer preferences. type: int output_logs: description: - If set to true, output of the container command will be printed. - Only effective when I(log_driver) is set to C(json-file), C(journald), or C(local). type: bool default: no paused: description: - Use with the started state to pause running processes inside the container. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool pid_mode: description: - Set the PID namespace mode for the container. - Note that Docker SDK for Python < 2.0 only supports C(host). Newer versions of the Docker SDK for Python (docker) allow all values supported by the Docker daemon. type: str pids_limit: description: - Set PIDs limit for the container. It accepts an integer value. - Set C(-1) for unlimited PIDs. type: int privileged: description: - Give extended privileges to the container. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool publish_all_ports: description: - Publish all ports to the host. - Any specified port bindings from I(published_ports) will remain intact when C(true). type: bool version_added: 1.8.0 published_ports: description: - List of ports to publish from the container to the host. - "Use docker CLI syntax: C(8000), C(9000:8000), or C(0.0.0.0:9000:8000), where 8000 is a container port, 9000 is a host port, and 0.0.0.0 is a host interface." - Port ranges can be used for source and destination ports. If two ranges with different lengths are specified, the shorter range will be used. Since community.general 0.2.0, if the source port range has length 1, the port will not be assigned to the first port of the destination range, but to a free port in that range. This is the same behavior as for C(docker) command line utility. - "Bind addresses must be either IPv4 or IPv6 addresses. Hostnames are B(not) allowed. This is different from the C(docker) command line utility. Use the R(dig lookup,ansible_collections.community.general.dig_lookup) to resolve hostnames." - A value of C(all) will publish all exposed container ports to random host ports, ignoring any other mappings. This is deprecated since version 2.0.0 and will be disallowed in community.docker 3.0.0. Use the I(publish_all_ports) option instead. - If I(networks) parameter is provided, will inspect each network to see if there exists a bridge network with optional parameter C(com.docker.network.bridge.host_binding_ipv4). If such a network is found, then published ports where no host IP address is specified will be bound to the host IP pointed to by C(com.docker.network.bridge.host_binding_ipv4). Note that the first bridge network with a C(com.docker.network.bridge.host_binding_ipv4) value encountered in the list of I(networks) is the one that will be used. type: list elements: str aliases: - ports pull: description: - If true, always pull the latest version of an image. Otherwise, will only pull an image when missing. - "B(Note:) images are only pulled when specified by name. If the image is specified as a image ID (hash), it cannot be pulled." type: bool default: no purge_networks: description: - Remove the container from ALL networks not included in I(networks) parameter. - Any default networks such as C(bridge), if not found in I(networks), will be removed as well. type: bool default: no read_only: description: - Mount the container's root file system as read-only. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool recreate: description: - Use with present and started states to force the re-creation of an existing container. type: bool default: no removal_wait_timeout: description: - When removing an existing container, the docker daemon API call exists after the container is scheduled for removal. Removal usually is very fast, but it can happen that during high I/O load, removal can take longer. By default, the module will wait until the container has been removed before trying to (re-)create it, however long this takes. - By setting this option, the module will wait at most this many seconds for the container to be removed. If the container is still in the removal phase after this many seconds, the module will fail. type: float restart: description: - Use with started state to force a matching container to be stopped and restarted. type: bool default: no restart_policy: description: - Container restart policy. - Place quotes around C(no) option. type: str choices: - 'no' - 'on-failure' - 'always' - 'unless-stopped' restart_retries: description: - Use with restart policy to control maximum number of restart attempts. type: int runtime: description: - Runtime to use for the container. type: str shm_size: description: - "Size of C(/dev/shm) in format C([]). Number is positive integer. Unit can be C(B) (byte), C(K) (kibibyte, 1024B), C(M) (mebibyte), C(G) (gibibyte), C(T) (tebibyte), or C(P) (pebibyte)." - Omitting the unit defaults to bytes. If you omit the size entirely, Docker daemon uses C(64M). type: str security_opts: description: - List of security options in the form of C("label:user:User"). type: list elements: str state: description: - 'C(absent) - A container matching the specified name will be stopped and removed. Use I(force_kill) to kill the container rather than stopping it. Use I(keep_volumes) to retain anonymous volumes associated with the removed container.' - 'C(present) - Asserts the existence of a container matching the name and any provided configuration parameters. If no container matches the name, a container will be created. If a container matches the name but the provided configuration does not match, the container will be updated, if it can be. If it cannot be updated, it will be removed and re-created with the requested config.' - 'C(started) - Asserts that the container is first C(present), and then if the container is not running moves it to a running state. Use I(restart) to force a matching container to be stopped and restarted.' - 'C(stopped) - Asserts that the container is first C(present), and then if the container is running moves it to a stopped state.' - To control what will be taken into account when comparing configuration, see the I(comparisons) option. To avoid that the image version will be taken into account, you can also use the I(ignore_image) option. - Use the I(recreate) option to always force re-creation of a matching container, even if it is running. - If the container should be killed instead of stopped in case it needs to be stopped for recreation, or because I(state) is C(stopped), please use the I(force_kill) option. Use I(keep_volumes) to retain anonymous volumes associated with a removed container. - Use I(keep_volumes) to retain anonymous volumes associated with a removed container. type: str default: started choices: - absent - present - stopped - started stop_signal: description: - Override default signal used to stop the container. type: str stop_timeout: description: - Number of seconds to wait for the container to stop before sending C(SIGKILL). When the container is created by this module, its C(StopTimeout) configuration will be set to this value. - When the container is stopped, will be used as a timeout for stopping the container. In case the container has a custom C(StopTimeout) configuration, the behavior depends on the version of the docker daemon. New versions of the docker daemon will always use the container's configured C(StopTimeout) value if it has been configured. type: int storage_opts: description: - Storage driver options for this container as a key-value mapping. type: dict version_added: 1.3.0 tmpfs: description: - Mount a tmpfs directory. type: list elements: str tty: description: - Allocate a pseudo-TTY. - If I(container_default_behavior) is set to C(compatiblity), this option has a default of C(false). type: bool ulimits: description: - "List of ulimit options. A ulimit is specified as C(nofile:262144:262144)." type: list elements: str sysctls: description: - Dictionary of key,value pairs. type: dict user: description: - Sets the username or UID used and optionally the groupname or GID for the specified command. - "Can be of the forms C(user), C(user:group), C(uid), C(uid:gid), C(user:gid) or C(uid:group)." type: str uts: description: - Set the UTS namespace mode for the container. type: str volumes: description: - List of volumes to mount within the container. - "Use docker CLI-style syntax: C(/host:/container[:mode])" - "Mount modes can be a comma-separated list of various modes such as C(ro), C(rw), C(consistent), C(delegated), C(cached), C(rprivate), C(private), C(rshared), C(shared), C(rslave), C(slave), and C(nocopy). Note that the docker daemon might not support all modes and combinations of such modes." - SELinux hosts can additionally use C(z) or C(Z) to use a shared or private label for the volume. - "Note that Ansible 2.7 and earlier only supported one mode, which had to be one of C(ro), C(rw), C(z), and C(Z)." type: list elements: str volume_driver: description: - The container volume driver. type: str volumes_from: description: - List of container names or IDs to get volumes from. type: list elements: str working_dir: description: - Path to the working directory. type: str extends_documentation_fragment: - community.docker.docker - community.docker.docker.docker_py_1_documentation author: - "Cove Schneider (@cove)" - "Joshua Conner (@joshuaconner)" - "Pavel Antonov (@softzilla)" - "Thomas Steinbach (@ThomasSteinbach)" - "Philippe Jandot (@zfil)" - "Daan Oosterveld (@dusdanig)" - "Chris Houseknecht (@chouseknecht)" - "Kassian Sun (@kassiansun)" - "Felix Fontein (@felixfontein)" requirements: - "L(Docker SDK for Python,https://docker-py.readthedocs.io/en/stable/) >= 1.8.0 (use L(docker-py,https://pypi.org/project/docker-py/) for Python 2.6)" - "Docker API >= 1.20" ''' EXAMPLES = ''' - name: Create a data container community.docker.docker_container: name: mydata image: busybox volumes: - /data - name: Re-create a redis container community.docker.docker_container: name: myredis image: redis command: redis-server --appendonly yes state: present recreate: yes exposed_ports: - 6379 volumes_from: - mydata - name: Restart a container community.docker.docker_container: name: myapplication image: someuser/appimage state: started restart: yes links: - "myredis:aliasedredis" devices: - "/dev/sda:/dev/xvda:rwm" ports: # Publish container port 9000 as host port 8080 - "8080:9000" # Publish container UDP port 9001 as host port 8081 on interface 127.0.0.1 - "127.0.0.1:8081:9001/udp" # Publish container port 9002 as a random host port - "9002" # Publish container port 9003 as a free host port in range 8000-8100 # (the host port will be selected by the Docker daemon) - "8000-8100:9003" # Publish container ports 9010-9020 to host ports 7000-7010 - "7000-7010:9010-9020" env: SECRET_KEY: "ssssh" # Values which might be parsed as numbers, booleans or other types by the YAML parser need to be quoted BOOLEAN_KEY: "yes" - name: Container present community.docker.docker_container: name: mycontainer state: present image: ubuntu:14.04 command: sleep infinity - name: Stop a container community.docker.docker_container: name: mycontainer state: stopped - name: Start 4 load-balanced containers community.docker.docker_container: name: "container{{ item }}" recreate: yes image: someuser/anotherappimage command: sleep 1d with_sequence: count=4 - name: Remove container community.docker.docker_container: name: ohno state: absent - name: Syslogging output community.docker.docker_container: name: myservice image: busybox log_driver: syslog log_options: syslog-address: tcp://my-syslog-server:514 syslog-facility: daemon # NOTE: in Docker 1.13+ the "syslog-tag" option was renamed to "tag" for # older docker installs, use "syslog-tag" instead tag: myservice - name: Create db container and connect to network community.docker.docker_container: name: db_test image: "postgres:latest" networks: - name: "{{ docker_network_name }}" - name: Start container, connect to network and link community.docker.docker_container: name: sleeper image: ubuntu:14.04 networks: - name: TestingNet ipv4_address: "172.16.1.100" aliases: - sleepyzz links: - db_test:db - name: TestingNet2 - name: Start a container with a command community.docker.docker_container: name: sleepy image: ubuntu:14.04 command: ["sleep", "infinity"] - name: Add container to networks community.docker.docker_container: name: sleepy networks: - name: TestingNet ipv4_address: 172.16.1.18 links: - sleeper - name: TestingNet2 ipv4_address: 172.16.10.20 - name: Update network with aliases community.docker.docker_container: name: sleepy networks: - name: TestingNet aliases: - sleepyz - zzzz - name: Remove container from one network community.docker.docker_container: name: sleepy networks: - name: TestingNet2 purge_networks: yes - name: Remove container from all networks community.docker.docker_container: name: sleepy purge_networks: yes - name: Start a container and use an env file community.docker.docker_container: name: agent image: jenkinsci/ssh-slave env_file: /var/tmp/jenkins/agent.env - name: Create a container with limited capabilities community.docker.docker_container: name: sleepy image: ubuntu:16.04 command: sleep infinity capabilities: - sys_time cap_drop: - all - name: Finer container restart/update control community.docker.docker_container: name: test image: ubuntu:18.04 env: arg1: "true" arg2: "whatever" volumes: - /tmp:/tmp comparisons: image: ignore # do not restart containers with older versions of the image env: strict # we want precisely this environment volumes: allow_more_present # if there are more volumes, that's ok, as long as `/tmp:/tmp` is there - name: Finer container restart/update control II community.docker.docker_container: name: test image: ubuntu:18.04 env: arg1: "true" arg2: "whatever" comparisons: '*': ignore # by default, ignore *all* options (including image) env: strict # except for environment variables; there, we want to be strict - name: Start container with healthstatus community.docker.docker_container: name: nginx-proxy image: nginx:1.13 state: started healthcheck: # Check if nginx server is healthy by curl'ing the server. # If this fails or timeouts, the healthcheck fails. test: ["CMD", "curl", "--fail", "http://nginx.host.com"] interval: 1m30s timeout: 10s retries: 3 start_period: 30s - name: Remove healthcheck from container community.docker.docker_container: name: nginx-proxy image: nginx:1.13 state: started healthcheck: # The "NONE" check needs to be specified test: ["NONE"] - name: Start container with block device read limit community.docker.docker_container: name: test image: ubuntu:18.04 state: started device_read_bps: # Limit read rate for /dev/sda to 20 mebibytes per second - path: /dev/sda rate: 20M device_read_iops: # Limit read rate for /dev/sdb to 300 IO per second - path: /dev/sdb rate: 300 - name: Start container with GPUs community.docker.docker_container: name: test image: ubuntu:18.04 state: started device_requests: - # Add some specific devices to this container device_ids: - '0' - 'GPU-3a23c669-1f69-c64e-cf85-44e9b07e7a2a' - # Add nVidia GPUs to this container driver: nvidia count: -1 # this means we want all capabilities: # We have one OR condition: 'gpu' AND 'utility' - - gpu - utility # See https://github.com/NVIDIA/nvidia-container-runtime#supported-driver-capabilities # for a list of capabilities supported by the nvidia driver - name: Start container with storage options community.docker.docker_container: name: test image: ubuntu:18.04 state: started storage_opts: # Limit root filesystem to 12 MB - note that this requires special storage backends # (https://fabianlee.org/2020/01/15/docker-use-overlay2-with-an-xfs-backing-filesystem-to-limit-rootfs-size/) size: 12m ''' RETURN = ''' container: description: - Facts representing the current state of the container. Matches the docker inspection output. - Empty if I(state) is C(absent). - If I(detach=false), will include C(Output) attribute containing any output from container run. returned: success; or when I(state=started) and I(detach=false), and when waiting for the container result did not fail type: dict sample: '{ "AppArmorProfile": "", "Args": [], "Config": { "AttachStderr": false, "AttachStdin": false, "AttachStdout": false, "Cmd": [ "/usr/bin/supervisord" ], "Domainname": "", "Entrypoint": null, "Env": [ "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin" ], "ExposedPorts": { "443/tcp": {}, "80/tcp": {} }, "Hostname": "8e47bf643eb9", "Image": "lnmp_nginx:v1", "Labels": {}, "OnBuild": null, "OpenStdin": false, "StdinOnce": false, "Tty": false, "User": "", "Volumes": { "/tmp/lnmp/nginx-sites/logs/": {} }, ... }' status: description: - In case a container is started without detaching, this contains the exit code of the process in the container. - Before community.docker 1.1.0, this was only returned when non-zero. returned: when I(state=started) and I(detach=false), and when waiting for the container result did not fail type: int sample: 0 ''' import os import pipes import re import shlex import traceback from time import sleep from ansible.module_utils.common.text.formatters import human_to_bytes from ansible.module_utils.six import string_types from ansible.module_utils.common.text.converters import to_native, to_text from ansible_collections.community.docker.plugins.module_utils.version import LooseVersion from ansible_collections.community.docker.plugins.module_utils.common import ( AnsibleDockerClient, DifferenceTracker, DockerBaseClass, compare_generic, is_image_name_id, sanitize_result, clean_dict_booleans_for_docker_api, omit_none_from_dict, parse_healthcheck, DOCKER_COMMON_ARGS, RequestException, ) try: from docker import utils from ansible_collections.community.docker.plugins.module_utils.common import docker_version if LooseVersion(docker_version) >= LooseVersion('1.10.0'): from docker.types import Ulimit, LogConfig from docker import types as docker_types else: from docker.utils.types import Ulimit, LogConfig from docker.errors import DockerException, APIError, NotFound except Exception: # missing Docker SDK for Python handled in ansible.module_utils.docker.common pass def shell_join(parts): if getattr(shlex, 'quote', None): quote = shlex.quote else: quote = pipes.quote return ' '.join([quote(part) for part in parts]) REQUIRES_CONVERSION_TO_BYTES = [ 'kernel_memory', 'memory', 'memory_reservation', 'memory_swap', 'shm_size' ] def is_volume_permissions(mode): for part in mode.split(','): if part not in ('rw', 'ro', 'z', 'Z', 'consistent', 'delegated', 'cached', 'rprivate', 'private', 'rshared', 'shared', 'rslave', 'slave', 'nocopy'): return False return True def parse_port_range(range_or_port, client): ''' Parses a string containing either a single port or a range of ports. Returns a list of integers for each port in the list. ''' if '-' in range_or_port: try: start, end = [int(port) for port in range_or_port.split('-')] except Exception: client.fail('Invalid port range: "{0}"'.format(range_or_port)) if end < start: client.fail('Invalid port range: "{0}"'.format(range_or_port)) return list(range(start, end + 1)) else: try: return [int(range_or_port)] except Exception: client.fail('Invalid port: "{0}"'.format(range_or_port)) def split_colon_ipv6(text, client): ''' Split string by ':', while keeping IPv6 addresses in square brackets in one component. ''' if '[' not in text: return text.split(':') start = 0 result = [] while start < len(text): i = text.find('[', start) if i < 0: result.extend(text[start:].split(':')) break j = text.find(']', i) if j < 0: client.fail('Cannot find closing "]" in input "{0}" for opening "[" at index {1}!'.format(text, i + 1)) result.extend(text[start:i].split(':')) k = text.find(':', j) if k < 0: result[-1] += text[i:] start = len(text) else: result[-1] += text[i:k] if k == len(text): result.append('') break start = k + 1 return result class TaskParameters(DockerBaseClass): ''' Access and parse module parameters ''' def __init__(self, client): super(TaskParameters, self).__init__() self.client = client self.auto_remove = None self.blkio_weight = None self.capabilities = None self.cap_drop = None self.cleanup = None self.command = None self.cpu_period = None self.cpu_quota = None self.cpus = None self.cpuset_cpus = None self.cpuset_mems = None self.cpu_shares = None self.debug = None self.default_host_ip = None self.detach = None self.devices = None self.device_read_bps = None self.device_write_bps = None self.device_read_iops = None self.device_write_iops = None self.device_requests = None self.dns_servers = None self.dns_opts = None self.dns_search_domains = None self.domainname = None self.env = None self.env_file = None self.entrypoint = None self.etc_hosts = None self.exposed_ports = None self.force_kill = None self.groups = None self.healthcheck = None self.hostname = None self.ignore_image = None self.image = None self.init = None self.interactive = None self.ipc_mode = None self.keep_volumes = None self.kernel_memory = None self.kill_signal = None self.labels = None self.links = None self.log_driver = None self.output_logs = None self.log_options = None self.mac_address = None self.memory = None self.memory_reservation = None self.memory_swap = None self.memory_swappiness = None self.mounts = None self.name = None self.network_mode = None self.userns_mode = None self.networks = None self.networks_cli_compatible = None self.oom_killer = None self.oom_score_adj = None self.paused = None self.pid_mode = None self.pids_limit = None self.privileged = None self.purge_networks = None self.pull = None self.read_only = None self.recreate = None self.removal_wait_timeout = None self.restart = None self.restart_retries = None self.restart_policy = None self.runtime = None self.shm_size = None self.security_opts = None self.state = None self.stop_signal = None self.stop_timeout = None self.storage_opts = None self.tmpfs = None self.tty = None self.user = None self.uts = None self.volumes = None self.volume_binds = dict() self.volumes_from = None self.volume_driver = None self.working_dir = None for key, value in client.module.params.items(): setattr(self, key, value) self.comparisons = client.comparisons # If state is 'absent', parameters do not have to be parsed or interpreted. # Only the container's name is needed. if self.state == 'absent': return if self.default_host_ip: valid_ip = False if re.match(r'^[0-9]+\.[0-9]+\.[0-9]+\.[0-9]+$', self.default_host_ip): valid_ip = True if re.match(r'^\[[0-9a-fA-F:]+\]$', self.default_host_ip): valid_ip = True if re.match(r'^[0-9a-fA-F:]+$', self.default_host_ip): self.default_host_ip = '[{0}]'.format(self.default_host_ip) valid_ip = True if not valid_ip: self.fail('The value of default_host_ip must be an empty string, an IPv4 address, ' 'or an IPv6 address. Got "{0}" instead.'.format(self.default_host_ip)) if self.cpus is not None: self.cpus = int(round(self.cpus * 1E9)) if self.groups: # In case integers are passed as groups, we need to convert them to # strings as docker internally treats them as strings. self.groups = [to_text(g, errors='surrogate_or_strict') for g in self.groups] for param_name in REQUIRES_CONVERSION_TO_BYTES: if client.module.params.get(param_name): if param_name == 'memory_swap' and client.module.params.get(param_name) in ['unlimited', '-1']: setattr(self, param_name, -1) else: try: setattr(self, param_name, human_to_bytes(client.module.params.get(param_name))) except ValueError as exc: self.fail("Failed to convert %s to bytes: %s" % (param_name, to_native(exc))) self.published_ports = self._parse_publish_ports() if self.published_ports == 'all': if self.publish_all_ports is None: self.publish_all_ports = True self.published_ports = None else: self.fail('"all" is not a valid value for "published_ports" when "publish_all_ports" is specified') self.ports = self._parse_exposed_ports(self.published_ports) self.log("expose ports:") self.log(self.ports, pretty_print=True) self.links = self._parse_links(self.links) if self.volumes: self.volumes = self._expand_host_paths() self.tmpfs = self._parse_tmpfs() self.env = self._get_environment() self.ulimits = self._parse_ulimits() self.sysctls = self._parse_sysctls() self.log_config = self._parse_log_config() try: self.healthcheck, self.disable_healthcheck = parse_healthcheck(self.healthcheck) except ValueError as e: self.fail(to_native(e)) self.exp_links = None self.volume_binds = self._get_volume_binds(self.volumes) self.pid_mode = self._replace_container_names(self.pid_mode) self.ipc_mode = self._replace_container_names(self.ipc_mode) self.network_mode = self._replace_container_names(self.network_mode) self.log("volumes:") self.log(self.volumes, pretty_print=True) self.log("volume binds:") self.log(self.volume_binds, pretty_print=True) if self.networks: for network in self.networks: network['id'] = self._get_network_id(network['name']) if not network['id']: self.fail("Parameter error: network named %s could not be found. Does it exist?" % network['name']) if network.get('links'): network['links'] = self._parse_links(network['links']) if self.mac_address: # Ensure the MAC address uses colons instead of hyphens for later comparison self.mac_address = self.mac_address.replace('-', ':') if client.module.params['command_handling'] == 'correct': if self.entrypoint is not None: self.entrypoint = [to_text(x, errors='surrogate_or_strict') for x in self.entrypoint] if self.command is not None: if not isinstance(self.command, list): # convert from str to list self.command = shlex.split(to_text(self.command, errors='surrogate_or_strict')) self.command = [to_text(x, errors='surrogate_or_strict') for x in self.command] else: will_change = False if self.entrypoint: # convert from list to str. correct_entrypoint = [to_text(x, errors='surrogate_or_strict') for x in self.entrypoint] self.entrypoint = shlex.split(' '.join([to_text(x, errors='surrogate_or_strict') for x in self.entrypoint])) self.entrypoint = [to_text(x, errors='surrogate_or_strict') for x in self.entrypoint] if correct_entrypoint != self.entrypoint: will_change = True elif self.entrypoint is not None: will_change = True if self.command: # convert from list to str if isinstance(self.command, list): correct_command = [to_text(x, errors='surrogate_or_strict') for x in self.command] self.command = shlex.split(' '.join([to_text(x, errors='surrogate_or_strict') for x in self.command])) self.command = [to_text(x, errors='surrogate_or_strict') for x in self.command] if correct_command != self.command: will_change = True else: self.command = shlex.split(to_text(self.command, errors='surrogate_or_strict')) self.command = [to_text(x, errors='surrogate_or_strict') for x in self.command] elif self.command is not None: will_change = True if will_change and client.module.params['command_handling'] is None: client.module.deprecate( 'The command_handling option will change its default value from "compatibility" to ' '"correct" in community.docker 3.0.0. To remove this warning, please specify an explicit value for it now', version='3.0.0', collection_name='community.docker' ) self.mounts_opt, self.expected_mounts = self._process_mounts() self._check_mount_target_collisions() for param_name in ["device_read_bps", "device_write_bps"]: if client.module.params.get(param_name): self._process_rate_bps(option=param_name) for param_name in ["device_read_iops", "device_write_iops"]: if client.module.params.get(param_name): self._process_rate_iops(option=param_name) if self.device_requests: for dr_index, dr in enumerate(self.device_requests): # Make sure that capabilities are lists of lists of strings if dr['capabilities']: for or_index, or_list in enumerate(dr['capabilities']): for and_index, and_term in enumerate(or_list): if not isinstance(and_term, string_types): self.fail( "device_requests[{0}].capabilities[{1}][{2}] is not a string".format( dr_index, or_index, and_index)) or_list[and_index] = to_native(and_term) # Make sure that options is a dictionary mapping strings to strings if dr['options']: dr['options'] = clean_dict_booleans_for_docker_api(dr['options']) def fail(self, msg): self.client.fail(msg) @property def update_parameters(self): ''' Returns parameters used to update a container ''' update_parameters = dict( blkio_weight='blkio_weight', cpu_period='cpu_period', cpu_quota='cpu_quota', cpu_shares='cpu_shares', cpuset_cpus='cpuset_cpus', cpuset_mems='cpuset_mems', mem_limit='memory', mem_reservation='memory_reservation', memswap_limit='memory_swap', kernel_memory='kernel_memory', restart_policy='restart_policy', ) result = dict() for key, value in update_parameters.items(): if getattr(self, value, None) is not None: if key == 'restart_policy' and self.client.option_minimal_versions[value]['supported']: restart_policy = dict(Name=self.restart_policy, MaximumRetryCount=self.restart_retries) result[key] = restart_policy elif self.client.option_minimal_versions[value]['supported']: result[key] = getattr(self, value) return result @property def create_parameters(self): ''' Returns parameters used to create a container ''' create_params = dict( command='command', domainname='domainname', hostname='hostname', user='user', detach='detach', stdin_open='interactive', tty='tty', ports='ports', environment='env', name='name', entrypoint='entrypoint', mac_address='mac_address', labels='labels', stop_signal='stop_signal', working_dir='working_dir', stop_timeout='stop_timeout', healthcheck='healthcheck', ) if self.client.docker_py_version < LooseVersion('3.0'): # cpu_shares and volume_driver moved to create_host_config in > 3 create_params['cpu_shares'] = 'cpu_shares' create_params['volume_driver'] = 'volume_driver' result = dict( host_config=self._host_config(), volumes=self._get_mounts(), ) for key, value in create_params.items(): if getattr(self, value, None) is not None: if self.client.option_minimal_versions[value]['supported']: result[key] = getattr(self, value) if self.disable_healthcheck: # Make sure image's health check is overridden result['healthcheck'] = {'test': ['NONE']} if self.networks_cli_compatible and self.networks: network = self.networks[0] params = dict() for para in ('ipv4_address', 'ipv6_address', 'links', 'aliases'): if network.get(para): params[para] = network[para] network_config = dict() network_config[network['name']] = self.client.create_endpoint_config(**params) result['networking_config'] = self.client.create_networking_config(network_config) return result def _expand_host_paths(self): new_vols = [] for vol in self.volumes: if ':' in vol: parts = vol.split(':') if len(parts) == 3: host, container, mode = parts if not is_volume_permissions(mode): self.fail('Found invalid volumes mode: {0}'.format(mode)) if re.match(r'[.~]', host): host = os.path.abspath(os.path.expanduser(host)) new_vols.append("%s:%s:%s" % (host, container, mode)) continue elif len(parts) == 2: if not is_volume_permissions(parts[1]) and re.match(r'[.~]', parts[0]): host = os.path.abspath(os.path.expanduser(parts[0])) new_vols.append("%s:%s:rw" % (host, parts[1])) continue new_vols.append(vol) return new_vols def _get_mounts(self): ''' Return a list of container mounts. :return: ''' result = [] if self.volumes: for vol in self.volumes: # Only pass anonymous volumes to create container if ':' in vol: parts = vol.split(':') if len(parts) == 3: continue if len(parts) == 2: if not is_volume_permissions(parts[1]): continue result.append(vol) self.log("mounts:") self.log(result, pretty_print=True) return result def _host_config(self): ''' Returns parameters used to create a HostConfig object ''' host_config_params = dict( port_bindings='published_ports', publish_all_ports='publish_all_ports', links='links', privileged='privileged', cgroup_parent='cgroup_parent', dns='dns_servers', dns_opt='dns_opts', dns_search='dns_search_domains', binds='volume_binds', volumes_from='volumes_from', network_mode='network_mode', userns_mode='userns_mode', cap_add='capabilities', cap_drop='cap_drop', extra_hosts='etc_hosts', read_only='read_only', ipc_mode='ipc_mode', security_opt='security_opts', ulimits='ulimits', sysctls='sysctls', log_config='log_config', mem_limit='memory', memswap_limit='memory_swap', mem_swappiness='memory_swappiness', oom_score_adj='oom_score_adj', oom_kill_disable='oom_killer', shm_size='shm_size', group_add='groups', devices='devices', pid_mode='pid_mode', tmpfs='tmpfs', init='init', uts_mode='uts', runtime='runtime', auto_remove='auto_remove', device_read_bps='device_read_bps', device_write_bps='device_write_bps', device_read_iops='device_read_iops', device_write_iops='device_write_iops', pids_limit='pids_limit', mounts='mounts', nano_cpus='cpus', storage_opt='storage_opts', ) if self.client.docker_py_version >= LooseVersion('1.9') and self.client.docker_api_version >= LooseVersion('1.22'): # blkio_weight can always be updated, but can only be set on creation # when Docker SDK for Python and Docker API are new enough host_config_params['blkio_weight'] = 'blkio_weight' if self.client.docker_py_version >= LooseVersion('3.0'): # cpu_shares and volume_driver moved to create_host_config in > 3 host_config_params['cpu_shares'] = 'cpu_shares' host_config_params['volume_driver'] = 'volume_driver' params = dict() for key, value in host_config_params.items(): if getattr(self, value, None) is not None: if self.client.option_minimal_versions[value]['supported']: params[key] = getattr(self, value) if self.restart_policy: params['restart_policy'] = dict(Name=self.restart_policy, MaximumRetryCount=self.restart_retries) if 'mounts' in params: params['mounts'] = self.mounts_opt if self.device_requests is not None: params['device_requests'] = [dict((k, v) for k, v in dr.items() if v is not None) for dr in self.device_requests] return self.client.create_host_config(**params) def get_default_host_ip(self): if self.default_host_ip is not None: return self.default_host_ip ip = '0.0.0.0' if not self.networks: return ip for net in self.networks: if net.get('name'): try: network = self.client.inspect_network(net['name']) if network.get('Driver') == 'bridge' and \ network.get('Options', {}).get('com.docker.network.bridge.host_binding_ipv4'): ip = network['Options']['com.docker.network.bridge.host_binding_ipv4'] break except NotFound as nfe: self.client.fail( "Cannot inspect the network '{0}' to determine the default IP: {1}".format(net['name'], to_native(nfe)), exception=traceback.format_exc() ) return ip def _parse_publish_ports(self): ''' Parse ports from docker CLI syntax ''' if self.published_ports is None: return None if 'all' in self.published_ports: if len(self.published_ports) > 1: self.client.module.fail_json(msg='"all" can no longer be specified in published_ports next to ' 'other values. Set publish_all_ports to "true" to randomly ' 'assign port mappings for those not specified by published_ports.') self.client.module.deprecate( 'Specifying "all" in published_ports is deprecated. Set publish_all_ports to "true" instead ' 'to randomly assign port mappings for those not specified by published_ports', collection_name='community.docker', version='3.0.0') return 'all' default_ip = self.get_default_host_ip() binds = {} for port in self.published_ports: parts = split_colon_ipv6(to_text(port, errors='surrogate_or_strict'), self.client) container_port = parts[-1] protocol = '' if '/' in container_port: container_port, protocol = parts[-1].split('/') container_ports = parse_port_range(container_port, self.client) p_len = len(parts) if p_len == 1: port_binds = len(container_ports) * [(default_ip,)] elif p_len == 2: if len(container_ports) == 1: port_binds = [(default_ip, parts[0])] else: port_binds = [(default_ip, port) for port in parse_port_range(parts[0], self.client)] elif p_len == 3: # We only allow IPv4 and IPv6 addresses for the bind address ipaddr = parts[0] if not re.match(r'^[0-9]+\.[0-9]+\.[0-9]+\.[0-9]+$', parts[0]) and not re.match(r'^\[[0-9a-fA-F:]+(?:|%[^\]/]+)\]$', ipaddr): self.fail(('Bind addresses for published ports must be IPv4 or IPv6 addresses, not hostnames. ' 'Use the dig lookup to resolve hostnames. (Found hostname: {0})').format(ipaddr)) if re.match(r'^\[[0-9a-fA-F:]+\]$', ipaddr): ipaddr = ipaddr[1:-1] if parts[1]: if len(container_ports) == 1: port_binds = [(ipaddr, parts[1])] else: port_binds = [(ipaddr, port) for port in parse_port_range(parts[1], self.client)] else: port_binds = len(container_ports) * [(ipaddr,)] for bind, container_port in zip(port_binds, container_ports): idx = '{0}/{1}'.format(container_port, protocol) if protocol else container_port if idx in binds: old_bind = binds[idx] if isinstance(old_bind, list): old_bind.append(bind) else: binds[idx] = [old_bind, bind] else: binds[idx] = bind return binds def _get_volume_binds(self, volumes): ''' Extract host bindings, if any, from list of volume mapping strings. :return: dictionary of bind mappings ''' result = dict() if volumes: for vol in volumes: host = None if ':' in vol: parts = vol.split(':') if len(parts) == 3: host, container, mode = parts if not is_volume_permissions(mode): self.fail('Found invalid volumes mode: {0}'.format(mode)) elif len(parts) == 2: if not is_volume_permissions(parts[1]): host, container, mode = (parts + ['rw']) if host is not None: result[host] = dict( bind=container, mode=mode ) return result def _parse_exposed_ports(self, published_ports): ''' Parse exposed ports from docker CLI-style ports syntax. ''' exposed = [] if self.exposed_ports: for port in self.exposed_ports: port = to_text(port, errors='surrogate_or_strict').strip() protocol = 'tcp' match = re.search(r'(/.+$)', port) if match: protocol = match.group(1).replace('/', '') port = re.sub(r'/.+$', '', port) exposed.append((port, protocol)) if published_ports: # Any published port should also be exposed for publish_port in published_ports: match = False if isinstance(publish_port, string_types) and '/' in publish_port: port, protocol = publish_port.split('/') port = int(port) else: protocol = 'tcp' port = int(publish_port) for exposed_port in exposed: if exposed_port[1] != protocol: continue if isinstance(exposed_port[0], string_types) and '-' in exposed_port[0]: start_port, end_port = exposed_port[0].split('-') if int(start_port) <= port <= int(end_port): match = True elif exposed_port[0] == port: match = True if not match: exposed.append((port, protocol)) return exposed @staticmethod def _parse_links(links): ''' Turn links into a dictionary ''' if links is None: return None result = [] for link in links: parsed_link = link.split(':', 1) if len(parsed_link) == 2: result.append((parsed_link[0], parsed_link[1])) else: result.append((parsed_link[0], parsed_link[0])) return result def _parse_ulimits(self): ''' Turn ulimits into an array of Ulimit objects ''' if self.ulimits is None: return None results = [] for limit in self.ulimits: limits = dict() pieces = limit.split(':') if len(pieces) >= 2: limits['name'] = pieces[0] limits['soft'] = int(pieces[1]) limits['hard'] = int(pieces[1]) if len(pieces) == 3: limits['hard'] = int(pieces[2]) try: results.append(Ulimit(**limits)) except ValueError as exc: self.fail("Error parsing ulimits value %s - %s" % (limit, to_native(exc))) return results def _parse_sysctls(self): ''' Turn sysctls into an hash of Sysctl objects ''' return self.sysctls def _parse_log_config(self): ''' Create a LogConfig object ''' if self.log_driver is None: return None options = dict( Type=self.log_driver, Config=dict() ) if self.log_options is not None: options['Config'] = dict() for k, v in self.log_options.items(): if not isinstance(v, string_types): self.client.module.warn( "Non-string value found for log_options option '%s'. The value is automatically converted to '%s'. " "If this is not correct, or you want to avoid such warnings, please quote the value." % ( k, to_text(v, errors='surrogate_or_strict')) ) v = to_text(v, errors='surrogate_or_strict') self.log_options[k] = v options['Config'][k] = v try: return LogConfig(**options) except ValueError as exc: self.fail('Error parsing logging options - %s' % (to_native(exc), )) def _parse_tmpfs(self): ''' Turn tmpfs into a hash of Tmpfs objects ''' result = dict() if self.tmpfs is None: return result for tmpfs_spec in self.tmpfs: split_spec = tmpfs_spec.split(":", 1) if len(split_spec) > 1: result[split_spec[0]] = split_spec[1] else: result[split_spec[0]] = "" return result def _get_environment(self): """ If environment file is combined with explicit environment variables, the explicit environment variables take precedence. """ final_env = {} if self.env_file: parsed_env_file = utils.parse_env_file(self.env_file) for name, value in parsed_env_file.items(): final_env[name] = to_text(value, errors='surrogate_or_strict') if self.env: for name, value in self.env.items(): if not isinstance(value, string_types): self.fail("Non-string value found for env option. Ambiguous env options must be " "wrapped in quotes to avoid them being interpreted. Key: %s" % (name, )) final_env[name] = to_text(value, errors='surrogate_or_strict') return final_env def _get_network_id(self, network_name): network_id = None try: for network in self.client.networks(names=[network_name]): if network['Name'] == network_name: network_id = network['Id'] break except Exception as exc: self.fail("Error getting network id for %s - %s" % (network_name, to_native(exc))) return network_id def _process_mounts(self): if self.mounts is None: return None, None mounts_list = [] mounts_expected = [] for mount in self.mounts: target = mount['target'] datatype = mount['type'] mount_dict = dict(mount) # Sanity checks (so we don't wait for docker-py to barf on input) if mount_dict.get('source') is None and datatype not in ('tmpfs', 'volume'): self.client.fail('source must be specified for mount "{0}" of type "{1}"'.format(target, datatype)) mount_option_types = dict( volume_driver='volume', volume_options='volume', propagation='bind', no_copy='volume', labels='volume', tmpfs_size='tmpfs', tmpfs_mode='tmpfs', ) for option, req_datatype in mount_option_types.items(): if mount_dict.get(option) is not None and datatype != req_datatype: self.client.fail('{0} cannot be specified for mount "{1}" of type "{2}" (needs type "{3}")'.format(option, target, datatype, req_datatype)) # Handle volume_driver and volume_options volume_driver = mount_dict.pop('volume_driver') volume_options = mount_dict.pop('volume_options') if volume_driver: if volume_options: volume_options = clean_dict_booleans_for_docker_api(volume_options) mount_dict['driver_config'] = docker_types.DriverConfig(name=volume_driver, options=volume_options) if mount_dict['labels']: mount_dict['labels'] = clean_dict_booleans_for_docker_api(mount_dict['labels']) if mount_dict.get('tmpfs_size') is not None: try: mount_dict['tmpfs_size'] = human_to_bytes(mount_dict['tmpfs_size']) except ValueError as exc: self.fail('Failed to convert tmpfs_size of mount "{0}" to bytes: {1}'.format(target, to_native(exc))) if mount_dict.get('tmpfs_mode') is not None: try: mount_dict['tmpfs_mode'] = int(mount_dict['tmpfs_mode'], 8) except Exception as dummy: self.client.fail('tmp_fs mode of mount "{0}" is not an octal string!'.format(target)) # Fill expected mount dict mount_expected = dict(mount) mount_expected['tmpfs_size'] = mount_dict['tmpfs_size'] mount_expected['tmpfs_mode'] = mount_dict['tmpfs_mode'] # Add result to lists mounts_list.append(docker_types.Mount(**mount_dict)) mounts_expected.append(omit_none_from_dict(mount_expected)) return mounts_list, mounts_expected def _process_rate_bps(self, option): """ Format device_read_bps and device_write_bps option """ devices_list = [] for v in getattr(self, option): device_dict = dict((x.title(), y) for x, y in v.items()) device_dict['Rate'] = human_to_bytes(device_dict['Rate']) devices_list.append(device_dict) setattr(self, option, devices_list) def _process_rate_iops(self, option): """ Format device_read_iops and device_write_iops option """ devices_list = [] for v in getattr(self, option): device_dict = dict((x.title(), y) for x, y in v.items()) devices_list.append(device_dict) setattr(self, option, devices_list) def _replace_container_names(self, mode): """ Parse IPC and PID modes. If they contain a container name, replace with the container's ID. """ if mode is None or not mode.startswith('container:'): return mode container_name = mode[len('container:'):] # Try to inspect container to see whether this is an ID or a # name (and in the latter case, retrieve it's ID) container = self.client.get_container(container_name) if container is None: # If we can't find the container, issue a warning and continue with # what the user specified. self.client.module.warn('Cannot find a container with name or ID "{0}"'.format(container_name)) return mode return 'container:{0}'.format(container['Id']) def _check_mount_target_collisions(self): last = dict() def f(t, name): if t in last: if name == last[t]: self.client.fail('The mount point "{0}" appears twice in the {1} option'.format(t, name)) else: self.client.fail('The mount point "{0}" appears both in the {1} and {2} option'.format(t, name, last[t])) last[t] = name if self.expected_mounts: for t in [m['target'] for m in self.expected_mounts]: f(t, 'mounts') if self.volumes: for v in self.volumes: vs = v.split(':') f(vs[0 if len(vs) == 1 else 1], 'volumes') class Container(DockerBaseClass): def __init__(self, container, parameters): super(Container, self).__init__() self.raw = container self.Id = None self.container = container if container: self.Id = container['Id'] self.Image = container['Image'] self.log(self.container, pretty_print=True) self.parameters = parameters self.parameters.expected_links = None self.parameters.expected_ports = None self.parameters.expected_exposed = None self.parameters.expected_volumes = None self.parameters.expected_ulimits = None self.parameters.expected_sysctls = None self.parameters.expected_etc_hosts = None self.parameters.expected_env = None self.parameters.expected_device_requests = None self.parameters_map = dict() self.parameters_map['expected_links'] = 'links' self.parameters_map['expected_ports'] = 'expected_ports' self.parameters_map['expected_exposed'] = 'exposed_ports' self.parameters_map['expected_volumes'] = 'volumes' self.parameters_map['expected_ulimits'] = 'ulimits' self.parameters_map['expected_sysctls'] = 'sysctls' self.parameters_map['expected_etc_hosts'] = 'etc_hosts' self.parameters_map['expected_env'] = 'env' self.parameters_map['expected_entrypoint'] = 'entrypoint' self.parameters_map['expected_binds'] = 'volumes' self.parameters_map['expected_cmd'] = 'command' self.parameters_map['expected_devices'] = 'devices' self.parameters_map['expected_healthcheck'] = 'healthcheck' self.parameters_map['expected_mounts'] = 'mounts' self.parameters_map['expected_device_requests'] = 'device_requests' def fail(self, msg): self.parameters.client.fail(msg) @property def exists(self): return True if self.container else False @property def removing(self): if self.container and self.container.get('State'): return self.container['State'].get('Status') == 'removing' return False @property def running(self): if self.container and self.container.get('State'): if self.container['State'].get('Running') and not self.container['State'].get('Ghost', False): return True return False @property def paused(self): if self.container and self.container.get('State'): return self.container['State'].get('Paused', False) return False def _compare(self, a, b, compare): ''' Compare values a and b as described in compare. ''' return compare_generic(a, b, compare['comparison'], compare['type']) def _decode_mounts(self, mounts): if not mounts: return mounts result = [] empty_dict = dict() for mount in mounts: res = dict() res['type'] = mount.get('Type') res['source'] = mount.get('Source') res['target'] = mount.get('Target') res['read_only'] = mount.get('ReadOnly', False) # golang's omitempty for bool returns None for False res['consistency'] = mount.get('Consistency') res['propagation'] = mount.get('BindOptions', empty_dict).get('Propagation') res['no_copy'] = mount.get('VolumeOptions', empty_dict).get('NoCopy', False) res['labels'] = mount.get('VolumeOptions', empty_dict).get('Labels', empty_dict) res['volume_driver'] = mount.get('VolumeOptions', empty_dict).get('DriverConfig', empty_dict).get('Name') res['volume_options'] = mount.get('VolumeOptions', empty_dict).get('DriverConfig', empty_dict).get('Options', empty_dict) res['tmpfs_size'] = mount.get('TmpfsOptions', empty_dict).get('SizeBytes') res['tmpfs_mode'] = mount.get('TmpfsOptions', empty_dict).get('Mode') result.append(res) return result def has_different_configuration(self, image): ''' Diff parameters vs existing container config. Returns tuple: (True | False, List of differences) ''' self.log('Starting has_different_configuration') self.parameters.expected_entrypoint = self._get_expected_entrypoint() self.parameters.expected_links = self._get_expected_links() self.parameters.expected_ports = self._get_expected_ports() self.parameters.expected_exposed = self._get_expected_exposed(image) self.parameters.expected_volumes = self._get_expected_volumes(image) self.parameters.expected_binds = self._get_expected_binds(image) self.parameters.expected_ulimits = self._get_expected_ulimits(self.parameters.ulimits) self.parameters.expected_sysctls = self._get_expected_sysctls(self.parameters.sysctls) self.parameters.expected_etc_hosts = self._convert_simple_dict_to_list('etc_hosts') self.parameters.expected_env = self._get_expected_env(image) self.parameters.expected_cmd = self._get_expected_cmd() self.parameters.expected_devices = self._get_expected_devices() self.parameters.expected_healthcheck = self._get_expected_healthcheck() self.parameters.expected_device_requests = self._get_expected_device_requests() if not self.container.get('HostConfig'): self.fail("has_config_diff: Error parsing container properties. HostConfig missing.") if not self.container.get('Config'): self.fail("has_config_diff: Error parsing container properties. Config missing.") if not self.container.get('NetworkSettings'): self.fail("has_config_diff: Error parsing container properties. NetworkSettings missing.") host_config = self.container['HostConfig'] log_config = host_config.get('LogConfig', dict()) config = self.container['Config'] network = self.container['NetworkSettings'] # The previous version of the docker module ignored the detach state by # assuming if the container was running, it must have been detached. detach = not (config.get('AttachStderr') and config.get('AttachStdout')) # "ExposedPorts": null returns None type & causes AttributeError - PR #5517 if config.get('ExposedPorts') is not None: expected_exposed = [self._normalize_port(p) for p in config.get('ExposedPorts', dict()).keys()] else: expected_exposed = [] # Map parameters to container inspect results config_mapping = dict( expected_cmd=config.get('Cmd'), domainname=config.get('Domainname'), hostname=config.get('Hostname'), user=config.get('User'), detach=detach, init=host_config.get('Init'), interactive=config.get('OpenStdin'), capabilities=host_config.get('CapAdd'), cap_drop=host_config.get('CapDrop'), cgroup_parent=host_config.get('CgroupParent'), expected_devices=host_config.get('Devices'), dns_servers=host_config.get('Dns'), dns_opts=host_config.get('DnsOptions'), dns_search_domains=host_config.get('DnsSearch'), expected_env=(config.get('Env') or []), expected_entrypoint=config.get('Entrypoint'), expected_etc_hosts=host_config['ExtraHosts'], expected_exposed=expected_exposed, groups=host_config.get('GroupAdd'), ipc_mode=host_config.get("IpcMode"), labels=config.get('Labels'), expected_links=host_config.get('Links'), mac_address=config.get('MacAddress', network.get('MacAddress')), memory_swappiness=host_config.get('MemorySwappiness'), network_mode=host_config.get('NetworkMode'), userns_mode=host_config.get('UsernsMode'), oom_killer=host_config.get('OomKillDisable'), oom_score_adj=host_config.get('OomScoreAdj'), pid_mode=host_config.get('PidMode'), privileged=host_config.get('Privileged'), expected_ports=host_config.get('PortBindings'), read_only=host_config.get('ReadonlyRootfs'), runtime=host_config.get('Runtime'), shm_size=host_config.get('ShmSize'), security_opts=host_config.get("SecurityOpt"), stop_signal=config.get("StopSignal"), tmpfs=host_config.get('Tmpfs'), tty=config.get('Tty'), expected_ulimits=host_config.get('Ulimits'), expected_sysctls=host_config.get('Sysctls'), uts=host_config.get('UTSMode'), expected_volumes=config.get('Volumes'), expected_binds=host_config.get('Binds'), volume_driver=host_config.get('VolumeDriver'), volumes_from=host_config.get('VolumesFrom'), working_dir=config.get('WorkingDir'), publish_all_ports=host_config.get('PublishAllPorts'), expected_healthcheck=config.get('Healthcheck'), disable_healthcheck=(not config.get('Healthcheck') or config.get('Healthcheck').get('Test') == ['NONE']), device_read_bps=host_config.get('BlkioDeviceReadBps'), device_write_bps=host_config.get('BlkioDeviceWriteBps'), device_read_iops=host_config.get('BlkioDeviceReadIOps'), device_write_iops=host_config.get('BlkioDeviceWriteIOps'), expected_device_requests=host_config.get('DeviceRequests'), pids_limit=host_config.get('PidsLimit'), storage_opts=host_config.get('StorageOpt'), # According to https://github.com/moby/moby/, support for HostConfig.Mounts # has been included at least since v17.03.0-ce, which has API version 1.26. # The previous tag, v1.9.1, has API version 1.21 and does not have # HostConfig.Mounts. I have no idea what about API 1.25... expected_mounts=self._decode_mounts(host_config.get('Mounts')), cpus=host_config.get('NanoCpus'), ) # Options which don't make sense without their accompanying option if self.parameters.log_driver: config_mapping['log_driver'] = log_config.get('Type') config_mapping['log_options'] = log_config.get('Config') if self.parameters.client.option_minimal_versions['auto_remove']['supported']: # auto_remove is only supported in Docker SDK for Python >= 2.0.0; unfortunately # it has a default value, that's why we have to jump through the hoops here config_mapping['auto_remove'] = host_config.get('AutoRemove') if self.parameters.client.option_minimal_versions['stop_timeout']['supported']: # stop_timeout is only supported in Docker SDK for Python >= 2.1. Note that # stop_timeout has a hybrid role, in that it used to be something only used # for stopping containers, and is now also used as a container property. # That's why it needs special handling here. config_mapping['stop_timeout'] = config.get('StopTimeout') if self.parameters.client.docker_api_version < LooseVersion('1.22'): # For docker API < 1.22, update_container() is not supported. Thus # we need to handle all limits which are usually handled by # update_container() as configuration changes which require a container # restart. restart_policy = host_config.get('RestartPolicy', dict()) # Options which don't make sense without their accompanying option if self.parameters.restart_policy: config_mapping['restart_retries'] = restart_policy.get('MaximumRetryCount') config_mapping.update(dict( blkio_weight=host_config.get('BlkioWeight'), cpu_period=host_config.get('CpuPeriod'), cpu_quota=host_config.get('CpuQuota'), cpu_shares=host_config.get('CpuShares'), cpuset_cpus=host_config.get('CpusetCpus'), cpuset_mems=host_config.get('CpusetMems'), kernel_memory=host_config.get("KernelMemory"), memory=host_config.get('Memory'), memory_reservation=host_config.get('MemoryReservation'), memory_swap=host_config.get('MemorySwap'), restart_policy=restart_policy.get('Name') )) differences = DifferenceTracker() for key, value in config_mapping.items(): minimal_version = self.parameters.client.option_minimal_versions.get(key, {}) if not minimal_version.get('supported', True): continue compare = self.parameters.client.comparisons[self.parameters_map.get(key, key)] self.log('check differences %s %s vs %s (%s)' % (key, getattr(self.parameters, key), to_text(value, errors='surrogate_or_strict'), compare)) if getattr(self.parameters, key, None) is not None: match = self._compare(getattr(self.parameters, key), value, compare) if not match: if key == 'expected_healthcheck' and config_mapping['disable_healthcheck'] and self.parameters.disable_healthcheck: # If the healthcheck is disabled (both in parameters and for the current container), and the user # requested strict comparison for healthcheck, the comparison will fail. That's why we ignore the # expected_healthcheck comparison in this case. continue # no match. record the differences p = getattr(self.parameters, key) c = value if compare['type'] == 'set': # Since the order does not matter, sort so that the diff output is better. if p is not None: p = sorted(p) if c is not None: c = sorted(c) elif compare['type'] == 'set(dict)': # Since the order does not matter, sort so that the diff output is better. if key == 'expected_mounts': # For selected values, use one entry as key def sort_key_fn(x): return x['target'] else: # We sort the list of dictionaries by using the sorted items of a dict as its key. def sort_key_fn(x): return sorted((a, to_text(b, errors='surrogate_or_strict')) for a, b in x.items()) if p is not None: p = sorted(p, key=sort_key_fn) if c is not None: c = sorted(c, key=sort_key_fn) differences.add(key, parameter=p, active=c) has_differences = not differences.empty return has_differences, differences def has_different_resource_limits(self): ''' Diff parameters and container resource limits ''' if not self.container.get('HostConfig'): self.fail("limits_differ_from_container: Error parsing container properties. HostConfig missing.") if self.parameters.client.docker_api_version < LooseVersion('1.22'): # update_container() call not supported return False, [] host_config = self.container['HostConfig'] restart_policy = host_config.get('RestartPolicy') or dict() config_mapping = dict( blkio_weight=host_config.get('BlkioWeight'), cpu_period=host_config.get('CpuPeriod'), cpu_quota=host_config.get('CpuQuota'), cpu_shares=host_config.get('CpuShares'), cpuset_cpus=host_config.get('CpusetCpus'), cpuset_mems=host_config.get('CpusetMems'), kernel_memory=host_config.get("KernelMemory"), memory=host_config.get('Memory'), memory_reservation=host_config.get('MemoryReservation'), memory_swap=host_config.get('MemorySwap'), restart_policy=restart_policy.get('Name') ) # Options which don't make sense without their accompanying option if self.parameters.restart_policy: config_mapping['restart_retries'] = restart_policy.get('MaximumRetryCount') differences = DifferenceTracker() for key, value in config_mapping.items(): if getattr(self.parameters, key, None): compare = self.parameters.client.comparisons[self.parameters_map.get(key, key)] match = self._compare(getattr(self.parameters, key), value, compare) if not match: # no match. record the differences differences.add(key, parameter=getattr(self.parameters, key), active=value) different = not differences.empty return different, differences def has_network_differences(self): ''' Check if the container is connected to requested networks with expected options: links, aliases, ipv4, ipv6 ''' different = False differences = [] if not self.parameters.networks: return different, differences if not self.container.get('NetworkSettings'): self.fail("has_missing_networks: Error parsing container properties. NetworkSettings missing.") connected_networks = self.container['NetworkSettings']['Networks'] for network in self.parameters.networks: network_info = connected_networks.get(network['name']) if network_info is None: different = True differences.append(dict( parameter=network, container=None )) else: diff = False network_info_ipam = network_info.get('IPAMConfig') or {} if network.get('ipv4_address') and network['ipv4_address'] != network_info_ipam.get('IPv4Address'): diff = True if network.get('ipv6_address') and network['ipv6_address'] != network_info_ipam.get('IPv6Address'): diff = True if network.get('aliases'): if not compare_generic(network['aliases'], network_info.get('Aliases'), 'allow_more_present', 'set'): diff = True if network.get('links'): expected_links = [] for link, alias in network['links']: expected_links.append("%s:%s" % (link, alias)) if not compare_generic(expected_links, network_info.get('Links'), 'allow_more_present', 'set'): diff = True if diff: different = True differences.append(dict( parameter=network, container=dict( name=network['name'], ipv4_address=network_info_ipam.get('IPv4Address'), ipv6_address=network_info_ipam.get('IPv6Address'), aliases=network_info.get('Aliases'), links=network_info.get('Links') ) )) return different, differences def has_extra_networks(self): ''' Check if the container is connected to non-requested networks ''' extra_networks = [] extra = False if not self.container.get('NetworkSettings'): self.fail("has_extra_networks: Error parsing container properties. NetworkSettings missing.") connected_networks = self.container['NetworkSettings'].get('Networks') if connected_networks: for network, network_config in connected_networks.items(): keep = False if self.parameters.networks: for expected_network in self.parameters.networks: if expected_network['name'] == network: keep = True if not keep: extra = True extra_networks.append(dict(name=network, id=network_config['NetworkID'])) return extra, extra_networks def _get_expected_devices(self): if not self.parameters.devices: return None expected_devices = [] for device in self.parameters.devices: parts = device.split(':') if len(parts) == 1: expected_devices.append( dict( CgroupPermissions='rwm', PathInContainer=parts[0], PathOnHost=parts[0] )) elif len(parts) == 2: parts = device.split(':') expected_devices.append( dict( CgroupPermissions='rwm', PathInContainer=parts[1], PathOnHost=parts[0] ) ) else: expected_devices.append( dict( CgroupPermissions=parts[2], PathInContainer=parts[1], PathOnHost=parts[0] )) return expected_devices def _get_expected_entrypoint(self): if self.parameters.client.module.params['command_handling'] != 'correct' and not self.parameters.entrypoint: return None return self.parameters.entrypoint def _get_expected_ports(self): if self.parameters.published_ports is None: return None expected_bound_ports = {} for container_port, config in self.parameters.published_ports.items(): if isinstance(container_port, int): container_port = "%s/tcp" % container_port if len(config) == 1: if isinstance(config[0], int): expected_bound_ports[container_port] = [{'HostIp': "0.0.0.0", 'HostPort': config[0]}] else: expected_bound_ports[container_port] = [{'HostIp': config[0], 'HostPort': ""}] elif isinstance(config[0], tuple): expected_bound_ports[container_port] = [] for host_ip, host_port in config: expected_bound_ports[container_port].append({'HostIp': host_ip, 'HostPort': to_text(host_port, errors='surrogate_or_strict')}) else: expected_bound_ports[container_port] = [{'HostIp': config[0], 'HostPort': to_text(config[1], errors='surrogate_or_strict')}] return expected_bound_ports def _get_expected_links(self): if self.parameters.links is None: return None self.log('parameter links:') self.log(self.parameters.links, pretty_print=True) exp_links = [] for link, alias in self.parameters.links: exp_links.append("/%s:%s/%s" % (link, ('/' + self.parameters.name), alias)) return exp_links def _get_expected_binds(self, image): self.log('_get_expected_binds') image_vols = [] if image: image_vols = self._get_image_binds(image[self.parameters.client.image_inspect_source].get('Volumes')) param_vols = [] if self.parameters.volumes: for vol in self.parameters.volumes: host = None if ':' in vol: parts = vol.split(':') if len(parts) == 3: host, container, mode = parts if not is_volume_permissions(mode): self.fail('Found invalid volumes mode: {0}'.format(mode)) if len(parts) == 2: if not is_volume_permissions(parts[1]): host, container, mode = parts + ['rw'] if host: param_vols.append("%s:%s:%s" % (host, container, mode)) result = list(set(image_vols + param_vols)) self.log("expected_binds:") self.log(result, pretty_print=True) return result def _get_expected_device_requests(self): if self.parameters.device_requests is None: return None device_requests = [] for dr in self.parameters.device_requests: device_requests.append({ 'Driver': dr['driver'], 'Count': dr['count'], 'DeviceIDs': dr['device_ids'], 'Capabilities': dr['capabilities'], 'Options': dr['options'], }) return device_requests def _get_image_binds(self, volumes): ''' Convert array of binds to array of strings with format host_path:container_path:mode :param volumes: array of bind dicts :return: array of strings ''' results = [] if isinstance(volumes, dict): results += self._get_bind_from_dict(volumes) elif isinstance(volumes, list): for vol in volumes: results += self._get_bind_from_dict(vol) return results @staticmethod def _get_bind_from_dict(volume_dict): results = [] if volume_dict: for host_path, config in volume_dict.items(): if isinstance(config, dict) and config.get('bind'): container_path = config.get('bind') mode = config.get('mode', 'rw') results.append("%s:%s:%s" % (host_path, container_path, mode)) return results def _get_expected_volumes(self, image): self.log('_get_expected_volumes') expected_vols = dict() if image and image[self.parameters.client.image_inspect_source].get('Volumes'): expected_vols.update(image[self.parameters.client.image_inspect_source].get('Volumes')) if self.parameters.volumes: for vol in self.parameters.volumes: # We only expect anonymous volumes to show up in the list if ':' in vol: parts = vol.split(':') if len(parts) == 3: continue if len(parts) == 2: if not is_volume_permissions(parts[1]): continue expected_vols[vol] = dict() if not expected_vols: expected_vols = None self.log("expected_volumes:") self.log(expected_vols, pretty_print=True) return expected_vols def _get_expected_env(self, image): self.log('_get_expected_env') expected_env = dict() if image and image[self.parameters.client.image_inspect_source].get('Env'): for env_var in image[self.parameters.client.image_inspect_source]['Env']: parts = env_var.split('=', 1) expected_env[parts[0]] = parts[1] if self.parameters.env: expected_env.update(self.parameters.env) param_env = [] for key, value in expected_env.items(): param_env.append("%s=%s" % (key, value)) return param_env def _get_expected_exposed(self, image): self.log('_get_expected_exposed') image_ports = [] if image: image_exposed_ports = image[self.parameters.client.image_inspect_source].get('ExposedPorts') or {} image_ports = [self._normalize_port(p) for p in image_exposed_ports.keys()] param_ports = [] if self.parameters.ports: param_ports = [to_text(p[0], errors='surrogate_or_strict') + '/' + p[1] for p in self.parameters.ports] result = list(set(image_ports + param_ports)) self.log(result, pretty_print=True) return result def _get_expected_ulimits(self, config_ulimits): self.log('_get_expected_ulimits') if config_ulimits is None: return None results = [] for limit in config_ulimits: results.append(dict( Name=limit.name, Soft=limit.soft, Hard=limit.hard )) return results def _get_expected_sysctls(self, config_sysctls): self.log('_get_expected_sysctls') if config_sysctls is None: return None result = dict() for key, value in config_sysctls.items(): result[key] = to_text(value, errors='surrogate_or_strict') return result def _get_expected_cmd(self): self.log('_get_expected_cmd') if self.parameters.client.module.params['command_handling'] != 'correct' and not self.parameters.command: return None return self.parameters.command def _convert_simple_dict_to_list(self, param_name, join_with=':'): if getattr(self.parameters, param_name, None) is None: return None results = [] for key, value in getattr(self.parameters, param_name).items(): results.append("%s%s%s" % (key, join_with, value)) return results def _normalize_port(self, port): if '/' not in port: return port + '/tcp' return port def _get_expected_healthcheck(self): self.log('_get_expected_healthcheck') expected_healthcheck = dict() if self.parameters.healthcheck: expected_healthcheck.update([(k.title().replace("_", ""), v) for k, v in self.parameters.healthcheck.items()]) return expected_healthcheck class ContainerManager(DockerBaseClass): ''' Perform container management tasks ''' def __init__(self, client): super(ContainerManager, self).__init__() if client.module.params.get('log_options') and not client.module.params.get('log_driver'): client.module.warn('log_options is ignored when log_driver is not specified') if client.module.params.get('healthcheck') and not client.module.params.get('healthcheck').get('test'): client.module.warn('healthcheck is ignored when test is not specified') if client.module.params.get('restart_retries') is not None and not client.module.params.get('restart_policy'): client.module.warn('restart_retries is ignored when restart_policy is not specified') self.client = client self.parameters = TaskParameters(client) self.check_mode = self.client.check_mode self.results = {'changed': False, 'actions': []} self.diff = {} self.diff_tracker = DifferenceTracker() self.facts = {} state = self.parameters.state if state in ('stopped', 'started', 'present'): self.present(state) elif state == 'absent': self.absent() if not self.check_mode and not self.parameters.debug: self.results.pop('actions') if self.client.module._diff or self.parameters.debug: self.diff['before'], self.diff['after'] = self.diff_tracker.get_before_after() self.results['diff'] = self.diff if self.facts: self.results['container'] = self.facts def wait_for_state(self, container_id, complete_states=None, wait_states=None, accept_removal=False, max_wait=None): delay = 1.0 total_wait = 0 while True: # Inspect container result = self.client.get_container_by_id(container_id) if result is None: if accept_removal: return msg = 'Encontered vanished container while waiting for container "{0}"' self.fail(msg.format(container_id)) # Check container state state = result.get('State', {}).get('Status') if complete_states is not None and state in complete_states: return if wait_states is not None and state not in wait_states: msg = 'Encontered unexpected state "{1}" while waiting for container "{0}"' self.fail(msg.format(container_id, state)) # Wait if max_wait is not None: if total_wait > max_wait: msg = 'Timeout of {1} seconds exceeded while waiting for container "{0}"' self.fail(msg.format(container_id, max_wait)) if total_wait + delay > max_wait: delay = max_wait - total_wait sleep(delay) total_wait += delay # Exponential backoff, but never wait longer than 10 seconds # (1.1**24 < 10, 1.1**25 > 10, so it will take 25 iterations # until the maximal 10 seconds delay is reached. By then, the # code will have slept for ~1.5 minutes.) delay = min(delay * 1.1, 10) def present(self, state): container = self._get_container(self.parameters.name) was_running = container.running was_paused = container.paused container_created = False # If the image parameter was passed then we need to deal with the image # version comparison. Otherwise we handle this depending on whether # the container already runs or not; in the former case, in case the # container needs to be restarted, we use the existing container's # image ID. image = self._get_image() self.log(image, pretty_print=True) if not container.exists or container.removing: # New container if container.removing: self.log('Found container in removal phase') else: self.log('No container found') if not self.parameters.image: self.fail('Cannot create container when image is not specified!') self.diff_tracker.add('exists', parameter=True, active=False) if container.removing and not self.check_mode: # Wait for container to be removed before trying to create it self.wait_for_state( container.Id, wait_states=['removing'], accept_removal=True, max_wait=self.parameters.removal_wait_timeout) new_container = self.container_create(self.parameters.image, self.parameters.create_parameters) if new_container: container = new_container container_created = True else: # Existing container different, differences = container.has_different_configuration(image) image_different = False if self.parameters.comparisons['image']['comparison'] == 'strict': image_different = self._image_is_different(image, container) if image_different or different or self.parameters.recreate: self.diff_tracker.merge(differences) self.diff['differences'] = differences.get_legacy_docker_container_diffs() if image_different: self.diff['image_different'] = True self.log("differences") self.log(differences.get_legacy_docker_container_diffs(), pretty_print=True) image_to_use = self.parameters.image if not image_to_use and container and container.Image: image_to_use = container.Image if not image_to_use: self.fail('Cannot recreate container when image is not specified or cannot be extracted from current container!') if container.running: self.container_stop(container.Id) self.container_remove(container.Id) if not self.check_mode: self.wait_for_state( container.Id, wait_states=['removing'], accept_removal=True, max_wait=self.parameters.removal_wait_timeout) new_container = self.container_create(image_to_use, self.parameters.create_parameters) if new_container: container = new_container container_created = True if container and container.exists: container = self.update_limits(container) container = self.update_networks(container, container_created) if state == 'started' and not container.running: self.diff_tracker.add('running', parameter=True, active=was_running) container = self.container_start(container.Id) elif state == 'started' and self.parameters.restart: self.diff_tracker.add('running', parameter=True, active=was_running) self.diff_tracker.add('restarted', parameter=True, active=False) container = self.container_restart(container.Id) elif state == 'stopped' and container.running: self.diff_tracker.add('running', parameter=False, active=was_running) self.container_stop(container.Id) container = self._get_container(container.Id) if state == 'started' and self.parameters.paused is not None and container.paused != self.parameters.paused: self.diff_tracker.add('paused', parameter=self.parameters.paused, active=was_paused) if not self.check_mode: try: if self.parameters.paused: self.client.pause(container=container.Id) else: self.client.unpause(container=container.Id) except Exception as exc: self.fail("Error %s container %s: %s" % ( "pausing" if self.parameters.paused else "unpausing", container.Id, to_native(exc) )) container = self._get_container(container.Id) self.results['changed'] = True self.results['actions'].append(dict(set_paused=self.parameters.paused)) self.facts = container.raw def absent(self): container = self._get_container(self.parameters.name) if container.exists: if container.running: self.diff_tracker.add('running', parameter=False, active=True) self.container_stop(container.Id) self.diff_tracker.add('exists', parameter=False, active=True) self.container_remove(container.Id) def fail(self, msg, **kwargs): self.client.fail(msg, **kwargs) def _output_logs(self, msg): self.client.module.log(msg=msg) def _get_container(self, container): ''' Expects container ID or Name. Returns a container object ''' return Container(self.client.get_container(container), self.parameters) def _get_image(self): if not self.parameters.image: self.log('No image specified') return None if is_image_name_id(self.parameters.image): image = self.client.find_image_by_id(self.parameters.image) else: repository, tag = utils.parse_repository_tag(self.parameters.image) if not tag: tag = "latest" image = self.client.find_image(repository, tag) if not image or self.parameters.pull: if not self.check_mode: self.log("Pull the image.") image, alreadyToLatest = self.client.pull_image(repository, tag) if alreadyToLatest: self.results['changed'] = False else: self.results['changed'] = True self.results['actions'].append(dict(pulled_image="%s:%s" % (repository, tag))) elif not image: # If the image isn't there, claim we'll pull. # (Implicitly: if the image is there, claim it already was latest.) self.results['changed'] = True self.results['actions'].append(dict(pulled_image="%s:%s" % (repository, tag))) self.log("image") self.log(image, pretty_print=True) return image def _image_is_different(self, image, container): if image and image.get('Id'): if container and container.Image: if image.get('Id') != container.Image: self.diff_tracker.add('image', parameter=image.get('Id'), active=container.Image) return True return False def update_limits(self, container): limits_differ, different_limits = container.has_different_resource_limits() if limits_differ: self.log("limit differences:") self.log(different_limits.get_legacy_docker_container_diffs(), pretty_print=True) self.diff_tracker.merge(different_limits) if limits_differ and not self.check_mode: self.container_update(container.Id, self.parameters.update_parameters) return self._get_container(container.Id) return container def update_networks(self, container, container_created): updated_container = container if self.parameters.comparisons['networks']['comparison'] != 'ignore' or container_created: has_network_differences, network_differences = container.has_network_differences() if has_network_differences: if self.diff.get('differences'): self.diff['differences'].append(dict(network_differences=network_differences)) else: self.diff['differences'] = [dict(network_differences=network_differences)] for netdiff in network_differences: self.diff_tracker.add( 'network.{0}'.format(netdiff['parameter']['name']), parameter=netdiff['parameter'], active=netdiff['container'] ) self.results['changed'] = True updated_container = self._add_networks(container, network_differences) if (self.parameters.comparisons['networks']['comparison'] == 'strict' and self.parameters.networks is not None) or self.parameters.purge_networks: has_extra_networks, extra_networks = container.has_extra_networks() if has_extra_networks: if self.diff.get('differences'): self.diff['differences'].append(dict(purge_networks=extra_networks)) else: self.diff['differences'] = [dict(purge_networks=extra_networks)] for extra_network in extra_networks: self.diff_tracker.add( 'network.{0}'.format(extra_network['name']), active=extra_network ) self.results['changed'] = True updated_container = self._purge_networks(container, extra_networks) return updated_container def _add_networks(self, container, differences): for diff in differences: # remove the container from the network, if connected if diff.get('container'): self.results['actions'].append(dict(removed_from_network=diff['parameter']['name'])) if not self.check_mode: try: self.client.disconnect_container_from_network(container.Id, diff['parameter']['id']) except Exception as exc: self.fail("Error disconnecting container from network %s - %s" % (diff['parameter']['name'], to_native(exc))) # connect to the network params = dict() for para in ('ipv4_address', 'ipv6_address', 'links', 'aliases'): if diff['parameter'].get(para): params[para] = diff['parameter'][para] self.results['actions'].append(dict(added_to_network=diff['parameter']['name'], network_parameters=params)) if not self.check_mode: try: self.log("Connecting container to network %s" % diff['parameter']['id']) self.log(params, pretty_print=True) self.client.connect_container_to_network(container.Id, diff['parameter']['id'], **params) except Exception as exc: self.fail("Error connecting container to network %s - %s" % (diff['parameter']['name'], to_native(exc))) return self._get_container(container.Id) def _purge_networks(self, container, networks): for network in networks: self.results['actions'].append(dict(removed_from_network=network['name'])) if not self.check_mode: try: self.client.disconnect_container_from_network(container.Id, network['name']) except Exception as exc: self.fail("Error disconnecting container from network %s - %s" % (network['name'], to_native(exc))) return self._get_container(container.Id) def container_create(self, image, create_parameters): self.log("create container") self.log("image: %s parameters:" % image) self.log(create_parameters, pretty_print=True) self.results['actions'].append(dict(created="Created container", create_parameters=create_parameters)) self.results['changed'] = True new_container = None if not self.check_mode: try: new_container = self.client.create_container(image, **create_parameters) self.client.report_warnings(new_container) except Exception as exc: self.fail("Error creating container: %s" % to_native(exc)) return self._get_container(new_container['Id']) return new_container def container_start(self, container_id): self.log("start container %s" % (container_id)) self.results['actions'].append(dict(started=container_id)) self.results['changed'] = True if not self.check_mode: try: self.client.start(container=container_id) except Exception as exc: self.fail("Error starting container %s: %s" % (container_id, to_native(exc))) if self.parameters.detach is False: if self.client.docker_py_version >= LooseVersion('3.0'): status = self.client.wait(container_id)['StatusCode'] else: status = self.client.wait(container_id) self.client.fail_results['status'] = status self.results['status'] = status if self.parameters.auto_remove: output = "Cannot retrieve result as auto_remove is enabled" if self.parameters.output_logs: self.client.module.warn('Cannot output_logs if auto_remove is enabled!') else: config = self.client.inspect_container(container_id) logging_driver = config['HostConfig']['LogConfig']['Type'] if logging_driver in ('json-file', 'journald', 'local'): output = self.client.logs(container_id, stdout=True, stderr=True, stream=False, timestamps=False) if self.parameters.output_logs: self._output_logs(msg=output) else: output = "Result logged using `%s` driver" % logging_driver if self.parameters.cleanup: self.container_remove(container_id, force=True) insp = self._get_container(container_id) if insp.raw: insp.raw['Output'] = output else: insp.raw = dict(Output=output) if status != 0: # Set `failed` to True and return output as msg self.results['failed'] = True self.results['msg'] = output return insp return self._get_container(container_id) def container_remove(self, container_id, link=False, force=False): volume_state = (not self.parameters.keep_volumes) self.log("remove container container:%s v:%s link:%s force%s" % (container_id, volume_state, link, force)) self.results['actions'].append(dict(removed=container_id, volume_state=volume_state, link=link, force=force)) self.results['changed'] = True response = None if not self.check_mode: count = 0 while True: try: response = self.client.remove_container(container_id, v=volume_state, link=link, force=force) except NotFound as dummy: pass except APIError as exc: if 'Unpause the container before stopping or killing' in exc.explanation: # New docker daemon versions do not allow containers to be removed # if they are paused. Make sure we don't end up in an infinite loop. if count == 3: self.fail("Error removing container %s (tried to unpause three times): %s" % (container_id, to_native(exc))) count += 1 # Unpause try: self.client.unpause(container=container_id) except Exception as exc2: self.fail("Error unpausing container %s for removal: %s" % (container_id, to_native(exc2))) # Now try again continue if 'removal of container ' in exc.explanation and ' is already in progress' in exc.explanation: pass else: self.fail("Error removing container %s: %s" % (container_id, to_native(exc))) except Exception as exc: self.fail("Error removing container %s: %s" % (container_id, to_native(exc))) # We only loop when explicitly requested by 'continue' break return response def container_update(self, container_id, update_parameters): if update_parameters: self.log("update container %s" % (container_id)) self.log(update_parameters, pretty_print=True) self.results['actions'].append(dict(updated=container_id, update_parameters=update_parameters)) self.results['changed'] = True if not self.check_mode and callable(getattr(self.client, 'update_container')): try: result = self.client.update_container(container_id, **update_parameters) self.client.report_warnings(result) except Exception as exc: self.fail("Error updating container %s: %s" % (container_id, to_native(exc))) return self._get_container(container_id) def container_kill(self, container_id): self.results['actions'].append(dict(killed=container_id, signal=self.parameters.kill_signal)) self.results['changed'] = True response = None if not self.check_mode: try: if self.parameters.kill_signal: response = self.client.kill(container_id, signal=self.parameters.kill_signal) else: response = self.client.kill(container_id) except Exception as exc: self.fail("Error killing container %s: %s" % (container_id, to_native(exc))) return response def container_restart(self, container_id): self.results['actions'].append(dict(restarted=container_id, timeout=self.parameters.stop_timeout)) self.results['changed'] = True if not self.check_mode: try: if self.parameters.stop_timeout: dummy = self.client.restart(container_id, timeout=self.parameters.stop_timeout) else: dummy = self.client.restart(container_id) except Exception as exc: self.fail("Error restarting container %s: %s" % (container_id, to_native(exc))) return self._get_container(container_id) def container_stop(self, container_id): if self.parameters.force_kill: self.container_kill(container_id) return self.results['actions'].append(dict(stopped=container_id, timeout=self.parameters.stop_timeout)) self.results['changed'] = True response = None if not self.check_mode: count = 0 while True: try: if self.parameters.stop_timeout: response = self.client.stop(container_id, timeout=self.parameters.stop_timeout) else: response = self.client.stop(container_id) except APIError as exc: if 'Unpause the container before stopping or killing' in exc.explanation: # New docker daemon versions do not allow containers to be removed # if they are paused. Make sure we don't end up in an infinite loop. if count == 3: self.fail("Error removing container %s (tried to unpause three times): %s" % (container_id, to_native(exc))) count += 1 # Unpause try: self.client.unpause(container=container_id) except Exception as exc2: self.fail("Error unpausing container %s for removal: %s" % (container_id, to_native(exc2))) # Now try again continue self.fail("Error stopping container %s: %s" % (container_id, to_native(exc))) except Exception as exc: self.fail("Error stopping container %s: %s" % (container_id, to_native(exc))) # We only loop when explicitly requested by 'continue' break return response def detect_ipvX_address_usage(client): ''' Helper function to detect whether any specified network uses ipv4_address or ipv6_address ''' for network in client.module.params.get("networks") or []: if network.get('ipv4_address') is not None or network.get('ipv6_address') is not None: return True return False class AnsibleDockerClientContainer(AnsibleDockerClient): # A list of module options which are not docker container properties __NON_CONTAINER_PROPERTY_OPTIONS = tuple([ 'env_file', 'force_kill', 'keep_volumes', 'ignore_image', 'name', 'pull', 'purge_networks', 'recreate', 'restart', 'state', 'networks', 'cleanup', 'kill_signal', 'output_logs', 'paused', 'removal_wait_timeout', 'default_host_ip', 'command_handling', ] + list(DOCKER_COMMON_ARGS.keys())) def _parse_comparisons(self): comparisons = {} comp_aliases = {} # Put in defaults explicit_types = dict( command='list', devices='set(dict)', device_requests='set(dict)', dns_search_domains='list', dns_servers='list', env='set', entrypoint='list', etc_hosts='set', mounts='set(dict)', networks='set(dict)', ulimits='set(dict)', device_read_bps='set(dict)', device_write_bps='set(dict)', device_read_iops='set(dict)', device_write_iops='set(dict)', ) all_options = set() # this is for improving user feedback when a wrong option was specified for comparison default_values = dict( stop_timeout='ignore', ) for option, data in self.module.argument_spec.items(): all_options.add(option) for alias in data.get('aliases', []): all_options.add(alias) # Ignore options which aren't used as container properties if option in self.__NON_CONTAINER_PROPERTY_OPTIONS and option != 'networks': continue # Determine option type if option in explicit_types: datatype = explicit_types[option] elif data['type'] == 'list': datatype = 'set' elif data['type'] == 'dict': datatype = 'dict' else: datatype = 'value' # Determine comparison type if option in default_values: comparison = default_values[option] elif datatype in ('list', 'value'): comparison = 'strict' else: comparison = 'allow_more_present' comparisons[option] = dict(type=datatype, comparison=comparison, name=option) # Keep track of aliases comp_aliases[option] = option for alias in data.get('aliases', []): comp_aliases[alias] = option # Process legacy ignore options if self.module.params['ignore_image']: comparisons['image']['comparison'] = 'ignore' if self.module.params['purge_networks']: comparisons['networks']['comparison'] = 'strict' # Process options if self.module.params.get('comparisons'): # If '*' appears in comparisons, process it first if '*' in self.module.params['comparisons']: value = self.module.params['comparisons']['*'] if value not in ('strict', 'ignore'): self.fail("The wildcard can only be used with comparison modes 'strict' and 'ignore'!") for option, v in comparisons.items(): if option == 'networks': # `networks` is special: only update if # some value is actually specified if self.module.params['networks'] is None: continue v['comparison'] = value # Now process all other comparisons. comp_aliases_used = {} for key, value in self.module.params['comparisons'].items(): if key == '*': continue # Find main key key_main = comp_aliases.get(key) if key_main is None: if key_main in all_options: self.fail("The module option '%s' cannot be specified in the comparisons dict, " "since it does not correspond to container's state!" % key) self.fail("Unknown module option '%s' in comparisons dict!" % key) if key_main in comp_aliases_used: self.fail("Both '%s' and '%s' (aliases of %s) are specified in comparisons dict!" % (key, comp_aliases_used[key_main], key_main)) comp_aliases_used[key_main] = key # Check value and update accordingly if value in ('strict', 'ignore'): comparisons[key_main]['comparison'] = value elif value == 'allow_more_present': if comparisons[key_main]['type'] == 'value': self.fail("Option '%s' is a value and not a set/list/dict, so its comparison cannot be %s" % (key, value)) comparisons[key_main]['comparison'] = value else: self.fail("Unknown comparison mode '%s'!" % value) # Add implicit options comparisons['publish_all_ports'] = dict(type='value', comparison='strict', name='published_ports') comparisons['expected_ports'] = dict(type='dict', comparison=comparisons['published_ports']['comparison'], name='expected_ports') comparisons['disable_healthcheck'] = dict(type='value', comparison='ignore' if comparisons['healthcheck']['comparison'] == 'ignore' else 'strict', name='disable_healthcheck') # Check legacy values if self.module.params['ignore_image'] and comparisons['image']['comparison'] != 'ignore': self.module.warn('The ignore_image option has been overridden by the comparisons option!') if self.module.params['purge_networks'] and comparisons['networks']['comparison'] != 'strict': self.module.warn('The purge_networks option has been overridden by the comparisons option!') self.comparisons = comparisons def _get_additional_minimal_versions(self): stop_timeout_supported = self.docker_api_version >= LooseVersion('1.25') stop_timeout_needed_for_update = self.module.params.get("stop_timeout") is not None and self.module.params.get('state') != 'absent' if stop_timeout_supported: stop_timeout_supported = self.docker_py_version >= LooseVersion('2.1') if stop_timeout_needed_for_update and not stop_timeout_supported: # We warn (instead of fail) since in older versions, stop_timeout was not used # to update the container's configuration, but only when stopping a container. self.module.warn("Docker SDK for Python's version is %s. Minimum version required is 2.1 to update " "the container's stop_timeout configuration. " "If you use the 'docker-py' module, you have to switch to the 'docker' Python package." % (docker_version,)) else: if stop_timeout_needed_for_update and not stop_timeout_supported: # We warn (instead of fail) since in older versions, stop_timeout was not used # to update the container's configuration, but only when stopping a container. self.module.warn("Docker API version is %s. Minimum version required is 1.25 to set or " "update the container's stop_timeout configuration." % (self.docker_api_version_str,)) self.option_minimal_versions['stop_timeout']['supported'] = stop_timeout_supported def __init__(self, **kwargs): option_minimal_versions = dict( # internal options log_config=dict(), publish_all_ports=dict(), ports=dict(), volume_binds=dict(), name=dict(), # normal options device_read_bps=dict(docker_py_version='1.9.0', docker_api_version='1.22'), device_read_iops=dict(docker_py_version='1.9.0', docker_api_version='1.22'), device_write_bps=dict(docker_py_version='1.9.0', docker_api_version='1.22'), device_write_iops=dict(docker_py_version='1.9.0', docker_api_version='1.22'), device_requests=dict(docker_py_version='4.3.0', docker_api_version='1.40'), dns_opts=dict(docker_api_version='1.21', docker_py_version='1.10.0'), ipc_mode=dict(docker_api_version='1.25'), mac_address=dict(docker_api_version='1.25'), oom_score_adj=dict(docker_api_version='1.22'), shm_size=dict(docker_api_version='1.22'), stop_signal=dict(docker_api_version='1.21'), tmpfs=dict(docker_api_version='1.22'), volume_driver=dict(docker_api_version='1.21'), memory_reservation=dict(docker_api_version='1.21'), kernel_memory=dict(docker_api_version='1.21'), auto_remove=dict(docker_py_version='2.1.0', docker_api_version='1.25'), healthcheck=dict(docker_py_version='2.0.0', docker_api_version='1.24'), init=dict(docker_py_version='2.2.0', docker_api_version='1.25'), runtime=dict(docker_py_version='2.4.0', docker_api_version='1.25'), sysctls=dict(docker_py_version='1.10.0', docker_api_version='1.24'), userns_mode=dict(docker_py_version='1.10.0', docker_api_version='1.23'), uts=dict(docker_py_version='3.5.0', docker_api_version='1.25'), pids_limit=dict(docker_py_version='1.10.0', docker_api_version='1.23'), mounts=dict(docker_py_version='2.6.0', docker_api_version='1.25'), cpus=dict(docker_py_version='2.3.0', docker_api_version='1.25'), storage_opts=dict(docker_py_version='2.1.0', docker_api_version='1.24'), # specials ipvX_address_supported=dict(docker_py_version='1.9.0', docker_api_version='1.22', detect_usage=detect_ipvX_address_usage, usage_msg='ipv4_address or ipv6_address in networks'), stop_timeout=dict(), # see _get_additional_minimal_versions() ) super(AnsibleDockerClientContainer, self).__init__( option_minimal_versions=option_minimal_versions, option_minimal_versions_ignore_params=self.__NON_CONTAINER_PROPERTY_OPTIONS, **kwargs ) self.image_inspect_source = 'Config' if self.docker_api_version < LooseVersion('1.21'): self.image_inspect_source = 'ContainerConfig' self._get_additional_minimal_versions() self._parse_comparisons() if self.module.params['container_default_behavior'] == 'compatibility': old_default_values = dict( auto_remove=False, detach=True, init=False, interactive=False, memory="0", paused=False, privileged=False, read_only=False, tty=False, ) for param, value in old_default_values.items(): if self.module.params[param] is None: self.module.params[param] = value def main(): argument_spec = dict( auto_remove=dict(type='bool'), blkio_weight=dict(type='int'), capabilities=dict(type='list', elements='str'), cap_drop=dict(type='list', elements='str'), cgroup_parent=dict(type='str'), cleanup=dict(type='bool', default=False), command=dict(type='raw'), comparisons=dict(type='dict'), container_default_behavior=dict(type='str', default='no_defaults', choices=['compatibility', 'no_defaults']), command_handling=dict(type='str', choices=['compatibility', 'correct']), cpu_period=dict(type='int'), cpu_quota=dict(type='int'), cpus=dict(type='float'), cpuset_cpus=dict(type='str'), cpuset_mems=dict(type='str'), cpu_shares=dict(type='int'), default_host_ip=dict(type='str'), detach=dict(type='bool'), devices=dict(type='list', elements='str'), device_read_bps=dict(type='list', elements='dict', options=dict( path=dict(required=True, type='str'), rate=dict(required=True, type='str'), )), device_write_bps=dict(type='list', elements='dict', options=dict( path=dict(required=True, type='str'), rate=dict(required=True, type='str'), )), device_read_iops=dict(type='list', elements='dict', options=dict( path=dict(required=True, type='str'), rate=dict(required=True, type='int'), )), device_write_iops=dict(type='list', elements='dict', options=dict( path=dict(required=True, type='str'), rate=dict(required=True, type='int'), )), device_requests=dict(type='list', elements='dict', options=dict( capabilities=dict(type='list', elements='list'), count=dict(type='int'), device_ids=dict(type='list', elements='str'), driver=dict(type='str'), options=dict(type='dict'), )), dns_servers=dict(type='list', elements='str'), dns_opts=dict(type='list', elements='str'), dns_search_domains=dict(type='list', elements='str'), domainname=dict(type='str'), entrypoint=dict(type='list', elements='str'), env=dict(type='dict'), env_file=dict(type='path'), etc_hosts=dict(type='dict'), exposed_ports=dict(type='list', elements='str', aliases=['exposed', 'expose']), force_kill=dict(type='bool', default=False, aliases=['forcekill']), groups=dict(type='list', elements='str'), healthcheck=dict(type='dict', options=dict( test=dict(type='raw'), interval=dict(type='str'), timeout=dict(type='str'), start_period=dict(type='str'), retries=dict(type='int'), )), hostname=dict(type='str'), ignore_image=dict(type='bool', default=False), image=dict(type='str'), init=dict(type='bool'), interactive=dict(type='bool'), ipc_mode=dict(type='str'), keep_volumes=dict(type='bool', default=True), kernel_memory=dict(type='str'), kill_signal=dict(type='str'), labels=dict(type='dict'), links=dict(type='list', elements='str'), log_driver=dict(type='str'), log_options=dict(type='dict', aliases=['log_opt']), mac_address=dict(type='str'), memory=dict(type='str'), memory_reservation=dict(type='str'), memory_swap=dict(type='str'), memory_swappiness=dict(type='int'), mounts=dict(type='list', elements='dict', options=dict( target=dict(type='str', required=True), source=dict(type='str'), type=dict(type='str', choices=['bind', 'volume', 'tmpfs', 'npipe'], default='volume'), read_only=dict(type='bool'), consistency=dict(type='str', choices=['default', 'consistent', 'cached', 'delegated']), propagation=dict(type='str', choices=['private', 'rprivate', 'shared', 'rshared', 'slave', 'rslave']), no_copy=dict(type='bool'), labels=dict(type='dict'), volume_driver=dict(type='str'), volume_options=dict(type='dict'), tmpfs_size=dict(type='str'), tmpfs_mode=dict(type='str'), )), name=dict(type='str', required=True), network_mode=dict(type='str'), networks=dict(type='list', elements='dict', options=dict( name=dict(type='str', required=True), ipv4_address=dict(type='str'), ipv6_address=dict(type='str'), aliases=dict(type='list', elements='str'), links=dict(type='list', elements='str'), )), networks_cli_compatible=dict(type='bool', default=True), oom_killer=dict(type='bool'), oom_score_adj=dict(type='int'), output_logs=dict(type='bool', default=False), paused=dict(type='bool'), pid_mode=dict(type='str'), pids_limit=dict(type='int'), privileged=dict(type='bool'), publish_all_ports=dict(type='bool'), published_ports=dict(type='list', elements='str', aliases=['ports']), pull=dict(type='bool', default=False), purge_networks=dict(type='bool', default=False), read_only=dict(type='bool'), recreate=dict(type='bool', default=False), removal_wait_timeout=dict(type='float'), restart=dict(type='bool', default=False), restart_policy=dict(type='str', choices=['no', 'on-failure', 'always', 'unless-stopped']), restart_retries=dict(type='int'), runtime=dict(type='str'), security_opts=dict(type='list', elements='str'), shm_size=dict(type='str'), state=dict(type='str', default='started', choices=['absent', 'present', 'started', 'stopped']), stop_signal=dict(type='str'), stop_timeout=dict(type='int'), storage_opts=dict(type='dict'), sysctls=dict(type='dict'), tmpfs=dict(type='list', elements='str'), tty=dict(type='bool'), ulimits=dict(type='list', elements='str'), user=dict(type='str'), userns_mode=dict(type='str'), uts=dict(type='str'), volume_driver=dict(type='str'), volumes=dict(type='list', elements='str'), volumes_from=dict(type='list', elements='str'), working_dir=dict(type='str'), ) required_if = [ ('state', 'present', ['image']) ] client = AnsibleDockerClientContainer( argument_spec=argument_spec, required_if=required_if, supports_check_mode=True, min_docker_api_version='1.20', ) if client.module.params['networks_cli_compatible'] is True and client.module.params['networks'] and client.module.params['network_mode'] is None: # Same behavior as Docker CLI: if networks are specified, use the name of the first network as the value for network_mode # (assuming no explicit value is specified for network_mode) client.module.params['network_mode'] = client.module.params['networks'][0]['name'] try: cm = ContainerManager(client) client.module.exit_json(**sanitize_result(cm.results)) except DockerException as e: client.fail('An unexpected docker error occurred: {0}'.format(to_native(e)), exception=traceback.format_exc()) except RequestException as e: client.fail( 'An unexpected requests error occurred when docker-py tried to talk to the docker daemon: {0}'.format(to_native(e)), exception=traceback.format_exc()) if __name__ == '__main__': main()