# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.

from __future__ import absolute_import, print_function, unicode_literals

import concurrent.futures as futures
import requests
import requests.adapters
import json
import os
import sys
import logging

from slugid import nice as slugid
from taskgraph.util.parameterization import resolve_timestamps
from taskgraph.util.time import current_json_time

logger = logging.getLogger(__name__)

# the maximum number of parallel createTask calls to make
CONCURRENCY = 50

# this is set to true for `mach taskgraph action-callback --test`
testing = False


def create_tasks(taskgraph, label_to_taskid, params, decision_task_id=None):
    taskid_to_label = {t: l for l, t in label_to_taskid.iteritems()}

    session = requests.Session()

    # Default HTTPAdapter uses 10 connections. Mount custom adapter to increase
    # that limit. Connections are established as needed, so using a large value
    # should not negatively impact performance.
    http_adapter = requests.adapters.HTTPAdapter(pool_connections=CONCURRENCY,
                                                 pool_maxsize=CONCURRENCY)
    session.mount('https://', http_adapter)
    session.mount('http://', http_adapter)

    decision_task_id = decision_task_id or os.environ.get('TASK_ID')

    # when running as an actual decision task, we use the decision task's
    # taskId as the taskGroupId.  The process that created the decision task
    # helpfully placed it in this same taskGroup.  If there is no $TASK_ID,
    # fall back to a slugid
    task_group_id = decision_task_id or slugid()
    scheduler_id = 'gecko-level-{}'.format(params['level'])

    # Add the taskGroupId, schedulerId and optionally the decision task
    # dependency
    for task_id in taskgraph.graph.nodes:
        task_def = taskgraph.tasks[task_id].task

        # if this task has no dependencies *within* this taskgraph, make it
        # depend on this decision task. If it has another dependency within
        # the taskgraph, then it already implicitly depends on the decision
        # task.  The result is that tasks do not start immediately. if this
        # loop fails halfway through, none of the already-created tasks run.
        if decision_task_id:
            if not any(t in taskgraph.tasks for t in task_def.get('dependencies', [])):
                task_def.setdefault('dependencies', []).append(decision_task_id)

        task_def['taskGroupId'] = task_group_id
        task_def['schedulerId'] = scheduler_id

    with futures.ThreadPoolExecutor(CONCURRENCY) as e:
        fs = {}

        # We can't submit a task until its dependencies have been submitted.
        # So our strategy is to walk the graph and submit tasks once all
        # their dependencies have been submitted.
        tasklist = set(taskgraph.graph.visit_postorder())
        alltasks = tasklist.copy()

        def schedule_tasks(f=None):
            to_remove = set()
            for task_id in tasklist:
                task_def = taskgraph.tasks[task_id].task
                # If we haven't finished submitting all our dependencies yet,
                # come back to this later.
                # Some dependencies aren't in our graph, so make sure to filter
                # those out
                deps = set(task_def.get('dependencies', [])) & alltasks
                if any((d not in fs or not fs[d].done()) for d in deps):
                    continue

                fs[task_id] = e.submit(create_task, session, task_id,
                                       taskid_to_label[task_id], task_def)
                to_remove.add(task_id)

                # Schedule tasks as many times as task_duplicates indicates
                attributes = taskgraph.tasks[task_id].attributes
                for i in range(1, attributes.get('task_duplicates', 1)):
                    # We use slugid() since we want a distinct task id
                    fs[task_id] = e.submit(create_task, session, slugid(),
                                           taskid_to_label[task_id], task_def)
            tasklist.difference_update(to_remove)

        schedule_tasks()
        while tasklist:
            for f in futures.as_completed(fs.values()):
                f.result()
            schedule_tasks()


def create_task(session, task_id, label, task_def):
    # create the task using 'http://taskcluster/queue', which is proxied to the queue service
    # with credentials appropriate to this job.

    # Resolve timestamps
    now = current_json_time(datetime_format=True)
    task_def = resolve_timestamps(now, task_def)

    if testing:
        json.dump([task_id, task_def], sys.stdout,
                  sort_keys=True, indent=4, separators=(',', ': '))
        return

    logger.debug("Creating task with taskId {} for {}".format(task_id, label))
    res = session.put('http://taskcluster/queue/v1/task/{}'.format(task_id),
                      data=json.dumps(task_def))
    if res.status_code != 200:
        try:
            logger.error(res.json()['message'])
        except:
            logger.error(res.text)
        res.raise_for_status()