コード例 #1
0
def highstate(activate_transaction=False, queue=False, **kwargs):
    """Retrieve the state data from the salt master for this minion and
    execute it inside a transaction.

    For a formal description of the possible parameters accepted in
    this function, check `state.highstate` documentation.

    activate_transaction
        If at the end of the transaction there is a pending activation
        (i.e there is a new snaphot in the system), a new reboot will
        be scheduled (default False)

    queue
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run, so use this
        option sparingly. (Default: False)

    CLI Example:

    .. code-block:: bash

        salt microos transactional_update.highstate
        salt microos transactional_update.highstate pillar='{"foo": "bar"}'
        salt microos transactional_update.highstate activate_transaction=True

    """
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict

    # Get a copy of the pillar data, to avoid overwriting the current
    # pillar, instead the one delegated
    pillar = copy.deepcopy(__pillar__.value())
    pillar.update(kwargs.get("pillar", {}))

    # Clone the options data and apply some default values. May not be
    # needed, as this module just delegate
    opts = salt.utils.state.get_sls_opts(__opts__, **kwargs)
    st_ = TransactionalUpdateHighstate(
        opts, pillar, __salt__, salt.fileclient.get_file_client(__opts__))

    # Compile and verify the raw chunks
    chunks = st_.compile_low_chunks()
    file_refs = salt.client.ssh.state.lowstate_file_refs(
        chunks,
        salt.client.ssh.wrapper.state._merge_extra_filerefs(
            kwargs.get("extra_filerefs", ""), opts.get("extra_filerefs", "")),
    )
    # Check for errors
    for chunk in chunks:
        if not isinstance(chunk, dict):
            __context__["retcode"] = 1
            return chunks

    test = kwargs.pop("test", False)
    hash_type = opts["hash_type"]
    return _create_and_execute_salt_state(chunks, file_refs, test, hash_type,
                                          activate_transaction)
コード例 #2
0
ファイル: transactional_update.py プロジェクト: mcalmer/salt
def sls(mods, activate_transaction=False, queue=False, **kwargs):
    """Execute the states in one or more SLS files inside a transaction.

    saltenv
        Specify a salt fileserver environment to be used when applying
        states

    mods
        List of states to execute

    test
        Run states in test-only (dry-run) mode

    exclude
        Exclude specific states from execution. Accepts a list of sls
        names, a comma-separated string of sls names, or a list of
        dictionaries containing ``sls`` or ``id`` keys. Glob-patterns
        may be used to match multiple states.

    activate_transaction
        If at the end of the transaction there is a pending activation
        (i.e there is a new snaphot in the system), a new reboot will
        be scheduled (default False)

    queue
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run, so use this
        option sparingly. (Default: False)

    For a formal description of the possible parameters accepted in
    this function, check `state.sls` documentation.

    CLI Example:

    .. code-block:: bash

        salt microos transactional_update.sls stuff pillar='{"foo": "bar"}'
        salt microos transactional_update.sls stuff activate_transaction=True

    """
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict

    concurrent = kwargs.pop("concurrent", True)

    return call("state.sls",
                mods,
                activate_transaction=activate_transaction,
                concurrent=concurrent,
                **kwargs)
コード例 #3
0
ファイル: transactional_update.py プロジェクト: mcalmer/salt
def single(fun, name, activate_transaction=False, queue=False, **kwargs):
    """Execute a single state function with the named kwargs, returns
    False if insufficient data is sent to the command

    By default, the values of the kwargs will be parsed as YAML. So,
    you can specify lists values, or lists of single entry key-value
    maps, as you would in a YAML salt file. Alternatively, JSON format
    of keyword values is also supported.

    activate_transaction
        If at the end of the transaction there is a pending activation
        (i.e there is a new snaphot in the system), a new reboot will
        be scheduled (default False)

    queue
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run, so use this
        option sparingly. (Default: False)

    CLI Example:

    .. code-block:: bash

        salt microos transactional_update.single pkg.installed name=emacs
        salt microos transactional_update.single pkg.installed name=emacs activate_transaction=True

    """
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict

    return call("state.single",
                fun=fun,
                name=name,
                activate_transaction=activate_transaction,
                concurrent=True,
                **kwargs)
コード例 #4
0
ファイル: transactional_update.py プロジェクト: mcalmer/salt
def highstate(activate_transaction=False, queue=False, **kwargs):
    """Retrieve the state data from the salt master for this minion and
    execute it inside a transaction.

    For a formal description of the possible parameters accepted in
    this function, check `state.highstate` documentation.

    activate_transaction
        If at the end of the transaction there is a pending activation
        (i.e there is a new snaphot in the system), a new reboot will
        be scheduled (default False)

    queue
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run, so use this
        option sparingly. (Default: False)

    CLI Example:

    .. code-block:: bash

        salt microos transactional_update.highstate
        salt microos transactional_update.highstate pillar='{"foo": "bar"}'
        salt microos transactional_update.highstate activate_transaction=True

    """
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict

    return call("state.highstate",
                activate_transaction=activate_transaction,
                concurrent=True,
                **kwargs)
コード例 #5
0
ファイル: transactional_update.py プロジェクト: rjmateus/salt
def single(fun, name, test=None, activate_transaction=False, queue=False, **kwargs):
    """Execute a single state function with the named kwargs, returns
    False if insufficient data is sent to the command

    By default, the values of the kwargs will be parsed as YAML. So,
    you can specify lists values, or lists of single entry key-value
    maps, as you would in a YAML salt file. Alternatively, JSON format
    of keyword values is also supported.

    activate_transaction
        If at the end of the transaction there is a pending activation
        (i.e there is a new snaphot in the system), a new reboot will
        be scheduled (default False)

    queue
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run, so use this
        option sparingly. (Default: False)

    CLI Example:

    .. code-block:: bash

        salt microos transactional_update.single pkg.installed name=emacs
        salt microos transactional_update.single pkg.installed name=emacs activate_transaction=True

    """
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict

    # Get a copy of the pillar data, to avoid overwriting the current
    # pillar, instead the one delegated
    pillar = copy.deepcopy(__pillar__)
    pillar.update(kwargs.get("pillar", {}))

    # Clone the options data and apply some default values. May not be
    # needed, as this module just delegate
    opts = salt.utils.state.get_sls_opts(__opts__, **kwargs)
    st_ = salt.client.ssh.state.SSHState(opts, pillar)

    # state.fun -> [state, fun]
    comps = fun.split(".")
    if len(comps) < 2:
        __context__["retcode"] = 1
        return "Invalid function passed"

    # Create the low chunk, using kwargs as a base
    kwargs.update({"state": comps[0], "fun": comps[1], "__id__": name, "name": name})

    # Verify the low chunk
    err = st_.verify_data(kwargs)
    if err:
        __context__["retcode"] = 1
        return err

    # Must be a list of low-chunks
    chunks = [kwargs]

    # Retrieve file refs for the state run, so we can copy relevant
    # files down to the minion before executing the state
    file_refs = salt.client.ssh.state.lowstate_file_refs(
        chunks,
        salt.client.ssh.wrapper.state._merge_extra_filerefs(
            kwargs.get("extra_filerefs", ""), opts.get("extra_filerefs", "")
        ),
    )

    hash_type = opts["hash_type"]
    return _create_and_execute_salt_state(
        chunks, file_refs, test, hash_type, activate_transaction
    )
コード例 #6
0
ファイル: transactional_update.py プロジェクト: rjmateus/salt
def sls(
    mods,
    saltenv="base",
    test=None,
    exclude=None,
    activate_transaction=False,
    queue=False,
    **kwargs
):
    """Execute the states in one or more SLS files inside a transaction.

    saltenv
        Specify a salt fileserver environment to be used when applying
        states

    mods
        List of states to execute

    test
        Run states in test-only (dry-run) mode

    exclude
        Exclude specific states from execution. Accepts a list of sls
        names, a comma-separated string of sls names, or a list of
        dictionaries containing ``sls`` or ``id`` keys. Glob-patterns
        may be used to match multiple states.

    activate_transaction
        If at the end of the transaction there is a pending activation
        (i.e there is a new snaphot in the system), a new reboot will
        be scheduled (default False)

    queue
        Instead of failing immediately when another state run is in progress,
        queue the new state run to begin running once the other has finished.

        This option starts a new thread for each queued state run, so use this
        option sparingly. (Default: False)

    For a formal description of the possible parameters accepted in
    this function, check `state.sls` documentation.

    CLI Example:

    .. code-block:: bash

        salt microos transactional_update.sls stuff pillar='{"foo": "bar"}'
        salt microos transactional_update.sls stuff activate_transaction=True

    """
    conflict = _check_queue(queue, kwargs)
    if conflict is not None:
        return conflict

    # Get a copy of the pillar data, to avoid overwriting the current
    # pillar, instead the one delegated
    pillar = copy.deepcopy(__pillar__)
    pillar.update(kwargs.get("pillar", {}))

    # Clone the options data and apply some default values. May not be
    # needed, as this module just delegate
    opts = salt.utils.state.get_sls_opts(__opts__, **kwargs)
    st_ = TransactionalUpdateHighstate(
        opts, pillar, __salt__, salt.fileclient.get_file_client(__opts__)
    )

    if isinstance(mods, str):
        mods = mods.split(",")

    high_data, errors = st_.render_highstate({saltenv: mods})
    if exclude:
        if isinstance(exclude, str):
            exclude = exclude.split(",")
        if "__exclude__" in high_data:
            high_data["__exclude__"].extend(exclude)
        else:
            high_data["__exclude__"] = exclude

    high_data, ext_errors = st_.state.reconcile_extend(high_data)
    errors += ext_errors
    errors += st_.state.verify_high(high_data)
    if errors:
        return errors

    high_data, req_in_errors = st_.state.requisite_in(high_data)
    errors += req_in_errors
    if errors:
        return errors

    high_data = st_.state.apply_exclude(high_data)

    # Compile and verify the raw chunks
    chunks = st_.state.compile_high_data(high_data)
    file_refs = salt.client.ssh.state.lowstate_file_refs(
        chunks,
        salt.client.ssh.wrapper.state._merge_extra_filerefs(
            kwargs.get("extra_filerefs", ""), opts.get("extra_filerefs", "")
        ),
    )

    hash_type = opts["hash_type"]
    return _create_and_execute_salt_state(
        chunks, file_refs, test, hash_type, activate_transaction
    )