diff --git a/swh/web/common/origin_save.py b/swh/web/common/origin_save.py
index 3749d134..6696427b 100644
--- a/swh/web/common/origin_save.py
+++ b/swh/web/common/origin_save.py
@@ -1,935 +1,939 @@
# Copyright (C) 2018-2021 The Software Heritage developers
# See the AUTHORS file at the top-level directory of this distribution
# License: GNU Affero General Public License version 3, or any later version
# See top-level LICENSE file for more information
from bisect import bisect_right
from datetime import datetime, timedelta, timezone
from functools import lru_cache
from itertools import product
import json
import logging
from typing import Any, Dict, List, Optional, Tuple
from prometheus_client import Gauge
import requests
import sentry_sdk
from django.core.exceptions import ObjectDoesNotExist, ValidationError
from django.core.validators import URLValidator
from django.db.models import Q, QuerySet
from django.utils.html import escape
from swh.scheduler.utils import create_oneshot_task_dict
from swh.web.common import archive
from swh.web.common.exc import BadInputExc, ForbiddenExc, NotFoundExc
from swh.web.common.models import (
SAVE_REQUEST_ACCEPTED,
SAVE_REQUEST_PENDING,
SAVE_REQUEST_REJECTED,
SAVE_TASK_FAILED,
SAVE_TASK_NOT_CREATED,
SAVE_TASK_NOT_YET_SCHEDULED,
SAVE_TASK_RUNNING,
SAVE_TASK_SCHEDULED,
SAVE_TASK_SUCCEEDED,
VISIT_STATUS_CREATED,
VISIT_STATUS_ONGOING,
SaveAuthorizedOrigin,
SaveOriginRequest,
SaveUnauthorizedOrigin,
)
from swh.web.common.origin_visits import get_origin_visits
from swh.web.common.typing import (
OriginExistenceCheckInfo,
OriginInfo,
SaveOriginRequestInfo,
)
from swh.web.common.utils import SWH_WEB_METRICS_REGISTRY, parse_iso8601_date_to_utc
from swh.web.config import get_config, scheduler
logger = logging.getLogger(__name__)
# Number of days in the past to lookup for information
MAX_THRESHOLD_DAYS = 30
# Non terminal visit statuses which needs updates
NON_TERMINAL_STATUSES = [
VISIT_STATUS_CREATED,
VISIT_STATUS_ONGOING,
]
def get_origin_save_authorized_urls() -> List[str]:
"""
Get the list of origin url prefixes authorized to be
immediately loaded into the archive (whitelist).
Returns:
list: The list of authorized origin url prefix
"""
return [origin.url for origin in SaveAuthorizedOrigin.objects.all()]
def get_origin_save_unauthorized_urls() -> List[str]:
"""
Get the list of origin url prefixes forbidden to be
loaded into the archive (blacklist).
Returns:
list: the list of unauthorized origin url prefix
"""
return [origin.url for origin in SaveUnauthorizedOrigin.objects.all()]
def can_save_origin(origin_url: str, bypass_pending_review: bool = False) -> str:
"""
Check if a software origin can be saved into the archive.
Based on the origin url, the save request will be either:
* immediately accepted if the url is whitelisted
* rejected if the url is blacklisted
* put in pending state for manual review otherwise
Args:
origin_url (str): the software origin url to check
Returns:
str: the origin save request status, either **accepted**,
**rejected** or **pending**
"""
# origin url may be blacklisted
for url_prefix in get_origin_save_unauthorized_urls():
if origin_url.startswith(url_prefix):
return SAVE_REQUEST_REJECTED
# if the origin url is in the white list, it can be immediately saved
for url_prefix in get_origin_save_authorized_urls():
if origin_url.startswith(url_prefix):
return SAVE_REQUEST_ACCEPTED
# otherwise, the origin url needs to be manually verified if the user
# that submitted it does not have special permission
if bypass_pending_review:
# mark the origin URL as trusted in that case
SaveAuthorizedOrigin.objects.get_or_create(url=origin_url)
return SAVE_REQUEST_ACCEPTED
else:
return SAVE_REQUEST_PENDING
# map visit type to scheduler task
# TODO: do not hardcode the task name here (T1157)
_visit_type_task = {
"git": "load-git",
"hg": "load-hg",
"svn": "load-svn",
"cvs": "load-cvs",
}
_visit_type_task_privileged = {
"archives": "load-archive-files",
}
# map scheduler task status to origin save status
_save_task_status = {
"next_run_not_scheduled": SAVE_TASK_NOT_YET_SCHEDULED,
"next_run_scheduled": SAVE_TASK_SCHEDULED,
"completed": SAVE_TASK_SUCCEEDED,
"disabled": SAVE_TASK_FAILED,
}
# map scheduler task_run status to origin save status
_save_task_run_status = {
"scheduled": SAVE_TASK_SCHEDULED,
"started": SAVE_TASK_RUNNING,
"eventful": SAVE_TASK_SUCCEEDED,
"uneventful": SAVE_TASK_SUCCEEDED,
"failed": SAVE_TASK_FAILED,
"permfailed": SAVE_TASK_FAILED,
"lost": SAVE_TASK_FAILED,
}
@lru_cache()
def get_scheduler_load_task_types() -> List[str]:
task_types = scheduler().get_task_types()
return [t["type"] for t in task_types if t["type"].startswith("load")]
def get_savable_visit_types_dict(privileged_user: bool = False) -> Dict:
"""Returned the supported task types the user has access to.
Args:
privileged_user: Flag to determine if all visit types should be returned or not.
Default to False to only list unprivileged visit types.
Returns:
the dict of supported visit types for the user
"""
if privileged_user:
task_types = {**_visit_type_task, **_visit_type_task_privileged}
else:
task_types = _visit_type_task
# filter visit types according to scheduler load task types if available
try:
load_task_types = get_scheduler_load_task_types()
return {k: v for k, v in task_types.items() if v in load_task_types}
except Exception:
return task_types
def get_savable_visit_types(privileged_user: bool = False) -> List[str]:
"""Return the list of visit types the user can perform save requests on.
Args:
privileged_user: Flag to determine if all visit types should be returned or not.
Default to False to only list unprivileged visit types.
Returns:
the list of saveable visit types
"""
return sorted(list(get_savable_visit_types_dict(privileged_user).keys()))
def _check_visit_type_savable(visit_type: str, privileged_user: bool = False) -> None:
visit_type_tasks = get_savable_visit_types(privileged_user)
if visit_type not in visit_type_tasks:
allowed_visit_types = ", ".join(visit_type_tasks)
raise BadInputExc(
f"Visit of type {visit_type} can not be saved! "
f"Allowed types are the following: {allowed_visit_types}"
)
_validate_url = URLValidator(
schemes=["http", "https", "svn", "git", "rsync", "pserver", "ssh"]
)
def _check_origin_url_valid(origin_url: str) -> None:
try:
_validate_url(origin_url)
except ValidationError:
raise BadInputExc(
"The provided origin url (%s) is not valid!" % escape(origin_url)
)
def origin_exists(origin_url: str) -> OriginExistenceCheckInfo:
"""Check the origin url for existence. If it exists, extract some more useful
information on the origin.
"""
resp = requests.head(origin_url, allow_redirects=True)
exists = resp.ok
content_length: Optional[int] = None
last_modified: Optional[str] = None
if exists:
# Also process X-Archive-Orig-* headers in case the URL targets the
# Internet Archive.
size_ = resp.headers.get(
"Content-Length", resp.headers.get("X-Archive-Orig-Content-Length")
)
content_length = int(size_) if size_ else None
try:
date_str = resp.headers.get(
"Last-Modified", resp.headers.get("X-Archive-Orig-Last-Modified", "")
)
date = datetime.strptime(date_str, "%a, %d %b %Y %H:%M:%S %Z")
last_modified = date.isoformat()
except ValueError:
# if not provided or not parsable as per the expected format, keep it None
pass
return OriginExistenceCheckInfo(
origin_url=origin_url,
exists=exists,
last_modified=last_modified,
content_length=content_length,
)
def _check_origin_exists(url: str) -> OriginExistenceCheckInfo:
"""Ensure an URL exists, if not raise an explicit message."""
metadata = origin_exists(url)
if not metadata["exists"]:
raise BadInputExc(f"The provided url ({escape(url)}) does not exist!")
return metadata
def _get_visit_info_for_save_request(
save_request: SaveOriginRequest,
) -> Tuple[Optional[datetime], Optional[str]]:
"""Retrieve visit information out of a save request
Args:
save_request: Input save origin request to retrieve information for.
Returns:
Tuple of (visit date, optional visit status) for such save request origin
"""
visit_date = None
visit_status = None
time_now = datetime.now(tz=timezone.utc)
time_delta = time_now - save_request.request_date
# stop trying to find a visit date one month after save request submission
# as those requests to storage are expensive and associated loading task
# surely ended up with errors
if time_delta.days <= MAX_THRESHOLD_DAYS:
try:
origin_info = archive.lookup_origin(OriginInfo(url=save_request.origin_url))
origin_visits = get_origin_visits(origin_info)
visit_dates = [parse_iso8601_date_to_utc(v["date"]) for v in origin_visits]
i = bisect_right(visit_dates, save_request.request_date)
if i != len(visit_dates):
visit_date = visit_dates[i]
visit_status = origin_visits[i]["status"]
except Exception as exc:
sentry_sdk.capture_exception(exc)
return visit_date, visit_status
def _check_visit_update_status(
save_request: SaveOriginRequest,
) -> Tuple[Optional[datetime], Optional[str], Optional[str]]:
"""Given a save request, determine whether a save request was successful or failed.
Args:
save_request: Input save origin request to retrieve information for.
Returns:
Tuple of (optional visit date, optional visit status, optional save task status)
for such save request origin
"""
visit_date, visit_status = _get_visit_info_for_save_request(save_request)
loading_task_status = None
if visit_date and visit_status in ("full", "partial"):
# visit has been performed, mark the saving task as succeeded
loading_task_status = SAVE_TASK_SUCCEEDED
elif visit_status in ("created", "ongoing"):
# visit is currently running
loading_task_status = SAVE_TASK_RUNNING
elif visit_status in ("not_found", "failed"):
loading_task_status = SAVE_TASK_FAILED
else:
time_now = datetime.now(tz=timezone.utc)
time_delta = time_now - save_request.request_date
# consider the task as failed if it is still in scheduled state
# 30 days after its submission
if time_delta.days > MAX_THRESHOLD_DAYS:
loading_task_status = SAVE_TASK_FAILED
return visit_date, visit_status, loading_task_status
def _compute_task_loading_status(
task: Optional[Dict[str, Any]] = None, task_run: Optional[Dict[str, Any]] = None,
) -> Optional[str]:
loading_task_status: Optional[str] = None
# First determine the loading task status out of task information
if task:
loading_task_status = _save_task_status[task["status"]]
if task_run:
loading_task_status = _save_task_run_status[task_run["status"]]
return loading_task_status
def _update_save_request_info(
save_request: SaveOriginRequest,
task: Optional[Dict[str, Any]] = None,
task_run: Optional[Dict[str, Any]] = None,
) -> SaveOriginRequestInfo:
"""Update save request information out of the visit status and fallback to the task and
task_run information if the visit status is missing.
Args:
save_request: Save request
task: Associated scheduler task information about the save request
task_run: Most recent run occurrence of the associated task
Returns:
Summary of the save request information updated.
"""
must_save = False
# To determine the save code now request's final status, the visit date must be set
# and the visit status must be a final one. Once they do, the save code now is
# definitely done.
if (
not save_request.visit_date
or not save_request.visit_status
or save_request.visit_status in NON_TERMINAL_STATUSES
):
visit_date, visit_status, loading_task_status = _check_visit_update_status(
save_request
)
if not loading_task_status: # fallback when not provided
loading_task_status = _compute_task_loading_status(task, task_run)
if visit_date != save_request.visit_date:
must_save = True
save_request.visit_date = visit_date
if visit_status != save_request.visit_status:
must_save = True
save_request.visit_status = visit_status
if (
loading_task_status is not None
and loading_task_status != save_request.loading_task_status
):
must_save = True
save_request.loading_task_status = loading_task_status
if must_save:
save_request.save()
return save_request.to_dict()
def create_save_origin_request(
visit_type: str,
origin_url: str,
privileged_user: bool = False,
user_id: Optional[int] = None,
**kwargs,
) -> SaveOriginRequestInfo:
"""Create a loading task to save a software origin into the archive.
This function aims to create a software origin loading task trough the use of the
swh-scheduler component.
First, some checks are performed to see if the visit type and origin url are valid
but also if the the save request can be accepted. For the 'archives' visit type,
this also ensures the artifacts actually exists. If those checks passed, the loading
task is then created. Otherwise, the save request is put in pending or rejected
state.
All the submitted save requests are logged into the swh-web database to keep track
of them.
Args:
visit_type: the type of visit to perform (e.g. git, hg, svn, archives, ...)
origin_url: the url of the origin to save
privileged: Whether the user has some more privilege than other (bypass
review, access to privileged other visit types)
user_id: User identifier (provided when authenticated)
kwargs: Optional parameters (e.g. artifact_url, artifact_filename,
artifact_version)
Raises:
BadInputExc: the visit type or origin url is invalid or inexistent
ForbiddenExc: the provided origin url is blacklisted
Returns:
dict: A dict describing the save request with the following keys:
* **visit_type**: the type of visit to perform
* **origin_url**: the url of the origin
* **save_request_date**: the date the request was submitted
* **save_request_status**: the request status, either **accepted**,
**rejected** or **pending**
* **save_task_status**: the origin loading task status, either
**not created**, **not yet scheduled**, **scheduled**,
**succeed** or **failed**
"""
visit_type_tasks = get_savable_visit_types_dict(privileged_user)
_check_visit_type_savable(visit_type, privileged_user)
_check_origin_url_valid(origin_url)
# if all checks passed so far, we can try and save the origin
save_request_status = can_save_origin(origin_url, privileged_user)
task = None
# if the origin save request is accepted, create a scheduler
# task to load it into the archive
if save_request_status == SAVE_REQUEST_ACCEPTED:
# create a task with high priority
task_kwargs: Dict[str, Any] = {
"priority": "high",
"url": origin_url,
}
if visit_type == "archives":
# extra arguments for that type are required
archives_data = kwargs.get("archives_data", [])
if not archives_data:
raise BadInputExc(
"Artifacts data are missing for the archives visit type."
)
artifacts = []
for artifact in archives_data:
artifact_url = artifact.get("artifact_url")
artifact_version = artifact.get("artifact_version")
if not artifact_url or not artifact_version:
raise BadInputExc("Missing url or version for an artifact to load.")
metadata = _check_origin_exists(artifact_url)
artifacts.append(
{
"url": artifact_url,
"version": artifact_version,
"time": metadata["last_modified"],
"length": metadata["content_length"],
}
)
task_kwargs = dict(**task_kwargs, artifacts=artifacts, snapshot_append=True)
sor = None
# get list of previously submitted save requests (most recent first)
current_sors = list(
SaveOriginRequest.objects.filter(
visit_type=visit_type, origin_url=origin_url
).order_by("-request_date")
)
can_create_task = False
# if no save requests previously submitted, create the scheduler task
if not current_sors:
can_create_task = True
else:
# get the latest submitted save request
sor = current_sors[0]
# if it was in pending state, we need to create the scheduler task
# and update the save request info in the database
if sor.status == SAVE_REQUEST_PENDING:
can_create_task = True
# a task has already been created to load the origin
elif sor.loading_task_id != -1:
# get the scheduler task and its status
tasks = scheduler().get_tasks([sor.loading_task_id])
task = tasks[0] if tasks else None
task_runs = scheduler().get_task_runs([sor.loading_task_id])
task_run = task_runs[0] if task_runs else None
save_request_info = _update_save_request_info(sor, task, task_run)
task_status = save_request_info["save_task_status"]
# create a new scheduler task only if the previous one has been
# already executed
if (
task_status == SAVE_TASK_FAILED
or task_status == SAVE_TASK_SUCCEEDED
):
can_create_task = True
sor = None
else:
can_create_task = False
if can_create_task:
# effectively create the scheduler task
task_dict = create_oneshot_task_dict(
visit_type_tasks[visit_type], **task_kwargs
)
task = scheduler().create_tasks([task_dict])[0]
# pending save request has been accepted
if sor:
sor.status = SAVE_REQUEST_ACCEPTED
sor.loading_task_id = task["id"]
sor.save()
else:
sor = SaveOriginRequest.objects.create(
visit_type=visit_type,
origin_url=origin_url,
status=save_request_status,
loading_task_id=task["id"],
user_ids=f'"{user_id}"' if user_id else None,
)
# save request must be manually reviewed for acceptation
elif save_request_status == SAVE_REQUEST_PENDING:
# check if there is already such a save request already submitted,
# no need to add it to the database in that case
try:
sor = SaveOriginRequest.objects.get(
visit_type=visit_type, origin_url=origin_url, status=save_request_status
)
user_ids = sor.user_ids if sor.user_ids is not None else ""
if user_id is not None and f'"{user_id}"' not in user_ids:
# update user ids list
sor.user_ids = f'{sor.user_ids},"{user_id}"'
sor.save()
# if not add it to the database
except ObjectDoesNotExist:
sor = SaveOriginRequest.objects.create(
visit_type=visit_type,
origin_url=origin_url,
status=save_request_status,
user_ids=f'"{user_id}"' if user_id else None,
)
# origin can not be saved as its url is blacklisted,
# log the request to the database anyway
else:
sor = SaveOriginRequest.objects.create(
visit_type=visit_type,
origin_url=origin_url,
status=save_request_status,
user_ids=f'"{user_id}"' if user_id else None,
)
if save_request_status == SAVE_REQUEST_REJECTED:
raise ForbiddenExc(
(
'The "save code now" request has been rejected '
"because the provided origin url is blacklisted."
)
)
assert sor is not None
return _update_save_request_info(sor, task)
def update_save_origin_requests_from_queryset(
requests_queryset: QuerySet,
) -> List[SaveOriginRequestInfo]:
"""Update all save requests from a SaveOriginRequest queryset, update their status in db
and return the list of impacted save_requests.
Args:
requests_queryset: input SaveOriginRequest queryset
Returns:
list: A list of save origin request info dicts as described in
:func:`swh.web.common.origin_save.create_save_origin_request`
"""
task_ids = []
for sor in requests_queryset:
task_ids.append(sor.loading_task_id)
save_requests = []
if task_ids:
try:
tasks = scheduler().get_tasks(task_ids)
tasks = {task["id"]: task for task in tasks}
task_runs = scheduler().get_task_runs(tasks)
task_runs = {task_run["task"]: task_run for task_run in task_runs}
except Exception:
# allow to avoid mocking api GET responses for /origin/save endpoint when
# running cypress tests as scheduler is not available
tasks = {}
task_runs = {}
for sor in requests_queryset:
sr_dict = _update_save_request_info(
sor, tasks.get(sor.loading_task_id), task_runs.get(sor.loading_task_id),
)
save_requests.append(sr_dict)
return save_requests
def refresh_save_origin_request_statuses() -> List[SaveOriginRequestInfo]:
"""Refresh non-terminal save origin requests (SOR) in the backend.
Non-terminal SOR are requests whose status is **accepted** and their task status are
either **created**, **not yet scheduled**, **scheduled** or **running**.
This shall compute this list of SOR, checks their status in the scheduler and
optionally elasticsearch for their current status. Then update those in db.
Finally, this returns the refreshed information on those SOR.
"""
pivot_date = datetime.now(tz=timezone.utc) - timedelta(days=MAX_THRESHOLD_DAYS)
save_requests = SaveOriginRequest.objects.filter(
# Retrieve accepted request statuses (all statuses)
Q(status=SAVE_REQUEST_ACCEPTED),
# those without the required information we need to update
Q(visit_date__isnull=True)
| Q(visit_status__isnull=True)
| Q(visit_status__in=NON_TERMINAL_STATUSES),
# limit results to recent ones (that is roughly 30 days old at best)
Q(request_date__gte=pivot_date),
)
return (
update_save_origin_requests_from_queryset(save_requests)
if save_requests.count() > 0
else []
)
def get_save_origin_requests(
visit_type: str, origin_url: str
) -> List[SaveOriginRequestInfo]:
"""
Get all save requests for a given software origin.
Args:
visit_type: the type of visit
origin_url: the url of the origin
Raises:
BadInputExc: the visit type or origin url is invalid
swh.web.common.exc.NotFoundExc: no save requests can be found for the
given origin
Returns:
list: A list of save origin requests dict as described in
:func:`swh.web.common.origin_save.create_save_origin_request`
"""
_check_visit_type_savable(visit_type)
_check_origin_url_valid(origin_url)
sors = SaveOriginRequest.objects.filter(
visit_type=visit_type, origin_url=origin_url
)
if sors.count() == 0:
raise NotFoundExc(
f"No save requests found for visit of type {visit_type} "
f"on origin with url {origin_url}."
)
return update_save_origin_requests_from_queryset(sors)
def get_save_origin_task_info(
save_request_id: int, full_info: bool = True
) -> Dict[str, Any]:
"""
Get detailed information about an accepted save origin request
and its associated loading task.
If the associated loading task info is archived and removed
from the scheduler database, returns an empty dictionary.
Args:
save_request_id: identifier of a save origin request
full_info: whether to return detailed info for staff users
Returns:
A dictionary with the following keys:
- **type**: loading task type
- **arguments**: loading task arguments
- **id**: loading task database identifier
- **backend_id**: loading task celery identifier
- **scheduled**: loading task scheduling date
- **ended**: loading task termination date
- **status**: loading task execution status
- **visit_status**: Actual visit status
Depending on the availability of the task logs in the elasticsearch
cluster of Software Heritage, the returned dictionary may also
contain the following keys:
- **name**: associated celery task name
- **message**: relevant log message from task execution
- **duration**: task execution time (only if it succeeded)
- **worker**: name of the worker that executed the task
"""
try:
save_request = SaveOriginRequest.objects.get(id=save_request_id)
except ObjectDoesNotExist:
return {}
task_info: Dict[str, Any] = {}
if save_request.note is not None:
task_info["note"] = save_request.note
try:
task = scheduler().get_tasks([save_request.loading_task_id])
except Exception:
# to avoid mocking GET responses of /save/task/info/ endpoint when running
# cypress tests as scheduler is not available in that case
task = None
task = task[0] if task else None
if task is None:
return task_info
task_run = scheduler().get_task_runs([task["id"]])
task_run = task_run[0] if task_run else None
if task_run is None:
return task_info
task_info.update(task_run)
task_info["type"] = task["type"]
task_info["arguments"] = task["arguments"]
task_info["id"] = task_run["task"]
del task_info["task"]
del task_info["metadata"]
# Enrich the task info with the loading visit status
task_info["visit_status"] = save_request.visit_status
es_workers_index_url = get_config()["es_workers_index_url"]
if not es_workers_index_url:
return task_info
es_workers_index_url += "/_search"
if save_request.visit_date:
min_ts = save_request.visit_date
max_ts = min_ts + timedelta(days=7)
else:
min_ts = save_request.request_date
max_ts = min_ts + timedelta(days=MAX_THRESHOLD_DAYS)
min_ts_unix = int(min_ts.timestamp()) * 1000
max_ts_unix = int(max_ts.timestamp()) * 1000
save_task_status = _save_task_status[task["status"]]
priority = "3" if save_task_status == SAVE_TASK_FAILED else "6"
query = {
"bool": {
"must": [
- {"match_phrase": {"priority": {"query": priority}}},
- {"match_phrase": {"swh_task_id": {"query": task_run["backend_id"]}}},
+ {"match_phrase": {"syslog.priority": {"query": priority}}},
+ {
+ "match_phrase": {
+ "journald.custom.swh_task_id": {"query": task_run["backend_id"]}
+ }
+ },
{
"range": {
"@timestamp": {
"gte": min_ts_unix,
"lte": max_ts_unix,
"format": "epoch_millis",
}
}
},
]
}
}
try:
response = requests.post(
es_workers_index_url,
json={"query": query, "sort": ["@timestamp"]},
timeout=30,
)
results = json.loads(response.text)
if results["hits"]["total"]["value"] >= 1:
task_run_info = results["hits"]["hits"][-1]["_source"]
if "swh_logging_args_runtime" in task_run_info:
duration = task_run_info["swh_logging_args_runtime"]
task_info["duration"] = duration
if "message" in task_run_info:
task_info["message"] = task_run_info["message"]
if "swh_logging_args_name" in task_run_info:
task_info["name"] = task_run_info["swh_logging_args_name"]
elif "swh_task_name" in task_run_info:
task_info["name"] = task_run_info["swh_task_name"]
if "hostname" in task_run_info:
task_info["worker"] = task_run_info["hostname"]
elif "host" in task_run_info:
task_info["worker"] = task_run_info["host"]
except Exception as exc:
logger.warning("Request to Elasticsearch failed\n%s", exc)
sentry_sdk.capture_exception(exc)
if not full_info:
for field in ("id", "backend_id", "worker"):
# remove some staff only fields
task_info.pop(field, None)
if "message" in task_run and "Loading failure" in task_run["message"]:
# hide traceback for non staff users, only display exception
message_lines = task_info["message"].split("\n")
message = ""
for line in message_lines:
if line.startswith("Traceback"):
break
message += f"{line}\n"
message += message_lines[-1]
task_info["message"] = message
return task_info
SUBMITTED_SAVE_REQUESTS_METRIC = "swh_web_submitted_save_requests"
_submitted_save_requests_gauge = Gauge(
name=SUBMITTED_SAVE_REQUESTS_METRIC,
documentation="Number of submitted origin save requests",
labelnames=["status", "visit_type"],
registry=SWH_WEB_METRICS_REGISTRY,
)
ACCEPTED_SAVE_REQUESTS_METRIC = "swh_web_accepted_save_requests"
_accepted_save_requests_gauge = Gauge(
name=ACCEPTED_SAVE_REQUESTS_METRIC,
documentation="Number of accepted origin save requests",
labelnames=["load_task_status", "visit_type"],
registry=SWH_WEB_METRICS_REGISTRY,
)
# Metric on the delay of save code now request per status and visit_type. This is the
# time difference between the save code now is requested and the time it got ingested.
ACCEPTED_SAVE_REQUESTS_DELAY_METRIC = "swh_web_save_requests_delay_seconds"
_accepted_save_requests_delay_gauge = Gauge(
name=ACCEPTED_SAVE_REQUESTS_DELAY_METRIC,
documentation="Save Requests Duration",
labelnames=["load_task_status", "visit_type"],
registry=SWH_WEB_METRICS_REGISTRY,
)
def compute_save_requests_metrics() -> None:
"""Compute Prometheus metrics related to origin save requests:
- Number of submitted origin save requests
- Number of accepted origin save requests
- Save Code Now requests delay between request time and actual time of ingestion
"""
request_statuses = (
SAVE_REQUEST_ACCEPTED,
SAVE_REQUEST_REJECTED,
SAVE_REQUEST_PENDING,
)
load_task_statuses = (
SAVE_TASK_NOT_CREATED,
SAVE_TASK_NOT_YET_SCHEDULED,
SAVE_TASK_SCHEDULED,
SAVE_TASK_SUCCEEDED,
SAVE_TASK_FAILED,
SAVE_TASK_RUNNING,
)
# for metrics, we want access to all visit types
visit_types = get_savable_visit_types(privileged_user=True)
labels_set = product(request_statuses, visit_types)
for labels in labels_set:
_submitted_save_requests_gauge.labels(*labels).set(0)
labels_set = product(load_task_statuses, visit_types)
for labels in labels_set:
_accepted_save_requests_gauge.labels(*labels).set(0)
duration_load_task_statuses = (
SAVE_TASK_FAILED,
SAVE_TASK_SUCCEEDED,
)
for labels in product(duration_load_task_statuses, visit_types):
_accepted_save_requests_delay_gauge.labels(*labels).set(0)
for sor in SaveOriginRequest.objects.all():
if sor.status == SAVE_REQUEST_ACCEPTED:
_accepted_save_requests_gauge.labels(
load_task_status=sor.loading_task_status, visit_type=sor.visit_type,
).inc()
_submitted_save_requests_gauge.labels(
status=sor.status, visit_type=sor.visit_type
).inc()
if (
sor.loading_task_status in (SAVE_TASK_SUCCEEDED, SAVE_TASK_FAILED)
and sor.visit_date is not None
and sor.request_date is not None
):
delay = sor.visit_date.timestamp() - sor.request_date.timestamp()
_accepted_save_requests_delay_gauge.labels(
load_task_status=sor.loading_task_status, visit_type=sor.visit_type,
).inc(delay)